Equipments

Solution to the problem of discoloration in carton printing

When we use ink printing machines, we often meet the situation of color change. The following are the solutions to prevent the color change 1. First of all, we should check if the printing plate design is reasonable, such as the large amount of ink pattern in the drag position, this is certainly not conducive to our printing high quality printing products, we should put them in the mouth position, which is conducive to hunting control teeth on paper, easier to print printing color, after doing this print we may be able to solve the problem of discoloration, can not be resolved, if after these efforts,the color still change, inform the maintenance company, to solve the problem quickly. 2. if none of these crystalline substaafter we excluded the design problem, we should check whether there is a problem of ink system, check the ink system we can use a very simple method, first we use the water to clean the ink system, and check if there is white rime, if we have found the existence of such substances, so the discoloration may be by crystalline material, this make the local color change normally.we restart the printing machine, ink to each roller, then we close on version roller and the version of the water roller, check whether the pressure reaches the standard, if not, it recommend that all the rollers pressure re adjustment, has reached a better state.

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How to Choose Carton Equipment in Newly Opened Carton Factory

What factors should we consider when opening a small carton factory? How to choose? How to take into account the cost-effectiveness of investment and not waste costs? I. Production Capacity DemandProduction capacity is the output of a factory after its commissioning, which can be specific to each capacity. For example, if the production capacity is less than 10000, it is only necessary to select some semi-automatic carton machinery and equipment. If the production capacity is between 30,000 and 50,000, we need to choose these highly automated carton machine and equipment.II. Investment Capability It is the amount of investment of the former cardboard box factory. The liquidity of the cardboard box factory is very important, especially when the cardboard box is processed from the cardboard. Generally speaking, the purchase of carton machinery accounts for 35% to 45% of the liquidity. The specific speed can be adjusted according to the speed of loan return. III. Industry Classification and Characteristics of Orders The selection of carton equipment varies with the industry classification and characteristics of the order. For example, some small carton factories with monthly production capacity between 10W and 50W have limited investment in the equipment of carton factories, so the selection of carton equipment is particularly important. The order of carton factory is simple in structure, large in quantity and stable in carton factory. It is better to choose one machine (printing slotting die-cutting machine). If the order is scattered, we can choose some separate independent machines (carton printing machine, paper splitter, nail box machine, slotting angle cutting machine). Some carton friends think that second-hand carton equipment is cheap. They think that the previous investment in carton machinery and equipment is not very important, resulting in quality problems at both ends of the carton equipment bought in the later period of three days. After that, they have to stop the machine for maintenance. They spend a lot of time on the maintenance of carton equipment.

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Pay Attention to the Problems in Choosing Carton Packaging Machinery for Carton Enterprises

The fierce competition in carton packaging industry makes the profits of carton enterprises less and less. Increasing production efficiency and reducing wastage and waste in the production process are very worthy of study for carton enterprises. Improving the automation of equipment is an effective way to improve production efficiency. Therefore, enterprises are willing to invest heavily in introducing advanced production lines and purchasing new equipment. But we can see that in many enterprises, the utilization rate of equipment is very low, and the newly purchased equipment often can not meet the requirements of technology or production technology, and even some equipment is idle, causing huge waste to the economic production of enterprises. On how to choose and purchase carton equipment to avoid the above situation, we talk about our own views, hope to be able to exchange and discuss with colleagues.Matters needing attention before purchasing1. Before purchasing carton equipment, relevant departments of enterprises should communicate with each other and reach consensus.Enterprises should jointly determine the basic types and specifications of equipment according to their actual production needs and the configuration of the original production equipment, determine the procurement department and related personnel of equipment, equipment installation, commissioning, acceptance and acceptance department and related personnel and responsibilities. The equipment purchasing department collects and collates the information of equipment manufacturers, main structure characteristics, technical parameters, function introduction of each part of equipment, price and so on, according to the basic conditions of the determined models and specifications. Detailed and conscientious preparation of equipment selection survey report, the various aspects of equipment manufacturers horizontal and vertical comparison, to select the final manufacturer.2. Pay attention to the technical evaluation of equipment.The first step in selecting and evaluating equipment is often to conduct a careful use or technical inspection to determine whether the equipment is technically feasible. In evaluating the technical specifications of an equipment, the following factors should be carefully examined:1. Production capacity. When choosing an equipment, its production capacity should be able to meet the requirements of the current production situation and be competent in the foreseeable future. Excessive or inadequate use of equipment production capacity is not advisable. It is no doubt unwise to buy an equipment that will soon fail to meet the requirements of the production process. Similarly, it is an unforgivable loss to purchase an equipment with a high production capacity that has never been needed, especially when the price of the equipment is more expensive. Therefore, when choosing equipment, we should objectively evaluate the performance, production efficiency and production capacity of the equipment to be purchased from the specific production technology level and production development prospects, so that the production capacity of the equipment can be fully and reasonably used.2. Reliability. The so-called reliability refers to the enduring ability of the equipment to complete the prescribed functions under the prescribed conditions and within the prescribed time. Nobody wants to buy an old malfunctioning equipment, because it will not only cause losses, but also delay the delivery time, especially in today's increasingly shorter product delivery time and fiercer market competition. Therefore, the purchase of a safe and reliable equipment is an important factor for inspection.3. Maintainability. The so-called maintainability means that the equipment is easy to maintain. Although there are many equipment that need not be repaired now, for the vast majority of the equipment, failure is always unavoidable. Therefore, when choosing equipment, maintainability should be an important evaluation factor. When other factors are basically the same, no doubt the equipment with structure, easy inspection, maintenance and repair should be selected.4. Universality. Where possible, the newly purchased equipment and the existing equipment of the enterprise should be mutually versatile in terms of spare parts supply, maintenance and operation, in order to save personnel training, personnel training costs and auxiliary equipment procurement costs.5. Safety. Although there are few unsafe equipment sold in today's market, the safety of equipment is very important to the production of enterprises and the safety of personnel, so we should carefully evaluate the selection of carton equipment.6. Complementarity. In today's increasingly complex and sophisticated equipment, many equipment can only play a full role with the assistance of complete auxiliary equipment. Therefore, when choosing the main equipment, the matching situation and utilization rate of auxiliary equipment are often taken into account as the decisive factor. Especially for the increasingly widely used CNC equipment, if there is no matching "auxiliary equipment", the role of these equipment is very difficult to play.7. Operational. The increasing complexity and precision of equipment does not mean that the operation is becoming more and more complex. Excessively complex equipment will increase the training cost and cause operator fatigue and error, so simple equipment should be selected.8. Easy to install. This is often overlooked. Before purchasing the equipment, the installation site of the equipment should be inspected. For some large-scale equipment, transport routes should be inspected in order to select suitable equipment which is easy to transport and install.9. Environmental protection. The environmental protection of equipment includes two meanings: one is to reduce the loss of raw materials, the other is to save energy consumption. Environmental protection is not only the need to reduce product costs, but also an important chip for enterprises to participate in international competition.

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How to address poor gluing（Adhesion difference between drive side and operational side）

The eighth problem is the adhesion difference between work side and driving side.Imagine this is a cardboard, this is the flute direction, and this is flute.and this is the width direction.The so-called work side, which is the place where the operator is.While the driving side is on the opposite, where the electrical machine usually being placed.The both sides will produce adhesion difference, which means this side is in good bonding, while the other side is not. This is quite common in the actual operation.And how this phenomenon happened? In fact, it is mainly due to the lifting structure, which causes the pressure goes different on the both sides.The drying plate of the double facer includes a lifting structure.Earlier, we just had a closer look at the double facer and the pressure shoe, which is flat.It can be seen that this end and this end are linked by a pressure system.The pressure system on both ends may be varied, and that will cause poor adhesion.OK, let’s look at this picture. This is loading roll, which is pressing the board.In fact, the pressure at this end is different from the other side, which is why cause poor adhesion on both ends. That’s all for the chapter one, thanks for your watching!

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How to address poor gluing（The edge of high bursting strength single wall deguling）

The seventh problem is usually being occurred in producing high bursting strength paper.That is ,when we are producing high bursting strength paper, it can be noticed that the paper edge is easily to decoating.Imagine this is a cardboard, and this is the flute direction, this is the flute. We can see that this edge is easy to decoating.In particular when producing high gram board, why it is happened?Because this edge is very easy to get overheated when passing drying unit. When we heat it in advance, the glue on this edge will be in gelatinization earlier.If gelatinization happens earlier, the glue will become solid before the papers get bonding, resulting in degluing.Therefore, board in high bursting strength needs to be adjusted during the production. The temperature should be adjusted when the bonding point of single wall is passing through the drying unit. And different glue formula should be used in this regard.How to understand using different glue formula? This is a single wall board.The first layer is the inner liner to be bonded with the flute. The second is the liner to be bonded with the flute. The heating absorption in these two papers is different.It can be seen that the bonding between inner liner and the flute is on the corrugating roll, which the heating transfer is very fast.While the heating on the liner and flute is in the drying unit, which is slow relatively.Therefore, this comparison is not obvious on low gram paper, but is quite clearly on high gram paper. It is necessary to differentiate the gelatinization temperature in liner and inner liner.In this regard, when the paper gets different heat, the paper can be firmly bonded.

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How to address poor gluing（The middle layer of double wall degluing）

The six problem is the middle layer of double wall degluing.First, let me draw a diagram to show you this problem.This the hotplate belt.This is the first-ply, the second-ply, and this is the third-ply, and finally this is the double-wall board. Then how this problem happened?When the double wall passing through the hotplate belt, there are loading roller between the hotplate.Then why the middle layer degluing?Simply because the two loading rollers jump when the medium passing through the hotplate.When the loading roller jump, it will cause the medium second bonding.In this process, we will find that when this point having a second bonding, the glue residue of the first bonding is dried at this point.Therefore, it lost adhesive, that is , it is bonded without gluing the two papers.So basically, it is caused by loading roller jumping. But why the jumping occurred?Basically, it is the shaft bearing goes wrong, as long as we timely check this part, the problem can be solved naturally.

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How to address poor gluing（Glue miss the point）

The fifth situation is that we will see the glue, but the gluing miss the point. In fact, the misalignment means that we let the glue form a secondary bond in the process, that is, the first time When the bonding has not cured and the glue has not yet played a role, we manually pull it apart and let it go for a second time. At this time, because of the two bonding, the previous part of the glue is actually It is cured. At this time, it will also have poor adhesion. Generally, it is caused by two cases. The first case is that much static electricity procuced during liner running in hot plate , resulting in large adsorption, and the corrugated paper follows the belt. The dragging went forward on the top, but the liner lay on the hot plate and dragged the corrugation. At this time, the corrugation and the liner would be misaligned under a frictional situation. Here I draw this picture and give take a look. In fact, our liner is generally below, our hot plate is generally at the bottom, and the steam goes up, while corrugated paper is generally here, of course, there will be a layer of lining on it. Take this single corrugation as an example. If there is a friction force between this liner and the hot plate due to static electricity, at this time there will be a pulling force on the corrugated cardboard under the belt conveyance in the forward direction, and at this time, the liner is out of force on the hot plate Then, the adhesion point will be displaced, and a secondary adhesion will be formed. Because the liner is adsorbed on the hot plate, but what causes the liner will be adsorbed on the hot plate. It will make a sheet of paper easily stick to the hot plate. Of course, the second type may also be the slip of the belt friction. For example, if we see that it slips, is it not enough to release the force? In the case of insufficient debonding force, can it also cause the dislocation of the intersection point, then in this case it will also cause secondary adhesion and dislocation decoating.In fact, there are some different solutions for these two types. For example, for the first type, the surface paper can be sprayed with some antistatic liquid when the hot plate generates a lot of static electricity. Stick some tape on it, because in fact, friction generates static electricity, which is related to the medium. In fact, this medium generates a single electric effect by a single action, which breaks the balance.The second is the slip problem, which can be solved by replacing a conveyor belt. Here are the two ways to figure out such problem.Now we can clearly see the hotplate absorption from the on-site picture instead of the diagram I was drawing.Now, let’s see the next one--canvas belt.In this regard, we can use tachometer to measure the synchronous speed to see if it the belt is slippery.

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How to address poor gluing（Glue is presenting faint yellow mark）

The fourth situation is we will see that there us glue on the gum line,but glue is presenting faint yellow mark. What does it mean? Which means the glue viscosity is not enough and it has two causes. The first situation is glue will become thinner in the process of continuous circulation, which will cause a certain percentage of the content of the object to be low. The second situation is when you mix the glue, the content itself is too low. In this situation we need to increase the solid content of glue. What is the solid content of glue? Let me explain here. Our glue is starch and water mixed in proportion, n fact, the important role in the bonding is that starch is not water. High starch represents a high content of objects. Generally, the solid content is about 26. But many of us will decrease its solid content to save starch. In some cases it will cause decoating. So in fact, the solution to this situation is to improve the stability of the gum first. In other words, the entire pipeline can use some thermal insulation measures to keep its temperature from changing, so the viscosity is controlled within 3 seconds. Of course, if the solid content itself is low, then do we increase it slightly because the entire glue It also has a gelatinization during recycling.

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How to address poor gluing（Glue is presenting golden yellow and crystal）

The third situation is glue presenting golden, it can be judged that our glue has crystallized, and the state of crystallized is excessive borax in glue. Actually it is easy to solve, we only need to adjust the amount of borax, and decoating can be solved.

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The Cost of Out-of-Round and Out-of-Parallel Corrugated Glue Rolls

It isn’t hard to understand that glue rolls for corrugated machines with excessive TIR (total indicated runout), or glue rolls that aren’t parallel, will cause your corrugator to consume more adhesive. It’s trickier to calculate how much, and when it makes economic sense to correct the problem. As long as board quality, productivity, and waste are acceptable, it is tempting to post- pone maintenance. Reducing the question to a comparison of costs helps managers make informed decisions.When the glue roll is out of round, the gap with the metering roll changes with every revolution. As a result, the adhesive film thickness on the glue roll changes from thick to thin as the roll turns. The gap between the lower corrugating roll on the single facer will also change with every revolution, which affects adhesive application. To compensate for these variations, the operator usually adjusts the metering gap so there is enough adhesive applied where the film is thinnest.The effect is to increase overall adhesive consumption; this increase is proportional to the TIR or the distance the rolls are out of parallel. This proportion, or ratio, can be used to calculate the additional cost to the box plant that defective rolls create.Out-of-round exampleOn a finger-type single face machine, with a glue system in good condition, the actual glue film thickness on the glue roll will average about .007” in normal operation.If the glue roll has a TIR of .006”, the gap must be increased by this amount to maintain a .007” where the film is thinnest. Allowing for the film split between glue roll and metering roll, the film thickness will increase by some two-thirds of that gap increase, or about .004”. The result will be a glue film thickness ranging from .007 to .011. The total volume of adhesive available is the same as we would have with a uniform thickness of .009. On a 10” roll, the increase in glue volume calculates to 27%. About three-fourths of that ends up on paper, for an effective consumption increase of 20% with a TIR of .006. So, as a rule of thumb, we can conclude that every .001” of TIR will increase adhesive consumption almost 3.5%.Out-of-parallel roll has the same effectIf the metering gap is .006” out of parallel, the change in film thickness across the machine would be about 004”, or 2/3 x .006. Assuming a .010” minimum glue film (fin- gearless machine), the film changes from .010” to .014”, and the volume would be the same as if there was a uniform film thick- ness of .012” So .006” TIR and .006” out-of-parallel result in the same increase in adhesive consumption.WHAT ABOUT DOUBLE BACK GLUE MACHINES?On double back glue machines, we need to consider the cell count and size of engraved rolls. Glue rolls with cell counts of 16 or fewer cells per inch carry the majority of the adhesive in the cell. These rolls have a very thin surface film thickness, so the application rate is not increased dramatically when there are small changes in the TIR for this type of roll.Glue rolls with higher cell counts—25 quad and up—are affected by TIR at about the same rate as the single facer rolls, or about 3.5% per every .001” TIR.The bottom lineWith today’s modern equipment and high run speeds it is possible to produce large quantities of board, consuming great quantities of adhesive in a short period of time. Out-of- round or out-of-parallel rolls increase adhesive application rate significantly.A formula can be derived from the information in this study to reveal the true cost of glue-roll TIR or out-of parallel conditions.Cost per .001” of TIR = (TIR x 1000) x .035 x Dry Pound Cost x Average web width factor.Example: TIR=.005Dry pound cost = $0.18/lb exampleAverage web width = 80”Average web factor = 80/98 = .816Cost = (5) x (.035) x (.18) x (.816)Cost = $0.0257 per MSFFor a plant producing 50 MMSF per month, the TIR would cost $1,285 per month in excess adhesive application for only .005” of roll runout.Daily checks of the glue-roll gap with feeler gauges are imperative to ensure board quality and even application of adhesive. It is not uncommon for plants running high speeds or small flutes to check gaps once or twice per shift. This ensures the rolls are parallel and the glue film thickness and subsequent application is even across the web. In any case, the TIR should be checked for all stations at least once per week.

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The Corrugator Production Process

A corrugator is a set of machines designed to bring together three, five or seven sheets of paper to form single, double or triple wall board in a continuous process.The 3 key stages:· Corrugating the flutes and gluing to a single liner· Gluing the outside liner to make a rigid board· Cutting the board to the desired sizeThree sheets of paper (containerboard) are unrolled simultaneously on the corrugator: the inner liner, the outer liner and in the middle, the medium (also called fluting).The medium sheet is given a "wave". This corrugation is obtained by pressing the sheet under heat through grooved metal rolls. This operation gives the paper its fluted shape in the single facer.Starch is applied to the tips of the flutes on one side, the outer liner and the inner liner are glued to the tips of the corrugated medium sheet of paper from the outer and the inner side respectively.The Corrugated board comes out of the corrugator as a flat board sheet.The corrugated fluting medium with one liner attached to it is called single face web and travels along the machine towards the double backer where the single face web meets the outer liner and forms a continuous web of single wall rigid corrugated board, which is then cut to length and width and stacked.Details on the various operationsThe splicers and reelstandsThese are the machines which feed the paper rolls into the corrugator and enable rolls to be changed without interrupting the production of corrugated board.The single facerThis machine transforms the paper into a series of connected arches called ? flutes ? thanks to the corrugating rolls (large cylinders with a corrugated profile). Changes in flute profile are accomplished by changing the corrugating rolls.The glue unit and double backerHere, the single face web is prepared for gluing to the outer liner. It is roughly the same process as the single facer unit with some variations of the pre-heating and gluing processes.This glues the outer liner to the fluting to make single, double or triple wallboard. The single face web is pre-heated, starch is applied to the tips of the flutes, and the outer liner is then bonded to the single face web to form corrugated board.This is a complex operation that requires great expertise in the pre-heating, moisture control and gluing processes in order to produce perfectly flat, stable sheets of board.The bridgeThis enables the double backer to run at different speeds from the single facer especially when reel or order changes take place. This is achieved by the single face web forming festoons that are controlled at the single facer station.Bridge festoonsExample of festoonsThe hot plate sectionIt is at this stage that the combination of the single face web and the outer liner is completed. The heating section ensures that the bond is strong by gelling the glue and removing moisture.The rotary shearAfter the board emerges from the double backer, it passes under a rotary shear that cuts across the whole width of the web when necessary. This is used to chop out damaged lengths of board or to effect a change over from one grade of board to another. The small amount of sheared board is ejected from the machine and collected for recycling.The slitter / scorerThis operation slits and scores the continuous web of acceptable board in the machine direction. It is this operation which determines the style of the finished box.The cut-off knivesThese cut the board to the exact required lengths of corrugated sheet to be used in the making of corrugated packaging.The stackerFinally, corrugated sheets are automatically stacked, ready to be moved directly to the conversion machine or sent to another converting plant.

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Manufacturing Technology of the Corrugated Cardboard

Imagine you have a seemingly trivial carton in front of you. Have you ever thought that there is a need for a process that requires patience, meticulousness and thorough knowledge from many areas, in order for it to exist?Corrugated cardboard is the combination of two sheets of paper called “cover” Glued to a corrugated paper called “core“. These three layers of paper are assembled in a way that gives the overall structure a much better strength than the one in each layer.This construction makes a series of connected arches, which are known for their great ability to support weights.Plain layer paper (cover)KraftlinerMonolayer:Made 100% from cellulose.Made from at least 80% cellulose and 15-20% waste paper.Multilayer (double layer):The outer layer is 100% of cellulose and the backing layer is 80% cellulose-20% waste paper.TestlinerMonolayer:Testliner 4: Produced 100% of waste mixtureMultilayer:Testliner 1: The outer layer is 100% cellulose and the support ayer 50% cellulose and 50% waste paper.Testliner 2: The outer layer and the support layer are 100% produced from paper waste made from cardboard packaging.Testliner 3: The outer layer 100% of paper waste made from cardboard packaging and the support layer 100% of waste mixture.CORRUGATED LAYER PAPERThe corrugated layer paper is the main component of the corrugated board strength structure, through its sinusoidal shape and rigid bonding points with the cover (plain) paper layers. The main resistance characteristic of the core paper is the corrugating resistance of the corrugations.Sc (semi-chemical)100% produced of semi-chemical cellulose (mixture of hardwood and softwood)80% produced of semi-chemical cellulose + 20% paper wasteW (wellenstoff)Standard 100% of selected waste + starch100% of paper wasteADHESIVESFor gluing the corrugated cardboard, natural or synthetic adhesives are used. Starch provides the best conditions for glue manufacturing, for the cost and solder strength.Advantages of starch glue:The solder strength is high and the starch glue can be used at high speeds of the corrugated cardboard machine.It is easy to be prepared and is not toxic.Dry starch from the bonding area is not abrasive for corrugated cardboard manufacturing machines.It can be easily removed from the equipment.Allows easy collapsing of corrugated paperboard.Disadvantages of starch glue:Requires rigorous temperature control in the soldering zone, namely reaching the gelling point, otherwise the solder strength will be low.Excess water introduced with relatively large amount of glue due to low solids content may cause cardboard marking or curvature, therefore, to remove water, the corrugated cardboard machine must be provided with a relatively developed drying area.Starch is a nutrient medium for microorganisms whose activity causes the solder resistance to decrease.Corrugated cardboard machine - components●Dropper●Pre-heater●Corrugation group●Soldering group●Drying table●Cutting devices●Reception and stacking table

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Getting it right on Corrugated board: Keep it clean!

Flexo printers are facing many challenges every day, with the flexo printing process itself often being one of the biggest of them all. This is caused by the huge amount of variables involved. And printing on corrugated makes it even harder to achieve the required result. Keeping the flow of ink consistent is key to getting it right. Flexo printing on corrugated differs from other flexo processes in some important aspects. First of all: the substrate. Corrugated is more absorbent in comparison with plastic film, alu foil or other special papers. And it is also a material of poorer quality, releasing dirt into the system affecting your ink and your aniloxes – and eventually your print. Secondly: the width of the machines involved. These presses are 2,500 mm in width as common, making the process more difficult to control. And last but not least, the printing ink: almost all flexo inks for corrugated are water-based.Substrate and inkLet’s have closer look at the issues concerning the substrate and the inks. The biggest challenge in flexo is to achieve and control the required fixed densities in order to guarantee print quality. When you are applying a specified ink volume to a non-absorbent paper (like coated paper), the ink remains on the surface and the density will be higher than applying the same amount of ink to an absorbent corrugated paper, as the ink will penetrate the paper and the colour density will be poor. Also, the original colour of the substrate will affect the end result. If you are unable to bring the right amount of ink in a correct way to the paper, the required colour density cannot be achieved. Flexo printers are facing many challenges every day, with the flexo printing process itself often being one of the biggest of them all. This is caused by the huge amount of variables involved. And printing on corrugated makes it even harder to achieve the required result. Keeping the flow of ink consistent is key to getting it right.Flexo printing on corrugated differs from other flexo processes in some important aspects. First of all: the substrate. Corrugated is more absorbent in comparison with plastic film, alu foil or other special papers. And it is also a material of poorer quality, releasing dirt into the system affecting your ink and your aniloxes – and eventually your print. Secondly: the width of the machines involved. These presses are 2,500 mm in width as common, making the process more difficult to control. And last but not least, the printing ink: almost all flexo inks for corrugated are water-based.Substrate and inkLet’s have closer look at the issues concerning the substrate and the inks. The biggest challenge in flexo is to achieve and control the required fixed densities in order to guarantee print quality. When you are applying a specified ink volume to a non-absorbent paper (like coated paper), the ink remains on the surface and the density will be higher than applying the same amount of ink to an absorbent corrugated paper, as the ink will penetrate the paper and the colour density will be poor. Also, the original colour of the substrate will affect the end result. If you are unable to bring the right amount of ink in a correct way to the paper, the required colour density cannot be achieved.Dirt disrupts the processFlexo printers are facing many challenges every day, with the flexo printing process itself often being one of the biggest of them all. This is caused by the huge amount of variables involved. And printing on corrugated makes it even harder to achieve the required result. Keeping the flow of ink consistent is key to getting it right.Flexo printing on corrugated differs from other flexo processes in some important aspects. First of all: the substrate. Corrugated is more absorbent in comparison with plastic film, alu foil or other special papers. And it is also a material of poorer quality, releasing dirt into the system affecting your ink and your aniloxes – and eventually your print. Secondly: the width of the machines involved. These presses are 2,500 mm in width as common, making the process more difficult to control. And last but not least, the printing ink: almost all flexo inks for corrugated are water-based.Substrate and inkLet’s have closer look at the issues concerning the substrate and the inks. The biggest challenge in flexo is to achieve and control the required fixed densities in order to guarantee print quality. When you are applying a specified ink volume to a non-absorbent paper (like coated paper), the ink remains on the surface and the density will be higher than applying the same amount of ink to an absorbent corrugated paper, as the ink will penetrate the paper and the colour density will be poor. Also, the original colour of the substrate will affect the end result. If you are unable to bring the right amount of ink in a correct way to the paper, the required colour density cannot be achieved.Dirt disrupts the processSo, getting the required ink volume to the paper in a controlled manner is crucial. Dirt-particles, released by corrugated substrates, are the main disruptors of this process. Apart from affecting the printed image quality on the substrates surface, this dirt also interferes with the consistent ink transfer to the plate, as it clogs the ink cells of the aniloxes and thus disturbs the flow of ink .Keep it cleanAs dirt turns out to be one of the main disruptors in the process of flexo printing on corrugated substrates, the solution lies in keeping it clean. Here are some expert tips to getting it right and achieve the best results: 1) Choose the best paperAlthough this will often prove to be more expensive in price, cheaper paper may turn out to be more costly in the end because of requiring higher ink volumes and thus causing other problems like drying capacity or wash boarding effect.2) Select the right inksIn water-based inks, pigmentation is the factor that makes all the difference. Make sure to test your inks on specifications like density, viscosity, drying capacity and pH value. Again: the right ink may be Flexo printers are facing many challenges every day, with the flexo printing process itself often being one of the biggest of them all. This is caused by the huge amount of variables involved. And printing on corrugated makes it even harder to achieve the required result. Keeping the flow of ink consistent is key to getting it right.Flexo printing on corrugated differs from other flexo processes in some important aspects. First of all: the substrate. Corrugated is more absorbent in comparison with plastic film, alu foil or other special papers. And it is also a material of poorer quality, releasing dirt into the system affecting your ink and your aniloxes – and eventually your print. Secondly: the width of the machines involved. These presses are 2,500 mm in width as common, making the process more difficult to control. And last but not least, the printing ink: almost all flexo inks for corrugated are water-based.Substrate and inkLet’s have closer look at the issues concerning the substrate and the inks. The biggest challenge in flexo is to achieve and control the required fixed densities in order to guarantee print quality. When you are applying a specified ink volume to a non-absorbent paper (like coated paper), the ink remains on the surface and the density will be higher than applying the same amount of ink to an absorbent corrugated paper, as the ink will penetrate the paper and the colour density will be poor. Also, the original colour of the substrate will affect the end result. If you are unable to bring the right amount of ink in a correct way to the paper, the required colour density cannot be achieved.Dirt disrupts the processSo, getting the required ink volume to the paper in a controlled manner is crucial. Dirt-particles, released by corrugated substrates, are the main disruptors of this process. Apart from affecting the printed image quality on the substrates surface, this dirt also interferes with the consistent ink transfer to the plate, as it clogs the ink cells of the aniloxes and thus disturbs the flow of ink .Keep it cleanAs dirt turns out to be one of the main disruptors in the process of flexo printing on corrugated substrates, the solution lies in keeping it clean. Here are some expert tips to getting it right and achieve the best results: 1) Choose the best paperAlthough this will often prove to be more expensive in price, cheaper paper may turn out to be more costly in the end because of requiring higher ink volumes and thus causing other problems like drying capacity or wash boarding effect.2) Select the right inksIn water-based inks, pigmentation is the factor that makes all the difference. Make sure to test your inks on specifications like density, viscosity, drying capacity and pH value. Again: the right ink may be more expensive, but may save you on time and costs.3) Use the right aniloxThis is critical, as your anilox is key to transferring the ink from A to B – the plate – and, as a result, to C – the substrate. If this fails, printing according to plan will remain an issue. Following screen types may be considered while printing onto corrugated board:High quality flexo post- and preprint, consider open structures like GTT for more consistent ink-transfer (between jobs and over a longer period of time).Standard work, the 60 degrees closed-cell hexagonal is still a very suitable cell type.LongCell patterns are also an option, however, it depends very much on the application which screen and volume combination to choose;4) Keep your aniloxes clean.The surface of an anilox consists of tiny holes – the ink cells – that can easily get clogged by dirt-particles. Hardened ink clogged into the cells, is like stone and can damage the surface of your anilox. Besides, it decreases the amount of ink that can be transferred to the plate. Although cleaning your aniloxes in the right way does take some time – and printers are always short on time – you will find that it does earn you great benefits. Dependant on the usage of your anilox, a once per year deep-cleaning is advisable. It is also extremely important to know the status your rolls are in before you start printing. Every 12 months you should perform an audit of your roll/sleeve inventory.Find out more about the challenges of printing on corrugated substrates. Understanding the process helps you in getting it right much faster: saving you time and costs and earning you better quality.

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Anilox Roll Scoring

The anilox roll has been referred to as the heart of the printing press. It carries the huge responsibility of delivering the precise amount of ink required to create an image exactly according to the customer’s specifications. That’s a big job! If anilox rolls are taken care of, they are your workhorses: consistently and repeatedly executing the desired image, job after job. They can last for years and provide a great return on your investment.So the “health” of your anilox rolls is extremely important. There are several steps you can take to maintain their integrity. First, follow a good cleaning regimen to prevent ink from drying in cells. Plugged anilox cells can’t carry the volume of ink for which they were designed. Second, make sure to handle the rolls properly to avoid damaging the ceramic coating. Once the edges become chipped, ink and solvent can leach under the surface and ruin the roll.Protect your rolls from scoringA third way to get the most out of your anilox investment is to protect your rolls from scoring. Anilox scoring occurs when a piece of metal becomes trapped against the doctor blade as the roll rotates. The fragment causes a deep scratch, or “score line,” destroying the cells in a stripe around the circumference of the roll. Not only is this expensive in terms of repairing or replacing the roll, but also costs a lot in substrate and ink waste, press downtime and unhappy customers.If the roll’s surface becomes scored, the defects will show in the printed image. Sometimes a score line is a deep gouge across several cell widths. The band of damaged cells results in a dark streak in the print as more ink is delivered in this area. More often, the metal fragment wears down the walls of the cells, resulting in a “polishing” score line. In this case, the affected part of the anilox roll is not able to carry as much ink as the surrounding cells, and the corresponding area of print appears as a light streak.Causes of anilox scoringWhile there are many causes of anilox scoring, the most common ones relate to the use of steel doctor blades. Large pieces of the blade can break away as it wears or if the blade is installed with too much pressure. An excessive amount of pressure on the tip will cause it to bend back and eventually fracture off. Excessive pressure can occur when an operator neglects to adjust the blade holder setting when replacing a worn blade with a new (wider) one. Sometimes an operator will intentionally over-pressure the blade to compensate for other problems such as chamber leaks, chamber misalignment, mechanical creep or warped or rippled blades.Some ways to prevent anilox roll scoring are:· Ensure proper chamber alignment and blade installation· Use non-metallic doctor blades· Do not over-pressure blades· Clean anilox rolls regularly· Do not run the press dry or let ink dry in cells· Filter ink to remove metal fragmentsOnce a roll is scored, it must be reconditioned or replaced at the cost of hundreds to thousands of dollars. Not to mention lost substrate, ink waste, press downtime and being without the roll while it’s being reconditioned or replaced. Treat your anilox rolls like the important parts of the press that they are; in addition to proper cleaning and handling, preventing score lines will go a long way to ensure that you get the most out of your anilox investment!

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Rotary Die Cutting vs Flatbed Die Cutting, how to Choose?

Now the world corrugated packaging industry uses the most two die-rotary die cutting and flatbed die cutting, many companies are confused, so how to make a choice? Now it’s time to take a closer look at the two die cutting methods available-rotary die cutting and flatbed die cutting. Which one is right for you? The box maker corrugated plant has both available in-house, and each method is used regularly in different situations.The Working Speed Between Rotary and FlatbedThe Rotary Die CuttingIt is usually one of the units of flexo printing machine, it’s called die-cut unit. Speed often depends on the type of carton produced and die cutting type. The normal production speed is 150-250 piece/min, some machine can reach 350 piece/min.Flatbed Die CuttingTo be exact, there are 3 typis in the market, one is manual, semi-automatic and full automatic. The speed of the device in type 3 is completely different. The manual speed around 30 piece/min, semi-automatic is around 60 piece/min. Full automatic die cutting max speed can reach 100-120 piece/min.Cutting DiesCutting dies are long lasting, quality structures and present a one-time charge for your company. The main tenance, storage, and cleaning of all dies is covered in the initial price you pay. Rotary steel dies are more expensive than flatbed dies because the wood for a rotary die is circular in shape, and the method for making these is more extensive. Yet, looking at the price of the steel die alone is not enough information to make an informed decision. There are many factors to consider when choosing the best method for your packaging needs. Our estimating team will take into account the following factors to determine the right direction for you and your organization: How many will you be ordering? Rotarysteel dies can be 30-100% more expensive than a flatbed die, but the rotary machinery can run more pieces at once due to a larger blank size and faster speed. So, while the initial steel die may cost more, a lower per-each price can offset the die cost quickly. Will you be buying multiple orders on a regular basis, oris it a one-time purchase? If you are purchasing a specific product for a one-time promotion or a single distribution, then a less expensive flatbed die may be the best way to go. But, if you have regular usage of a specific product and plan on purchasing multiple orders of a particular package, the rotary machine will offer a lower piece price and will quickly offset the higher die cost.

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How Humidity Affects Corrugated Boxes

We’re all familiar with how easily paper can soak up liquids. Corrugated “cardboard” boxes are no exception. The porosity of wood fibers, which is what corrugated boxes are made of, allows it to absorb and release moisture, a phenomenon that is known as hygroscopy.We should do our best to keep boxes relatively dry because humidity can have a huge impact on their performance. And unfortunately, humidity is one factor that cannot always be controlled. While having a certain amount of moisture in the air (around 6% – 7%) will ensure proper creasing, avoid cracks, maintain good bending and impact resistance, as well as cushioning and shock absorption, higher humidity levels can actually have a negative impact on those characteristics of corrugated board that we value most. In this table below published in the Handbook of Package Engineering (c.1992), you can see that the greater the humidity the less stacking strength a box has. For example, at 50% relative humidity (RH) a corrugated box is at 80% of its potential stacking strength. In very humid environments, such as a warehouse with an uncontrolled climate in the summertime, stacking strength is greatly reduced. At 85% RH, a box has 50% of its potential stacking strength.In a more recent publication, The Fundamentals of Packaging Technology (c.2013), an increase in RH from 40% to 90% “can result in a loss of about 50% of a corrugated container’s stack strength.” Therefore a corrugated shipping case headed for humid conditions will need to be much stronger in order to compensate for this loss. When a corrugated board is produced, the liners and fluted mediums are held together with a starch adhesive, typically food grade corn starch. In its most basic formula, corn starch adhesive has very little moisture resistance, which would cause the composite layers of corrugated board to separate in high humidity conditions. Knowing this, corrugated board manufacturers add small amounts of resins to the adhesive to give it moisture resistance. The result is known as moisture resistant adhesive (MRA). The degree of moisture resistance varies from manufacturer to manufacturer and also depends on the conditions where the boxes will be used.

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FOL VS. RSC BOXES

FOL vs RSC - What's the Difference?When it comes to corrugated shipping boxes, there are two you’ll likely consider: “RSC” and “FOL.” To help you understand the differences between FOL vs. RSC boxes, let’s explore how each can impact your bottom line:RSC BoxesRSC stands for “Regular Slotted Carton.” This is the most common box, distinguished by the fact that the four major panels on the top and bottom meet in the middle, then get taped together. The benefit? RSC boxes use less material. Less material translates to…you guessed it: cost savings.However, RSC boxes can have their drawbacks. They typically require more tape to seal (often you only need a small tab of tape to seal a FOL box), and the shorter flaps can be more difficult to fold and close.FOL BoxesFOL stands for “Full Overlap” meaning that the box flaps extend all the way to the opposite side of the box opening and completely overlap. FOL boxes can be ordered with flaps just on top, just on the bottom, or on both top and bottom.The main purpose of the extended length flaps is to increase strength by creating more material overlapping at the top or base (or both) of your package. These boxes are much harder to crush or dent, unlike their RSC counterparts.Which box is more sustainable?While it may seem counterintuitive, it’s likely that the FOL box may be a more sustainable option. Here’s why:1. It allows you to increase the box strength by doubling up layers where you need it, rather than increasing the board grade – a more expensive alternative.2. You can avoid a potentially costly design such as a die-cut mailer.3. More protection means less risk of product damage, therefore saving you costs associated with having to replace or reship a damaged item.4. Non-sustainable interior protection such as foam options or packing peanuts become unnecessary, protecting your wallet and the environment.

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ROTARY CUT OFF KNIFE THE MECHATRONIC SOLUTION For the Corrugated Paper Board Production Line

With the term “mechatronics” we refer to the combination of mechanical engineering, electronic engineering, computer science and automatic control with the purpose of evolving machine manufacturing into the next generation. The rapid growth of electronics has led to the re-designing of traditional mechanical elements. Arrays of gears and mechanical cams, are replaced with “virtual” elements materialized as software in suitable controllers and servomotors drives. New possibilities appear in maintenance, flexibility, extendibility, easy reconfiguration, after sales support, but also possibilities of networking and interconnection with the factory automation. A typical mechatronic configuration is constituted mainly by controllers, drives and servomotors but also various other elements are essential for the concretization of the particular automation task e.g. I/O components, encoders, sensors etc. The heart of the system is the controller. Modern controllers are powerful systems that incorporate different operations in a single unit. Raycon Systems and Machines ltd, in collaboration with Siemens SA, introduced a rotary cutoff for the corrugated paperboard production line based on the mechatronic philosophy. A schematic illustration of such a machine is shown in Figure 1. The rotary knife motion trajectory calculation is a non-trivial task since several position/speed restrictions must be met: ●At the cutting point the rotating blade should have a linear velocity equal to that of the moving carton board (synchronization phase). ●The time it takes for the blade to complete a full rotation must equal the time it takes for the board to traverse the desired cutting length. Thus the rotation time of the blade depends on both the paper speed and the desired cutting length. ●To minimize vibration and ensure minimal mechanical stress, the motion profile of the blade, should be as smooth as possible without violating the previous constraints.In the past, this functionality was achieved solely by mechanical elements, where a change in cutting length translated into a change of the transmission ratio, through mechanical adjustment of pulley belts. Although this was prone to low precision, wear, instability, and the whole system was of increased complexity and high maintenance need, it was the only option for high-speed rotary cutoff knifes in the corrugated paperboard industry for more than 50 years. A reason for this is that, despite its drawbacks, the mechanical cutoff, if high quality constructional standards were met and proper maintenance followed, was able to achieve a good cutting accuracy of (0.5cm). Possible improvements therefore were justified only in the need of higher accuracies, less than (0.5mm). As this need emerged and the trend in the field of electronics and control was reducing the cost of high-speed controllers, affordable servomotors and programming applications to drive them with electronic cams, began to appear. Mainly due to the initial high cost of servomotors, attempts by using DC motors, also appeared at this point but introduced great complexity with an impact on reliability, support and performance of the final system. The current state of the art, in the corrugated paperboard industry, is using servomotors driven by high-speed controllers with customized software to achieve cutting accuracies less than 0.2mm. Usually, the companies that manufacture production machinery develop "close" software that drives the servo rotary cutoff knives. The solution presented here, for the rotary cutoff knife, extends the current state of the art, mainly because it introduces the concept of "open" mechatronic technology in place of "custom" software that usually exists today in these applications. The presented herein rotary cutoff is a product of Raycon Systems and Machines ltd. The mechanical part is based on the design and construction of A. Raftopoulos ABEE. The engineering approach gives emphasis on simplicity and durability; the main drive is conducted with a pulley and timing belt. This ensures accurate transmission, vibration reduction, low mechanical stress, and the possibility of reconfiguration for various specifications. The motion control part of the rotary knife is an implementation of Siemens mechatronic technology.The automation is realized by means of a Simotion D controller that is used for calculating the desired trajectory. The restrictions in position and velocity (synchronization with the paper at the cutting position and rotation time according to the cutting length and paper speed), dictate a specific cam motion profile, which must be recalculated continuously, in real time, so that the restrictions are met, even after dynamic changes in cutting length and/or paper speed. For this reason, the position of the knife is resampled every 125 millionths of a second and the cam profile is recalculated by polynomial interpolation of fifth order (quintic). The motion control signals are transmitted to a Sinamics S120 servo rotation regulator, the logic of which is incorporated in the Simotion controller, driving a 1FT7synchronous servomotor. The actual set points for position/speed are provided by an external measuring encoder. The system is operated through a Simatic touch panel connected via profibus network. Due to the inertia of the rotating load, the motor operates as generator, during braking. The returned energy can be consumed either in braking resistance, or returned in the supply network by means of a suitable Sinamics S120 module. In the later case, a significant reduction in energy consumption is achieved. The rotary knife solution presented herein evolves the current state of the art, mainly due to the mechatronic design, in contrast to the logic of "custom" software. Mechatronic design, in this case, means that all the above theoretical algorithms, preconditions for the proper functioning of the cutoff knife, are implemented with existing building elements that have been developed, optimized and brought to an “embedded” form for general use. The reported solution therefore, is not "custom" software, but instead is an “open” implementation of the mechatronics library design infrastructure available by SIEMENS. This paradigm has important implications, both for the end-user-purchaser of the machine, but also for the cost-effectiveness of the manufacturer. Firstly, avoiding “custom” software solutions contributes to the autonomy of the equipment. With respect to after sales, this is a critical issue for the end-user. At the same time, this autonomy adds value to the rotary knife as a product. This is an issue very important for the manufacturer, as it involves SIEMENS in the after sales global support network with worldwide capabilities. The robust repetitive cutting accuracy, the capability for mark cutting and the “on the fly” change of cutting length, are the features that differentiate this solution from similar "custom" solutions. These were integrated at relatively low cost because RAYCON succeeded in utilizing the existing modular mechatronic infrastructure of SIEMENS rather than developing "closed" software from scratch. As a result, even more innovative features were incorporated, like micro adjustment in the cutting profile for cardboards of variable thickness. All these advantages, in combination with the ease of maintenance, reliability, scalability and the possibility of incorporating a web-in production line automation (totally integrated automation) not only position this rotary cutoff, at the top of the global state of the art in corrugated industry, but also make it a first-choice product, capable of competing at an international level.

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Cracking a Sticky Problem: How to Prevent Cracked Scores & Bubbling on Corrugated Board during Litho-Lamination

In the beginning, there were kraft and white boxes with flexographic printing. Then, in the 1980s, the growing influence of big-box retailers forever changed corrugated converting. Instead of hiring sales people, big-box retailers demanded that the corrugated box stand out with a sleek, high-quality graphic that attracted attention and provided sales information to customers. As a result, litho-laminated packaging emerged as a major player in the corrugated industry.For sheet plants, transitioning to litholamination presents opportunities to get into new markets, but it also comes with a few sticky challenges. The process of laminating (gluing) a printed litho-label to double-face corrugated board and then diecutting it can result in cracking on scores during the converting process. And if not applied properly, litholabels can bubble and not lay flat on the board.By taking some relatively easy steps, these problems can be avoided, keeping customers, sales forces and production departments happy; and projects on schedule and most importantly, on budget.There are many potential causes for cracking on scores after a litho-labeled corrugated box is die cut. But one of the primary reasons is also the one most overlooked: glue. A $15,000 litho-label order can be ruined by using $100 of the wrong kind of glue. RESIN AND HYBRID OPTIONSThe most common mistake is using dextrin glue which crystallizes when dried putting additional pressure on the back of the litholabel which leads to score cracking.One solution is to use resin glue. Unlike dextrin, resin glue dries as a pliable film and this reduces the pressure on paper when the score is folded. However, compared to dextrin, resin glue is twice the cost per pound, and it attacks rubber which increases maintenance on laminators.While many sheet plants have already switched from dextrin to resin, there’s a third choice - hybrid glues that have the advantage of both. Like resin, hybrid glue dries as a soft, pliable film; and like dextrin, hybrids are gentle on rubber. There are glue suppliers that have formulated hybrids specifically for litholamination.The cost issue becomes immaterial when you do the math. Do you know how many pounds of glue you use per thousand square feet (MSF)? Chances are you don’t. Few companies weigh the glue tote before and after running a job, and then calculate the MSF through the laminator to determine their usage. In fact, many companies allow laminator operators to use whatever amount of glue they feel is appropriate.Monitoring and controlling the spread rate of glue is vital and should be a part of your production methods. The correct usage of dextrin is a spread rate of 10#/ MSF. For hybrids it can be as low as 6#/MSF. The difference in yields doesn’t completely negate the price difference per pound, but it’s less than $1.50 per MSF, and in most cases, it’s about 50 cents per MSF.A cost increase of $1.50 per MSF for eliminating score cracking is an easy call. One of our sheet plate customers was losing $4,700 in rejected product every time they ran a particular job. After months of trial and error, they consulted with a glue vendor. The cracking on scores disappeared as soon as they switched to the right glue formulated for their Automat?n litho-laminator.While score cracking can be caused by other issues, such as increased recycle content and low-moisture content of the litho-label, glue is the one component that is easy to control both from the type you purchase to the amount you apply.A checklist to prevent score cracking includes:· the right paper· the correct scoring rule· hitting the die board on the correct side· always using matrix *· using low flute profiles· labels with the correct moisture content· storing and using litho-labels in a humidity-controlled environment· resin or hybrid glueBUBBLES, BUMPS AND HUMPSThe problem of bubbling during litholamination tends to occur under areas with heavy ink coverage of dark color (blues and/or black). The cause relates to the affect of liquid on paper fibers. Technically, this is called “hygroexpansivity” - the degree that an increase in moisture content causes fibers to swell, forcing the sheet to expand. After liquid dries, the fiber size decreases, but remains larger than its original size.Think of spilled coffee on paper. After it dries, the paper is rippled due to the fibers’ expansion. If heavy ink areas are surrounded by areas with lighter ink coverage, such as a white border around the edge of the sheet, the fiber growth is manifested by a hump or bubble causing the paper to lift off the surface of the corrugated board after the application of glue.To satisfy customers and achieve what the graphic arts industry calls “rich blacks,” the lithographic printing process usually dictates that dark inks be printed on top of other ink. Similar to flexographic inks, lithographic inks are transparent. In areas with large areas of dark colors the total ink coverage can be 280 percent just shy of three hits. This causes the fiber to grow under these areas. If you examine your laminator while the bubbling is occurring, you’ll notice that initially the litho-label is flat, but over the next few seconds it rises up and forms a bubble. When you cut the area, there’s wet glue under the bubble. The good news is that the solution is inexpensive and simple: a fast-setting glue with a short “open time”-the length of time between the application of glue to the label and when fiber pull-out occurs. If you are using an Automat?n, the open time should be as short as five seconds.

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Corrugated packaging: 5 steps towards the perfect packaging solution for your product

The perfect corrugated packaging protects your product during transport, is optimally stackable on pallets, produced sustainably, and 100% recyclable. Depending on the application, it also supports your brand values. Therefore, numerous criteria must be considered. In this blog post, we will walk you through all the steps you need to start developing the ideal packaging solution.1. Corrugated packaging: where to start? Everything starts with the product that you want to pack:· How much does it weigh including primary packaging? What material is the primary packaging made of? In some cases, your goods can be packed directly in the corrugated box, i.e. the primary packaging coincides with the secondary packaging. · What are the dimensions of the primary packaging? How many primary packages should be packed in the corrugated box?· What constraints need to be considered when stacking pallets of finished products in your warehouse?· What does your downstream supply chain look like: long-distance transport, transport in humid conditions, etc.?Based on your answers, we determine the quality of the packaging you need and choose the perfect configuration. What do you need to know about this? In the corrugated cardboard sector, the following paper types can be distinguished:· The fluting: the inner layer of the cardboard which is used to produce the required flutes. These flutes primarily determine the strength of the box.· The liner: the outer and inner layers of the cardboard which will also determine the box’s appearance. There are various possible grammages and flute types. The grammage expresses the thickness of the cardboard. The higher the grammage, the stronger the cardboard. A paper type with a high grammage will therefore weigh more and in most cases offer better protection, but it will often also carry a higher price tag because of the higher quantity of raw materials.The flute type determines the thickness of the corrugated cardboard. The thinnest cardboard types have a single flute and their name includes one letter. Compound cardboard types have a double flute consisting of two single flutes; in principle, any combination of the following types is possible: · F flute: 0.7 mm· O flute: 1.7 mm· E flute: 1.15 mm· B flute: 2.5 mm· C flute: 3.5 mmNot only the paper type, but also the flute type will therefore determine the characteristics of your packaging. The print quality will also depend on the chosen flute. A box with a finer flute is better printable on the outside.2. The right box for every productCardboard boxes come in all shapes and sizes. One may have four closing flaps to be sealed by taping, another may have a lid and handles, while yet another one may have convenient inserts. Our professionals listen to your needs in order to select the perfect design.Virtually all designs correspond to an international code developed by FEFCO, the European Federation of Corrugated Board Manufacturers. The codes consist of at least four digits and relate to the style or design of the box. Code 0201, for example, stands for the American folding box – also known as regular slotted container (RSC), the most well-known of all cardboard packaging. The basic four-digit code can be extended to accommodate additional details, variations or a combination of styles. The American box code, for example, can be extended to 0201-03, where 03 indicates a different version of the basic box. There is already a wide range of FEFCO standards that are used by cardboard producers throughout Europe. However, FEFCO keeps re-evaluating and supplementing the codes to keep up with the rapidly innovating sector. 3. The best dimensions for cost optimisationThe FEFCO standards define the form of the box, but not its dimensions. This is where our packaging experts step in. Together with you, they will look for the perfect solution for protecting your goods, optimising your packaging process, and making your logistics chain more sustainable.The inside dimensions indicate the volume available for the primary product. Next, we note down length x width x height, expressed in millimetres. The length is always greater than or equal to the width. The outside dimensions indicate the volume available for the packaging on the pallet and possibly also the space taken up by the shelf-ready packaging on the store shelf. Finally, we also determine the flat size, which indicates the amount of corrugated cardboard that is needed to produce the box. The larger the format, the higher the price tag of the packaging. 4. The right technique for your printing needsAfter the previous technical steps, it is now time for the most enjoyable step of all: your personal print! Your logo, slogan, image, or graphic design must make your packaging a visual treat. However, also be sure to consider technical product information, barcodes or QR codes. You should therefore devote sufficient attention to this stage. The print technique depends on the number of colours in your design and the cardboard type. Three common techniques can be distinguished:· Flexo printing supports all colour designs with four different basic colours (CMYK), possibly with two extra pantone colours, and possibly finished with a varnish. The plates are flexible, so that the machine can neatly print on the corrugated surface. It is still the most commonly used and most cost-effective print technique, especially for large print runs.· Digital printing is booming because it is the most flexible option, certainly for print runs below 2000 m2. The inks are more expensive, but the print can easily be customised. Ideal for startup business sectors, smaller runs or seasonal packaging designs.· Offset printing provides excellent print quality. However, the plates used are hard rather than flexible, so it is not suitable for all materials. Our experts will advise you in detail about the options. 5. Optimal palletisation and storage of your order Our sites are equipped with different machines so that the minimum order quantity varies strongly, but on average it is around 2000 m2. For smaller runs, for example, you could contact our display division or one of our specific sheet plants in the Benelux, France and Norway. Our experts will be happy to provide you with further details. How we will palletise and deliver your order depends on your logistic processes. Do you have sufficient space to store the goods or do you opt for storing them at one of our numerous warehouses? Do you prefer to work on a make-to-stock or on a make-to-order basis? Based on your desires, we also determine the pallet type, the stacking method and the type of strapping – possibly in combination with film - to keep everything neatly in place and sealed, where appropriate, as well as top protection of the pallet.

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Corrugated Post-Print Best Practices

Today, all manufacturing industries face challenges that require changes from past business practices. Twenty, even ten, years ago the consumer was a passive actor who accepted market proposals. Now the end-user is an informed and sophisticated consumer who seeks differentiation, personalization. Today’s consumer has a clear understanding of the supply chain and the value it brings to key aspects of packaging, such as the environment and sustainability. Companies seek greater efficiencies and more productive use of resources. Because of this, Consumer Packaged Goods (CPG) companies must produce better packaging while controlling their manufacturing costs and minimizing time loss and materials.Flexo's EvolutionThe flexographic industry is no stranger to this “new” reality and strives to reduce response times and provide packaging with greater shelf impact at competitive prices. All this PLUS the trend towards shorter runs as CPGs require their brand identity be maintained regardless of the region, the printing method, or the substrate. Successful converters have adapted to this new reality, by increasing production by establishing standard procedures, assuring adequate tools are available and providing constant training to their production staff. This allows successful converters to increase production with minimal cost increases.Why change what has been done for so many years? Because the needs of customers are changing!Evolution of the BoxThe corrugated box has also evolved from a means of product protection in shipping to an important sales tool. Even the simplest, one color box requires adequate legibility with barcodes or QR codes that are fundamental to the organization of inventories, selection, and distribution. With the great e-commerce boom, companies are forced to respond with customized boxes, while continuing to ensure highly efficient operations.Considering the above, we will discuss some practices for the press floor that can be implemented to improve efficiency and reduce errors for the post-print corrugated market.Before going to pressAfter proper plate processing (liquid resin, analog sheet, or digital sheet), it is necessary to inspect for defects and measure the plate with a micrometer to ensure the gauge and relief tolerances are within specification (Image 2). Any low point will cause printing failures and over-printing which affects the printed result AND the strength of the box. Additionally, the more consistent the gauge, the longer the life of the plate on press. The use of a Shore A calibrator will confirm that the hardness of the material is ideal for both the graphics to be printed and the substrate used (Image 3). Corrugated materials require low durometer from 25 to 40 Shore A. All instruments used must be properly maintained and calibrated following the manufacturer’s recommendations to ensure accurate and precise measurements.Image 2. Digital micrometer for reading the thickness of the plates. The plate should be supported on a table perfectly parallel to the floor and with a sufficient area to prevent movement. Source: FLEXOGRAPHY Principles &Practices. 5th Edition.Image 3. The Shore A gauge of durometer measures the penetration of its cone on a soft material. Source: FLEXOGRAPHY Principles & Practices. 5th Edition.Prior to mounting the plate, check the work order to confirm measurements of the box design, number of colors, plates per color, and other specs. Cutting the plates, whether manual or automated, must be precise, clean, and without burrs that impair adhesion to the carrier. Beveling the edges of the plate is highly recommended (Image 4). Beveled edges improve the contact area with the sealant and reduce the risks of the plate lifting during the production run. The polyester backing, as well as, the carrier must be thoroughly cleaned to remove any traces of dirt that may affect the application of the rigid mounting tape. Typically, when there is poor adhesion between these components, there are high areas that print with more pressure on the cardboard. After the placement of each plate on the plate roll, it is important that constant pressure is exerted with a rubber roller to improve adhesion and avoid bubbles. The plate mounting must not only guarantee an exact registration but also an even impression of each color.Image 4. Beveled edges and cut corners of a plate.RegistrationThere are different targets available for manual or automatic evaluation. The designer, mounting operator, and printer must agree with the type and location of the registration marks (Image 5) Everyone involved must understand how to use the marks to clearly communicate if a registration problem arises from design, mounting, or printing. Flexographic Image Reproduction Specifications & Tolerances (FIRST) supports the use of the Railroad Track Target which contains implicit measurements for lateral and circumferential adjustment thus avoiding the use of a measuring tape reducing the time required to achieve aligned images. The goal is to place the colored triangle on the centerline. These targets along with the traditional crosses should be placed in the four corners of the sheet. Image 5. The orientation of the register targets on the sheet. Source: Cordes PorcherOn pressOn press, organization and cleanliness are fundamental and necessary. A lean manufacturing mentality must be maintained following the basic principle of the 5s which focuses on how best to organize the workspace to maximize efficiency: sort, set in order, shine, standardize, and sustain. The tools and supplies should be easy to see, easy to obtain, and easy to return, guaranteeing only the materials needed for the print run will be on the press. PressA program of preventive maintenance should be agreed upon for the press with the personnel dedicated to this task: inking systems prepared and adjusted to provide the thickness of the desired ink film to the plate; rollers under concentricity, conicity and parallelism tolerances confirmed by the manufacturer; bearings and bushings in perfect condition and properly greased; register and material guidance controls; and drying units operating efficiently with the airflow itself. Negligence in maintaining these items and delayed replacement of worn items will result in problems of quality and productivity.AniloxAs for the ink film thickness, it is essential that the pressman knows their anilox. They must know the linescreen and volume, and the condition of the anilox. Although the change of anilox in a corrugated printing machine is relatively infrequent, a routine cleaning program must be carried out. Equipment that incorporates the recommended cleaning chemical is available to complete the cleaning on the machine. Likewise, an inventory audit must be carried out, relying on the manufacturer expertise.InkAnother critical element to control on press is the ink. Those used in the corrugated industry are water-based and require an alkaline pH (pH> 7.0) to keep the resin in solution. This is achieved through the incorporation of chemical substances such as amines that tend to evaporate during the run which reduces the pH and increases the viscosity. This causes variation in the color density, dirty impression as the ink accumulates on the plate due to a poor redisolubility, excessive generation of foam, and accumulation of paper fibers on the surface of the plate. To maintain consistency in the control of the color during printing, both pH and viscosity should be measured frequently and pH corrective solutions should be added to maintain stable ink properties. The addition of water reduces the pH and should be used with great care as the color strength can also be affected. Before making an adjustment in the viscosity, one must ensure that the pH is in the range recommended by the supplier (pH 8.5-9.5) (Image 6). Any measurement carried out must have adequate and regularly calibrated equipment and the ink temperature recorded. Image 6. The pH should be maintained in a range of +/- 0.3 during the print run to ensure a stable behavior of the ink. Source: Flexographic Image Reproduction Specifications & TolerancesOnce the plates are placed in the press, the next step is to confirm adequate inking through the appropriate adjustment of the pressures: anilox-to-plate and plate-to-substrate. First, verify the ink flow to the anilox is at its optimum level, the printing plate must be completely inked without excesses through the slow approach of the anilox. Then move the whole assembly towards the cardboard substrate. Confirm that the substrate has printed the entire plate and stop the adjustment at that moment. The anilox adjustment should be done first and last to avoid excess ink on the plate. The objective is to apply the lowest possible pressure that allows a consistent impression; excessive pressure will cause greater dot gain, premature wear of the plate, and considerable crushing of the board. Drag Targets can be useful to visually evaluate excess pressure depending on the pattern shown in each one (Image 7). If a more objective evaluation is desired, the inclusion of control strips with different dot percentages will allow the reading of the dot gain experienced by each: a minimum point patch, quarter-tone, halftone, shadows, and solid block would be a good sample for process control. Regardless of the target used, they must be placed on both sides of the press to ensure the parallelism of the rolls. The values must be correlated with those established during the press fingerprint test to confirm if a certain value read with the densitometer confirms or rules out an over impression.Image 7. Impression targets: circular (anilox/plate) and hexagonal (plate/substrate). Source: Flexographic Image Reproduction Specifications & Tolerances.Plate CleaningDuring the press run and at the end of the run, cleaning processes must be carried out on the plates which can extend their useful life. Immediately after the production ends, clean the plates to prevent the ink from drying completely. A brush with soft and fine bristles (nylon or natural fiber) or a suitable sponge must be used for this operation; never use brushes with metal bristles or rough cloths. Moisten the plate with a cleaning solution prior to brushing it; a solution of lukewarm water with an alkaline pH (> 9.0) works well to remove the ink from the surface. When in doubt contact the supplier to develop a swell test under the established protocols and determine the variation of caliber and hardness using a small sample of the plate. It is not necessary to aggressively brush the plate as excess pressure can damage the surface. During brushing, apply generous amounts of the cleaning solution to keep the surface moist and avoid scratching. Improperly cleaned plates can stick together, develop surface cracks, and become more difficult to clean for reuse. After cleaning, dry the plate with an absorbent soft paper or forced air to remove residual water.Plate StorageFinally, store the plates vertically. The storage area should not exceed 100°F (38°C) and should be located away from ozone generating sources such as motors that generate electrical discharges and energy sources. Keep the plates in an environment free of dust, keep them dry, and at room temperature. Protect plates from exposure to direct light sources that can cause softening, brittleness, and discoloration.Image 8. The protection of the plates to UV light will prolong their useful life. Avoid direct exposure using filters.ConclusionUndoubtedly, there are more areas that can be considered but the most important thing is to understand the variables, control them, and rely on suppliers to define standard operating parameters in each of their areas of responsibility. Knowing the capabilities of the printing system is critical through press fingerprint tests to make consistent designs. However, the capacities of the personnel of each area and the processes that are carried out day after day must also be reviewed. The best printing equipment may not provide the expected results if employees are neither properly trained nor empowered to implement procedures to make their work more efficient. The objective is not to work harder but to work smarter, and this is where the company that adapts best manufacturing practices will maintain a differentiated position in the market.

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Preventive maintenance of corrugated cardboard production line

Carton enterprises pay great attention to the prevention of corrugated board production line equipment and maintenance. Corrugated board production line of preventive maintenance of the goal is to prevent equipment failure. Preventive maintenance can protect and enhance equipment reliability by replacing worn parts prior to failure of parts and equipment. Preventive maintenance activities include equipment inspection, whole or local inspection, replacement of oil, lubrication, etc.. In addition, workers can record equipment wear, in order to cause parts of the system before the problem, clear need to replace, repair and wear parts. Recently, advances in testing and diagnostic tool technology have helped carton companies maintain equipment accurately and efficiently. Value of preventive maintenance Preventive maintenance said there are a lot of misunderstanding. One is that the high cost of preventive maintenance. According to this logic, preventive maintenance than regular shutdown and maintenance costs even higher, that is, the cost of maintenance than the equipment after the failure to be high. In some parts, indeed. However, it is necessary to compare not only the cost but also the long-term profit and cost savings due to preventive maintenance. For example, if there is no preventive maintenance, losses resulting from unplanned downtime can occur. In addition, preventive maintenance will be due to the improvement of production efficiency and equipment during the use of cost savings. Preventive maintenance to bring long-term benefitsImprove the reliability of the system；Reduce the cost of the replacement part loss；Reduce system downtime；Spare parts inventory management； From long-term impact and cost comparison, preventive maintenance is more meaningful than routine maintenance when equipment failure occurs. When to carry out preventive maintenance? Only when meet the following two conditions, to carry out preventive maintenance is meaningful:A: fault problem element rate. In other words, the failure rate of the component is increased, which means wear and tear. However, preventive maintenance is meaningless if the failure rate of an element is too high (reflected by exponential distribution). Two conditions: the total cost of preventive maintenance activities should be lower than the total cost of maintenance and maintenance. Pay attention to maintenance maintenance costs, including visible and invisible costs, such as downtime loss, production time loss, lost credibility, etc.. If meet two conditions, preventive maintenance is meaningful. In addition, according to the cost ratio, the best time for preventive maintenance of individual parts can be calculated by computer. Preventive maintenance requirements should focus on each machine each parts, maintenance according to plan. Usually, refer to the machine manufacturer to provide a list of specific maintenance tasks and common fault problems. Each maintenance supervisor shall organize these tasks in the framework consistent with the plant procedures and plans. Sometimes, maintenance supervisors may be different from machine manufacturers in judging tasks and plans. The maintenance of equipment failure, relies heavily on the maintenance personnel supervision skills. Therefore, must establish the document database for all these processes. That is, to create a computer program to store all this information and guide the maintenance of the machine. To some extent, preventive maintenance work professional requirements, the need for trained technicians to competent. Electronic control work especially to technicians to complete. The maintenance supervisor responsibility is not small, to carry out training and appropriate task assignment of machine maintenance personnel.Corrugated carton production equipment industry and other industries as equipment is so complex and difficult to serve". A typical maintenance of good processing equipment, in principle, as long as the use of high-quality raw materials: corrugated cardboard, printing plate, die cutting mold and ink will be able to process high quality carton products day and night. When the factory production deviates from the normal operation plan, the use of old equipment, damaged plate and mold, of course, will lead to product quality problems. Worn bearings, gears, rollers and other machinery is the root cause of the landslide mass.

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Ten solutions of waterproof and moistureproof for corrugated box

Corrugated boxes have been criticized by the market for their poor water and moisture resistance. Especially in recent years, the market scale of cold chain packaging such as fresh ice meat, fruits and vegetables, medicine and so on has become larger and larger. The corrugated packaging industry urgently needs to fundamentally solve the problem that the box packaging is easy to collapse after being damped.01. Heavy sizing box boardIn the paper-making process of box board paper, the surface of the box board paper is heavily sized to ensure that the water drop is not penetrated within 5 minutes. Usually a large number of water-resistant additives are added to starch paste, such as urea formaldehyde resin, melamine formaldehyde resin, polyvinyl butyral, etc. But the cost of the water-resistant agent is high, and it is easy to cause problems such as uncoating in the production process of corrugated board.02. Coated paperCoated paper is a kind of composite material that coated plastic particles on the surface of paper by tape casting machine. Its main characteristics are oil proof, water-proof (relative) and heat sealing. However, due to the high cost, it is not conducive to widespread use in the packaging industry. 03. Drain corrugated boardIt refers to the process of coating low surface energy substances such as polylactic acid (PLA), polyolefin, polycarbonate, polyamide, polyester, molten paraffin on the surface of paperboard to change the surface roughness and surface morphology of the material. When the hydrophobic corrugated board is subjected to water drenching, a state of water drop on the lotus leaf is formed, and the water becomes water drop to slide down, without seeping into the inside of the board. The cost is very low, suitable for packing dry powder goods, especially the powder which is easy to agglomerate after absorbing water. It is also suitable for packing the goods that often go in and out of the cold storage. It is easy to condense on the box wall after being taken out of the cold storage. After hydrophobic processing, the paper board will not significantly reduce the compressive strength before the dew evaporation, which can effectively protect the goods.04. Waterproof corrugated boardAlso known as waterproof or water retaining corrugated board, its surface is almost impervious to water for a long time, but it cannot be immersed in water, otherwise it will lose its waterproof performance. Water blocking corrugated board is often used curtain coating method. The melted synthetic resin or paraffin mixture is coated on the surface of corrugated board to form a layer of resin film or wax film. If necessary, double-sided coating can also be carried out. Water blocking corrugated board is mainly used for packaging salted products, frozen food and fruits and vegetables. Because of the soft paraffin layer on the surface of corrugated board, it is also suitable for packaging high finish furniture, piano, safe and precision machinery, which are easy to scratch.www.chinacartonmachine.com05. Water resistant corrugated boardWater resistant corrugated board is a kind of paper whose strength is not obviously reduced after long-term immersion in water. There are two kinds of equipment and technology for producing water-resistant corrugated board. Its processing principle is similar to that of impregnation. Water resistant corrugated board can be measured by instrument. The so-called water resistance is that the corrugated board is immersed in water (20 ± 2 ℃ tap water) for 30mm, soaked for 1h, and then tested for its breaking resistance and edge pressure strength. The residual strength is required to be no less than 75% of the standard strength (before immersion).Water resistant corrugated boxes are used to carry live fish, seafood and a class of commodities with high water content. However, the recycling of such cartons is difficult, and the EU has restricted their use.06. Surface polish corrugated boxPolishing is a common process for post press processing of packaging products. After the product surface is polished and coated, it can enhance the water resistance, sun resistance, friction resistance and pollution resistance of the printed products. At the same time, it can also improve the surface brightness of the products and greatly improve the quality of the products.The polishing process of the corrugated box is usually that the surface paper is pre printed and polished, and then mounted into the corrugated board, and then die-cut into the carton. It can also polish the surface of corrugated board directly, but the waterproof effect is not good, and it may damage the compression resistance of the carton.07. Surface coated corrugated boxLaminating is the process of covering plastic film such as polypropylene on the surface of printed matter, and using adhesive to make it stick together after heating and pressure. Lamination technology is divided into pre coating and instant coating. After the color box is covered with film, the surface is bright, resistant to friction, with certain waterproof effect, and the folding box is not easy to crack. However, it is difficult to recycle and use the products, and the United States, Europe and other countries have restricted their use.08. Aluminum coated kraft boardToyo Steel Co., Ltd. has developed a 0.02mm ~ 0.05mm thick pure iron foil, which is treated by galvanizing, nickel or tin antirust, and extruded together with kraft paper and polyethylene film to make composite paperboard. It is used for making cartons, not only waterproof and moisture-proof, but also shielding electromagnetic wave and static electricity. It is especially suitable for packaging of aquatic products, fruits and vegetables, electronic instruments, semiconductor devices and electromechanical products 。 After compounding the aluminized PVC film and kraft paper, the cartons are made, which also have the functions of waterproof and moisture-proof.09. Corrugated paste added with water-resistant agent cartonIn the production process of corrugated board, a proper amount of high molecular polymer (also known as crosslinking agent or bridging agent) is added into the starch adhesive, which will replace the hydroxyl group in the starch molecule, making the corrugated paste line have better waterproof and moisture-proof effect. When the carton enters the cold storage or humid environment, it can prevent the collapse of the carton due to the moisture absorption and emulsification of the corrugated paste line.As for the often publicized products that can improve the bonding effect of cardboard and enhance the stability of bonding, there are some exaggerations.10. Carton vent is moisture-proofFor the products with heat degree in the packaging of beer, a certain amount of hot steam formed in the box may be absorbed by the box, and then the compressive strength will decrease. In view of these situations, the common practice is to punch two 18 mm diameter air holes respectively on the proper position of the side mark of the carton.

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What carton machinery and equipment are needed to establish the carton factory

There are a lot of equipment used to process the carton, according to different types of different division of labor, the production and processing efficiency is higher. What carton packaging machinery and equipment should be required to build the new carton? Here to briefly introduce some.Paper cutting machine: there are ordinary paper indentation machine and thin knife paper cutting machine two, the difference is that the former economic flexibility is high, manual operation. The microcomputer machine, electric and manual control machine, paper cutting flat without explosive force, high accuracy, general with leveling device, after the formation of the indentation, easy folding, is not easy to burst pressure or pressure strengthening core paper and so on.Printing ink: is divided into monochrome, two-color, three, four or six, but the difference is more group printing drum. Due to the fine print, clear lines, rich color, low cost, environmental protection and other advantages, the ink ink printing machine has been widely used.Corner cutting and groove cutting machine: This is the cardboard carton of key equipment, cutting angle is the carton adhesive is produced from a cardboard, slot is according to the size of production from a single flat cardboard separation length and width of the distance, from open space out, convenient in carton sealing and folding machine can be divided into a manual, semi-automatic and fully automatic.Nail box machine: common carton in the side has a copper or silver double nail or single screw, arranged in a certain distance and orderly, staples like nails, that is nail box machine to play, the purpose is to put the nail carton into a square.Visco box machine: a mechanical device is gradually became popular a kind of equipment, mainly Europe and the United States for the metals require strict, high environmental protection requirements, some foreign trade export cartons are the glue bonding, at present this kind of equipment have semi automatic and automatic type, suitable for carton used in single pit and pit and equipment adjust speed, get started quickly, instead of manual stick box to improve the effectiveness of such advantages.Now the mechanical equipment is needed to pass through the reasonable use to make the carton production more efficient, with the rapid development of mechanical, more machinery and equipment is beginning to emerge, which makes the machinery industry has also been more attention and rapid development.

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How to address poor gluing（Glue is presenting white color）

We need to understand its principle. In fact, the most direct reaction of the glue being white is because of your gelatinization temperature. your glue gelates too quickly, before it gets on the cardboard, it is already dry. So, the first reason is that the temperature does not match the gelatinization temperature of the glue. For example, your speed is too fast or the steam pressure is too low you can’t reach the gelatinization process, and then go in, it will melt inside.The second reason is weather influence, for example the glue formula fails to be adjusted timely. This situation is obviously manifested in summer, because it is easy for us to dry immediately in summer, but in winter, the gelatinization temperature of our glue can't reach in half a day, so it is because these basic reasons will cause no gelatinization to enter again, and then become white.The third reason is the abnormal flow of our steam pipe valve and water drainage, which caused your insufficient heating, we did not gelate in time in the first step. So, our point is to form our own glue formula system to cope with different climatic conditions, as long as our temperature changes, we need to use different formulas to make glue.

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Solutions for Corrugating Board Production Line Defects

Hello everyone, welcome to watch the CORRFACE video about the professional knowledge in corrugated industry. Today we mainly talk about the corrugator line defect solutions. Corrugator line is what we call the production line. In the the production line, we often encounter many defects, such as degluing and rippling. So now let us focus on the solutions for corrugator line defects through this video.First, let me introduce myself. I have 25 years of experience in corrugated industry. I used to focus on factory planning & production techniques in corrugated cardboard sector. Now I am a executive director in Hangzhou Packgroup. I served as co-president of Huayin, a well-known Chinese media platform, which engaged in the development of professional training in the Chinese market. Packgroup.net is a connectivity platform for packaging industry. Currently, it is importing and exporting of base paper and carton at home and aboard. Today through CORRFACE platform, we share with you our professional knowledge accumulated over the years in China's corrugated cardboard industry.From corrugator line defects, mainly focus on seven aspects:The first one is poor adhesion and its solutions.The second one is bad quality of liner and its solutions.The third one is poor bottom paper and its solutions.The fourth is inaccurate cardboard size and its solutions.The fifth is uneven cardboard, that is warping.The sixth is solutions for cardboard strength failure.The seventh is general solutions for production techniques.So our course is solved from seven parts.In this section, we describe how to address poor gluing. The poor gluing is mainly including five aspects:The first one is no glue.The second : with glue but have several types of poor performance through the glue line testing.The third: the middle layer of double wall degluing.The fourth: high-weight cardboard is easy to edge deguling.The last one is difference between drive side and operational side that causes degluing.About the five poor gluing performance, we describe the first poor gluing performance. Look at this picture, we can see that the poor gluing is mainly judged by the glue line. This is the glue line after tearing cardboard. The easiest way to see the glue line is to soak the cardboard and then soak it with iodine to make the glue line appear streaked. And why use iodine? The principle is simple. Because it reacts with blue color when meets the alkali in the glue. So we can clearly see the width of the glue line.Firstly let's we talk with no glue. In this case of no glue, on the one hand, it obviously that misoperation of the glue plate, and there is no glue from glue plate.Other misoperation is glue volume and paper type unmatched. For example, The kraftliner is very thick and its density is high, so the permeability of the glue is not enough, then the viscosity of the glue is too low will cause unmatched and cannot be glued.On the other hand, it is machinery problem. For example, loading roll not press. About loading roll, we will talk about it detailedly in the "Five-Roller Principle" later. So now I will briefly explain it. Look at this simple diagram , there is the gumming roller, the corrugated paper runs into gumming roller with glue. There will be a pressure above. That is loading roll. If loading roll not press, it will be resulting no glue or insufficient glue on corrugated paper.What's more, the gap between glue roll and corrugating roll in single facer is too large. There are glue roller and corrugating roller on the single facer, and the paper also passes through the middle of glue roller and corrugating roller. In this case, because the gap is too large to be glued. Basically, from the diagram can simply describe the machinery problem, resulting no glue or insufficient glue on gluing side. And the solution is simple. In view of our operating mistakes, check if there is glue on the glue tray. If the glue formula is different, forming own gluing system based on actual situation. Generally, the glue formula can be prepared in the testing stage. The third one is machinery problem. Forming calibration system, regularly adjust loading roll gap and gap between gumming roll and glue roll to form a standard.The second poor gluing performance is that there is glue from the glue line. But there is also deguling as soon as it is opened. There are three judgment from glue color. The first one, glue is presenting white color. The second one, glue is presenting golden yellow. The last one, glue is presenting faint yellow. So we need to analyze the cause of the problem and its solution based on the glue color.First let’s talk about glue is presenting white color. And so first you have to understand why glue is white.

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Washboarding of Corrugated Cardboard

The success of any packaging is linked closely to its appearance. The global market leads to stronger competition and more similar products to be offered to potential buyers. The appearance of the packaging is the one opportunity to make your product stand out from all the others. Corrugated can deliver a powerful message while offering flexibility in design and concept of the packaging for your products. In addition lamination, printing and labeling can give additional value to your packaging.Washboard effect and fluting defects on packaging is a message about the quality of the product itself.Corrugated offers several unique advantages compared to other materials. Corrugated is high in strength while low in weight. High volumetric efficiency is achieved through high stacking strength and compact, flat size for transportation. It is flexible in box design, low cost even in low volume production and environmentally friendly. Corrugated offers excellent protection for the product whether used as simple shipping container or as a consumer presentation package.You can print on corrugated. But printed corrugated often shows a fluting defect, a consequence of the washboard effect on the liner of the corrugated.The washboard effect, an undulating surface of corrugated card board, is an undesired effect resulting from the corrugated cardboard manufacturing process. The washboard effect can also be seen on corrugated board before printing. Fluting defects are the combination of washboard effects and printing problems including gloss variations, dot gain variations, density variations and trapping variations.Relationship between amount of glueand washboard effectCorrugated board is produced by applying glue to the peaks of the flutes and bonding them to the liner. As the glue dries it shrinks, stretching the liner into the valley between two flutes. The more glue applied, the more water has to evaporate, the more the liner will be stretched, the more washboard effect will appear. There exists a linear relationship between the amount of glue and washboard effect.The moisture content of the air, the paper, and the glue influence the quality of the finished product. High atmospheric humidity, high moisture content in the paper fiber, and high moisture content in the glue will swell the cardboard and reduce the amount of glue applied to the construction. There is a linear relationship between water content and washboard effect: the higher the water content, the lower the washboard effect is.Relationship between moistureand washboard effectThere is a limit in applying water to the process, however. The water needs to evaporate during drying, thus slowing down the process and occasionally damaging the cardboard surface. Side effects like Cockling or Honeycomb may appear when the water content is too high. Cockling and Honeycomb effect due to excessive moistureBecause every corrugator differs in size, age, components involved, format, and many other parameters, it is essential to find the optimal settings to control the process and to keep the process constant.Process variations and washboard effect can lead to high costs because of waste, idle machine time, discussions with customers, additional bad quality rebates, and loss of image.A simple number, quantifying the washboard effect in a repeatable, easy to understand manner is needed. As in other applications such as color or density control, this number can be used in contracts. Agreements about the quality can be easily defined.To meet this requirement Beta Industries introduces the BetaCorr – Corrugated Checker. The BetaCorr is a camera based, hand-held tool that measures the surface of corrugated in a noncontact manner. In a few seconds the microscopic undulations of the surface are analyzed over approximately 1.6 inches taking more than 6,000 depth measurements. The resulting washboard effect is summarized in the WBE value and displayed with a resolution of 1μm.For the first time in the world, the BetaCorr enables you to measure your cardboard directly as it comes out of the processing line. There is no need to prepare samples for measurement. Simply place the device onto the surface and start to measure. If the resulting WBE is higher than allowed, corrective actions can be taken immediately.Preliminary testing in real-world applications is showing an excellent correlation with the visual appearance. Depending on the application and the corrugated composition, different target WBE numbers are typically used. An objective measurement tool for washboard effect will allow you to define your quality parameters upfront, as is done for most other production parameters.

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Comparative Analysis of Preheater Wrap Control System

A corrugator line should be equipped with multiple preheaters, both single cylinder preheater and multiple preheater. Among them:Medium quality control cylinderBefore the paper feeding into the single facer, plus steam spraying equipment;Linerboard preheaterTo adjust the angle-wrap of paper web before the paper enters the single facer;Multiple preheaterTo heat single corrugator and linerboard before the paper web is fed into the double-sided machine;In the production process of three-layer and five-layer corrugated board, if there is a problem of applying glue, the solution is: through the other direction into the preheater for reverse preheating, that is, to heat the other side of the paper and reverse removal of paper moisture.Usually, a three-layer cardboard production line (one set of single facer) should be equipped with two preheater groups, and a five-layer cardboard production line (two sets of single facer) should be equipped with three preheater groups. If a single facer needs to run a large amount of heavy kraft paper at high speed (more than 350 grams/square meters), equipped with three preheater groups will also play a good role. Seven-layer board production line, heavy duty corrugated board production line can have up to five preheater groups, so that the angle-wrap is more diversified.▲Seven-layer board production line, heavy duty corrugated board production line can have up to five preheater groups, so that the angle-wrap is more diversified.On the preheater, the smaller the angle between the angle-wrap adjusting roll and the paper guide roll, the smaller the contact area between the paper width and the drum dryer; The larger the angle between the angle-wrap regulating roll and the paper guide roll, the larger the contact area between the paper width and the drum dryer. Because the preheater to balance the humidity and moisture content of the base paper, to ensure the smooth production of cardboard, so the preheater has to maximize the angle-wrap adjustment, in order to timely change the heating area of paper web on the drum dryer.▲Comparison diagram of wrap control systemIf the preheater has an encoder interface connected to the production pipe, it can automatically control the angle-wrap——the angle-wrap can be automatically adjusted according to the speed and paper quality, and the length of angle wrap can be calculated automatically. If the preheater does not have an encoder interface to the pipe, the operator manually adjust the angle-wrap. Depending on the operator's personal experience to adjust the size of the angle-wrap is very easy to cause the paper web too wet or too dry, resulting in the production quality of the subsequent process.Comparative analysis of advantages and disadvantages of angle-wrap control system(Table 1)Table 1:Comparative analysis of advantages and disadvantages of angle-wrap control systemIn addition, the current drum dryer of preheated in the market is generally fixed. But equipment suppliers have also developed more advanced configurations that allow the durm dryer to rotate. If the preheater drum dryer can rotate, the surface area of the drum dryer in contact with the paper will no longer be fixed, which is conducive to the uniform use of steam in the drum dryer, on the other hand, it can be more energy saving.

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Cracking a Sticky Problem: How to Prevent Cracked Scores & Bubbling on Corrugated Board during Litho-Lamination

In the beginning, there were kraft and white boxes with flexographic printing. Then, in the 1980s, the growing influence of big-box retailers forever changed corrugated converting. Instead of hiring sales people, big-box retailers demanded that the corrugated box stand out with a sleek, high-quality graphic that attracted attention and provided sales information to customers. As a result, litho-laminated packaging emerged as a major player in the corrugated industry.For sheet plants, transitioning to litholamination presents opportunities to get into new markets, but it also comes with a few sticky challenges. The process of laminating (gluing) a printed litho-label to double-face corrugated board and then diecutting it can result in cracking on scores during the converting process. And if not applied properly, litholabels can bubble and not lay flat on the board.By taking some relatively easy steps, these problems can be avoided, keeping customers, sales forces and production departments happy; and projects on schedule and most importantly, on budget.There are many potential causes for cracking on scores after a litho-labeled corrugated box is die cut. But one of the primary reasons is also the one most overlooked: glue. A $15,000 litho-label order can be ruined by using $100 of the wrong kind of glue. RESIN AND HYBRID OPTIONSThe most common mistake is using dextrin glue which crystallizes when dried putting additional pressure on the back of the litholabel which leads to score cracking.One solution is to use resin glue. Unlike dextrin, resin glue dries as a pliable film and this reduces the pressure on paper when the score is folded. However, compared to dextrin, resin glue is twice the cost per pound, and it attacks rubber which increases maintenance on laminators.While many sheet plants have already switched from dextrin to resin, there’s a third choice - hybrid glues that have the advantage of both. Like resin, hybrid glue dries as a soft, pliable film; and like dextrin, hybrids are gentle on rubber. There are glue suppliers that have formulated hybrids specifically for litholamination.The cost issue becomes immaterial when you do the math. Do you know how many pounds of glue you use per thousand square feet (MSF)? Chances are you don’t. Few companies weigh the glue tote before and after running a job, and then calculate the MSF through the laminator to determine their usage. In fact, many companies allow laminator operators to use whatever amount of glue they feel is appropriate.Monitoring and controlling the spread rate of glue is vital and should be a part of your production methods. The correct usage of dextrin is a spread rate of 10#/ MSF. For hybrids it can be as low as 6#/MSF. The difference in yields doesn’t completely negate the price difference per pound, but it’s less than $1.50 per MSF, and in most cases, it’s about 50 cents per MSF.A cost increase of $1.50 per MSF for eliminating score cracking is an easy call. One of our sheet plate customers was losing $4,700 in rejected product every time they ran a particular job. After months of trial and error, they consulted with a glue vendor. The cracking on scores disappeared as soon as they switched to the right glue formulated for their Automat?n litho-laminator.While score cracking can be caused by other issues, such as increased recycle content and low-moisture content of the litho-label, glue is the one component that is easy to control both from the type you purchase to the amount you apply.A checklist to prevent score cracking includes:· the right paper· the correct scoring rule· hitting the die board on the correct side· always using matrix *· using low flute profiles· labels with the correct moisture content· storing and using litho-labels in a humidity-controlled environment· resin or hybrid glueBUBBLES, BUMPS AND HUMPSThe problem of bubbling during litholamination tends to occur under areas with heavy ink coverage of dark color (blues and/or black). The cause relates to the affect of liquid on paper fibers. Technically, this is called “hygroexpansivity” - the degree that an increase in moisture content causes fibers to swell, forcing the sheet to expand. After liquid dries, the fiber size decreases, but remains larger than its original size.Think of spilled coffee on paper. After it dries, the paper is rippled due to the fibers’ expansion. If heavy ink areas are surrounded by areas with lighter ink coverage, such as a white border around the edge of the sheet, the fiber growth is manifested by a hump or bubble causing the paper to lift off the surface of the corrugated board after the application of glue.To satisfy customers and achieve what the graphic arts industry calls “rich blacks,” the lithographic printing process usually dictates that dark inks be printed on top of other ink. Similar to flexographic inks, lithographic inks are transparent. In areas with large areas of dark colors the total ink coverage can be 280 percent just shy of three hits. This causes the fiber to grow under these areas. If you examine your laminator while the bubbling is occurring, you’ll notice that initially the litho-label is flat, but over the next few seconds it rises up and forms a bubble. When you cut the area, there’s wet glue under the bubble. The good news is that the solution is inexpensive and simple: a fast-setting glue with a short “open time”-the length of time between the application of glue to the label and when fiber pull-out occurs. If you are using an Automat?n, the open time should be as short as five seconds.

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Crack Prevention in Corrugated Paper Boards

IntroductionPackaging boxes are made by creasing and folding corru-gated board to impart stiffness. For proper folding of corru-gated board, neat fold lines (creases) are required to be cre-ated. These creases weaken the section along the fold line to facilitate a neat fold.A schematic of the creasing process is shown in the figure below.ProblemsThe top liner cracks during creasing if the crease is too deep.The bottom liner cracks during folding if the crease is too shallow.Paper is highly sensitive to temperature and humidity.Fiber orientations of paper vary even in its width.Project GoalPrevent cracking of corrugated board during creasing and folding operations. This shall be accomplished by:Thoroughly understanding the mechanical behavior of corrugated boards.Modifying the current creasing and folding process to prevent cracking of corrugated paper boards.Experiments and Finite Element SimulationThe experimental creasing test setup consists of a corrugated board held firmly against an anvil, on which a creaser (knife) indents a crease. The creasing test setup is shown below:The finite element model for the creasing simulation is shown in figure below:ResultsThe experimental load-displacement curve for the creasing process along with the simulation is shown below:The finite element simulation for creasing process is in good qualitative agreement with experimental observations. How-ever, quantitatively, the simulation deviates from experi-ments, specially in the post-buckling regime.ConclusionsPaper, the constituent material of corrugated boards is me-chanically characterized. The creasing process can be sim-ulated well in a finite element analysis framework. How-ever, more accurate characterization of paper is required and micro-mechanical model for cracking in paper is required to be developed.

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9 Corrugated Box Testing Methods to Ensure Packaging Quality

Corrugated Box Testing Methods:1. Bursting Strength Test2. Edge Crush Test 2 Single3. Water Resistance of the Gluing4. Cobb Sizing Tester5. Paper Grammage and Thickness6. Puncture Resistance7. Scuff Resistance Test8. Box Compression Test9. Chemical Analysis in Corrugated Box TestingAs per FICCI, cardboard products make up more than 30% of the packaging industry. That’s because corrugated boxes are pretty popular. Regular slotted containers, for example, are one of the most widely used types of boxes for shipping and storage. Corrugated cartons are low cost, durable, and eco-friendly. However, not all boxes are made equal. That is to say, they vary a lot in terms of compressive strength, thickness, chemical resistance, and other factors.You’ll need to know this when you have to choose a suitable corrugated box for your packaging needs. The cardboard strength and construction directly impact the amount of weight a box can carry. A box too weak might puncture or collapse. On the other hand, an excessive box means you pay extra for material and add to environmental wastage.To determine how corrugated boxes hold up against external influences — so as to help you make an informed decision when picking boxes — manufacturers use multiple testing procedures. Here’s a round-up of common corrugated box testing methods used to check the strength of corrugated boxes. #1– Bursting Strength TestWHAT: Test box strength when subjected to pressureWHY: To determine exact weight a box can carry, rough handlingThe Mullen Test or Bursting Strength Test checks the toughness of the walls of the corrugated board when subjected to force or pressure. In this testing procedure, a rubber diaphragm is used to apply pressure to the walls of the corrugated box until it bursts. The diaphragm is expanded using hydraulics and as the diaphragm expands, the corrugated board bursts under pressure.We measure the bursting strength in Kilograms per square centimetre. The Bursting factor is given as a thousand times the bursting strength, divided by the grammage of the board.Bursting factor = Bursting strength (kg/cm2) x 1000/Grammage (gm/m2)#2 – Edge Crush TestWHAT: Cross-direction crushing of a corrugated boardWHY: To test material quality, stacking strength, pallet shipping enduranceOne of the most popular methods to test the stacking strength of corrugated boxes is the Edge Crush Test or ECT. Every side of a corrugated box is made up of sheets that have three or more layers. Generally, a thin sheet with grooves and ridges is sandwiched between two flat sheets. These grooves and ridges, also known as flutes, provide anisotropic strength to a box. This means the boxes can bear a greater amount of force from one direction. Edge crush test, right test, or flat crush test helps determine this. In the Edge Crush test, force is applied to one side of the box, perpendicular to the ridges, until the box gets crushed. In the Ring Crush test, a ring cut out from the box is used to test the same. While in the flat crush test, excessive force is applied on one side. The results of the Edge Crush test are measured in pounds per lineal inch of load-bearing edge but represented as ECT.Reference: Standford UniversityECT gives you an accurate idea of a box’s strength when they are stacked and shipped by pallets. Also, an ECT rated corrugated box uses less material than its equivalent Burst Test rated box, to provide an equivalent level of strength. This means it’s cheaper and less wasteful to purchase ECT rated boxes in bulk.However, it is important to know that the above results (overall strength of a box) may vary based on the makeup of each corrugated sheet. Hence, knowing the type of corrugation is important before you make a decision.#3 – Water Resistance of the GluingWHAT: Test water-resistance of the glue lines of a corrugated boardWHY: To test the impact of climatic conditions, moisture permeability, water absorptionEven though the fiberboard itself can absorb and retain water, testing the water-resistance of gluing or sealing is also important. For certain applications, the FEFCO 9standard is used to test the water-resistance of the gluing of the corrugated cardboard boxes.In this type of test, the corrugated board is immersed in water while exposing the glue lines to check for bond strength and water absorption.#4 – Cobb Sizing TesterWHAT: Check water resistance and measure weight increase when exposed to water WHY: To test the quality of the box, porosityThe raw material that is used in the manufacture of corrugated fiberboards has a tendency to absorb water and retain it. The Cobb Sizing tester is used to the degree to which water is absorbed. In this test, corrugated fiberboard is first subjected to water. Then, the water is squeezed out of the sample using pressure. Usually, depending on the quality, all of the water is not removed in spite of the board being pressed by a heavy steel roller. The difference in weight because of the retained water is known as the Cobb value.The lower the Cobb value the better the water resistance. The Cobb test is required for certain certifications, especially those involving hazardous material packaging.#5 – Paper Grammage and ThicknessWHAT: Test the areal density and thicknessWHY: To test box quality and rigidityGrammage and thickness are the two most fundamental properties of the corrugated fiberboards that determine the quality of the box. There is no “best” grammage or thickness mentioned in corrugated boxes specifications and it is completely based on your requirements. When more padding is required, a box with a higher thickness is used. The flutes of the corrugated board are larger and pack more air in them. Thin boards with dense flutes have a high grammage. Such boxes are needed when the packaging should be more compact and rigid.Image Courtesy: Shanghai GLThickness is usually measured in (millimetres) mm and grammage is expressed in terms of grams per square meter (g/m2).Thinner boards are easier to fold, lighter, and more suitable when it comes to printing or detailing. Thicker ones are more sturdy and appropriate for heavy-duty shipping. Usually, the type of flute (A, B, C, E, or F) determines the cardboard strength with C being the most common (4.0mm).#6 – Puncture ResistanceWHAT: Test resistance to penetration by sharp, solid objectsWHY: To test cardboard strength and sturdiness during transportationPuncture resistance tests how well the box can handle the impact made with a pyramid or triangularly shaped weight. The corrugated box testing standards for puncture resistance include FEFCO 5 or ISO 3036.#7 – Scuff Resistance TestWHAT: Check durability of printed or painted boxes to resist abrasionWHY: To ensure printed text on cardboard box can sustain rubbing, wearingPrinting is an integral part of packaging. With different types of printing methods being used, it’s important to check how well labels or prints can handle scuffing or abrasion. For this purpose, scuff resistance or rub proof tests are employed. There is the Sutherland Rub Test, which is an industry-standard testing procedure. Coated surfaces such as paper, films, paperboards and all other printed materials are tested using this procedure.Alternative corrugated box testing methods are also available to test resistance to abrasion. These include rotary abrasion testers and even manual wiping. Scuff Resistance test is especially important for pharmaceutical or medical industries where label legibility is of prime importance. #8 – Box Compression TestWHAT: Test compressive strength of a corrugated boxWHY: To measure the stacking strength of a pallet loadBox compression test, also known as container compression test, is a way to test how much load the box can take on top of it before it gets deformed and the extent to which it gets deformed. It gives us a good idea of how many boxes can be stacked together without damaging the contents of the lowermost box. This test is crucial to check the strength of boxes and is required by most industries transporting boxes in bulk.Image Courtesy: Testing InstrumentsThe boxes are tested in different orientations. If the box design makes use of inner supports, such as wood support or corrugated board cushioning, then such factors are also taken into account.The compressive strength of a corrugated box can also be calculated using the McKee formula where the Edge Crush Test (ECT), Caliper or corrugated board thickness (CBT) and box perimeter (P) values are taken into account.As per the McKee formula: Compression Strength = 5.874 * ECT * CBT0.508 * P0.492#9 – Chemical Analysis in Corrugated Box TestingWHAT: Test resistance of box to chemicalsWHY: To check product formulation and regulatory complianceChemical analysis is required for certain applications where the nature of fiberboard, as well as its resistance to certain chemicals, are checked. The analysis of the fiberboard involves microscopic examination of the board to see what types of paper are used to make the fiberboard. Moreover, the moisture content, as well as the pH of the board, is also determined.Picking the Right Box for Your NeedsCorrugated box testing procedures help you determine the right kind of box for your business requirements. Most boxes carry a Box Maker’s Certificate stamp that lists specifications and box strength.For example, the ECT value lets you calculate the amount of weight a package can carry. Or, the Box Compression Test helps determine stacking strength that’s especially important when shipping and transportation. Take time to find the perfect box. It can save you a lot of costs and lower material wastage.

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Make glue line analysis part of your quality control routine

This quick and easy test procedure can help you keep tabs on adhesive application and common machine issues Soaking board apart and then staining it with iodine remains one of the most useful diagnostic tools at the disposal of the corrugator crew. It is easy to do, doesn’t require a lot of training to interpret the results and can help pinpoint many common machine or operational problems quickly. The test results can even be recorded photographically for later interpretation or comparison.This test works because iodine turns starch purple. Since corrugating adhesive is starch based, the purple stains reveal where adhesive has been applied.Be aware that paper with a lot of sizing will also turn purple and will make reading the glue lines more challenging.However, at least this is valuable information also, as highly sized paper may have penetration or bonding issues and this will give you a clue to take corrective actions at the machine.The quality of the glue line reflects the quality of bond.Glue lines are influenced by several process variables, from the application of the adhesive to the tips of the flutes at both glue mechanisms, to the final bonding in the double backer itself. The conditions under which this occurs are altered by changing machine speeds.This image shows the liner (left) and the medium (right) from thesame board. The glue roll speed issue can be seen on the liner while the medium shows how high viscosity is making it worse by causing dribbling down the flanks.Examining the linerGlue lines on the liner are examined for acceptable quality; they should be solid and have consistent width all the way across the web. It is useful to mark the direction the board ran on the machine. What the medium can tell youIn the corrugating process we apply adhesive to the medium and then transfer it to the liner when the two are joined. So it is valuable to look at the medium side of the soak samples, as well, since that is where the adhesive was applied (the liner shows only the adhesive that was transferred). Sometimes the glue lines will appear acceptable on the liner but the medium will reveal issues not apparent by analyzing only the liner. Troubleshooting the double face glue linesThe double face bond is formed under low-pressure conditions (unlike the single face side which was formed under much higher pressure) and is therefore more affected by process variables. As speeds are increased, these variables can affect the transfer of adhesive to the flute tips and/or transfer from flute tip to liner. Application of the glue to the flute tip can be affected by the gap setting of the rider roll or contact bar, by the speed ratio of the glue roll to web, and by malformed or low flutes. If the applicator or metering rolls are worn or dirty, the application will not be even across the web. Flute tips should have a consistent film of starch covering the radius of the flute tip.( Starch on the flanks of the flutes often indicates a glue roll speed issue.) Here are some issues that can be diagnosed with this method1. Application rate:Glue lines should be measured with a gauge to determine their width, which will indicate whether the application rate is adequate. This is a valuable tool for determining the correct glue roll-to- metering roll gap settings. Determining the correct application rate is important not only to control adhesive consumption, it also affects run speeds, bond strength, and board quality. Proper adhesive application will help avoid problems such as warp and washboarding. 2. Glue roll speed: Looking at where the adhesive was deposited on the flute tips will help determine the correct glue roll-to-paper speed ratio. Adhesive on the trailing flanks of the flute indicates a glue roll that is turning too fast in relation to the paper. Conversely, adhesive on the leading edges of the flute tip point to a glue roll with too much lag.3. Glue rolls out of parallel: One of the most useful tests for determining uneven application is to comparethe glue lines from the drive side with those on the operator’s side. A difference in the width of the glue lines almost always indicates an out-of-parallel condition.4. Worn or dirty glue rolls:This test is similar to the above test, except here we know the rolls are in parallel. Again, we compare the widths of the glue lines across the entire web. Since a worn or dirty area of the glue roll will transfer less adhesive, glue lines that are consistently narrower in any region of the board will point to the problem area of the glue roll.5. Hold-down pressure: Assuming adequate flute tip coverage, poor adhesive transfer to the double face liner will usually indicate inadequate pressure in the hot plate section. Flute tips must keep contact with the liner. If the gelatinization process of the starch starts before good liner contact is established, the transfer will be reduced. Comparing the flute tip application to the liner application will help identify the true cause. Double face liner glue lines that are varying in width or broken (often called Morse Code) across the web can point to this, as well.Glue line gages and pictures are available from your Harper/Love representative; these are great troubleshooting aids and valuable training tools.6. Slinging or dribbling: This problem usually can be revealed only by examining the medium. Adhesive can sometimes sling or dribble and end up in the valleys of the flute (typically, it is not visible on the liner). Slinging or dribbling can be caused by improper viscosity, inadequate formulation (too much borax) or some mechanical issue. Whatever the cause, it puts adhesive where it does not belong, and contributes nothing to the bond. Adhesive is wasted.Studying glue lines reveals a great deal of useful information, particularly about how the adhesive was applied to the medium and then transferred to the liner. A soak tank and a spray bottle of iodine should be part of every corrugator’s arsenal.

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Why is Eliminating Warp Still Such a Mystery?

If you manufacture corrugated paperboard, eliminating warp is a familiar challenge. There are a number of factors that contribute to warp and an equal number of techniques for reducing it, but the ability to completely eradicate warp still remains a mystery. In this post, we provide an overview of paperboard warp and provide several options for decreasing its occurrence.What is Warp?A simple definition for warp is “. . . to become bent or twisted out of shape, typically as a result of the effects of heat or dampness”. In the corrugated paperboard arena, this definition of warp applies to one of the most common problems that these manufacturers face – producing bent or twisted corrugated board that results in excessive scrap, waste, and reduced production rates.What Causes Warp?There are several main causes of warp:· Moisture imbalance between the top and bottom liners· Tension imbalance between the top and bottom liners· Corrugator component misalignmentMoisture ImbalanceIn the process of applying adhesive to the liners, there should be a delicate balance of heat and bonding between the layers with the adhesive consistently applied to the flute tips. Exposure to high humidity, applying excessive adhesive, inconsistent adhesive application and improper glue roll to paper speeds will all cause moisture imbalance which in turn leads to warp in the cross-machine direction. Moisture related warp defects will display as:Eliminating warp continues to be a challenge faced by many corrugated board manufacturersUp Warp – board bows up (convex)Down Warp – board bows down (concave)S Warp – board bows up on one corner and bows down on the opposite cornerDiagonal or Twist Warp – board curves along the diagonal of the sheetTechniques for reducing moisture related warp include:· Increase corrugator speed (if possible)· Adjust web and liner wrap – either reduce double back wrap or increase single face wrap· Increase adhesive settings· Equalize the temperature across the width of the sheet by inspecting for parallel misalignment between the preheater drums and wrap arms, and make proper alignment adjustments so that they are parallel one anotherTension IssuesIn any process line that is web fed, tension problems can occur and corrugating lines are no exception. A difference in tension between the top and bottom of the sheet can result in machine direction warp – also known as end-to-end up warp or end-to-end down warp. Conditions that can attribute to this tension related warp are:· Preheaters turning improperly (or not at all)· Rolls not turning freely· Inadequately functioning roll stand brakes· Poorly maintained web guides· Excessive drag in the hot plate section· Cross tension due to uneven draw in belts· Significant parallel misalignment between units within a specific corrugator sectionThere are several methods for improving tension related warp issues such as:· Adjust wrap when liners do not create enough drag on the preheaters· Perform quarterly inspections and maintenance of splicers and other units to ensure bearings and rolls are moving freely· Perform regular inspections and maintenance on braking systems to check for brake and caliper wear· Perform weekly inspections and cleansing of web guides – vacuum guides/holes can become clogged creating less vacuum and less tension· Perform wear inspections of tension roll covers – worn or smooth covers will not add enough drag to the web· Perform regular inspections and maintenance of hot plates· Inspect for misalignment within all components and rolls and make necessary adjustments so that they are parallel to one anotherCorrugator Component MisalignmentWhen corrugator components are not aligned parallel to one another, product variations and inconsistencies can be introduced, which can lead to warp issues. Precision alignment of corrugator components helps reduce issues associated with the following:· Paper stresses· Tension issues· Heat variations across the product width· WrinklesConclusionWarp has always been an issue in the manufacturing of corrugated box board – and as outlined in this post, there may be a number of factors that contribute to this problem. However, being aware of these factors and eliminating them one at a time, gives you a fighting chance against this common nuisance.

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Goodbye to warping

Like so many things today, corrugated board is judged by its appearance, too. In addition being durable, corrugated boxes need to look good in order to sell their contents. Valmet’s innovative quality management concept for corrugators dives deep into the production process.Demand for corrugated boxes is growing in line with the popularity of online shopping. On the other hand, supermarkets and retailers are increasingly using shelf-ready packaging and thus want boxes to look attractive.At the same time, things are changing in corrugated board production processes. Boxes are being made out of lighter-weight board, and their construction is more complicated. Delivery times to customers are shorter, production batches are smaller, and there are more grade changes. Cost pressures are immense.All the above-mentioned trends and challenges increase the need to raise the level of automation in corrugated board production.“When it comes to quality management, corrugators are about 30 years behind paper machines. They feature a high amount of manual control and no online measurements at all. There is a definite need for a quality management system similar to one used in paper machines,” says Mikko Talonen, Business Manager, Converting Solutions, Valmet.Valmet has more than 50 years’ experience from thousands of quality control system deliveries for pulp, paper, board and tissue production. The new Valmet IQ for Corrugators is based on this strong know-how.“We are now utilizing our automation, measurement and quality control know-how in converting. Since corrugators are smaller, simpler and narrower than paper machines, we have modified our existing products as well as developed new compact and cost-efficient measuring techniques especially for corrugated board production,” Talonen continues.Moisture management in the lead roleTraditionally, the quality of corrugated board has been controlled by measuring sheet temperature and adjusting the process accordingly. However, this is challenging as there can be up to over 10 drying and re-wetting cycles in the process, not to mention speed and raw material variations.“By monitoring the moisture trend and stabilizing moisture variation with a multivariable control system, it is possible to significantly improve both product quality and plant productivity. Moisture measurement has been critical in paper machines for a long time, and its importance does not lessen in converting”, Talonen emphasizes.By controlling the moisture content and temperature of corrugated board online, it is possible to ensure bonding and avoid both the washboard effect and cracking. Furthermore, the QCS helps eliminate warping caused by moisture. Comprehensive moisture management improves plant efficiency and productivity, too.“In converting, warped board does not run smoothly on an automatic conveyor after the corrugator. Instead it needs to be manually fed which is slow and presents a safety risk. Additionally, warping causes waste both during corrugated board production and later during storage before converting,” Talonen continues.Multipoint moisture measurement in several locationsThe most important element in the new control concept is the compact and cost-efficient Valmet IQ Multipoint Moisture Measurement.“The measurement is based on infrared (IR) technology. IR radiation produced with a halogen lamp is led onto the moving sheet with optical fibers through sensor heads. Moisture is measured by analyzing the reflection spectrum with a detector unit in a field cabinet. It is possible to measure the moisture content in nine positions with one device. Sensor heads can thus be installed in each drying and re-wetting cycle of the process. This measurement enables moisture control of corrugated board in a totally unprecedented way,” explains Mikko Viitam?ki, Product Manager, Valmet.The compact sensor head fits into the tight confines of the corrugator and contains no electrical parts. Its structure has been designed for harsh environments. Purge-air ensures that no dust or water collects inside the sensor head or on the optical surfaces.The effect of a speed change on the moisture content measured with Valmet IQ Multipoint Moisture Measurement in various process stages and on warping measured with Valmet IQ Warp on the conveyor.Goodbye to warpingThe camera-based Valmet IQ Warp Measurement measures the sheet profile and warping on the stacker with a laser. The data is transferred to the control system to make calculations and analyses.“From there the data proceeds to the QCS where set-point changes for moisturizers or the wrap arms of heating cylinders are made if necessary. The measurement offers the fastest possible feedback to the corrugator,” Viitam?ki continues.The line laser makes it possible to measure the entire sheet profile with one measurement contrary to a point measurement.Controls optimize qualityAn integral part in controlling the quality of corrugated board during production is made up by Valmet’s advanced control algorithms. They are the tool to optimize the end product quality right from the very beginning of the process. The multipredictive control utilizes all online measurements to eliminate warping, improve bonding and avoid the washboard effect.

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Analysis on rotary die-cutter

Corrugated carton die cutting are mainly included rotary die cutter and flat die cutter. Printing die cutting inline generally use rotary die cutter. Rotary die cutter mainly has two kinds, steel cutting board wheel and rubber cutting board wheel.1.Features of steel cutting board wheel1).High requirements on die flatness. The die cutting board of the steel cutting board wheel is made of steel rods, the top knife is steel and so is the bottom. It has a very high requirement for the flatness of the knife. If the flatness of the knife is different, when the upper and lower knives collide, the higher one will be damaged and the lower one will not be cut.But steel cutting board wheels also have benefits. If the cutting die is made well, the performance of the steel cutting board wheel is much better than that of the rubber cutting board wheel.2).Bugled line can be suppressedBecause steel is a hard surface, you can suppress the concave and convex line, it can be produced in a complex way like flat die cutter. Although the rubber pad can also stick dark line, the effect is far from good as steel one.3).Uniform force, all speed differenceThe steel cutting board wheel has a high requirement for even strength and will not wear out, so the speed difference is very all.2.Features of rubber cutting board wheel1).The flatness of the knife is low and can be adjusted by pressureThe knife anvil under the rubber cutting board wheel is rubber, which is elastic, so the requirements for the mold are reduced. Even if the knife is not flat, as long as increase the pressure, you can cut into the rubber, the cutting effect can also be achieved. So it requires less flatness of the knife.2).The rubber pad has large loss and speed differenceBecause the anvil is made of rubber, when the knife cutting the knife anvil, rubber easy to wear. The price of the anvil is also higher, like several thousand yuan for one set, so the loss is larger. And once the knife anvil wear, the circumference will become aller, which will produce speed difference, and the speed difference will bring a lot of adverse effects on the die cutting products.Two models of die - cutter 1).Top cutting die, bottom cutting anvil: This model is very suitable for bottom printing press.Advantages:The biggest advantage of the upper die is that the scraps of paper fall on the rubber pad after cleaning, because of the gravity, the scraps of paper is easier to demold, so the upper die is a very good model.Disadvantages: Only applicable to bottom printing press, which the printing surface downward, so you have to turn it upside down to check the die-cutting effect, and the printing face, this is somewhat inconvenient in operation.2).Bottom cutting die,top cutting anvil: This model is very suitable for top printing press.Advantages: The printing face upward, so you can check the the effect directly, and find out if there is anything wrong with the printing at the first sight.Disadvantages: Paper scraps can easily cause indentation and udge. After the scraps of paper spring out, most of them will stick to the rubber pad, and then fall on the printing surface, which will be sandwiched between the die cutting pad and the template, the printing surface will be damaged by friction.After comprehensive comparison, the upper die is definitely better than the lower die, so try to choose the upper die.There are three aspects in starting the machine:1).We need to first turn on the force glue lateral switch in time, so that the force glue will be about 50 cm lateral movement, the die cutting knife will cut in different rubber pad during the process of moving, so that the superior force adhesive and die - cutting knife have a horizontal movement range in the working process, which can improve the service life of superior force adhesive.2).When installing the template, the bolts should be installed from the bottom of the template, and the bolt holes on the template should be installed as far as possible, to ensure the roundness of the template.3).When adjusting the position of the die hole, the template should be separated from superior force adhesive and then adjusted to avoid damage superior force adhesive.4).Quick die change device: The installation template of die cutting unit is divided into two molds: one is mechanical, generally need to use more than 20 bolts for template installation, if no rapid mold change equipment, it is estimated 25 minutes for mold change; It is also expected to take nearly 15 minutes with the rapid mold change equipment. The second is vacuum adsorption type rapid loading mold, because of the use of vacuum adsorption, only need two bolts for mold replacement. It saves a lot of time, only 5 minutes per order. This is a new type of mold change device, if possible, try to use this rapid mold change as far as possible.

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Steam system purchase and process technology

For most cardboard factories today, "steam recovery" has become a popular energy-saving concept.However, many cardboard factories in the purchase of steam system, there will still be a lot of doubts and concerns, and often end up blindly following the trend, but do not consider their actual needs.This not only does not save energy, but also cause greater waste and loss.So, what factors should be considered when choosing a steam system?1.Introduction to Steam System Steam has the following unique advantages: it can carry high density of energy, so relatively all diameter pipe is needed ;When dry saturated steam is used, heat can be transferred at constant temperature.Steam can transfer heat efficiently;Steam flows as fast as it can to where it is most needed;Steam is environmentally friendly, non-toxic and non-flammable.There is no doubt that steam is the best medium for corrugator heating.Steam Table▲Steam Supply SystemGenerally, steam system includes the following parts: boiler, steam pipeline, heat transfer and heat exchange system, condensate trap and steam recovery system.Boilerthe design of the boiler has no impact on the production of corrugated board, as long as the boiler maintain 15 to 16 bar constant pressure.Steam pipesteam is transported from the well sealed pipe to the corrugated line. Starting from the main steam distribution pipe, steam flows along the pipes connecting the wet end of the corrugated line to a single machine, such as the single facer, triple preheater and double facer hot plate.Heat transfer and heat exchange system: the tranission of steam from the fixed steam pipeline to the rotating roller needs to pass through the "steam rotary joint", which is a rotary sealing joint installed on the roller shaft.Inside the roller, steam transfers heat to the wall of the pipe and restores itself to condensed water.Due to a layer of water film formed on the inner wall of the roll and the thicker inner wall of the roll heated by the traditional method, the surface temperature of the roll usually decreases a lot.However, because there is no water film on the inner wall of the annular drilling roll with steam flowing, the temperature on the surface of the roll increases significantly.This is similar to the condition of the hot plate. Hot plate around the bore hole heat application has the following advantages: paper surface temperature rises 15 ℃ or more;Rapid heating and temperature adjustment under different production conditions;The whole working range is temperature balanced.Condensate trapafter heat is transferred to various parts of the machine, steam gradually condenses. In most cases, condensate water flows into the condensate tank.The of a condenser tank is to drain condensed water and air from the heating unit.Air discharge from corrugated rollers is a particularly important step.When a corrugated roll is heated, steam pushes air in front of it. As air cannot condense, it accumulates in front of the condensing tank.Air conductivity is very poor and having bad insulation effect, so it will lead to the production of temperature imbalance.At present, there are four common types of traps in the market: disc type, inverted bucket type, floating ball type and pinhole type.The al principle of the floating ball trap is as follows: the pressure in the tank is higher than that in the condensing pipe, and the condensing flow into the tank makes the floating ball inside rise.After the valve seat opens, condensed water flows out. When the water level drops, the float ball sinks and closes the valve seat again.If there is air in the condensation tank, the temperature will drop and the exhaust pipe will be opened. ▲Functional Principle of Floating Ball Trap▲Concentrated hydrophobic▲Separate storageSince the pressure required to drain steam is different from that required to drain condensed water into the condensing pipe, if there are several drainage pipes, several heating devices can share a condensing tank.Although it saves money to share a condenser tank with a group of heating units, there is shortcoming: less condensed water in the unit requires less heat, so the steam will reach to the condenser tank and close it so that other equipment cannot drain.The result: slow heating;Temperature imbalance;Uneven heating;The production speed is slow.So a better solution is to store water separately, which is to have a condenser tank for each device.Steam recovery system: steam recovery system can be divided into open recovery system and closed high-pressure recovery system.In open recycling system, hot condensate water (the temperature as high as 180 ℃ under 10 bar) into the boiler room, and then enter to the tank.At this time to the tank and atmospheric contact, condensed water as fast as steam flow, most of the heat energy emitted into the atmosphere, but the open recovery system has an advantage, because of its low pressure to the tank, so the operation is relatively safe.Different from the open recovery system, in the closed recovery system, the condensed water of high pressure is concentrated in a separate feed tank and directly pumped back into the boiler at a high pressure state.The biggest advantage of such a system is that it basically doesn't waste energy, water or chemicals, but the cost is a little high. ▲Closed recovery systemWe should pay attention to the closed steam recovery system. When condensed water from different processes enters the recovery system, due to different back pressure, If the recovery system is not properly planned, the problem of poor return water of low-pressure condensate will occur.When the air leakage of individual traps is serious, it will cause the back pressure of the whole system to rise, affecting the balance of the system.2 .Heating Equipment on Corrugated Line1) Steam system of single facerIn the steam system of a single facer with corrugated rollers heated by traditional methods, the new steam pipe delivers steam directly to each roll.The condensed water is siphoned out and then drained separately.In the steam system of a single facer with annular drilling corrugated rollers, the corrugated rollers are directly connected to a new controllable steam pipe.Steam first flows to the high corrugated rollers and then cascades to the low corrugated rollers.Before being stored in the condensing tank, the steam flows into a separate tank, and the new steam also heats the other cylinders on the single facer. In order to effectively take the condensate out of the corrugated roll, 2.5 bar to 3 bar pressure is required to ensure that it flows smoothly from all these lines.The steam flow in other heating rollers is the same as that in ordinary heating systems, from siphons to condensing tanks to high-pressure condensing water.For other heating rollers, external heating is not necessary, because their accuracy requirements are not as high as corrugated rollers.2). Hot Part of Double FacerCascade systemIn a cascade system, the waste steam generated by the first part of the hot plate is dehydrated, and then the steam flows into the second part.The pressure in the first part is the highest. In order to ensure smooth circulation, the pressure in the second and third parts will be gradually reduced.In order to make better use of energy, waste steam from the condensing tank in the first part is used to heat the second part.Steam is fed through the electric valve M2. The procedure for the second and third part is the same.The condensate system downstream determines the lowest vapor pressure in the third section.Temperature decreases with the direction of paper transfer, which is suitable for most types of cardboard.However, when processing new micro corrugated (F, G, N and O flute) board will appear the following problems:Flute density and less air inside the cardboard makes it difficult to emit steam, resulting in the formation of bubbles;Gelatinization temperature of starch adhesive is too low;In order to make the surface paper and corrugated adhesion intact, it is best to start at a low temperature, and then gradually rise gradually drying board.This requires further development of parallel cascade systems rather than series cascade systems.Parallel cascade systemAll three parts are connected directly to the new steam pipe so that the pressure can be adjusted during production.The use of secondary steam in different parts is the same as in cascade systems.However, more condensation tanks are required and reflux occurs only at the lowest vapor pressure.The condensate system downstream determines the lowest vapor pressure, which can be reset.3.The Role of Steam SystemIn the production of single facer, the energy is distributed as follows: 70% is used to heat the cardboard and its water and evaporate the water;20% for gelatinizing and drying starch;10% is lost in convection and infrared transmission.Therefore, it is necessary to purchase a steam system to solve the problem of heat utilization.Steam system is an important component of corrugated board production line.And corrugated board molding usually adopts saturated steam heating, steam heating system will be saturated steam continuously sent to the pre-heater, preset, single facer, three layers of pre-heater, gluing machine, roller inside and bake, hot plate, corrugated base paper and corrugated board through the steam drum and the surface of the hot plate, due to hot plate surface temperature is high and the steam fed into steam drum , the heat exchange with the base paper or cardboard in low temperature, preheat base paper or cardboard, to take away heat on the surface of the roller and the hot plate part of this will leads to the formation of a heater inside the latent heat consumption of steam condensation water, which will be discharged in a timely through the trap system,while constantly replenishing saturated steam.Steam system evaporates the excess water in the base paper, adjust the water in the base paper to make it evenly distributed, especially in the width direction, to ensure that the base paper forming does not bend deformation in the corrugated coating adhesion, provide a certain amount of heat, ensure that the adhesive quickly gelatinization and shaping, at the same time to evaporate the excess water.It is the most important of steam system to make heat meet the need of corrugated paper forming and paste gelatinization.On the basis of ensuring the quality of corrugated paper production, it is required to provide steam and heat in line with the speed of production, and enables minimum energy consumption, so as to achieve the highest energy efficiency, production costs to the lowest. ▲Poor recycling results in waste of energyThe role of steam system in corrugated board production line can be summarized as follows:1.The heat to meet corrugated paper forming and paste gelatinization.2. Make the heat meet the needs of production speed and quality3. Maintain minimal energy consumptionIt is not enough to maintain the minimum energy consumption after knowing the role of steam system, because the requirements of steam system are different with different speed, different base paper width and different production line configuration.Therefore, in the purchase of steam system must be based on the production requirements and production conditions.When purchasing steam system, the following two aspects need to be considered:Steam recovery machineSteam distribution layout.4.Factors to consider when purchasing steam systemsSteam recovery machine is the core equipment of steam system, which uses waste steam and high temperature condensate water to directly compress into the boiler in the way of soda mixture to form a cycle system of steam production-use-waste steam recovery, so as to maximize the recovery and utilization of steam waste heat and achieve the purpose of energy saving. Therefore, we should firstly pay attention to recovery machine in the purchase of steam system.There used to be a piston type steam recovery machine, but now it has been basically eliminated, because it is not conducive to the production of the required stable temperature.At present, the steam recovery machine on the market is basically a single cylinder of high pressure pump and double cylinder of high pressure pump these two kinds, their main difference is: the single cylinder of high pressure pump in the control of back pressure to stabilize the temperature of the production line, mainly by controlling the pressure difference between the two ends of the trap, to ensure the stable working state of the trap.And double cylinder high pressure pumps have self-suction , but most of them do not have back pressure control , so it is easy to lead to the trap work instability.At present, there are some dual-cylinder high-pressure pumps are also increasing back pressure control.In fact, single cylinder high pressure pump or double cylinder high pressure pump is not the key to the problem, the key is that the trap to have a pressure difference on both ends, so that the trap can work normally and steadily to meet the temperature requirements of the production line stability. Above is a closed loop steam recovery flow chart.Steam goes from the boiler to the production line to the reclaimer, forming a closed loop.In fact, the steam system does not have to be completely closed loop to achieve the purpose of saving, because the first priority of saving is to meet the production, and then consider saving on the basis of meeting the production.Finally, when purchasing steam system, the distribution layout of steam should also be considered. The following factors should be considered when laying out steam distribution pipelines:1) The pipeline shall have enough inclination to facilitate water discharge2) Drainage at the bottom of the pipe (drainage at the low point) and exhaust at the high part3) Oblique pipe insertion4) Avoid condensation water aggregation with reduced inner diameter of concentric pipe5) Steam is introduced at the top of the pipeIt should be emphasized that the preheating cylinder can use steam to do the secondary utilization of steam.The steam used by the single facer, corrugated roller and pressure roller can be collected, separated by water vapor, and reimported to the preheating cylinder for reuse. ▲Schematic diagram of steam pipe for double facer hot plate ▲Schematic diagram of steam pipe of single facer5.How to use intelligent control to reduce steam consumptionThe teat energy use of China's corrugated board production line, from the 1970's to the 1980's with fire (gas) heating, from the 1990's is the use of steam heating.As for how to control steam heating and how to reduce consumption, we basically start from steam pipe design of equipment and structural design of heating components.1). Traditional methods of reducing steam consumptiona) Boiler continuous water feeding control energy-saving design, through a all number of continuous automatic water feeding, reduce boiler pressure change, improve boiler thermal efficiency, reduce energy consumption, which can save 3-5% of the energy.b) Energy saving design of recycling confidential backwater pipeline: the heat of backwater will not be lost and the pressure will be repeatedly pressed back to the boiler for use, which can save 10%-15% of energy.c). The energy saving design of steam pipeline utilizes the temperature difference between single and double facer and preheating cylinder for secondary steam utilization.That is, the steam used by the single and double facer through the separation of soda water and then to heat the preheating cylinder, make full use of steam heat, reduce steam loss, which can save 2%-3% of the energy.Single facer and double facer after the use of secondary steam return preheating cylinder and triple preheating cylinder reuse, its design principle is shown in the figure. ▲Schematic diagram of steam pipe of triple preheater and single facer ▲Chart 1：No secondary utilization ▲Chart2：Secondary utilization ▲Chart3：Secondary utilization plus trapd). The energy-saving design of heating components is mainly manifested in reducing the volume of heating vessel, reducing the consumption of steam loss, and improving the speed of temperature change, which can save 2%-3% of energy.①Design Schematic of Heating Around Corrugated Roller ▲Chart 4：Design Schematic of Heating Around Corrugated Roller②Design of thin hot plate ▲Chart 5：Design Schematic of thin hot plate③Design of Arc Plate ▲Chart 6：Design of Arc PlateThe above is the current status of the industry, here to introduce how to use intelligent control to reduce steam consumption through process design.2).Energy saving design by process temperature controlProcess design: In fact, it is to control of each kind of grams of heavy base paper through intelligent equipment, glue gelatinization temperature and production speed of the corresponding process point control, to achieve the minimum temperature required by the base paper molding and glue gelatinization.At present, the industry is generally divided into two types of equipment, the first is low-speed machine, steam pressure of 6-8 kg/cm squared;The second is a high-speed machine with a steam pressure of 9-13 kg/cm squared.Preheating cylinder through the base paper wrapping angle to adjust the preheating temperature, hot plate through temperature control to adjust the temperature of hot plate, single facer is not temperature control, how much pressure steam main pipe provided, then how much temperature used for board production.In this way, our corrugated board production line can not achieve the minimum temperature production for different weight of base paper grams, nor can we effectively control the cardboard quality and steam energy loss.Temperature control system of corrugated paper :a) Detection of single facer: through the detection of single facer, the feeding in temperature of all kinds of base paper, linerboard, medium (attachment wet end control) and feeding out temperature of flute paper , and according to the production speed and the corresponding base paper gram parameter, it automatically adjust and control single facer and preheating cylinder with minimum steam temperature and an appropriate angle, the gluing quantity and equipment all kinds of pressure, etc.b)Detection of double facer : by detecting the feeding in temperature of every layers of flutes linerboard(attachment wet end control) of double facer, and the feeding out bottom temperature of cardboard and linerboard temperature of hot plate of double facer, and according to the production speed and the corresponding base paper gram parameter to automatically adjust and control double facer paragraphs hot plate and preheating cylinder with minimum steam temperature and the preheating cylinder angle, and quantity of the paste on the adhesive tape machine paragraphs cotton pressure, etc.c) Through the dry end of warping intelligent control system to measure the flatness of the cardboard of the current order, the system can automatically adjust and control the corresponding process temperature point parameters and quality (warping) parameters of the wet end control (paper temperature control system) equipment in accordance with the preset process parameters.Through intelligent control of the minimum temperature required for the temperature point parameters of each process, combined with the control of pressure parameters, steam energy loss can be effectively controlled at the same time, the production of stable and high-quality cardboard, reduce the labor intensity and skill requirements of workers, ensure the efficiency of production equipment and reduce the loss.3).Principle and application of low temperature and low pressure productiona) the main role of normal temperature in corrugated productionForming: reduce the reaction force of elastic deformation of the base paper (flute) forming and the internal stress on the board after the forming through the action of temperature.Adhesion: through the role of temperature, the role of the adhesive on the base paper quickly gelatinization, in order to achieve reliable adhesion.Preset temperature: pre-heat the base paper before forming and gluing it into cardboard, adjust the humidity of the base paper before entering the hot plate of single facer, etc.From the above points of view, the temperature of the cardboard has a great impact:(1) Single facer corrugated roll between the corrugated forming temperature conduction is relatively easy (relative to the hot plate adhesion), and the pressure roll and corrugated roll inside paper adhesion temperature conduction is also relatively easy (also relative to the hot plate adhesion), as shown in the figure: Loading Mode P1: Direct TouchTemperature conduction mode C1: direct conduction temperature on both sides(2) Double facer mainly refers to the hot plate gluing, cardboard in the hot plate loading mode and temperature conduction mode are not as good as the structure of single facer, so the double facer hot plate temperature requirements will be higher.As shown in figure: Loading Mode P2: Indirect Touch, and not too much pressure, not to crush the cardboard, P2 < P1Temperature conduction mode C2: direct touch on one side of linerboardSeptum: heat can only be transmitted indirectly by thermal radiationFor high speed machine, high gram cardboard not only on the double facer temperature requirements.In addition, the gelatinization temperature of the glue on the double facer should be adjusted to match the high speed.In general, the steam pressure of the medium-speed machine is 8-9 kg/cm squared, and the steam pressure of the high-speed machine is 11-13 kg/cm squared.b).Influence of temperature on physical properties of base paper and board(1) The influence of temperature on the humidity of base paperThe figure below is the process test diagram of temperature relative response time and humidity change of base paper: Figure 1:Curve A, curve B represent base paper of different temperature with different time back to the corresponding temperature.Figure 2: curve A and curve B represent the same type base paper with different temperature, after the same time, corresponding to the change of the temperature.Curve B represents base paper with low heating temperature has lower humidity. The curve A indicates that the high temperature of the base paper has higher corresponding humidity change.Humidity first low then high, that the base paper has a stronger water absorption after high temperature, which is the reason why the cardboard to be more flat right after being produced, and become warped after a period of time.(2) Temperature on the physical properties of base paperThe following figure is the process test diagram of temperature on the physical properties of base paper: The figure shows that the higher the temperature, the greater the fiber damage of the base paper, the aller the rupture strength, ring compression strength, on the contrary, the lower the temperature, the aller the loss of the physical properties of the base paper.c).Implementation of suitable temperature and pressure production(1) From the single facer forming and gluing of the loading mode and temperature conduction mode, corrugated line production does not need a high temperature.Normal high speed single facer, speed is more than 250 m/min is only required to steam pressure 12 + 1 kg/cm squared (steam temperature to 192 ℃ + 4 ℃), why?Reason 1: chromium plated corrugated wheel in high (in order to extend the service life of corrugated wheel), the need for a higher temperature corrugated wheel elastic deformation.Tungsten carbide corrugated wheel wear is very all, do not need to extend the service life and improve the high, do not need a large elastic deformation, temperature is not one of the conditions for the elastic deformation of corrugated wheel.Reason 1: chromium plated corrugated roll in high (in order to extend the service life of corrugated roll), the need for a higher temperature corrugated roll elastic deformation.Tungsten carbide corrugated roll wear is very all, do not need to extend the service life and improve the high, do not need a large elastic deformation, temperature is not one of the conditions for the elastic deformation of corrugated roll.Reason 2: At high speed, the base paper in the corresponding heating roll stay for a short time, increase the temperature is to ensure that the gelatinization and gluing, it also can not increase the temperature, only reduce the gelatinization temperature of glue to match the speed of corrugated machine.Conclusion: single facer, high-speed, > 250 m/min) steam pressure can be controlled completely in 6 kg/cm squared - 7 kg/cm squared, steam temperature of 165 ℃ to 170 ℃.(3) As to the double facer cardboard gluing loading mode and the temperature conduction is not as good as the single facer, the hot plate temperature is a very important factor to control and ensure the quality of cardboard (including warping, degumming and other physical performance indicators).Generally, at high speed, the steam pressure of several sections of the hot plate decreases by 12kg/cm squared one by one (according to the condition of the cardboard and the gram weight). In fact, we can match the speed of double facer by reducing the gelatinization temperature of glue, so as to reduce the required temperature of the cardboard.There are two states:A .Three layer board with low gram and five layer board due to low gram, base paper heat conduction is strong, at the same time, lower gelatinization temperature (56 ℃ + / - 1 ℃), to avoid glue form ahead of false gluing, it need some hot plate steam pressure from low to high.B. Due to the poor thermal conductivity of the high-gram heavy base paper, the thickness of the glue line is relatively large, the glue is not easy to be glued in advance, and the steam pressure of several sections of the hot plate is from high to low.Actual whole line temperature control visible corrugated line steam pressure distribution table:d).At this stage, the use of less and less weight of base paper has become the development trend of the industry, corrugated board in the production process to the base paper damage is not only temperature, but also the main damage is caused by mechanical extrusion of the base paper, the water in the cardboard will also cause the damage of the base paper, a large part of the water in the cardboard is brought into the cardboard by glue.These three aspects lead to the base paper production process damage as high as 10-15%, 70% of the damage is caused by mechanical extrusion, 20% of the damage is caused by glue, only 10% of the damage is due to temperature problems.As the base paper moisture and temperature are related, the biggest impact on the cardboard moisture is the glue moisture content, only in the cardboard glue moisture content research has a major breakthrough, can reduce the impact of glue on the cardboard moisture.That is to say, the reduction of water content or natural gelatinization at low temperature and room temperature, then the cardboard production may have a major change.Low temperature and low pressure or room temperature production of corrugated board, in order to better protect the original physical properties of paper, improve the quality of corrugated board, low temperature and low pressure production of corrugated board must solve the glue adhesion performance under low temperature and low pressure, corrugated board molding, to ensure high speed production of corrugated board. --If there is copyright dispute, please contact us to delete.

1494 0

Production control system and process technology

Like other industrial processes, automation is a key factor in increasing corrugator line output and reducing operating costs.Compared with 20 years ago, the production of corrugated board has changed from a hard and boring process to a simple and computer-controlled process, which is largely monitored by operators.No less than 10 computers are installed on a modern corrugator line, all equipped with a variable range controller system.Its is to monitor the corrugator line, improve its degree of automation, and improve its production efficiency.Corrugated machine production management system is one of the sets of automatic corrugator line management has leapfrog progress of computer equipment.1.Introduction of Production Control SystemCorrugator production control system (hereinafter referred to as PCS) is a kind of computer control system used for auxiliary corrugated machine automatic production, it utilizes accurate sensor and the fast operation of the computer, at the right time to detect and controla series of corrugated machine equipment, simulate artificial operation action, these control including the speed adjustment, clearance adjustment, glue feeding adjustment, base paper materials, etc., aiming to save manpower, increase production, reduce loss, thus achieve the purpose of planned production.It can be simply regarded as a set of computer equipment used in corrugated board production line to assist each operator, improve production efficiency and reduce loss.Due to technology and various of reasons, some s of domestic and foreign production and management systems are not stable at present, which is a very practical problem. We can only make up for it from the aspect of office work.Strictly speaking, the PCS should be in the full automatic stage. However, most of the PCS are still in the monitoring stage and some of them are in the control stage.1).Components of PCS●A vehicle control station (VSC-A)●B vehicle control station (ASC-B)●Control station of D vehicle (laminator) (VSC-D)●Stacker working station●Dry end control station (HOST)●Office monitoring station●Office ERP system●Production control planAmong them, the office monitoring station is responsible for the simultaneous control of the workshop production situation, according to the status, real-time processing, production order scheduling review and improve business mobility. Production control plan is responsible for customer management, order management, production management, report management and file management. 2).Corrugator part to be controlled by PCS●Single facer●Gluer unit●plicer●Double facer 2.The function of PCS1). Standard functions of the PCS●Order management●Data tranission and display●The of order change without stopping at high speed for dry end●Automatic waste cutting●Detection and management of bridge paper stacking volume●Paper preparation calculation●Synchronous speed control●Automatic paper splicing control●Label printing●Report printing●Monitoring●Glue volume automatic control, wrapping angle automatic control, butt monitoring2).The functions of the PCS should meet the following requirements:a). Production factors monitored by the PCS include: tension control, wrap angle and steam control, glue volume control, pressure control, deviation correction control and temperature control.b). Automatic control of operations related to production costs●Automatic paper splicing●Automatically switch the calculation and connection of orders●Interaction with the central control system●The automatic PCS system in accordance with the rules greatly improves the degree of automation of corrugator production, not only reduces labor costs, but more importantly, reduces the loss caused by human factors, making the production more energy saving and more efficient.c). Control and measurement accuracy, error in line with the company's requirements ▲PCS to monitor the production factorsExpert Tips:The following factors should be taken into consideration when purchasing the PCS:●Meter measuring system (angle wrapping, paper splicer testing)●Speed synchronous paper splicing●Production data analysis (scrap cause analysis)●Integrated tension control, wrap angle and steam control, glue volume control, pressure control, deviation correction control and temperature control system●Automatic order change3.Elements to be Considered in Purchasing PCS1). Metering system (including angle measurement and testing of paper splicer) the purchase of PCS should first consider whether its metering system can accurately measure the number of meters.In addition, it should be considered whether the PCS can detect wrap angle and automatic paper splicing.2). Synchronous ?speed paperAs a production system, one of the most important role is automatic replacement, and automatic replacement first to achieve synchronous paper, so when purchasing the production system, we should focus on whether it can be synchronous paper.The PCS must be able to clarify the paper to reach the position, when it judges that the paper is used up, it can cut as well as splice paper at the same time, realizing zero-tail paper, avoiding unnecessary waste in paper splicing. Or when the PCS judges that the paper is broken, it can automatically connect the paper, reduce the downtime and quality problems of corrugated board production line, reduce human intervention, and effectively ensure stable high production speed and high quality of corrugated board.3). Production data analysis (scrap cause analysis)The data analysis of the production management system is mainly completed through the data automatically recorded by the production management system and the generated statements.Data record:●Speed of per region●Amount of glue per machine●Wrap angle position ratio●Temperature at different wrap angles●Steam setting of single facer●Steam setting of double facer●Pressure setting of double facer press plate●Check the volume of base paper according to the orderReport file is one of the essential tools in data analysis. In order to realize the of data analysis, the PCS needs to follow the basic reports:● Daily report: A detailed record of all production conditions and data● Daily efficiency report: Calculate the production performance based on the production data of the day according to the shift, including the number of parking time, average speed, average paper width and various loss analysis● Monthly efficiency report: Print the detailed statistical analysis report based on the production data of the whole month● Detailed report of production paper: According to the paper material and width, make statistics on the usage amount and consumption amount based on its length and area.● Detailed report of base paper consumption: Make statistics on the use weight and consumption amount according to the paper material●Detailed report of monthly paper consumption: According to the date and material, the base paper weight of the month is calculated 4). Integrated tension control, wrapping angle and steam control, glue quantity control, pressure control, deviation correction control and temperature control systemIts automatic control is mainly reflected in the following aspects:●Add/subtract wrapangle control●Tail direction wrap angle control● Newspaper tension control on the bridge● Tension control on the paper splicer● Fully automatic control of dry end and wet end database●Speed control● Curve control●Tension control● Level change control● Glue quantity optimization● Steam optimization● Data collection● Completed orders can be selected and then graphically displayed with production time● Display and print dry/wet end orders● Query data by day and by exact time, or by metrics● Data can be stored in the system for one year. In addition, in the actual production process, the PCS can set or modify pre-set parameters according to the personalized material.Among them, the gluing making process is the biggest fluctuation in the whole corrugated board production process, the most critical process for corrugated board quality.Traditional glue formula is simple, easy to be caused inaccurate feeding due to human factors , resulting in the instability of the adhesive performance, with too much glue caused by the cardboard soft, slow speed, with too little glue will cause the cardboard bubble degumming. The PCS through the detection of paperboard production speed, timely adjusts the gap between gluing rollers and glue distributing roller , accurately control of paperboard glue volume.It can reduce the influence of human factors, make the operation of the production line more stable, completely solve the quality problems of corrugated board foaming, flute showing and softening, and reduce the waste rate.5). Automatic order arrangementIn order to achieve the of automatic order arrangement,the PCS should be able to achieve the following operations:●Real-time monitoring of production status across the line●Daily efficiency data display●Details inquiry of non-produced orders●Material preparation display of each vehicle●Order modification● Order rescheduling● Order exchange●Printing the material preparation sheets●Display the efficiency information of each order●Vehicle speed and paper butt display●Check for non-produced order preparation● Order entry● Order delete● order moving● order printing●Printing the production reportThe PCS should be able to automatically arrange orders according to some priority principles, including:● From large to all arrange the order with same width●Paper with same material go first●Dry end stacking principle (long list first, short list last)●Trimming principle (major trimming first, minor trimming last)● Principle of three and five ply (the same three ply should be placed together as far as possible).--If there is copyright dispute, please contact us to delete.

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Analysis on stacker in multi-order stacking

Output conveyor belt in terms of cardboard specifications is an important part of the stacker, especially for E flute, aller flute or even B flute.Roller conveyor belt will cause the bottom of the cardboard movement that is called "cardboard move" or "elephant foot" phenomenon, especially when the cardboard warped downward.The wider the roll hole, the more serious the phenomenon.Therefore, conveyors and/or output conveyors usually use plate chain conveyors, plastic link conveyors, or even rollers covered by common conveyors to solve this problem.Vibration or impact board is usually located below the conveyor belt output, impact against the cardboard on the back baffle, so that the cardboard stacked neatly.Some suppliers also offer optional side baffles. When order changing, the rear baffle stacker is the main adjustment components.The position of the rear baffle can be adjusted according to the length of the board, and the rear baffle also defines the back edge of the stack.Since the purpose of stacking is to form a neat stack of cardboard, the design of all components of the stacker, its accessories and optional parts should be able to adjust and control the cardboard delivered from the cross cutter to the stacking place so that it is well aligned, regardless of whether a new stacking has been started or the order has been changed. At present, there is a cardboard stacker differential single device on the market, its characteristics are: the paper conveyor belt is grille shape, adjacent grille between the lower than the paper conveyor belt and the transfer of cardboard under the surface is not in contact with the paper acceleration belt;Paper conveyor belt and paper pushing acceleration belt are mutually spaced in the same direction;The outer side of the paper pushing acceleration belt is connected with the paper pushing convex and fixed, and is controlled by the speed control device of the conveyor belt, or stops moving and is in the state of reset, or accelerates synchronously with the paper feeding conveyor belt.The positive effect of the device is: Once the front cross cutter signals the number of sheets (or pieces) per piece of cardboard, the push feeding belt accelerating, pushing feeding crib bump with a specified points before the end of the last a piece of cardboard, cardboard slip back to prevent stated, and a specify the last piece of cardboard to accelerate before stacking, gap occurs between the falling position of the first piece of cardboard after the stacking to achieve the purpose of accurate stacking count (or sheet).Refer to table 2 for analysis of stacker in multiple order stacking.Table2： Anaylsis on stacker in multiple order stackingIn addition, folding cardboard for large household appliances (such as refrigerators) and furniture transport can play a certain role in protecting.This folding board is continuously folded into piles, rather than cut into single pieces of cardboard.Carton factories in the industry are more likely to use scoring roll than crossing cutters to process folded cardboard.The scoring roll presses the line horizontally on the board to reach the specified length.The cardboard is delivered to the stacking site and then drops almost vertically into the stacking site.Place the cardboard horizontally and fold left and right alternately until it reaches the specified height or quantity.This operation is much slower and more complex than normal operations.

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Comparative analysis on the advantages and disadvantages of stacking forms

There are two systems in the stacker - upper stacking and lower stacking.The two systems can be mixed.The upper stacking type is formed by stacking on a fixed conveying device installed on the ground.The output conveyor belt is constantly raised so that the output cardboard is always above the stacked cardboard.When the stacking reaches the specified height, the transfer will be interrupted. The movable base plate conveyor will move the stacking to one side of the machine, and then the stacking transfer outlet position will be lowered to the conveyor belt device and the stacked cardboard will be unloaded. Then, as the cardboard starts to pile up again, the stacking conveyor will gradually increase.The lower stack also sends the cardboard to the top of the stacked cardboard, but the cardboard is output from a fixed conveyor to a raised/lowered conveyor station.When a stack of cardboard stacking is completed, the cardboard transfer will be interrupted, the transfer platform will be lowered to the horizontal position on the ground, the cardboard stack will be removed and the highest position under the transfer outlet will be returned.The conveyor then reloads the cardboard, and the conveyor decreases at an appropriate rate.It is obvious that the replacement cycle of the top stack is much shorter than that of the bottom stack.If the stack of all low-gram cardboard, the time difference is more obvious.In addition, the cardboard must be raised to 2 meters above the ground between the cross cutter and the lower stacking room.Due to the limitation of lifting angle, the lower stacking room must be far away from the cross cutter.The additional conveyor belt required can also provide buffer for cardboard stacking, thus providing sufficient time for the longer stacking replacement cycle at the lower stacking place.Therefore, the reasonable design of the double stacker should be equipped with the lower tool site for the use of the upper stack stacking and the upper tool site for the use of the lower stack stacking, because the conveyor must carry cardboard through the first stack, and the conveyor is longer.This design minimizes production line speed and can be installed on shorter machines.In terms of triple cutter and stacker, down-stack stacking is an ideal choice for the third work station.Continuous all batch orders can be completed by combining one or more additional stacking rooms and delivery units.Once the stacking replacement time exceeds the order running time, the conveyor can quickly move the cardboard from one room to another and back again.The finishing of cardboard stacking can be realized by the appropriate design of stacker or the rear equipment of conveying system.If it is done on a stacker, it is easy tothe connecting cardboard to increase stability.However, keep in mind that connecting cardboard can cause problems at the pre-feeding machine.In view of this, the stacker can be set up a all under heap stacking station, the height of the stack on the roller table is less than 400 mm.It is then transferred to the second roller table in parallel or connected (if the board is short), and then transferred to the descending roller table as a whole. Stacking is formed here.Whatever combination of stacks you use, you should pay attention to the first part of the conveyor belt after the cross cutter after order change. It is necessary to slow down the delivery speed of the cardboard of the new order and/or speed up the cardboard at the end of the last order, but the order should be clearly separated without damaging the cardboard, and the cardboard of the previous order will not be mixed into the new order cardboard.Theoretically, large bundling piles should not be formed.Stacking conveyor belt surface should have a high friction coefficient to prevent the board slip or skew.At the same time, there should be corresponding parts to output to the stacking process of cardboard control, such as the top roller, brush, etc.The output angle of the stacking conveyor belt and the distance between it and the stacking platform should be adjusted according to the length of the cardboard, so as to prevent the gas from entering the lower part of the cardboard due to the large angle (which may cause the cardboard to bounce from the rear baffle or cause deviation), or the damage of the long cardboard due to the steep angle.Such angle adjustment is very important in the upper stacker, otherwise the cardboard contact angle will change with the increase of stacking. Right-angle horizontal stackerIn addition, right-angle horizontal stacking can complete the horizontal discharge of cardboard, its performance is outstanding, economic and practical.But this stacking speed is very slow, and all by manual operation, suitable for low speed corrugated board production line.Please refer to table 1 for the analysis of advantages and disadvantages of down-stack stacker, up-stack stacker and right-angle horizontal digital stacker. Chart1：Comparative analysis on advantages and disadvantages of several stacking forms TypeAdvantages and DisadvantagesDown-StackerThe output cardboard is fixed in a position to stack the cardboard from the top to the bottom. After one order is completed and the pallet is transported, the second order is raised to receive the second order. The basket needs to go back and forth twice. The disadvantage is that it takes longer time to change the order compared; Advantages: Stable friction, stacking stability, stacking height without restrictions.Up-stackerThe output board is located on top of the stacked board, which is much faster than the bottom stacked stack.Cardboard from the bottom to the top of the stack, bridge conveyor frame from low to high movement, in an order after the completion of the delivery can be completed immediately.Rapid stacking, conducive to small order stacking.Disadvantages are due to the slope angle restrictions, the angle can not be too steep, the distance from the cross cutter position is far.In addition, the height of the stack is also limited, generally within 100 pieces.Right-Angle StackerAdvantages: the price of equipment is cheap, convenient manual packaging, suitable for low speed production line.Disadvantages: slow stacking speed, manual operation.

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Factors to consider when purchasing cut-off

▲Cut-off Cut-off is also known as the final process cutting machine, it is composed of measuring roll, weight block, sun wheel, cutter shaft, the main is to continuously crosscut the slitting cardboard into a certain length of cardboard, and feeding the cardboard to the stacking conveyor belt for neat stacking. ▲Operation procedure of cut-offThe working principle of the cut-off: the cardboard after slitting is feeding to the crossing cut process, and the electronic eye of the paper wheel sends out a cardboard detection signal;Under the action of the rotation of the crosscutting knife and the sun wheel, the length of the crosscutting knife is cut according to the size set by the system.Under the pressure of paper shrapnel, the cross-cut finished products are decelerated and arranged on the conveyor belt.Under the rotation of the conveyor belt, the cardboard is output through the paper receiving department and feeding to the stacking process.The accuracy of crosscutting should be at least + / - 1 mm and square at right angles to machine speed changes and order change.The board is sent to the crosscutting knife site by either a traction roller or a clamped feed roller.The design of the traction roller or clamping rod has the self-adjusting , and the operator does not need to adjust the clearance according to the thickness of the board.They usually have a motor driven steel roller, the surface speed of the roller slightly higher than the speed of the cardboard, so as to maintain the tension of the cardboard.The upper roll is usually covered with a thick, soft, elastic covering, such as synthetic rubber, so that the board can be in close contact with the driving roll without collapsing.The main working element of a cut-off is to carry two axes of a tool that are very precisely interlocked with each other.These machines are designed with the operator in mind so that they can easily set up cutters and remove blockages caused by cardboard.The working principle of the cutter here is relatively complex.First, there should be a certain amount of pressure between the cutting knives during crosscutting. One knife should be close to the other to cut, so as to ensure that the crosscutting is clean and the cardboard will not get stuck between the cutting tools and force the blade to separate.The gear is mounted on both ends of the cutter drum in a 1:1 ratio.These gears generate torque between the tool rollers through torque, and this torque forces the two sides of the cutter together, preventing the cutter from separating.The principle is similar to that we use finger strength to operate scissors.Second, the cutter is not installed along the direction of the length of the cutter roller straight, but installed at a certain angle.This is done to prevent large amounts of repetitive vibration loads, noise, and wear, forming a gradual cut along the width - just like with scissors.But the board must be in the transverse accurate, square cutting.Third, the cutter will carry out circular motion, but the cutter and the cardboard cut-in the bite point, must be equal to the speed of the cardboard running along the direction of linear movement.Otherwise, if the cutter moves too fast, the cardboard will not be cut but torn, and when the traction roller will feed the cardboard into the back of the cutting tool running faster than the speed of the cutter tail, the front end of the cardboard will be deformed (bending or "arch" phenomenon).Fourth, in order to meet the requirements of different lengths of cardboard, the cutter must speed up immediately after cutting the short cardboard, or cut the next round of long cardboard after slowing down or even stopping for a period of time.It is most convenient to cut the cardboard which is closest to the circumference of the blade.Obviously, to meet the requirements of the above four points and to meet the expected cardboard length and cutting perpendicularity, good mechanical and electronic control is very necessary. The instructions provided by the supplier will guide the user to set up the gear torque angle and adjust the tool.The setting of the tool depends largely on the installation method of the tool on the tool roller and whether the tool has been adjusted to the cut-in or cutting state.The composition structure of the cut-off includes the main and secondary box body, upper and lower cutter shaft tranission part, paper feeding mechani, paper output mechani, length measuring mechani, lubrication system, pneumatic system, electronic control system, etc.The s of the cut-off need to meet the following requirements:● Crosscutting accuracy (1 mm error control and board squareness control).● Automatic adjustment of the thickness of the traction roller and clamping rod.● The shortest cutting length of the cardboard speed, mainly to investigate the ability to speed up the cut-off.● Match the production speed.● Minimize energy consumption.When purchasing cut-off, the following aspects need to consider:1. Position of Measuring meters wheel;2. Debugging of crosscutting line speed;3. Configuration of double motors;4. Power recovery system;5. Marking and cutting;6. Low inertia cutter (carbon fiber plastic drum);7. Waste discharge ;8. Reverse sharpening ;9. Suction drive length of the paper delivery plate.--If there is copyright dispute, please contact us to delete.

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Two models of order change for corrugated line

The order change of cut-off is divided into cut-off order change and non cut-off order change. At present, when one order is in production, the cutter line of the next order is arranged in knife arrangement on another slitting scorer, and the cut-off cuts waste at the intersection of the two orders through the production control system. This is a kind of non-stop order change of the two slitting scorer, which is also the most popular mode at present.Cut-off Order ChangeAnother one is there is a cutting knife in front, and a cut-off knife on the back, when order changing, cutting knife to cut off the first, the length between the AB/speed is the knife arrangement time of the slitting scorer, in principle, the machine under 1 second, in order to avoid the run-out both front and end,the crosscutting knife cuts off the front-end by 30mm, thus cutting off the 400-500mm scrap.According to the following two order change modes, the loss of cut-off order change is lower, and the waste with non cut-off is generally about 600mm. Non cut-off order change Table4：Comparison of the advantages and disadvantages of changing orders between Non cut-off and cut-off▲Zero Waste Cutting TechnologyIn the selection of slitter scorer and cut-off, we should pay attention to the application of zero cutting waste technology.Zero waste cutting technology refers to the paperboard after scoring to cross cutting process, in the process of order change, there is no waste paper, or paper control in a certain range.There are two ways to use this technology.One is foreign technology, the investment cost is relatively large; Another is the domestic technology, which is two slitting scorers plus a cut-off, zero waste cutting control is achieved by the data transfer between the slitting scorer and cut-off.If each shift has 250 ~ 300 orders, through the slitting scorer and cut-off system transformation, the use of zero waste cutting technology can reduce the waste paper consumption rate by 2% ~ 3%. --If there is copyright dispute, please contact us to delete.

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How to make right choice in buying cutoff

The cut-off has two ways of cutting paper, straight knife crosscutting and spiral knife crosscutting .Straight knife cut-off relies on the depth of the groove, the width of the crosscutting knife to achieve the rotary cutting board, by the groove depth, the width of the crosscutting knife restrictions.The shearing angle of the straight knife cut-off is relatively all, and the strength is not good when shearing, suitable for medium and low speed production line.The cut-off of spiral cutter opens a spiral cutter groove on the cutter shaft, and the cut-off is installed on the cutter shaft to form a spiral cutter with large shear angle, ooth paper cutting and labor-saving. It is suitable for cutting high-strength triple wall corrugated board on the medium-high speed production line.The computer control type straight knife cut-off use and the maintenance cost is low, the straight knife thickness is big, the service life is long, and the price is lower. Computer controlled spiral cutter cut-off is a relatively new technology at present, its design adopts low moment of inertia cutter shaft, cutter shaft is all, relatively easy to control, less power, can achieve high-speed production requirements.For example, the speed of 300 meters/min of the new all inertia cut-off, each motor power is 22KW, two motors power is 44KW.A speed of 300 meters/min of the traditional cut-off, motor power is 75KW.According to the calculation of the daily operation of the cut-off for 16 hours, it can save :(75-44) KW * 16 hours =496 KWH of electricity, and the annual cost can be saved about $21,000.The comparison of advantages and disadvantages of spiral low-inertia cutter and spiral ordinary cutter are as follows:Table3：The comparison of advantages and disadvantages of spiral low-inertia cutter and spiral ordinary cutter Spiral low inertia cutter--If there is copyright dispute, please contact us to delete.

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Analysis on cutoff motor driver

The cut-off control mainly includes frequency conversion control mode, DC servo control mode and AC servo control mode.The digital AC servo control system composed of AC servo motor, AC servo controller and encoder is an ideal cut-off controlmethod.Through the optimization and matching of the cutter shaft inertia, mechanical speed ratio and servo motor rated power, rated speed and rotary inertia of the cut-off, high-speed, high-precision, high-efficiency, energy-saving, reliable and stable cut-off control can be realized.Single servo motor drive cut-off Double(two-side) servo motors drive cut-offA cut-off with only one motor is cheaper. However, when encountering short cardboard, due to the rotation speed is too fast, brake current is too large, resulting in the speed cannot exceed 300 meters/min.While the cut-off equipped with double motors can provide strong enough instantaneous current and power for short board production, so that the production can be carried out quickly, the speed can reach more than 300 meters/min.However, the disadvantages of the double motor cut-off are large power consumption, motor start instantaneous current impact is strong, need to be equipped with capacitance recovery device, so the price is more expensive than the single motor cut-off.Comparison of advantages and disadvantages of single motor cut-off and double motor cut-off, please refer to table 2 Table 2： Comparison of advantages and disadvantages of single motor cut-off and double motor cut-off--If there is copyright dispute, please contact us to delete.

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Analysis on meter wheel

The meter wheel (a sensor that measures length, also known as a measuring wheel) collects information about the length of the board and the speed of the production line and tranits it to the cut-off. The cut-off itself cannot be more accurate than the information it obtains.The precise measurement of the cardboard movement into the cut-off is tranitted to the cutter, which determines the length of the cross-cutting board.The meter wheel equipped with a pulse generator is anchored in front of the crosscut cutter above the board, which is usually supported by a steel plate to prevent wear and tear.The surface of the meter wheel must be kept clean to ensure the accuracy of the cutter signal. During the clearance order change, the signal will be automatically transferred from the meter wheel to the encoder of the feed roller of the cut-off, so that the signal accuracy will be slightly reduced. ▲Single Measuring Meters Wheels ▲Double Measuring Meters Wheels Traditional single meter measuring wheel is generally installed about 30cm in front of the cut-off, that is, meter measuring wheel B is located in the front section of the cut-off and the back section of the slitter score.Its disadvantage is due to vibration, the cutting length error in 5mm, more than 10mm.(the error mainly depends on whether high-end servo motors and brakes are used.)Double meter wheel is to add another meter wheel at the position of meter wheel A.Because, we usually use measuring meters wheel A, this position has virtually no vibration, and at the time of order change, the cardboard is cut off, the meter wheel leaves the cardboard, knife shaft will not rotate, then need to start the measurement meters wheel B to measure the position, so to use two meters measuring wheels for length measurement, this will be very accurate.It has the advantage of mutual error correction mechani, which makes the equipment debugging and management more convenient, and eliminates vibration. The cutting length error can be controlled within plus or minus 1mm. Table 1 for comparison of advantages and disadvantages of single meter wheel and double meter wheel. Table1：Comparison of advantages and disadvantages of single meter wheel and double meter wheel--If there is copyright dispute, please contact us to delete.

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Elements to consider when purchasing double facer

Double facer (hot plate) is the gluing of single face corrugated board and linerboard, heating curing, drying and cold shaping into three wall, five wall or triple wall of corrugated board, and then the corrugated board after the formation of transport to the longitudinal scoring machine and other equipment for cutting and processing cardboard.The double facer is the last part of the wet part of the corrugated line. Its is to complete the final adhesion of the cardboard and the production of flat cardboard. Cardboard out from the double facer whether in the longitudinal or horizontal are stiff and flat, this cardboard is the raw material for the manufacture of cartons. The double facer consists of hot and cold sections.The heating section is composed of several groups of heat oven with ooth surface. Corrugated board is directly attached to it. On the upper plane of corrugated board, there are special canvas belts, pressure rollers or pressure plates with good air permeability, certain tension and gravity, so that corrugated board is heated and dried under certain pressure.Heating section is divided into high temperature zone and low temperature zone, high temperature zone makes the adhesive gelatinization, drying, enhance adhesion.Low temperature area makes corrugated board dry and tend to be stable.The of the cooling section is to dissipate excess heat, evenly distribute water, avoid warping, so that corrugated board into the next process after leveling and shaping.To sum up, the functions of the double facer need to meet the following requirements:1.The paper between the appropriate temperature gelatinization bonding;2.Flute as far as possible to maintain no loss;3. Most economical energy consumption;4. Easy to clean.When paper packaging manufactures purchase double facer, they need to consider the following aspects:1.The choice of pressure plate: pressure plate has three forms: pressure roller, contact pressure plate, air bag pressure plate.2.Heat transfer, mainly consider: (1) steam control system layout;(2) conveyor belt selection.3. Correction mode.4. Install quality and prevent deformation of hot plate.5. Mirror treatment of hot plate when necessary.--If there is copyright dispute, please contact us to delete.

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Process selection of glue making

Glue is called blood of corrugated board line , the quality of glue, the appropriate proportion will have an important impact on the quality of cardboard.This article mainly introduces the parameter configuration of the glue making process, the selection of the glue making method and the control of the glue amount, etc., hoping that everyone has a clearer and more comprehensive understanding of the glue making process.1.Parameter configuration of glue making(1) Solid content solid content = starch/(water + starch) x 100% (2) Gelatinization TemperatureWinter: 56-58 ℃Summer: 60-62 ℃(3) Viscosity Single facer: 20-25 secondsGluer: 25-30 seconds 2. The process of glue making(1) One-step method (no shrinkage) and two-step method (traditional) :the traditional two-step method has simple operation technology and high viscosity of glue;The one-step method has the advantages of low viscosity, easy gluing and low cost.(2) Selection of tapioca and corn starch (4) How to accurately determine the amount of glueA. Moisture content of normal paper and boardThe current moisture content of cardboard and corrugated paper is (8 + 2) %;Corrugated board national standard (14 + 2) %Note: the excess (6 + 2) % is basically from glue - more glue is more water.B. Relation between the amount of glue and cardboard moistureGenerally, the glue is 1:4 (1 part starch,4 parts water), and the analysis of three current domestic starch consumption:* less than 10g/m2, watering 10 * 4=40g/m2;* less than 14g/m2, watering 14 * 4=56g/m2;* under 18g/m2, the water supply is 18 * 4=72g/m2·Starch consumption increased by 4g, cardboard water increased by 16g/m2;·Starch consumption increased 8g, cardboard water increased 32g/m2Based on the paper formula 120g-95g-100g-95g120g, the basic quantity is 610g/m210 g/m2 production board theory of moisture content :(610 x 40 +)/(610 + 10 + 40) = 13.4% < 14% (National Standard)14 g/m2 production board theory of moisture content (610 * 8%+56)/(610+14+56)=15.4%18 g/m2 production board theory of moisture content (610 * 8%+72)/(610+18+72)=17.1%3.On the premise of good adhesion, the less glue is applied , the betterThe damage of large amount of glue:A. The quality of cardboard is decliningB. Cardboard strength is not up to standardC. The board thickness is not up to standardD. The surface quality of the linerboard is not good and flute exposureE. Corrugated edges wrinkledF. cardboard warpingG. The speed decreases and the production capacity decreasesH. Large glue consumption and economic lossIn a single consumption of 12 g/m2 rose to 14 g/m2, the monthly output in 4 million ㎡Starch loss about $37,000 /year* (14-12 g/m2) x 4 million ㎡ * $400 /ton*12months=$37,000/ year --If there is copyright dispute, please contact us to delete.

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How to use intelligent control to reduce glue consumption

1. Disadvantages of Large amount of Glue ApplicationIn general, operators are willing to increase the gap of glue when controlling the amount of glue in the normal production process, so as to avoid degumming. However, it does great harm:A. The cardboard is soft, easy to be compressed, and the thickness decreases, resulting in a decline in the paperboard's flat press strength, edge press strength and rupture resistance.B. Poor surface quality of cardboard, linerboard flute exposure, corrugated edges wrinkles, inner linerboard blistered etc.C. Cardboard is prone to warping.D. Increase the temperature of baking and reduce the speed.E. High glue consumption and increased cost.Cost variance calculation: in terms of the average monthly output of 5 million square meters, if starch consumption rise 2 g / ㎡, then more starch consumption in one year : 2 g / ㎡ x 5 million ㎡ * 12 months = 2800 yuan/ton, 336000 yuan.Calculate the starch consumption area as standard square:Area of three layers x 0.6+ area of five layers x 1+ area of seven layers x 1.5Industry usually starch consumption: 11-13 g / ㎡Starch consumption is mainly determined by the following four aspects:1) the width of glue thread accounts for 50%;2) 30% of the glue is thrown by the gumming wheel;3) 10% glue agglomeration;4) solid content accounts for 10%. 2.Gluing Gap ControlUnder the condition of different materials and different speeds, the gap between gluing wheel and cutting pasting can be automatically adjusted through the process control to reach the minimum gluging thickness under the corresponding material.120 g / ㎡ below the base paper gram corresponding glue gap 0.8 1 mm;120 g / ㎡ - 170 - g / ㎡ base paper gram corresponding glue gap 1-1.2 mm;More than 170 g / ㎡ base paper gram corresponding glue gap 1.2 1.5 mm. ▲Glue Gap Control Diagram Key points for implementation:1. Whether the actual clearance between gluing wheel and cutting pasting wheel is consistent with the display clearance of equipment.2. Whether it is feasible to set parameters of glue gap thickness for different materials and corresponding materials.3. Whether it is feasible to set parameters for the relationship between the gap between gluing wheel and cutting pasting wheel and the thickness of glue under different speeds and the same glue viscosity of the debugging equipment. ▲Double facer - the amount of glue in the middle layerMainly for the quality of cardboard, the aller the thickness, the less damage to the quality of cardboard;Secondly, for the consumption of glue, the thinner the thickness, the aller the consumption of glue.So on the premise of ensuring effective adhesion, the less glue, the better. Glue Line Width Test The structure difference of gluing wheel running glue： 3. Automatic control of glue baffleGluing wheel baffle (single facer, gluer) automatically adjusts the position of glugin wheel baffle according to the single process control of wet part, so as to reduce the influence of glue overflow on production quality.Key points of implementation: real-time control of the single facer, gluing wheel baffle tracking linerboard. The automatic control of the gluing wheel baffle of the gluer can increase the air permeability and service life of large cotton belt by 20%, at the same time to reduce the cotton belt of the rubber block on the quality of cardboard, cardboard can produce corrugated paper larger than the linerboard.Through automatic control of gluing baffle, the quality of cardboard can be improved while the cost and labor intensity can be reduced.Calculation of benefit of baffle plate:1. Reduce the shoveling time by twice a day, 10 minutes each time, increase the production capacity by 20 minutes * 150 meters/minute =3000 meters, increase the production capacity by 3% per shift.2. The life of cotton belt, with a cotton belt calculation of 100,000 yuan, a year for a change, the minimum savings of 20,000 yuan.

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How to improve board quality through intelligent control?

1.Flute collapsed after glue application is the most common problem of a gluing machineWhen corrugated paper passes between the rubber roller and the riding wheel of the gluer, the riding wheel flattens the gummed corrugated paper, which means that the operator fails to adjust the gap between the rubber roller and the riding wheel in time.Due to the structure of the order, in the production of cardboard base paper basis weight (g) is different, the thickness of the paper is also different, so is the thickness of corrugated paper. Timely and accurately adjust the clearance between the riding wheel and rubber roller, can have certain difficulty for operators, at the same time, the operator worries about cardboard degumming more than that of cardboard crushed, so it will lead to the cardboard quality defects.In practice, the gap between the rubber roller and the riding wheel will be less than the thickness of the board, the cardboard will have a certain degree of load deformation damage, resulting in cardboard edge pressure and physical properties of the decline. ▲Glue unit The most important core of gluer is the configuration of gluing structure.Gluer is also called glue-application machine, the most important core is the configuration of gluing structure.The gluing structure is divided into: 1. Structure of contact roller There are three forms of wheel structure: manual adjustment, automatic adjustment and follow-up adjustment.(1) Manual adjustment: manually adjust the gap between the rubber roller and the riding wheel.Advantages: load and glue is steady, not easy to degumming. Disadvantages: the clearance is not easy to adjust accurately, easy to crush the cardboard.(2) Automatic adjustment: automatically adjust the gap between the rubber roller and the riding wheel.【Detecting type of corrugated paper】 through detecting corrugated paper sensor, the clearance control is automatically adjusted.The disadvantage is that it needs to check whether the clearance position is accurate;Intelligent detection point/line;When the corrugating roller is worn, the error is large;The control is complicated and the cost is high.【Testing the loading type of the upper roller】Automatically adjust the control of the gap between the upper cots by testing the loading of the upper cots.The advantage is that the paperboard load is steady, will not crush the paperboard.The disadvantage is the high cost.(3) Follow-up adjustment: automatically adjust the gap between the rubber roller and the contact roll according to the change of the weight of the cardboard.Its structure is: contact roll is mobile, different grams of paper through the base, the same pressure on the riding wheel, achieving contact roll glue optimization.The advantage is the paperboard load steady, will not crush the paperboard;Simple structure and low cost. 1. Platen Structure This structure is the use of spring automatic adjustment, pressure can be automatically adjust if paper and flute shape changed, so as to avoid flattening cardboard.Advantages and disadvantages of platen structure: Advantages: simple structure, low cost.Disadvantages: high requirements for installation, unstable load and gluing, easy wear of the pressure plate.The automatic matching speed of the gluer can improve the quality of the board.If the same roll on the gluer needs to apply glue for corrugated cardboard with different flute shape, you need this. Because of the different flute height, linear speed is different, the speed of the rollers is different, and the speed of the flute tip should be equal to the linear speed of the rollers.At present, most gluers in China do not have this. ?Gluer equipped with slurry board is also conducive to improving the quality of cardboardAnother concern in configuring the gluer is the slurry plate baffle, also known as the slurry baffle.Have slurry board, when the paper web of corrugated paper is larger than the linerboard, the glue of flute tips on both sides of the corrugated board will contact the surface of the hot plate, accumulated hard block, wear and tear large belt and stick to the big belt extrusion board and produce indentation affect the quality of cardboard printing.At the same time, because the upper cots are half immersed in the plastic plate, both ends of the upper rolls are easy to throwing the glue, resulting in waste, and the slurry baffle plate structure is simple, low input can solve the above two problems.2.Automatic gluing control system to improve the quality of cardboardIn the production process of corrugated board, in the premise of ensuring the cardboard adhesion, the less glue the better.If the amount of glue is large, it is easy to cause:· cardboard quality decreases;· cardboard strength is not up to standard;· board thickness is not up to standard;· the surface quality of the linerboard is not good, and the surface is exposed;· corrugated edge wrinkled;· cardboard warping;· decreased speed and production capacity;· large glue consumption and economic loss.Traditional electrically controlled glue control requires manual control of the gap between the scraping wheel and the upper rubber wheel, so as to control the thickness of glue.Generally need operators according to paper and corrugator speed manual adjustment, the disadvantages are frequent and not easy to adjust quickly.The use of automatic glue control system is to achieve in different speed, different paper, corrugator production system can automatically adjust the amount of glue.The automatic glue control system is helpful to reduce the amount and consumption of glue. It can also reduce scrap cardboard caused by human error, reduce the original paper waste caused by broken glue. Automatic glue control system setting parameters are in PLC, according to the speed and glue formula, according to the set thickness of glue coating automatically adjusted.The disadvantage of automatic glue control system is that although it greatly reduces the workload of manual operation, packaging enterprises should set parameters according to the actual production needs.The central automatic control mode of the glue control system, its PLC can automatically calculate the thickness of paper based on the paper and speed in the production control system, while automatically adjusting the paste cutting clearance, and the riding wheel clearance. It can also automatically fine-tuning the amount of glue based on the other parameters (such as temperature) on the corrugated line. At present, the technical strength of the equipment suppliers, its corrugated line equipment configuration of the central automatic control mode glue control system, not only can achieve the single facer glue usage control, and each corrugated type is equipped with a set amount of glue curve, and according to the different base paper material with glue offset set .In addition, it can also automatically match the speed of the rollers according to the corrugated type, so as to obtain the best gluing effect. Comparison of advantages and disadvantages of several gluing control systems --If there is any Copyright Dispute, please Contact us to Delete.

972 0

The damage of improper control of gluing volume

In corrugated board production, the most important link is gluing.Glue is just as important as human blood. Once the glue is abnormal, the quality and production efficiency of the whole board will be affected. Even if you make a very good glue, you should see whether the amount of glue is appropriate.In general, once the amount of glue on the wrong control, it will affect the following: 1.Poor adhesion of cardboard If the amount of glue is too all, it will lead to degumming, paper of high material or applying too much is particularly obvious, resulting in poor paper adhesion.However, when the amount of glue on the cardboard is too much, the board will become soft, in other words gluing is like watering, when the amount of glue on the paper water is large, the water is large once the high speed of production, resulting in poor adhesion.This is because the water is large, the paper by the heat is low, the glue can not reach the appropriate temperature for gelatinization, resulting in poor adhesion.So many factories corrugated line once the speed is fast, the adhesion is bad, and this has something to do with the amount of glue applied.Experience: the amount of the gluing and the size of the paper has a relationship, generally high material paper has a large volume of gluing, other paper on the amount of glue to be aller. 2.Physical index reduction There are two biggest factors in gluing process that affects the physical cardboard : one is the volume of the gluing amount, the other is the gap between the rolls and pressure rollers.Many operators are worriedthat cardboard degumming will reduce the gap between the pressure roller and the rolls, that is to say, the corrugated height is 2 mm, adjust the gap of only 1.7 mm, then corrugated in the gluing time will directly destroy the flute, so that the edge pressure of the cardboard will undoubtedly become lower.So on the gap between the physical destruction of cardboard is much higher than on the amount of glue. 3.Starch content increased When the amount of glue is high, the use of starch will increase, which will directly lead to the increase of production costs, so the carton factory must control the amount of glue of the line width. Gluing LineSo, how to determine whether the glue is too much?You can make a good judgment by the following figure. You can see the two fingers on the figure. When the fingers are pressed on the (roll) and there are two grooves, the occurrence of this situation indicates that the amount of gluing is too large.Conclusion: gluing seems to be a very simple thing, but in the actual production operation affects the quality of cardboard far more than the above, gluing a large amount not only affects the production cost and production efficiency, but also damage the physical properties of cardboard. --If there is any Copyright Dispute, please Contact us to Delete.

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How to purchase a satisfactory glue unit?

1. Factors to consider when purchase a glue unitOne of the advantages of the glue unit over the single facer is that there is no need to preheating rollers around the paper during the gluing process.Before the gluing process starts, make sure that the single-sided board should be as ooth as possible when entering the gluing roller clamp.The board can be in contact with the gluing roller through "contact rubber roller" or "contact rod".Contact bars are relatively inexpensive and do not require a lot of effort to maintain, and are perfectly suited to most gluing processes.But if some special cardboard, such as micro corrugated board, then the contact with rubber roller is an advantage, because it is more linear pressure, but also can reduce the flute tip and gluing roller contact arc (compared with the contact bar).The surface of the gluing roller is sandblasted or sculpted, usually with a chrome coating or stainless steel as the raw material. The purpose is still to evenly apply the starch adhesive film to the flute tip.Because the distance to the adhesive is relatively long, so the staying time of starch adhesive on the edge of the flute longer than the single facer on the gluing roller.Some corrugated lines have two sets of starch adhesive circulation system, so on the adhesive machine can choose a higher solid content of adhesive.The speed of the gluing roll of the glue unit is still lower than the paper transfer speed of about 3%, which is conducive to continuous transfer of starch adhesive to the flute point. Wiper roller surface for the flat chromium coating layer or ceramic coating.Starch adhesive tray system is widely used in the glue unit, because of its simple operation, and low temperature environment (relative to the single facer) that means there will be few problems in the tray adhesive gelatinization.Automatic adjustable gluing tray on the glue unit or single facer is equally important, its position should be adjusted to the lower layer of paper edge to 3 mm ~ 4 mm, so as to avoid starch adhesive overflow to the double facer on the hot plate.Without the use of adhesive pallet system, the upper layer will soon harden, and then form a cut edge, the cut edge will damage the subsequent processing of the larger width of the cardboard, if the subsequent processing of the cardboard width is aller will damage the expensive conveyor belt.The lack of this kind of glue tray will make the operation of multiple conveyor belt frequently appear problems. Before the glue unit runs, it is necessary to put an appropriate amount of corn starch adhesive into the upper and lower gluing boxes, and drop the pressure roller. The gap between the pressure roller and the gluing roller should be slightly less than the thickness of the single-sided corrugated board coated, and the size of both ends should be the same.After starting up, adjust the hand wheel to make the gap between the cots and the uniform cots suitable, and observe whether the amount of glue on the cots is appropriate.When single-side corrugated board and surface paper from the multiple preheater transport, with manual guide to the cardboard and linerboard into the preheating roller and cots, and then feeding two layers of single-side corrugated board and one layer of linerboard into the adhesive dryer. Observe whether the pressure roll rotation or collapse, if the pressure roll did not rotate the cardboard but with flute collapse,it is caused by the single facer.If the cardboard with collapsed flute after the glue applying, it is because the gap between the cots and pressure roller is too all, bolt should be pulled up, increase the gap between the pressure roller and the cots.The s of the glue unit shall meet the following requirements:1. Glue the board with the minimum amount of glue;2, Maintain a stable speed while not deguming;3. Maintain the stability of glue quality;4. Easy to clean When purchasing gluing machines, the following six aspects should be considered:1, Gluing quantity adjust type:2. Automatic glue quantity control system;3. Glue temperature control system;4. Glue plate;5. Glue run-out control;6. Slurry board control system. 2.Comparison and analysis of glue roller and press plate The composition structure of the glue unit is mainly composed of upper gluing mechani, lower gluing mechani, linerboard preheating mechanics, operating side protective cabinet, power side protective cabinet, power and tranission system, electronic control system, pneumatic system, etc.glue unit is an essential and important equipment in corrugated board production line. Its is to gluing corrugated paper before it enters double facer forming. The quality of corrugated board products will be directly affected by its performance. Paperboard flatness is not good, paperboard foaming, paperboard fit is not good, bending deformation, paperboard is compressed, paperboard having too much glue, low compressive strength and other problems, are more or less related to the gluing quantity.The traditional way of gluing is accomplished by pressing corrugated paper on the pasting wheel through a pressing wheel. Its disadvantages are as follows: first, it is difficult to adjust the gap between the pasting wheel and the pasting wheel (for example, flute B, the wheel height must be lowered to 2.5 mm to gluing evenly), and it is easy to crush the flute. The crushed corrugated board is easily to gluing too much, that the compressive strength or hardness are both poor, both a waste of glue and pressure of thin cardboard, cardboard is also easy to bend deformation moisture return soft. Second, because of the wear and tear for a long time, the middle part of the glue roll and pressure roll all will be worn down.When processing the board with a wide web, the corrugated cardboard at both ends of the board is easy to be compressed, and the middle position of the gluing is not uniform or even not gluing.The cardboard made in this way is easy to poor gluing, bending deformation is very serious, resulting in a large number of waste. If replace the pressure wheel with the touch-bar, the above cardboard quality problems can be solved.Because the contact bar it is a piece of stainless steel plate and stainless steel spring coated with a special wear-resisting layer and connected together, the spring and wear-resisting pressure plate of the elastic balance of the joint action of corrugated board has always been uniformly pressed on the pasting wheel (regardless of whether the pasting wheel wear), so that the board gluing uniform and not be compressed corrugated.Less gluing and uniform, making flute deformation, such a cardboard compression strength is good, will not bend deformation. There are suppliers with rich experience, can achieve uninterrupted testing torque in order to timely adjust the pressure roller pressure, according to the calculation of torque to control the gap between the applicator roller and gumming roller, applying the glueon the accurate position of flute peak, there will be no collapse of the cardboard phenomenon.Several common load applying glue methods of glue unit, a comparison between advantages and disadvantages (Table 1) Table1：Comparative analysis of three kinds of load gluing methods3 .Automatic glue application control system In the production process of corrugated board, in the premise of ensuring the cardboard adhesion, the less glue the better.If the amount of glue too much, easy to cause cardboard quality decline;Cardboard strength is not up to standard;Cardboard thickness is not up to standard; Linerboard surface quality is not good, flute exposure; edge of cardboard wrinkled;Cardboard warping;Speed down, capacity down;Large glue consumption, economic losses.Traditional mechanical glue control requires manual control of the gap between the scraping wheel and the upper rubber wheel, so as to control the thickness of glue.Generally need operators according to paper and corrugator speed manual adjustment, the disadvantages are frequent and not easy to adjust quickly.The use of automatic glue control system is to achieve in different speed, different paper, tile production system can automatically adjust the amount of glue.The automatic glue control system is helpful to reduce the amount and consumption of glue.Can also reduce scrap cardboard due to human error ;Reduce the original paper waste caused by shortage of glue. Automatic glue control system setting parameters are in PLC, according to the speed and glue formula, according to the set thickness of glue coating automatically adjusted.The disadvantage of automatic glue control system is that although it greatly reduces the workload of manual operation, packaging enterprises should set parameters according to the actual production needs. The central automatic control mode of the glue control system, its PLC can automatically use the paper ,speed in the PCS, automatic calculation of the thickness of the paper, while automatically adjusting the paste cutting clearance, and adjust the riding wheel clearance.Can also use other parameters (such as temperature) of corrugated line , automatically fine-tuning the amount of glue.At present, the technical strength of the equipment suppliers, its corrugated line equipment configuration of the central automatic control mode glue control system, not only can achieve the single facer glue usage control, and each corrugated type is equipped with a set amount of glue curve, and according to the different base paper material with glue offset set .In addition, it can also automatically match the speed of the cots according to the corrugated type, so as to obtain the best gluing effect.The advantages and disadvantages of traditional mechanical glue control system, automatic glue control system and central automatic glue control system are compared as shown in table 2. Table2：The advantages and disadvantages of gluing control system4. Optimization of glue tray Glue application plate of glue unit is generally made of plastic material.The glue tray is provided with a glue liquid inlet at the middle position, a glue liquid groove is provided between the circumference of the glue tray and the glue liquid inlet, and a glue concave is provided at the corresponding glue liquid groove on both sides of the glue tray.The glue tray is also provided with a glue liquid guide outlet, and the glue liquid guide outlet is provided with a glue liquid outlet channel .So, the glue unit not only can smoothly feeding starch, when the plastic plate is dirty or stuck with foreign matters also can facilitate optional to this glue dish undertakes changing, avoid the inconvenience that cleans up.The gluing plate generally has the characteristics of high temperature resistance, low temperature resistance, corrosion resistance, non-adhesion and so on.When the glue unit is configured with gluing plate, the gluing plate,glue tray temperature and the starch run-out should be considered.The glue baffle plate is a wedge shaped baffle inserted between two rollers of the glure and in close contact with the two rollers.When working, the rubber baffle plate keeps the rubber material within the width range of the required roll surface to prevent the accumulation of rubber from running out of the roll surface.If the plastic plate has automatic thermostatic , it can prevent the temperature too low to lead to glue freezing.The reason why the glue is running, one may be the glue viscosity is too big, the other may be the number of anilox roller anilox line is too low.In the actual production process, to control the viscosity of glue, at the same time to use the glue baffle plate, but also pay attention to the configuration of a high number of lines of the anilox roller, the paper on the rubber anilox roller is generally controlled in line 38. Table 3：Several functions of the glue tray --If there is any Copyright Dispute, please Contact us to Delete.

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Comparative analysis on steam control system

During the operation of the preheater, we should pay attention that whether the condensate water in the steam system is unobstructed. If the condensed water in the drum dryer can not be discharged in time, keeping accumulated will affect the surface temperature of the drum dryer and the preheating effect of the paper.The high temperature condensate produced by the drum dryer of the preheater still has the heat available for use. At present, the method of closed recovery is often used to directly send it back to the boiler for use, which can play the role of energy saving and consumption reduction. ▲Segment Steam System ▲Single-side Steam System ▲Closed Recovery System

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Comparative analysis on preheater wrap control system

A corrugator line should be equipped with multiple preheaters, both single cylinder preheater and multiple preheater. Among them:Medium quality control cylinder -- Before the paper feeding into the single facer, plus steam spraying equipment;Liner preheater -- To adjust the angle-wrap of paper web before the paper enters the single facer;Multiple preheater -- To heat single corrugator and linerboard before the paper web is fed into the double-sided machine. In the production process of three-layer and five-layer corrugated board, if there is a problem of applying glue, the solution is: through the other direction into the preheater for reverse preheating, that is, to heat the other side of the paper and reverse removal of paper moisture.Usually, a three-layer cardboard production line (one set of single facer) should be equipped with two preheater groups, and a five-layer cardboard production line (two sets of single facer) should be equipped with three preheater groups.If a single facer needs to run a large amount of heavy kraft paper at high speed (more than 350 grams/square meters), equipped with three preheater groups will also play a good role.Seven-layer board production line, heavy duty corrugated board production line can have up to five preheater groups, so that the angle-wrap is more diversified. ▲Seven-layer board production line, heavy duty corrugated board production line can have up to five preheater groups, so that the angle-wrap is more diversified. On the preheater, the aller the angle between the angle-wrap adjusting roll and the paper guide roll, the aller the contact area between the paper width and the drum dryer;The larger the angle between the angle-wrap regulating roll and the paper guide roll, the larger the contact area between the paper width and the drum dryer.Because the preheater to balance the humidity and moisture content of the base paper, to ensure the ooth production of cardboard, so the preheater has to maximize the angle-wrap adjustment, in order to timely change the heating area of paper web on the drum dryer. ▲Comparison diagram of wrap control system If the preheater has an encoder interface connected to the production pipe, it can automatically control the angle-wrap -- the angle-wrap can be automatically adjusted according to the speed and paper quality, and the length of angle wrap can be calculated automatically.If the preheater does not have an encoder interface to the pipe, the operator manually adjust the angle-wrap.Depending on the operator's personal experience to adjust the size of the angle-wrap is very easy to cause the paper web too wet or too dry, resulting in the production quality of the subsequent process. Table 1：Comparative analysis on advantages and disadvantages of angle-wrap control system In addition, the current drum dryer of preheated in the market is generally fixed.But equipment suppliers have also developed more advanced configurations that allow the durm dryer to rotate.If the preheater drum dryer can rotate, the surface area of the drum dryer in contact with the paper will no longer be fixed, which is conducive to the uniform use of steam in the drum dryer, on the other hand, it can be more energy saving. -- If there is any Copyright Dispute, please Contact us to Delete.

956 0

Elements to consider when purchasing pre-heaters

When in the production of corrugated board, first of all, place the base paper in the size of cylinder on the non-shaft frame, and gradually unrolled under the tension control , the paper web goes into the corrugated machine through preheater, and produce flute to glue with inner linerboard, forming a single-side corrugated board;Secondly, the single-sided cardboard is transported to the gluing machine for applying, and gluing with linerboard, and then sent to the dryer;Finally, cardboard of various of specifications according to the requirements of scoring, longitudinal cutting, crosscut are exported through stacking output and corrugated board production completed. The preheater is mainly composed of drying cylinder, paper guide roller, angle adjustment roller and steam system (rotary joint, siphon, etc.), electrical control system.In the production process of corrugated board, the role of preheater is to provide heat to the paper web, through preheating paper web, so that the water content of the paper to meet the corresponding requirements, to facilitate corrugated forming,and energy saving.A preheater is usually heated by saturated steam.The surface temperature of the dryer is generally about 160 degrees (if it is high-speed tile line, the surface temperature of the dryer to achieve 180 degrees), the preheater work mainly by adjusting the paper web on the dryer package angle, in order to change the contact area, to adjust the water content and temperature of the paper. If the paper web is not preheated, the following problems may occur:1. Paper web is too wet.Water will affect the paper fiber absorption adhesive, resulting in the process of paperboard degumming cracking.2. The paper is too dry.Paper fiber will absorb a lot of water adhesive, adhesive can not be very good penetration and stay in the paper surface, adhesive part is all and shallow, easy to cause poor adhesion.3. Uneven water content of paper.One layer of paper moisture is high, while another layer of paper moisture is low, resulting in corrugated board warping.When purchasing equipment, the following five aspects should be considered for preheater:1). Angle range (200-270 degrees), the preheater should be able to adjust the maximum angle;2).What kind of angle control system being used to effectively control paper temperature;3). What kind of steam control system is adopted to save energy;4). Whether it is able to control tension;5). Whether it has the humidification capacity of the preprocessor. --If there is any Copyright Dispute, please Contact us to Delete.

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Technology of paper volume control on bridge stacking

The function of the bridge is mainly to transport the two layers of cardboard produced by the single facer, which will be coated with glue after gradually cooling.Therefore, semi-finished products on the bridge should not be piled up too much, to avoid flute unable to timely heat dissipation by extrusion due to a large number of stacking , resulting in cardboard deformation.In order to avoid this problem, the following measures should be taken in actual production:1. Single facer should keep pace with the speed of double-side locomotive ;2. Add double oblique roll device, so that the two layers of cardboard keep in the middle of the position, affected by bridge suction, quickly aligned on both sides;3. To install ceiling fan or strong exhaust fan in the corresponding place, speeding up corrugated heat dissipation;4. The amount of bridge air suction should be adjusted based on the size of the door, material hard brittle, to avoid breaking or dislocation due to the large or all tension. The speed control of bridge not only avoids the problem of paper tearing, but also affects the accuracy of paper changing in the whole wet part and the automatic compensation of manual paper tearing.The reason is very simple, in the entire corrugated board production line, in addition to the wavy bridge product paper not easy to predict, from the original paper frame to climbing belt, and from the bridge guide to the crosscutting machine distance, is almost constant. It is in fact to calculate the actual amount of stacking paper on bridge, and how to automatically compensate for the amount of bad paper manually torn off on the bridge.At present, there are basically the following calculation methods in the market:Using ink-jet technology, high accuracy: the principle of this way is to install ink-jet machine on corrugated medium, and then in the vicinity of the bridge paper guide induction ink machine, from ink-jet to detection of ink all completed by the computer automatically tracking calculation, so the accuracy can be controlled within 1 meter.Ink-jet device used for measuring the length of stacking paper on bridge of corrugated board production line, including installed on the top of the corrugated tape nozzle body, the nozzle body has the upper end for the ink pipeline to connect the mixing chamber, the lower end of the nozzle body is connected with a liquid cap with an ink hole;There is an empty cavity between the nozzle body and the liquid cap.The lower end of the nozzle body is also provided with a number of crushing holes in the form of through-hole.The mixing cavity and atomizing cavity are connected by a number of crushing holes.Through the ink-jet device,the volume of stacking paper on the bridge can be accurately calculated , so as to effectively reduce the original paper consumption rate.Electric eye detection: the method is to install two reflective infrared detectors on the bridge and calculate the bridge retention by using the relationship between the speed and the speed ratio of the bridge belt.For example, if the distance between two electric eyes is 3 meters, and the speed ratio between the speed of the car and the speed of the bridge belt is assumed to be 6:1, the inferred result is that the distance between the two electric eyes is only 18 meters.This works for users who don't change much with paper;However, for users who use high and low materials with great changes, they may feel confused. Why is it that some materials are accurate in calculation and some errors are as high as 20-30 meters?In fact, the reason is very simple, paper material and thickness are different, so wave size is different in height, so the error value will be high.There are infrared eyes and ink-jet dual identification system, dual control identification rate is high, but also can avoid the lack of ink or water shortage caused by the fault, but the disadvantages of the system installation cost is high, expensive. Comparison of advantages and disadvantages of three common speed control systems on bridge(Table 1)Bridge paper volume appropriate at 70~100m , too much will cause the bending problem of cardboard. We should also notice that the cardboard produced by single facer on the bridge should not be stacked too much, to avoid the double-sided locomotive speed too fast or broken, the machine should always observe the amount of stacking on bridge, keeping the space with the double-sided machine production speed. --If there is any Copyright Dispute, please Contact us to Delete.

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Analysis on Key points of Bridge Purchase

1.Elements on bridge PurchaseAfter the single-sided board leaves the single facer, it is transported to the overhead bridge via the inclined conveyor belt (the speed is slightly higher than the running speed of the board). The conveyor belt gently clamps the board to avoid the corrugated deformation after the initial bonding.The bridge is composed of paper device, conveyor device, cardboard alignment device, tension adjustment device and walkway on the bridge frame. Single pit board exported from single facer enters the subsequent processing after the paper feeding device, conveying device, aligning board device, tension adjusting device on the bridge conveying frame. The of the bridge is the single-side corrugated board produced by layered wave stacking single facer enables single facer has different speed difference buffer, so that the later stage of the process can not interrupt production. ▲The slanting conveyor belt carries the single-sided cardboard onto the overpass Single-sided board in the longitudinal elastic, and in the transverse is not easy to bend.Single-sided board from the inclined conveyor belt down, need to rhythmically guide down to the horizontal bridge conveyor belt, so that the board can be stacked evenly flat on the horizontal conveyor.The running speed of the horizontal conveyor belt is relatively slow, generally 1/10 ~ 1/7 of the speed of the production line.The of the bridge is to provide buffer stock for the single-sided board, so as to meet the needs of the occasional speed switch between single-sided and double-sided machines.The ideal amount of paper on the bridge should be kept stable and reduced as far as possible, because the atmosphere around the bridge is often warm and wet, if the machine is against the wall, the natural air circulation around the wall will make the machine drive side humidity becomes higher due to less.Just processed cardboard to this moisture absorption capacity, so in that state, the less time the cardboard stay, the more stable the cardboard quality.Most machines have electronic control of the "bridge level control" system, such as paper before the single facer slowed down, the bridge can also quickly adjust the amount of temporary paper.But generally speaking, the bridge can balance the speed of single facer, double facer, so that the bridge product paper keeps in the upper and lower limit.Before the board enters the preheater and gluing machine from the bridge, the board is unfolded and tranitted through the machine to a place several millimeters away from the lower layer of paper.This process requires the use of paper guide, the earliest type of "half-moon" steel guidance paper, but it will damage the edge of the paper, can not achieve the ideal paper guide precision, but also will produce a lot of noise.Most modern machines have one or more soft guide rollers with high surface friction coefficient, which can move on the surface paper and can be replaced at any angle in the desired direction without touching or damaging the edge of the board. ▲A bridge guide pushes the single facer board to the center line or edge One side of the cardboard after the arrangement of another friction surface, that is, through a brake roller, the roller will eventually eliminate the paperboard stacked in the uneven phenomenon and give the paper tension, so that the paperboard then oothly into the preheating machine and gluing machine.If the tension between the single-sided cardboard and the lower layer of paper is very uneven, the cardboard will produce upward warping (often referred to as cardboard "longitudinal warping").Therefore, the brake drum and surface paper brake are effective adjustment equipment, can control the cardboard "longitudinal warping" probaaCorrugated board production line, the s of the bridge to meet the following elements:1. Single-side corrugated paper storage to synchronize gluing machine and single facer.2. Adjust the tension to keep the cardboard flat.3. Adjust the width of single corrugated and surface paper, keep the same width, to reduce trimming and waste.When purchasing bridge, we mainly consider its operation stability, friction coefficient of friction surface, deviation correction ability etc., To sum up, the elements in the procurement of bridge are: 1).The form of bridge deviation correction.2). Tension control form.3).Stacking paper length calculation and control.The following content will make a detailed analysis in the procurement of bridge. 2. Paper guide and tension controlCorrugated board production line tension control and automatic deviation correction has long been an important problem of corrugated board carton enterprises. In the traditional corrugated board production line, the tension and deviation correction of three-layer, five-layer and seven-layer corrugated board is basically completed by vacuum adsorption and electric regulation.Due to the use of mechanical baffle deviation correction, material rupture and paper break occur frequently, resulting in the loss of materials.More importantly, in continuous production, when the size of the base paper changes, the base paper fit dislocation will lead to the double facer on the hot plate has been dry pulp line residue;This will cause the interruption of production, until the operator will clean up the residual paste before continuous production, and ultimately reduce the efficiency of corrugated board production line.The tension of the base paper can be controlled directly or indirectly.Direct control is the actual paper tension value measured by the tension sensor, and then control the speed of bridge drive;Indirect control is to determine the motor speed so as to calculate the tension value of the base paper, and then control the motor speed according to the size of the difference.For the control of the tension of the base paper, the general situation is the combination of indirect control and direct control.Multi-point air bag brake is installed on both sides of the tension system of bridge to make the tension of paper more even and the anti-slip adhesive more durable.Compared with the traditional fan tension system, it is more cost-effective and environmentally friendly.Regarding the deviation correction control and tension control of bridge paper guide, the following two common forms are listed: first, the form of "vacuum suction air + baffle".Old models of equipment are in this form.Its disadvantage is that the suction is relatively all, easy to produce such phenomena as flute exposure;Suction control is not quantified;Manual control baffle reaction is slow, high loss, baffle easy to break the edge of the paper, paper is easy to break.Second, the "brake + servo motor" form.The advantages of this form are: through the servo motor to achieve rapid deviation correction, automatic control can be achieved, and the cardboard alignment is fast;Through brake tension adjustment, digital control can be achieved, while reducing paper break.A comparison of the advantages and disadvantages of the above two forms are as follows: Table1: The advantages and disadvantages of the two tension and deviation correction control systems are compared ▲Through the suction device and baffle to maintain a certain tension and deviation correction ▲Through servo motor and brake for deviation correction and tension control 3. Speed control systemThe of the bridge is mainly to transport the two layers of cardboard produced by the single facer, which will be coated with glue after gradually cooling.Therefore, semi-finished products on the bridge should not be piled up too much, to avoid a large number of piled corrugated by extrusion and unable to timely heat dissipation, resulting in cardboard deformation.In actual production, we should:1). Single facer shall try to keep pace with the speed of double-side locomotive;2). Install double inclined roll device to keep the two layers of cardboard in the center position, and quickly align the two sides under the suction of bridge;3). In the corresponding place to install ceiling fan or strong exhaust fan, speed up corrugated heat dissipation;4). The air intake of the bridge should be adjusted based on the size of the door, the material is hard and brittle , to avoid too much or too little tension caused by breaking or moving. The speed control of bridge not only avoids the problem of paper tearing, but also affects the accuracy of paper changing in the whole wet part and the automatic compensation of manual paper tearing.The reason is very simple, in the entire corrugated board production line, in addition to the wave bridge product paper not easy to predict, from the original paper frame to climbing belt, and from the bridge guide to the crosscutting machine distance, is almost constant.To really calculate, to put it bluntly is how to calculate the actual amount of paper bridge, and how to automatically compensate for the amount of bad paper manually torn off the bridge.At present, there are basically the following calculation methods in the market:Using ink-jet technology, high accuracy: the principle of this way is to install ink-jet machine on the medium, and then in the vicinity of the bridge paper guide induction ink machine, from ink-jet to detection of ink all completed by the computer automatically tracking calculation, so the accuracy can be controlled within 1 meter.Used for corrugated board production line bridge length of paper meter ink-jet device, including installed on the top of the corrugated tape nozzle body, the nozzle body has the upper end for the ink pipeline to connect the mixing chamber, the lower end of the nozzle body is connected with a liquid cap with an ink hole;There is an empty cavity between the nozzle body and the liquid cap.The lower end of the nozzle body is also provided with a number of crushing holes in the form of through-hole.The mixing cavity and atomizing cavity are connected by a number of crushing holes.Through the ink-jet device can be achieved on the corrugated board production line bridge paper volume of accurate calculation, so as to effectively reduce the original paper consumption rate.Electric eye detection: the method is to install two reflective infrared detectors on the bridge and calculate thebridge retention by using the relationship between the speed and the speed ratio of thebridge belt.For example, if the distance between two electric eyes is 3 meters, and the speed ratio between the speed of the car and the speed of thebridge belt is assumed to be 6:1, the inferred result is that the distance between the two electric eyes is only 18 meters.This works for users who don't change much with paper;However, for users who use high and low materials with great changes, they may feel very strange. Why is it that some materials are accurate in calculation and some errors are as high as 20-30 meters?In fact, the reason is very simple, paper material, thickness are different, of course, the bridge shape of the wave is different in size and height, so the error value will be a lot worse.There are infrared eyes and ink-jet dual identification system, dual control identification rate is high, but also can avoid the lack of ink or water shortage caused by the fault, but the disadvantages of the system installation cost is high and expensive.The comparison of advantages and disadvantages of the three common speed control systems on bridge are as follows: Table 2: The advantages and disadvantages of the three speed control systems are comparedBridge paper volume of 70~100m is appropriate, too much will cause the bending problem of cardboard.In the production should also pay attention to the single facer produced cardboard on the bridge should not be too much accumulation, to avoid the double-sided locomotive speed too fast or broken, the machine should always observe the amount of bridge accumulation, with the double facer production speed. --If there is any Copyright Dispute, please Contact us to Delete

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Do you know, What’s is the W flute ?

Although there are several flute profiles in the industry that are offered as alternatives to B flute. Dasong(RMM) claims to be the only company that can offer W flute, which has a flute height of 2.2mm. The company says its new flute profile provides better test results by 10 per cent for ECT and 30 per cent for FCT. “We have found that the other common B flute alternatives usually have a flute height of 1.7mm and they are more similar to E flute than B flute,” states llker Arguc, Sales Director, EMEA Region. He continues, “China has in operation every type of corrugator in terms of width, speed, performance and product quality. China is also still using the widest range of corrugated papers of different qualities and gram mages . Manufacturing 3,000 sets of rolls in 2014, Dasong is determined to have a product range covering the requirements of the entire Chinese market.” Mr.Arguc explains, “With the free of charge, tailor-made flute profile design service(TFP), every customer is given the opportunity to evaluate alternative flute profiles by making direct comparison with their current flute profiles . This comparison is made possible thanks to our advanced know-now and our ability to simulate the results of ECT, BCT, FCT and take-up values for tailor-made flute profiles. Customers can make a risk free decision to choose the profiles that best suit their expectations and needs. The main benefits of the TFP service , as confirmed by customers, are that it helps reducing vibration on single facers, especially for lightweight papers. Another benefit is the increase in board strength and control of paper consumption for the targeted board quality.”New W FluteComparison Between W & B FluteUp to 6% TUR Reduction9% Improvement in ECT30% Improvement in FCTLower Logistics Costs Less Vibration “corrugating rolls are among the most risky consumables for corrugators,” comments Peter Ma, Global Sales Director .” Replacing rolls requires an element of time and has high ongoing costs for materials such as bearings and grease . If there are quality issues on the corrugating rolls, it would result in serious product quality issues and an instant increase of waste. Therefore, our Quality Control Department is well organised and inspects every single roll throughly at all stages of the production process. Our inspection results are presented in reports with all the details for the rolls, including reground rolls that might have originated from another manufacturer.”All rolls originally manufactured by Dasong can be reground two times, with guaranteed results. “While some manufacturers have been using softer base materials with 55 HRC hardness to reduce manufacturing costs, Dasong always uses base materials with at least 60-65 HRC hardness before” coating, depending on the brand and type of single facers in order to obtain the best production quality and lifetime,” confirms Mr Ma.” After coating, the hardness of our corrugating rolls reaches 1200HV with tungsten coating and 1000HV with CT coating . There have been many Dasong customers that have reached a lifetime of more than 100 million meters comfortably with tungsten coated rolls .”Another innovative and environmently-friendly decision from Dasong is to replace the traditional chrome coating with a special coating named CT coating , that has been developed and offerred exclusively by Dasong as a lower priced alternative to tungsten coating .” Chrome coating was very popular before the industry had seen the benefits of tungsten coating .” states MrArguc. “With the latest manufacturing technologies , tungsten coating can be precisely applied for all flutes including E and F flutes, but now we can confidently offer CT coating that is proven to have many of the benefits of tungsten coating, including longer lifetime in comparison with the traditional chrome coating. With that said , ninety-per cent of the rolls manufactured by Dasong are still tungsten coated, using the top quality tungsten powders imported both from Europe and the USA.” --If there is any Copyright Dispute, please Contact us to Delete

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The Correct Method of Single facer Machine Maintenance

Matters on Single Facer Daily Maintenance The degree of maintenance of paperboard production equipment affects the level of equipment downtime.The reason is simple: the more downtime, the longer the downtime, and the lower the productivity. Many enterprises can stop the cardboard line for about 1 hour a day, if the work is 10 hours, then only 9 hours in production, equivalent to the effective production time of only 90%.Good enterprises can achieve 98% effective time, the number of downtime is only 1-2, downtime is also a single digit.Single machine is the key single machine of the entire corrugated board production line, its maintenance other than the impact of production efficiency, also directly affect the quality of corrugated board produced. Now let’s focus on daily maintenance of the single side machine. 1. Before the formal every day production, it should be refueling first, especially corrugated roller and pressure roller supporting shaft. Check if any foreign matters on the corrugated roller if any, clean up in time.2. Steam in, open the bypass valve, release condensed water, close the bypass valve after 1-2 minutes. If the bypass valve has been opened the day before, close the bypass valve before venting.3. The machine began to preheat, corrugated roll fueling with N32 oil, start the air compressor, pressure 0.2mpa or so mechanical start empty operation.Note that pressure roller is not allowed to pressurize. When the temperature reaches a certain requirement, feeding glue, open the suction motor, start to feeding paper.4. After the two sides of the paper feeded, sent them to the glue plate, making it with glue, press on the roller pressure, began to work normally. In normal operation, if the downtime is long, the glue plate exits the machine, the upper cots run empty, the downtime of corrugated rollers is long, due to heating, will produce bending deformation.5. After work, start cleaning the machine. No. N32 machine oil on corrugated roll is running empty, the adsorption fan is stopped, the rubber plate, applying roll, rubber roller must be cleaned, pay attention to the cold water must not be sprayed on the corrugated roll, prevent the corrugated roll deformation 6. The suction hood shall be cleaned once every half a month, the upper cover of the suction hood shall be opened, and all foreign matters shall be cleaned.Pay attention to observe the air compressor water should be released in time.7. The air compressor needs to be observed every day to see if there is oil, if not, to timely refueling, regular replacement of oil.8. Corrugated roll after a period of time will be wore, especially when often using narrow width paper, the middle wear is more severe, and then use wide width paper, the middle foaming, at this point with grinding sand on both ends of the mill. If seriously wore, height does not meet the requirements, it is necessary to re-repair the corrugated roller, or replace a new corrugated roller.9. Frequently check the top of folder gluer that if the bolts on the conveyor frame are loose, do not fall on the corrugated roller, in order to avoid crushing corrugated.10. The applying roller should be often checked whether with glue, if with glue, then need to adjust the applying board.11. Often observe whether the cylinder movement is flexible, reliable, if it can ensure the pressure, or to carry out maintenance.12. The use of narrow paper, glue baffle plate to move to the middle, and the width of the paper, and observe whether there is glue on the pressure roller, there must be timely clearance. Machine should be stopped no matter any part being adjusted, to prevent accidents of people or equipment.13. The main corrugated roller suction groove should be cleaned up every quarter, preventing foreign matters from affecting the adsorption effect. Machine should be stopped when cleaning up,to prevent any accident.14. The lubricating oil in the gearbox should be filtered once a year and supplemented to reach the middle of the oil standard.15. Low main corrugated roller, pressure roller, spinning and preheat roll adopts high temperature (above 200 ℃) grease lubrication, check with oil once a week.16. check the paralleli of main and deputy corrugated roll, pressure roll, cots, squeegee roller once a week, using "carbon paper method" and "lead wire method".Paralleli is generally 0.03 mm, if not parallel to adjust in time.17. The main and deputy corrugated roll, pressure roll, preheating roll temperature is normal once a week, if the temperature difference is large between the upper and lower, the siphon may be damaged, should be replaced in time.

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Basic operation of Single Facer machine

The inspection and operation of the single facer is divided into the two different post responsibilities including captain and the deputy , the captain mainlythe boot, check the operators, machine, ring, and then the test run; The deputy is mainly to prepare materials, understand orders, check paper and glue; Finally loading paper, threading paper, and start cardboard production process.1. Responsibilities of the Captain1.) Starting upStarting up includes: turn on the power supply and glue pump, let the glue into the single facer; Open vacuum pressure, whether positive or negative pressure, corrugated paper should be adsorbed on the corrugated roller;Turn on steam pressure to allow steam to pass through and warm up.2).Check up OperatorsThe captain first needs to check whether the personnel's dress is in line with the company's requirements, whether to wear a work uniform, whether to wear a helmet, women having long hair should be tied, not to wear skirts, high heels, etc.; Secondly is to should check the mental state of personnel, cannot fatigue works; Thirdly is to check the knowledge and skills, whether the new staff training on the post, do not understand the safe operation.3). Equipment Appearance InspectionCheck the fastening degree of each fastener of the equipment.How's the cleaning going?In particular, is there any dirt on the roller? Are there any foreign matters?4). Equipment Pressure InspectionThe most important thing to check the equipment is to see if the pressure meets the production requirements.For example, vacuum pressure is generally 6-9kg/cm2, steam pressure is generally 8kg/cm2, oil pressure is generally 40-60kg, and suction pressure is generally 500-1000m3/h. 5).Equipment Temperature Inspection Equipment temperature inspection includes preheating cylinder, corrugated roller, pressure roller temperature inspection.These places are all steam, need to check the temperature whether in place.There are two ways to detect temperature, including infrared thermometer and contact thermometer, which is more accurate relatively.What temperature is required? Mainly on two parameters.First, the comparison of steam pressure with temperature.This comparison can be seen if any mal inside of corrugated roll , steam pressure is generally 0.5MPa, MPa divided by 9.8 is the number of kilograms.About 5 kg of steam temperature is about 158 ℃, 13 kg of steam temperature is about 190 ℃ or so, the two are compared.That is to say, at what vapor pressure, what temperature should be reached, and if not, there is water in the roll, or there is something wrong with the piping system.Comparison table of steam pressure: Second, as a single-sided machine, it needs temperature in order to make the paper to reach the appropriate temperature.So, the temperature check is more important to measure the temperature of the paper, even if the corrugated roller temperature can not be reached, as long as the speed of the slow down, the temperature of the paper can meet the requirements.Recommended temperature of the bottom paper is 85-95 ℃, the temperature of the corrugated paper in is 70-80 ℃, the temperature of a piece of paper produced on corrugated line is 90-100 ℃.This is a reference temperature obtained by experts after many tests. We need to know that all the temperature control is to control the temperature of the paper. 6).single facer Clearance Adjustment"Single-side clearance adjustment" will be introduced in the fourth section of this chapter, which will not be described here.7). Environmental InspectionThe captain also checks the leaking of the equipment;Whether the indicator light is normal; or if any abnormal sound etc.8). Machine Test RunThe captain must well inspect before starting up, forming good habits, and then start the machine test run.Take general traditional equipment as an example, when starting up, the main motor press the "enter" light and then press the "start" button, and then press the "speed up" button to preheat the machine at a constant speed, the speed is controlled at 10-20m/min for test run. 2. Responsibilities of the Deputy1).Prepared MaterialsFirst of all, we need to prepare tape, including high temperature double-sided tape, cow leather tape, double-sided tape.For example, high temperature double-sided adhesive is used to connect paper, because this adhesive will enter the high temperature corrugated machine inside, if not high temperature double-sided adhesive, the paper will be broken.Secondly, whether the paper cutter is well prepared, the paper cutter should be used when cutting paper, and the place where the paper is broken should be cut off.Thirdly, you should measure the width of the door when you are in production.Fourth, we need to mark after the paper is removed, so a marker pen is needed. 2). To Understand the OrderTo understand what is the next order according to the PCS, scheduling the orders to determine which one goes first, what kind of paper is needed, instruct the forklift operator to cross the paper first, and prepare the paper for the next order.All this coordinated work to be done by deputies. 3). Check the Base PaperFirst of all, check whether the original paper material is correct, whether the paper web and direction is correct, whether the original paper is stained.Secondly, to check the tightness of the base paper, the moisture content measurement under normal circumstances, in the paper "loose" in the area of the moisture removal is lower than in the "tight" area, the tightness of the base paper is not the same as the best not to use, if you must use, it is necessary to make appropriate adjustments in the preheating cylinder base paper tension position.4).Check the GlueGlue inspection is mainly to check the gelatinization temperature, glue viscosity, glue color.After the glue on the machine, need to observe the glue on the machine operation, check glue width, glue thickness, glue quantity is uniform. 3. Starting Production Process1). Matters while in the Process of Paper Loading:a . We should pay attention when operating the rocker arm of the base paper frame, the base paper chuck must be aligned with the base paper core, or the end of the original paper will be damaged, and difficult to feeding paper next time . b .We should pay attention in using automatic splicer, when we begin to threading paper, after paper pulled to the roller, to press out a straight line with the hand, so that the paper is easier to tear, press the line, affixed double-sided adhesive tape, the role of double-sided adhesive tape is to connect to another piece of paper while paper splicing.The two ends of the double-sided adhesive shall be torn into a 45-degree bevel angle, which is for the convenience of paper connection, so as not to stick the double-sided adhesive to the roller. c . After tear the double-sided adhesive, usea mirror to observe whether the paper is aligned, if not aligned with the paper,it will be connected to the dislocation. 2). Matters while in the Process of Paper Threading: The steps of paper threading: The Clamped base paper→Board Receiving wheel→rubber wheel→free wheel→ fixed guide wheel→free guide wheel→ regulating wheel. We should pay attention of the direction of paper threading, if installed wrong way, the free wheel will not move.Tear the end of the paper into a bevel angle before putting it through the paper, so that the back part of the paper can be put through. After the paper threading, having the inner linerboard or medium crossing the preheater, and then having corrugated paper crossing the preheater roller of a single corrugated machine, from the pressure roller and the lower corrugated roll out.After the paper on the bridge crossing the triple preheating cylinder, going into the laminating machine.3). Paperboard ProductionPaper finally formed a piece of cardboard after through the double-sided machine, hot plate, and then through the longitudinal cutting machine and crosscutting machine, Above is the operation and inspection of the whole single facer, and finally summarize the matters to pay attention to: (1) Cleaning, inspection before the boot of the equipment;(2) carefully check the processing of products and processes, raw materials and quality requirements;(3) the captain needs to start the motor running at low speed, to confirm whether there are abnormal phenomena;(4) execute the next action after each operation completed .

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Factors to consider when purchasing a splicer

If the paper splicing is not successful or the speed of paper splicing is not fast enough, it means break paper, and that leads to downtime, finally caused cost loss. Therefore, the following aspects should be considered when purchasing splicer:1. Splicer configuration and its speed (mainly considering the speed of paper splicing)2. Tension control (mainly to know tension range and control methods )3. Understand the control mode of PCS4. Calculation of storage length of free roller5. Success rate of paper splicingNow to specifically introduce the factors to purchase splicer from these five aspects :1. To Consider Splicer Speed. The speed of paper splicing is divided into two types: 250m/min above and 200m/min below. The paper splicing speed above 250m/min is much shorter, this kind of splicer requires: 1). to have a longer distance to adjust the free roll storage paper;2). Faster servo motor speed;3). to have a higher precision of tension adjustment to prevent paper break;4). Generally, the speed ratio between linerboard and medium should be 1:1.5, because the speed of medium should be a little faster. While servo motors are not required for splicer with speeds below 200m/min.In addition,there is a reminder: the higher the speed of the splicer, the better, only the speed of the splicer is up, the whole speed will not be affected by paper splicing.2.To understand the Paper Tension Range and Tension Control Methods. In the production process, in order to ensure the quality of corrugated board, the base paper output tension of splicer should be kept as constant as possible during the operation of the splicer. The modern splicer has the of tension induction and control, which can automatically detect and timely control of the original paper tension in corrugator production, so as to eliminate the corrugated board production process due to the change of the original paper tension caused by the paper break, greatly improve the production efficiency and the utilization rate of raw materials.As we all know, the relationship between tension and torque M=F * R: F -- tension, unit is N (Newton) R -- base paper roll radius, unit is M (meters) M -- torque N·M (newtons · meters) to keep the base paper tension constant, the base paper roll radius is decreasing, so the demand for torque is also decreasing.Tension control of the basic working principle is: according to the paper material, paper tension requirement when machine is running , set the desired tension values on the tension controller, sensors will detect the tension value of base paper and feedback to the tension controller, which to calculate the output of the corresponding values for converter, it then outputs the corresponding size of the pressure to the pneumatic brake, by the pneumatic brake to perform constant tension control action.Now, the suspension buffer is no longer controlled by spring or pneumatic pressure, but by torque control motor or similar equipment to control its tension, so as to avoid the paper web tension fluctuation after paper splicing. In order to connect paper oothly between two rolls, the splicer should be equipped with double brake tension control system. In addition, if the brake system on the original paper frame needs to change the air pressure, tension measurement equipment will usually send a signal, tension control equipment on the splicer can control its brake torque.3.We need to know how to control the PCS(Production Control system). The production control system is responsible for customer management, order management, production management, statement management and file management, etc., and it can control the single-side machine, double-side machine, gluing machine and splicer on the corrugator line.The operator can manually or through the PCS through the central control on the corrugator line to set the order parameters.The factors that affect the setting of the splicer include: paper grade, width and production line speed.After understanding these conditions, you can do paper control system programming, setting the brake of the base paper frame, and constantly adjust the brake setting to match the diameter of the changing base paper reel.In this way, during the processing of each order, the base paper rack can maintain appropriate tension control.In addition, through the application of PLC and computer control on the splicer, directly set the rest of the paper reel, in the whole process of paper splicing, the paper tension can be maintained at a constant level.Thus, when the speed of the single-sided machine reaches 500 meters per minute, the paper damage caused by the paper and cardboard adhesion problems can be avoided.In addition, the PCS by setting a certain parameter value, can ensure paper to reach the position. According to the paper material ,width, statistics of its length and area, when the paper is used up, the PCS can cut paper as well as achieving paper splicing, therefore zero-end paper can be achieved, avoiding unnecessary waste.4.We should pay attention to the calculation of the length of storage paper. The paper storage of the free roller is to ensure the uninterrupted paper splicing .When the paper on one end of the base paper shelf is running out or needs to be cut off and the paper on the other end of the base paper shelf, in order to slow down the paper tension and avoid paper break, it is necessary to store paper in advance in the roller, and quickly run to the other end of the paper at the moment of paper breaking.The length of the paper and the speed of the roller are all set and controlled by the PCS.Because of the paper storage of the free roller, the splicer can truly achieve automatic paper splicing, so that the splicer does not need to stop when changing paper and order, and the high-speed operation of the production line can be guaranteed on the premise of continuous paper.5.To consider the success rate of paper. The success rate of splicer directly affects the production efficiency of corrugator line.So what are the factors that affect the success of paper receiving machine?The factors influencing the success rate of paper splicing mainly include the following two points:1). Parameter setting, such as the parameter matching between the free wheel and the tension wheel, the time of the cutting tool and the clamping plate, etc.2). control the tension of the system program parameters, which directly affects the tension of the base paper.In view of the above two points, suppliers are generally required to have strong electronic control programming and design capabilities.

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The Basic Principles of Splicer

In corrugated packaging industry, splicer is used to connect old and new paper rolls in corrugated board production process, so as to realize continuous production without a downtime. A splicer generally composed of the following basic components: frame, free roller, fixed roller, splicer frame, pressure roller, cutter unit and clamping rod, etc. Now let me introduce several components:Frame: all components are installed or suspended on the frame. Because it is suspended on the bridge support, the frame does not equipped with self-frame.Free Roll: Before the paper web leaves splicer, it is running back and forth between the immovable guide roller and guide roller of the storage frame on the side of the paper outlet of the machine. In this way in the storage rack to form a paper storage. In the process of paper splicing, the free roller moves towards the paper outlet side of the machine so as to release the paper web stored therein for continuous production. After that, the storage rack is moved back to the other end of the machine and the paper webare restocked.Splicer Frame: there is a paper frame at each end of the splicer. The paper frame is composed of an adhesive roller and a guard plate. In the paper frame, the new paper web is first cut in the protective plate, then the paper tape is pasted, and finally the new paper web and the original paper web are pasted through the adhesive roller.Pressure roller: in the process of paper splicing, the pressure roller is pressed to the adhesive roller, so as to press the adhesive points of two paper web.Cutter unit: the cutter unit is composed of a knife holder and a blade. The cutter unit cuts off the original paper web. During cutting, the cutter is inserted into a groove on the clip rod. The following are a typical set of paper splicing process diagramSee the next page) : 1 represents the original paper web, 2 represents the new paper web, 3 refers to the paper frame, 4 refers to the adhesive roller, 5 refers to the clamping rod, 6 refers to the pressure roller, 7 refers to the cutter, 8 refers to the brake rod, 10 refers to the zero-tail join.The whole process of paper splicing can be simply summed up as: The old paper roll stops running, the brake bar is pressed down, the pressure roll is down, and the cutter cuts off the old paper. The old paper break joint is connected with the new paper with double-sided adhesive under the pressure of the brake roll. At the same time, the paper storage trolley provides the base paper to the corrugated line. After the paper splicing, the new paper roll began to rotate, and the paper cart gradually returns to the position of the maximum splicer. This kind of splicer called “Flying Splicer”. Operators at the time thought that their manual paper splicing technology was higher than the rapid paper splicing. But as far as performance is concerned, the rapid paper splicing is quite reliable. Modern paper splicer have an electronic tension control system that responds instantly. This means that it has two brake systems, one for rolls in process and one for new rolls. And paper tension control system, brake pad, knife, cutting pad, roller balance structure, chain and bearing lubrication degree have played very critical role to the operation of the equipment.Another characteristic of the modern splicer is that the whole process of paper splicing takes less time.Automatic splicer adopts artificial intelligence design, equipped with digital tension control system and computer terminal, so the paper splicing is quite efficient, reliable and fast.Although the procurement input cost is large, the automatic splicer can achieve zero-tail join, avoid unnecessary waste when paper splicing, reduce the downtime and quality problems of corrugated board production line, finally to effectively ensure stable high production speed and high quality of corrugated board.Now the modern splicer are equipped with the following three functions:1. Achieve 100% successful paper splicing according to the required speed2. Automatically conduct paper splicing according to PMS3. Enable a stable paper tensionIn addition, it is necessary to know the following additional s of splicer, such as1). zero tail, that is, no tail when paper splicing, and the paper roll can be basically used up until the light roller.2). Reducing the loss3).Zero paper splicing and break paper, that is, when the base paper used to roll or use to the end of the damaged, the splicer can automatically conduct paper splicing by determine the tension and electrical eye, to reduce the number of break paper.The following are a typical set of paper splicing process diagramSee the next page) :

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Answers to several common questions for carton factory When configuring the splicer machine

1.Is it Necessary for Small and Medium-sized Carton Factories to Invest a Splicer If a factory has nearly 60 orders each day, with the total length of paper about 60,000 square meters (all converted into 5 floors).The factory owner hesitated whether it was worth investing a splicer.I believe this is a question many all and micro factories have faced: "generally, it is large and medium-sized enterprises to configure automatic splicer, with such little orders, is it worth the cost?In fact, this is a misunderstanding.A corrugated line with good operators, if there is no operational error, then the most important loss is the loss of order change, and the most core role of production control system(PCS) and splicer is to reduce the loss of order change.So is this factory worth investing in splicer?If do not use automatic splicer, especially the linerboard part, then you must stop to change the order.60,000 square meters per day is calculated according to the base weight of 600 grams/square meters, 36 tons of paper is consumed every day, and 36 times of paper needs to be change.Remove the first 5 times, stop 31 times, each downtime to cause hot plate degumming about 20 meters, discount about 14$ (about 40 square meters,0.35$per square), the conclusion is loss about 442$ a day, equivalent to a year about 140,000$. While configuration of a splicer only about 20,000$, it produces economic benefits far higher than the purchase price, the investment is very cost-effective. The comparison is astonishing. Therefore it is necessary to purchase at least one splicer. 2.Why Paper Splicing Failure Happened? Now most enterprises are using the splicer, however it is inevitably encounter the problem of paper splicing failure which affects both production loss and production efficiency.The purpose of using automatic splicer is to reduce production loss and improve production efficiency.So why the success rate is difficult to achieve in using automatic splicer?The reasons can be roughly divided into the following situations:Reasons:1. Fail to remove the damaged base paper of outer edge;2. Fail not deal with paper with too tight edges;3. Loose paper on the new paper roll;4. Paper splicing error;5. The clamping roller is not parallel, not glue the whole paper;6. Not run through the entire paper when crosscutting knife is cutting ;7. Slow movement of floating roll and splicer;8. The speed of paper splicing is too fast;9. The new paper roll is not lifted off the ground;10. The operation order of the machine is disordered11. There is damage to the middle or edge of the paper sheet on the paper roll, which is hung on the splicer. It happens to corrugated medium due toits fragile. According to above situation, the improvement measures include:Solutions:1. Cut off any damaged outer paper or notch with a moon shaped knife;2. Cut off loose paper edges, adjust paper edges to align paper web with paper roll, hold paper web tightly, press the paper clip button, then paper web can be accurately positioned, and the whole paper web is in the correct position;3. Check the degree of loose paper web on the new paper roll before starting a splicer. Too loose or too tight will affect the successful running of the splicer;4. If the brake is not properly set in the paper web preparation process, the splicer shall be in the preparation state as required;5. Adjust the clamping roller to make it parallel;6. Adjust the spacing between the cutter and the anvil pad, check the condition of the cutting edge, the anvil pad and the mechanical device, and ensure sufficient air pressure on the clamping rod and the knife;7. Check whether there is debris accumulation on the floating roller or the gear and rack of the splicer;8. Check the gear, whether the gear tooth excessive wear, each paper machine has its own best running speed due to the differences in design, model, paper material, base paper frame and paper machine preparation.It is recommended that both single-sided and double-sided machines be equipped with easy-to-see speed displays so that operators can control all the splicers running at the correct speed;9. Lift the paper off the ground in the order recommended by the supplier before the splicer starting to run ;10. Removing the edge damaged paper, finding and eliminating the cause of paper damage;11. Because the stripping of the paper web costs seriously waste, it is not recommended to peel the damaged scrap.3 . What kind of Splicer is the "First Choice" of Carton Factory?For many carton factories, there is misunderstanding, that is corrugated line production equipment is best equipped, but no paying attention on splicer, for it’s only used for paper splicing. Is this really the case?At present, the price of base paper fluctuates frequently. It is just like having a "virtuous housewife" to provide a piece of equipment that can effectively "save paper" for the carton factory. When facing the situations like lacking paper and high paper price, we have more confidence to break through the siege."Reduce loss" is the most important reference standard for customers in the purchase of splicer.Paper splicing of base paper suited for different paper gram weightIn the actual production process of carton factory, the situation is much more complicated than expected. Especially in our country, in the context of fierce price competition, many cardboard manufacturers have greatly reduced the paper standard, and the quality of the base paper varies: 1. The paper joint is not strong enough after being produced in the factory, or even the paper joint is not glued at all.2. In some paper rolls, there are more than one paper joint, the joint position of the paper roll is not marked, or other problems such as the two sides of the paper roll have different tightness, the water distribution of the paper roll is not uniform, dampness etc. These are seemingly trivial problems, but they are slowly wasting investors' hard-earned money. As is known to all, because of quality control, the same paper roll with different tightness on its both left and right, or due to improper storage of paper (usually at the bottom of paper roll, paper roll diameter of one end that usually contacted with the ground enlarged due to damp, besides two paper rolls heavy burdened on the surface. We call this phenomenon "the elephant leg").Such paper rolls in the drying cylinder surface because the left and right tension is not uniform, the heat of the paper web in unit time is not the same, the temperature of the paper web between left and right is not the same, resulting in poor gluing or cardboard warp.Break Papers equivalent to a flat tire. Avoiding break paper in the process of high speed paper splicing.In the normal production process, the break paper often occurs due to many reasons.For high speed corrugated line, break paper is fatal, just like the flat tire while driving on the highway. The waste of high-speed paper is huge, not only the paper, but also labor costs. Some industry experts have calculated that a comprehensive cost of break paper reaches 100-150$. It is easy to count the number of break paper every year, so as to know the annual loss of paper breaking.

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WOW! 36,000 $ year cost save by “Zero-Tail join” Splicer !

As is known to all, a all butt roll will be more or less formed after the base paper being used. The all roll formed by the base paper is generally placed on the edge of the cardboard line for the convenience use of operators. However, the use of all paper rolls will increase the amount of labor of the on-site operators, resulting in the loss of the use process and the chaos of the base paper warehouse management, paper management chaos etc., so as to increase the production cost. Why do carton factories pay more and more attention to the of zero-tail splicing?Throughout the current market of splicers, whether the zero-tail paper can be achieved becomes a reference standard equipment for the carton factory to purchase. Now, we will analyze why the carton factory attaches great importance to zero-tail paper. zero-tail paper is mainly to detect the tension of the paper through the pressure sensor on the guide roller , paper breaking tension is zero. As we all know, in order to ensure that the paper joint has enough fastness to resist the paper tension, the way in achieving paper splicing of the corrugated line is overlapped, that is, two pieces of paper overlap up and down, the middle is double-sided adhesive. However, this paper connection also brings about negative effects. In actual production, the width of the joint, in addition to the overlapping part of the tape, also has a all tail left when cutting. The actual overlap part is much larger than the width of the tape. Paper web converted into flute through the corrugated roll extrusion molding, paper web crossed from the two corrugated roll, and the corrugated roll mesh is very precise, any change will cause the corrugated roll vibrated, especially at high speed, this vibration will be magnified countless times. e can imagine, paper joint of the paper web suddenly feeded into the corrugated roller mesh at high-speed production, the gap between the two corrugated roller suddenly increased by one time, the corrugated roller vibration will be huge, resulting in poor gluing. The wider the joint, the longer the vibrating time, the more poorly glued cardboard. Therefore, it is very important to achieve zero end paper (i.e., the joint overlaps the tape width and does not have a all tail).The significance of zero end paper is not only greatly reduce the corrugated roller vibration caused by the waste paper board, meanwhile the joint of the cardboard can also be used as a qualified product due to there is no paper tail. The HV350 high-speed automatic splicer, produced by Fuma Machinery. the joint is on the flute or in the middle, most cases can be used! Saving more than 70% loss caused by splicer, in particular reducing he cardboard loss produced by the long tail of paper in the corrugated machine that can not be glued to the inside . A paperboard production line can save up to 36,000$ a year by using the "zero-tail join" splicerLet’s set a situation: when “zero-tail paper” achieved in the second ,third, fourth layer of the board in corrugated board production line. It can be calculated that: (3 sets of splicer, 0.5$ for a piece of cardboard, 40 ~ 80 times for each splicer every day, 300 working days a year) 40 times a day: 3 splicers *0.5$ *40 times *300 days =18,000 $80 times a day: 3 splicers *0.5 $ *80 times *300 days = 36,000 $In fact, the significance of ‘zero-end’ is not only to solve the problem of direct loss for everyone, but also to help the carton factory solve the indirect loss (including labor, water and electricity, coal).

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How Much Money Can be Saved by Using Splicer?

For many carton factories there is such a mistake, corrugated production equipment equipped with the best, but the splicer is not important just with simple paper , there is no need to buy the best.Is this really the case?Especially at present, the original paper price fluctuations frequently, matching your carton factory with a device that can effectively "save paper" is like having a good housekeeper at home. So you can have more confidence and strength to break out of the predicament in the face of a lack of paper, paper prices rise in the general situation.Therefore, "reduce loss" is actually the most important reference standard for customers to purchase equipment. Small problems erode "hard-earned money" of carton factoryIn the actual production process of the carton factory, the situation is much more complex than expected, especially in our domestic market, in the brutal price competition, many cardboard manufacturers have greatly reduced the paper standard, the quality of the original paper varies:1. There are some paper rolls in the factory when the joint is not strong, or even the paper roll joint is not glued at all.2. In some paper rolls, there are more than one joint, the joint position of the paper roll is not marked, or the two sides of the paper roll have different tightness, the water distribution of the paper roll is not uniform, dampness and a series of problems.These are seemingly trivial problems, but they are slowly eating into investors' hard-earned money.As is known to all, some paper roll after being produced, because of quality control, the same paper roll has a different tightness on both left and right, or due to improper storage of paper (usually at the bottom of paper roll, one end of the contact with the ground because of be affected with damp ,and two paper roll on the surface stress, the paper roll at one end of the ground becomes larger in diameter and is often referred to as the "elephant leg.").Such paper rolls in the drying cylinder surface due to the left and right tension is not uniform, the heat of the paper in unit time is not the same, the temperature of the paper is not the same, resulting in the result is bound to be bad fitting or cardboard warped.Paper Fracture during the production costs 100-120$/ timeFor a variety of reasons in the normal production process, paper fracture often occurs For high speed corrugated board line, paper fracture is very fatal, just like the suddenly burst tire in highway driving .The waste of high-speed paper is huge, not only paper waste, but also labor costs. Industry experts have calculated that a paper fracture accident its comprehensive cost of 100-120$. Each production plant is easy to count the number of times a year paper fracture, so as to know the annual loss in paper fracture accidents.Butt roll management and controlIn addition to the problem of paper breakage, the Butt roll management and control has become one of the important factors that the carton factory considers when purchasing the paper splicer.As is known to all, the base paper after use will more or less form a all Butt roll.The all roll formed by the base paper after the site use is generally placed on the edge of the cardboard line, which is convenient for site operators to use. However, the use of all paper rolls will increase the amount of labor of the field operators, resulting in the loss of the use process and the management of the base paper warehouse chaos, increase the frequency of paper in the field, paper management chaos and other phenomena, so as to increase the production cost. The adoption of excellent splicer, can achieve 'Splicer paper core', greatly improve the use of base paper, reduce the cost Why do carton factories pay more and more attention to the of “Zero-tail” ?Throughout the current market of splicer equipment, whether the zero-tail paper can be achieved becomes a reference standard equipment for the carton factory to purchase.Here we will give you an analysis of why the carton factory attaches great importance to zero-tail splicer. ‘zero-tail’ is mainly through the pressure sensor on the guide roller to detect the tension of the paper, paper breaking tension is zero.As we all know, in order to ensure that the paper joint has enough fastness to resist the paper tension, tile line of the paper is overlapped, that is, two pieces of paper overlap up and down, the middle is double-sided adhesive.However, this paper connection also brings about negative effects. In actual production, the width of the joint, in addition to the overlapping part of the tape, also has a all tail left when cutting. The actual overlap part is much larger than the width of the tape. Through the corrugated roll extrusion molding into corrugated paper, paper from the two corrugated roll through, and the corrugated roll mesh is very precise, any change will cause the corrugated roll jump, especially at high speed, this jump will be magnified countless times.We can imagine, corrugated roller in high-speed production suddenly into the paper joint corrugated roller mesh, the gap between the two corrugated roller suddenly increased by one time, the corrugated roller jump can be imagined, resulting in the direct result is bad cardboard fit.The wider the joint, the longer the beating time, the more poorly fitted cardboard.Therefore, it is very important to achieve zero paper tail (i.e., the joint overlaps the tape width and does not have a all tail).The significance of zero paper tail is not only greatly reduce the corrugated roller vibration caused by the waste paper board, but also because there is no paper tail, the joint of the cardboard can also be used as a qualified product. When the joint is on the top of corrugated or in the middle, most cases can be used!Save more than 70% loss caused by the splicer, In particular, reduce the cardboard loss of long tail of paper in the corrugated machine that can not be glued.A paperboard production line can save up to 37,058 $ a year by using the "zero end" of splicer.If the board that corrugated board production line in the second, third, fourth layer of paper reflects the "zero paper tail."Therefore, it can be calculated as follows :(3 splicers, 0.5$ for each piece of cardboard, 40 to 80 times for each splicers every day, working 300 days a year) 40 times a day: 3 splicers *0.5$ *40 times *300 days =18,000 $80 times a day: 3 splicers *0.5 $ *80 times *300 days = 36,000 $In fact, the significance of ‘zero-end’ is not only to solve the problem of direct loss for everyone, but also to help the carton factory solve the indirect loss (including labor, water and electricity, coal).-- If there is Copyright Dispute, please Contact us to Delete.

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Inspection of base paper and corrugated board and its influencing factors on quality

Moisture Content of Base Paper and Board and its Influencing Factors Moisture content refers to the moisture content in the base paper or cardboard, expressed as a percentage. The quality standard of water content of carton base paper varies due to different paper grades, of which the water content standard of corrugating medium is: Top grade and first grade are 8.0% plus or minus 2.0% : 80% + 30% of qualified products. The standard of moisture content of carton board is: top grade 8.0% plus or minus 2.0% : first grade, qualified product is 9.0% plus or minus 2.0% : corrugated board delivery moisture content standard: not more than 14%. The moisture content of base paper and corrugated board has a great impact on the strength of the carton body, therefore, this is the main reason why moisture content has become one of the three export carton heavy defect inspection items. Because corrugated has a certain pressure resistance, tensile resistance, puncture resistance and folding strength, if its moisture content is too high, the paper will appear soft, poor stiffness, and the flute and gluing quality will also be badly affected . If the moisture content is significantly lower than the lower limit of the standard value, the paper will be too brittle, flute will be prone to fracture, and the folding tolerance is poor. If the online production of corrugated paper and cardboard moisture content gap is too large, corrugated board produced by single-sided machine , not only flute shape and hardness is not good, and corrugated board is also easy to crimping deformation, when laminating, it is easy to appear foaming and degumming, so that the strength of the carton decreased significantly. To calculate the moisture content of the base paper or corrugated board, the more accurate detection method is to use the drying method, that is, samples a number of from different parts of , with a balance weighing about 50 grams of sample, and tear it into pieces and put it into the oven, drying to constant weight state, you can find out its moisture content. The formula for calculating the moisture content is: Corrugated Board Thickness and its Influencing Factors Corrugated board thickness is also one of the export carton appearance heavy defect inspection items. Corrugated board thickness index, directly affects the cardboard edge compression strength, puncture strength and compressive strength and other properties. And the impact of corrugated board thickness index has a variety of reasons, For example, corrugated roller tooth tip (top) part becomes low after wearing, the guide paper is not adjusted, the speed of the single-side machine is too fast, excessive external pressure and the corrugated roller temperature is low. If the corrugated board thickness is too thin, its edge compression strength, puncture strength and compressive strength and other properties, will also decline. Corrugated board thickness refers to the vertical distance between up and low surface under certain pressure, usually use corrugated board thickness gauge in the experiment to detect the thickness of the cardboard, when doing measure, choose a number of parts on cardboard without damage, scoring, collapse ( not less than 50 mm from the edge) as a testing point, respectively measured between the measuring head and anvil, and read the dial indicator measuring value respectively. The sample quantity is generally 10, and finally, the average value is obtained, which is the test result. Flute shape is different , so is the thickness. According to the standard provisions of corrugated board: type A flute height is 4.5mm ~ 5.0mm: type C flute height is 3.5mm ~ 4.0mm;Type B flute height is 2.5mm ~ 3.0mm: type E flute height is 1.1mm ~ 2.0mm: type F flute height is 0.6mm ~ 0.9mm.The test results show that the thickness of corrugated cardboard is high, then there is high probability that cardboard box vertical compression and plane compression performance is also relatively high .However, if the use of high physical indicators of the base paper to make a little thin corrugated board, the production of the carton vertical compression and surface compression resistance will be higher than the thickness of the carton. Therefore, if corrugated roll wear and make corrugated board thickness thinner, so that the corrugated layer of the base paper consumption is correspondingly reduced, it can be considered to appropriately improve the technical indicators of the base paper strength, to make up for the adjustment of cardboard performance, so that the quality of cartons and production costs are effectively taken into account. Corrugated Board Edge Compression Strength and its Influencing Factors Corrugated board edge compression strength is to take a certain width of the sample for testing, and to see its pressure holding within unit length, if also refers to the technical performance that bear pressure paralleled to the direction of corrugation. In accordance with the relevant inspection rules, samples for the test should be qualified as at least 10 specimens with no signs of mechanical or man-made damage, including those without printing marks and appearance defects.The corrugated direction of the cut sample shall be short side, the sample size shall be 25mmX100mm, and the error shall be plus or minus 0.5mm. To meet the basic requirements, on the basis of the test conducted by the author, the knife edge of the sampler should maintain absolute sharp , blade that on a holder should be installed in right position, the mouth of blade and slot into the angle can be adjusted to 45 for fitness, and when installing a blade its tip should be avoid touching the bottom of the groove, so as to prevent blade bending deformation, in that way, edge corrugated of the sample will not appear damage and fluffiness. The conversion formula of the detected edge-pressure strength is: R=F/LX10 cubed. R is the compressive strength of corrugated board sample edge, represented by N/m; F is the force value when the sample is crushed: L is the size of the long side of the sample in mm. Corrugated board edge compression strength standards is varied due to the different minimum comprehensive quantitative , reference to GB/t6544-2008 on corrugated board standards for details. Marginal pressure strength is the important technical indexes of the corrugated carton strength, stiffness of the base paper, quantitative, folding, burst index and ring crush strength of corrugated paper and carton board, white board stiffness of corrugated linerboard, the stiffness of the adhesive quality of the corrugated cardboard, and indicators such as the moisture content of base paper and corrugated board of corrugated cardboard marginal pressure strength will produce certain effect.In order to control the edge compression strength of corrugated board, it is necessary to check and control from these related technical indicators. Corrugated Board Adhesion Strength and its Influencing FactorsFlute peak adhesion degree of linerboard, inner linerboard, medium and corrugated paper in a certain unit of length by applying the test that withstand the maximum peeling force, called corrugated board adhesion strength. According to GB/t6544-2008 corrugated board standard provisions, adhesive strength of any adhesive layer of corrugated board should not be less than 400N/m. Adhesion strength test, mainly to test the corrugated board adhesion, mounting fastness. A type of corrugated board testing, thrusting needle of the stripping frame should useφ3mm, while corrugated hole of B, C type corrugated board is relatively thin, thrusting needle should use φ2mm . Each thrusting needle on the stripping frame should be exactly aligned with the center of the corrugated groove, and adjust separation distance equally , then tighten and fix each screw. 10 single corrugated board, 20 double corrugated board or 30 three-layer corrugated board (25mm + 0.5mm) samples are required for the test of adhesive strength. The corrugated direction is short side (i.e., 25mm). The material should be intact without degumming or foaming.The sample size is 25mmX80mm, with an error of + / - 1.0mm, so as to better ensure the accuracy of detection. The conversion formula of adhesive strength is: P=F/(n-1)XL. P is the adhesion strength of corrugated board sample, unit is newtons per meter, represented by N/m: F is the force value when the sample is separated, N is the number of needles inserted into the sample: L is the length of the short side of the sample, that is, 0.025m. The quality of adhesives, formula, the moisture content of the base paper, as well as equipment, operating process and other factors are appropriate or not, determines the adhesion strength of cardboard, and the adhesion strength of cardboard, and to a large extent affects the strength of corrugated board properties, such as compressive strength, breaking strength and puncture strength and other properties. Therefore, the control of corrugated board bonding strength quality, has a crucial role. Corrugated Board Puncture Strength and its Influencing FactorsThe work done through corrugated board with a certain shape of angle cone, the energy shown is called corrugated board puncture strength, its unit is: The index of puncture strength is tested by the puncture strength tester. During detection, 3 sample boxes with good appearance are selected, and 4 pieces of cardboard without damage, watermark, scoring and other appearance defects are taken from the wall of each sample box, 12 pieces of test samples with the specification of 175mmX175mm are taken. When cutting samples, the starting line should be parallel to corrugated.The instrument shall be zeroed and calibrated every time before test, followed by:(1) After the hammer and sample splint removal, put the pointer to the maximum value of the pendulum in the starting position of the test, press the release device of the pendulum, swing pendulum should make the pointer pointing to the "O" position, otherwise, it is necessary to adjust the adjustment screw:(2) According to the general strength of the sample,the appropriate weight hammer, so that the measurement value in the measurement range of 20% ~ 80% :(3) The sample is firmly clamped in the middle of the test board, the pointer is set to the highest scale value, the friction ring is set behind the corner cone, the pendulum is locked to the starting position of the test:(4) Press the release device, so that the pendulum arm to push the cone through the sample, and then read the detection value:(5) Positive, negative, vertical, horizontal and other detection values, find the arithmetic average, retain three significant digits.During the test, it should be noted that: the sample should be clamped tightly. If slip occurs, the test value should be regarded as invalid. Corrugated board puncture strength index, GB/t6544-2008 corrugated board standard has not been included in the test items, and only export commodity transport packaging is included in the test items.The fiber toughness, hardness, tightness, moisture content, quantitative and cardboard adhesion strength and thickness of cardboard, has a direct impact on the puncture strength of a corrugated board.Corrugated Board of Burst Strength and its Influencing FactorsCorrugated board in a certain test conditions, the maximum vertical pressure uniformly increased that bear within its unit area is the corrugated board burst strength, its unit is expressed in KPa. When sampling, we should pay attention to cut 12 pieces samples with no watermark, folds, wrinkles, damage, specifications of 140mm x 140mm , that is, take 4 pieces respectively from 3 sample boxes, one side of the sample should be parallel to fluting. In the detection of burst strength, the samples were divided into two groups. One group was tested with the rubber film affixed to the front, and the other group was tested with the rubber film affixed to the back. When the samples were crushed, the test values were read.The sum of the detection values of each sample is divided by the number of samples to obtain the detection results. The fiber toughness, hardness and paper thickness, quantitative, compactness, moisture content and cardboard adhesion strength, etc., have a certain impact on corrugated board burst strength.Folding Strength of Base Paper and Corrugated Board and its Influencing FactorsCarton as a kind of packaging container, its shaking cover needs to be opened frequently, which requires the base paper should have a certain folding strength, so as to improve the folding strength of carton shaking cover. Transverse folding strength is the test to base paper under the condition of a certain tension, speed and angle made by samples in the specifications of 150 mm * 15 mm repeated folding test over 135°angle , when the pattern breaks, it is the number of tests of folding strength. The method of carton cover detection is, shake cover after 5 rounds of manual inspection over 180°, no crack on the linerboard layer and inner layer,then the test result is qualified . The paste properties , moisture content of base paper, compactness, fiber length and gluing fastness of the box board paper and whiteboard paper, as well as the storage time and temperature of the base paper that affected by factors, largely determine the folding strength of base paper. Therefore, to improve the folding strength of cartons, we should first pay attention to the quality of control base paper.The Ring Crust Index of Base Paper and its Influencing FactorsThe test of column strength of base paper ring is toa sample of a certain size into a circular tray to form a circular ring on the side of the sample, and then put it into the pressure plate of the compression meter for electric uniform compression, the value shown is the compression strength of the ring crust when the sample is crushed . The standard sample size should be: 152.0mm in length (longitudinal) + / - 0.2mm, 12.7mm in width + / - 0.1mm. 10 pieces are taken for testing, 5 pieces of which are front facing outwards for testing, and the other 5 pieces of which are opposite facing outwards for testing in a circular tray. After that, an average value of the 10 pieces of test results is calculated for conversion.Because the calculation formula of ring crust index requires the quantitative data of samples, according to the author's understanding and testing experience, the quantitative test value has a direct impact on the results of ring crust index conversion. Therefore, in order to improve the accuracy of detection, it is necessary to pay attention to the accurate quantitative detection, which requires the quantitative detection of samples should have a certain representativeness, for this reason, it is best to take 10 samples from different parts of the horizontal paper cylinder for detection, to find the average value, so that the detection data is relatively accurate. If 10 samples are taken from a certain longitudinal part of the paper cylinder, the detection value is usually not representative, because the error of transverse thickness is relatively larger than the longitudinal error. In addition, the accuracy of specimen thickness measurement is related to the test results of column strength. Because of the thickness of the specimen is different, the diameter of the tray core used to measure the column strength is also different. Therefore, the thickness detection should also use several points of different parts of the test, and use its average value as the final test results. The measurement of thickness index has to be accurate, so that the clearance of sample in the tray is suitable, and the accuracy of column strength can be ensured. This requires that the selection of the corresponding pallet specifications (diameter) must be strictly in accordance with the thickness of the sample .The compactness of the base paper, the quantitative, to a large extent, affects its column strength index. Paper with good column strength, its ring crust index is also high; Only by measuring the column strength value can the ring crust index value be obtained. The following is the conversion formula of column strength and ring crust index:(1 ) Column Strength: R=F / 152.Where: R represents the column strength, unit KN/m; F is the force value when the sample is crushed, unit N;152 is the length of the sample in mm.(2) Ring Crust Index: Rd=1000R/W.Where, Rd represents the ring crust index, unit Nm/g: R represents the ring crust intensity, unit KN/m; W is the quantity of the sample, unit g/m2. The Tensile Strength of Base Paper and its Influencing FactorsBecause the drum corrugated paper on the single-sided machine paper rack and cardboard paper must withstand a certain tension in the process of transportation, so as to prevent the emergence of broken paper, this requires that the base paper should have good tensile properties, that is to say, the base paper tensile strength index should meet the requirements of production. Though the standards for the production of corrugated paper, cardboard or white paper board do not include the tensile strength, the factory can develop the corresponding enterprise standards according to actual production situation, and it’s conducive for production to control the technical indicators of the tensile strength of the base paper. Tensile strength is generally measured by the tensile strength of a sample of with a certain width stretched to the fracture under constant speed loading. The width of tensile strength specimen is 15mm and the length is greater than 180mm, which can be detected by pendulum tension tester.When testing, the standard sample is clamped between the upper and lower clamps. Driven by the tranission device, the lower chuck decreases at a certain constant speed and is transferred to the upper chuck through the sample. The upper chuck deflected the pendulum by a certain angle through the chain. When the specimen breaks, the tensile value can be read from the scale . DLS liquid crystal display electronic tensile testing machine is now used to detect the tensile strength of the base paper, so that the efficiency and accuracy of detection are more competitive. There are many factors influencing tensile strength, such as the quality of papermaking materials and the effect of papermaking technology on the fiber bonding fastness. The quantitative, thickness, rupture resistance, column strength and other indicators of the base paper also have a greater impact on tensile strength.To sum up, base paper and corrugated board not only are the basic materials to make the cartons, but is the source control links of the carton quality. If the purchasing quality of the base paper as well as the quality of corrugated board production controls well, it means that the quality of carton production base will be more reliable guaranteed. Therefore, as long as to correctly understand the knowledge of base paper,the scientific and reasonable detection methods, and better control of corrugated board production, then solid foundation will be laid to improve the production efficiency and product quality of carton , it is also the deep feeling of the author after a long-term working in front-line of carton production. --If there is Copyright Dispute about the content, please Contact us to Delete.

1412 0

Professional! The most detailed using and maintenance terms for corrugating rolls

Corrugating roller is a key component in corrugated carton production. The of corrugating roller is to process corrugating medium paper into the required flute, and fixed medium paper to complete the gluing and surface operation. In order to improve wear resistance and reduce wear, the roller surface must be both strong and durable. Strong but not durable will cause mechanical damage (breakage or peeling) to the surface of the roll. This damage will accelerate roller wear. In the daily use of corrugating roller, service life can be extended through some simple ways : Polishing Because corrugating rollers will be worn, the surface of the rollers will obviously appear ladder like pattern. Wear is the most serious in the middle of the roller, especially in the paper edge through the part of the roller surface is the most obvious. This will result in uneven pressure on the pressure roller clamps and difficulty in aligning the glue on the floor. When this wear affects the quality of the board, even if the thickness is still within the acceptable range, then it is necessary to replace the roller. In order to overcome this problem, diamond paste can be used to grind or a all amount of material can be removed from the flute point at the journal (0.O5mm).This operation is very difficult and requires a high level of skill in order not to rub off the important coating on the corrugating form. As with many maintenance methods, there is no need to maintain badly worn rollers with this method. Some factories produce all fixtures that can be mounted on a single-sided machine to make grinding more accurate and easy. The service life of the uncoated roller can be extended significantly by careful grinding. Adjust Regularly The pressure of the corrugating roll can be adjusted by changing the paper frame or core paper grade (the pressure should be appropriately reduced to prevent metal and metal contact at the shaft neck).When required, correct adjustments can reduce journal damage and extend roll life. More important is to ensure that the rollers are placed in parallel in the machine. This can be detected by the electric newspaper, the electric newspaper into the roller, can show the relative position of the upper pressure roller and the lower pressure roller, when the roller is first installed, you can also use this electric newspaper. In order to ensure the service life of rollers, they must be placed in parallel. In future checks, any shift indicates a potential problem with the machine. Clean Regularly The presence of metal particles larger than 0.5mm will cause damage to the roll. The roller and single-side machine should be kept clean enough to avoid unnecessary large particles of impurities passing between the rollers. Internal Monitoring of Roll Wear Reinforced steel roll wear is linear, so it is necessary to regularly detect the corrugation height, accurately infer the life expectancy of the roll and replacement date. A dial scale or traditional depth micrometer may be used in conjunction with a all pin (radian less than the radian of the valley) for measurement. Rollers should be checked periodically to detect wear rates between each fixed paper frame.If running normally, the wear rate of the roll should correspond to the percentage of each fixed paper frame running on the roll.Different coating rollers (chrome or tungsten carbide) are tested slightly differently.Coating roll wear rate is much aller than the steel base roll.In this way, in the absence of specific equipment, this all wear rate in a single machine is difficult to accurately measure. This means that coating integrity is an important guide to roll life.The integrity of the coating can be detected by applying copper sulfide to the surface of the roll (which is available from the laboratory supplies supplier).If the coating is complete, copper sulfide will remain blue.If the stainless steel is exposed, the copper sulfide will turn brown after two minutes and stain the surface of the stainless steel.The first wear on the coating should be at the edge of the groove in the middle of the roll.Other ways to improve roll life include optimizing the Angle arc, which is the best compromise between wear and shrinkage, and improving surface oothness to minimize friction coefficient between paper and roll and continuous paper tension.The last factor that affects the life of the roll is the ooth running performance of the roll itself at any running speed.Vibration or unstable operation of the roller will increase the impact of hammer tip at both ends of the roller, and lead to premature fracture of the surface of the roller, greatly reducing the service life of the roller. Inspection of Corrugating Roll During Installation and Commissioning;1. Inspection and maintenance of corrugating roll during installation and commissioning;2. Inspection and maintenance items before installation;3. Clean and inspect corrugating surface appearance of corrugating roller (including plating quality);4. Clean and inspect fastening parts of connection (including internal and external threads);5. Check the outer diameter and middle height of corrugating roller(the whole roll surface is divided into more than five measuring points from both ends to the middle).The detection points of middle and high rollers must be odd, and the data of middle and high rollers should be symmetrical on both sides.With the corresponding specifications of the outside micrometer measurement (outside micrometer can be bought from general mechanical and electrical companies );6. Check the height of corrugating roller. Needle type depth dial meter measurement.7. Clean and check the outer diameter and appearance of each shaft of corrugating roller. Measure the outer diameter with the corresponding micrometer.8. Check the paralleli of the upper and lower corrugating rollers (generally, corrugating rollers in contact with the pressure rollers are not of medium or high height, so they are the reference rollers for installation.The corrugating roll with the middle height has an eccentric adjustment mechani to adjust the two rollers parallel).Pressure sensitive paper, carbon paper or fuse can be used to determine and adjust the corrugating shape and side indentation of the corrugating shape of the two layers of cardboard during production operation;9. Check the paralleli between the upper and lower corrugating rollers and the pressure rollers. During the operation of the upper and lower corrugating rollers and the pressure rollers, the axis of the three rollers should be parallel and the line pressure should be uniform. It can be judged according to the indentation of two layer corrugating board linerboard that being composited , and adjust the pressure at both ends of the pressure system;10. Check the paralleli of corrugating roller and glue roller, according to the gap requirements of different corrugating type on the amount of glue, check and adjust the gap between corrugating roller and glue roller with a plug gauge or corrugating paper from both ends;11. Check and adjust the corrugating roller and guide paper coated device, the relative position of a positive pressure paper guide or a negative pressure paper guide, vacuum adsorption device or clearance between positive pressure cavity with corrugating roller and pressure roller seal can be adjusted according to the testing requirements of the production line , to control air pressure and leak, in order to ensure that the ironing corrugating paper can be closely sticky to the corrugating roller to complete gluing and composite drying process:12. The above items must be fixed with their limit devices after debugging;13. Bearings of corrugating roller and pressure roller and other roller must meet the requirements of accuracy, high temperature grease must be selected high quality, oil seal to seal well.14. Daily inspection and maintenance of corrugating roller during normal production and operation;15. Before operation and production;16. Check and ensure the cleanliness of each roll surface;17. Check and ensure the correct position of each roller;18. Check and ensure that the relevant devices (paper guide copper plate device, positive pressure paper guide device or negative pressure paper guide device, etc.) are in the correct position, Check the wear condition and adjust it;19. Check and ensure proper position of adhesive system and good preparation of adhesive;20. Check and ensure the lubrication oil supply preparation is normal;21. Check and ensure the normal pressure and hydraulic system;22. Check and ensure the heating system is normal; During Operation and Production:1. Check and control the temperature, those vaper-heated should prevent condensation water from being discharged and pipe valve leakage, we should also patrol and ensure steam supply pressure;2. Check and control the humidity of corrugating medium and linerboard;3. Check and control the operation position of corrugating medium and linerboard, both ends of the edge is neat;4. Check and control flute shape accuracy of corrugating board , no high or low flute and flute collapse ;5. Check and control the composite strength and the evenness of gluing of corrugating medium and linerboard ;6. Check and control indentation of linerboard;7. Check and control the ooth circulation of glue supply system;8. Patrol inspection, ensure the ooth operation of machinery, no abnormal impact noise;9. Inspect each lubrication oil supply system to ensure normal operation;10. Inspect the air pressure and hydraulic system to ensure that the work is normal and there is no leakage.When Production is Stopped;1. Close the heating system of the roller;2. Close the pressure at which the roller is pressurized or hydraulic system;3. Stop glue circulation, glue system separated from corrugating roller.Clean gluing system (including glue-feeding system);4. Stop corrugating roller running whencorrugating roller cooling below 40 ℃, cleaning roller surface and leading paper coins and confetti trash inside positive pressure or negative pressure device ;5. Keep good lubrication and refueling.6. Above is the general principles of qualified corrugating rollers in the correct use and daily maintenance, and the basic environmental conditions affecting the service life of corrugating rollers. In corrugating board production industry, many enterprises has accumulated a lot of scientific management experience which is worth learning and promoting, companies can learn from each other. As long as to continuous monitoring and improving the use environment and conditions of corrugating roller in the daily production process and production gap, and carry out strictly daily maintenance scientifically and seriously, corrugating roller will certainly play its due role for the high yield and low consumption of corrugating board production enterprises.Due to the structure and forms of corrugating board production line is different, some concrete and detailed use and maintenance of corrugating rollers and debugging methods need to be told to professional production maintenance services company, according to the actual condition of corrugating board production line and the corrugating roller concrete usage, so as to get satisfactory response and timely service and help. --If there is Copyright Dispute about the content, please Contact us to Delete.

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Two-steps Starch Glue Adhesive Performance of Corrugated Board

Two-step starch adhesive has been widely used in corrugated board assembly line. A large number of production practices show that the adaptability of this adhesive to large production line greatly affects the production efficiency, product quality and energy consumption of corrugated board assembly line. Performance of corrugated paper adhesive are mainly included viscosity (liquid), the drying speed, gelatinization temperature, viscosity, film forming performance, etc., at present, these properties are still has certain problem, such as slow drying speed, high gelatinization temperature, poor initial viscosity ect. How to improve the corrugated board production line adhesive has been a vital research subject. The viscosity of adhesive is one of the key indexes to evaluate the adhesive used in corrugated board assembly line. If viscosity is too big, it is easy to get roller gelatinized, failed to coated, and cause waste; If viscosity is too all, the initial viscosity is not good, resulting in collapsed flute, board crack, and board drying speed is slow, so a proper viscosity is the key.In this article, we analyzed the effect under different reagent dosage on the viscosity of two-step starch adhesive through carrier starch oxidation modification .The Experimental Methods1.1 Carrier StarchAfter mix the water (40 + 2) ℃ with corn starch, slowly add about a quarter of the total NaOH (no more than a quarter, with PH value between 11 ~ 12), then adding catalyst FeSO4, after that adding H202 for a few times.Oxidation for 1.5 ~ 2 h, after oxidation, adding the rest NaOH, stirring it while keeping the temperature not to exceed 50 ℃.1.2 Main starchAdding borax solution that dissolved in hot water before into water(40±2)℃, stir evenly, and add corn starch, keep stirring until completely dispersed evenly.1.3 MixtureSlowly add the carrier starch while keep stirring into the main starch, mix it thoroughly for 20-30min, and keep it warm for another 10-30min.The change of powder water ratio in the experiment was controlled by changing the water consumption. The amount of starch in the carrier: the amount of starch used is about 1:3.5.Discussions on Influencing Factors2.1 Influence of Powder Water RatioLow powder water ratio means less water needs to be evaporated in the drying process, in order to achieve a faster drying speed, the water content in the adhesive should be lower, that is to say, in the premise of meeting other performance requirements, low powder water ratio is good.However, too low powder water ratio is not conducive to the fluidity of adhesive, corrugated board production line has a high liquidity requirements on the adhesive, high fluidity can meet the requirements of rapid, uniform and appropriate coating, obviously, large power water ratio is conducive to decrease the adhesive viscosity. Therefore, we need to find a better water powder ratioin actual production, so as to get a proper viscosity.Table 1 is the influence of water-powder ratio on the viscosity under experimental conditions. The viscosity in the table is determined by the coated 4-cup method.As can be seen from the table, the powder water ratio is better between 1:4.4 and 1:4.8.At this point the viscosity of 37 ~ 53S is more suitable for coating. 2.2 Influence of Oxidant (H202)Oxidation modification mainly through oxidation, so that the glycosidic bond of starch glucose is partially broken and degraded, resulting in depolymerization, molecular weightreduced, and water solubility and affinityincreased, thus, adhesive with high solid content and low viscosity can be prepared, which enhanced drying capacity, and enables oxidation converts the hydroxyl group in starch to an aldehyde group, this will increase the the number of carboxyl groupcombined with paper fibre, as a result,the adhesive force of oxidized starch is greatly improved. In addition, the aldehyde group produced after oxidation has anti-corrosive effect, which improves the anti-corrosive ability of the adhesive, and the carboxyl group significantly improved the stability of the adhesive.The oxidants commonly used in starch adhesives are mainly KMn04, NaCLO and H202. Through comparison, this article selects H202, which has strong oxidation capacity, low dosage, non-toxic, tasteless and colorless, and does not bring impurity ions into the reaction during the oxidation process, as the oxidant of starch carrier.Under the action of H202, the hydroxyl group on the starch glucose unit is transformed into aldehyde group, ketone group, and then oxidized into carboxyl group. The glycosidic bond of the molecule breaks, thus hinders the molecular association, reduces the degree of polymerization, macromolecular degradation, and molecular weight of starch reduced, thus endows the glue liquid with certain fluidity.The oxidized starch obtained by proper control of oxidation degree has good water solubility, affinity, penetrability and adhesion.If the amount of H202 is too much, instead of oxidization, starch will be oxidized too much, which will lead to starch excessive degradation, low viscosity of adhesive, even reduce the bearing capacity and adhesion capacity of the main starch.Table 2 shows the relationship between the viscosity of adhesive and the amount of H202 under experimental conditions.As can be seen from table 2, the viscosity of adhesive changes significantly with the amount of H202. At the beginning, the viscosity decreases rapidly. When the amount of H202 changes around 2.0% (accounting for the total amount of starch), the viscosity of adhesive changes slightly. When the content of H202 exceeds 24%, the viscosity decreases with the increase of oxidant. When H202 is used as oxidant, the viscosity is appropriate from 40 to 46S, so the optimal dosage is 1.6% to 2.4%.In general, the change of H202 dosage between 0.8% and 2.8% does not have obvious influence on the viscosity of adhesive, which is mainly related to the all proportion of carrier starch in the total starch. 2.3 Influence of NaOH DosageNa0H, as a gelatinizer, has three main s: one is to adjust PH value and ensure alkaline oxidation conditions; the other is to combine with hydroxyl group in corn starch, destroying part of hydrogen bond, reducing starch intermolecular forces and lowering gelatinization temperature. The third is to change carboxyl group of oxidized starch into sodium salt and increase hydrophilic and solubility.In fact, oxidized starch itself is insoluble in water, and no adhesion, which needs sodium hydroxide to promote gelatinization, sodium hydroxide integrated with starch molecules in the hydroxyl group, preventing the starch between the hydrogen bond from associating, at the same time, starch swelling and gelatinizing, viscosity largen ,adhesion improved, liquidity stabilized , and storage time being long.Table 3 shows the change of adhesive viscosity with the amount of Na0H.As can be seen from the table, the viscosity of glue liquid almost keeps increasing with the increase of Na0H dosage. When the dosage is 55%, the viscosity has reached 53S; when the dosage continues to increase to 12%, the viscosity is 131S.When the amount of Na0H exceeds 12%, the viscosity shows a downward trend. The reason is that when the alkali solution is added to a certain amount, the starch particles are swollen to a certain extent, and then break up, and become thinner after better dissolution with the alkali solution.From the perspective of fluidity, it is appropriate to control the amount of Na0H at 4.4% ~ 5.5% of the total starch. 2.4 Influence of Borax Amount on ViscosityBorax, as a crosslinking agent, can increase the viscosity of glue solution and enhance the initial viscosity, which is because borax can combine with the aldehyde group and carboxyl group of fully expanded oxidized starch as ligands to form polynuclear ligand compounds.Borax dosage is too much, will lead to product with high cohesion , and produce gel;If the dosage is too little, the complexation effect and the initial viscosity cannot be reached.Table 4 shows the increasing relationship between borax content and viscosity under the experimental conditions.As can be seen from the table, with the increase in the amount of borax, the viscosity has been on an upward trend, when the amount of borax is within the range of 0.8% ~ 1.4%, the viscosity between 40 ~ 49S is the usable range. 2.5 Influence of Catalyst Addition on Viscosity2.5.1 Influence of Catalyst Addition Order on ViscosityThe order in which the catalyst and a all amount of Na0H were added to adjust the PH value had different effects on the experimental results.It was found in the experiment that when adding a all amount of Na0H and then FeS04, the color of glue produced was light yellow, and the viscosity was 4~6S higher than that when adding a all amount of Na0H added after the ferrous sulfate, while adding a all amount of FeS04 and then Na0H, the color of glue produced was milky white.The reason may be that when Na0H was added first, most of Na0H was involved in the gelatinization of starch, and a very all amount of OH- and Fe2+ formed Fe(OH)2 precipitation. The extra amount of Fe2+ caused partial ineffective decomposition of H2O2, and the amount of H2O2 involved in oxidation was reduced. The oxidation was not more sufficient than that when FeS04 was added first, resulting in a higher viscosity than that when FeS04 was added first.When FeS04 is added first and then Na0H, Fe2+ and OH- precipitate immediately. PH value decreased as H2O2 added, Fe(0H)2 has a certain degree of solubility, and slowly enters the role of catalyst, so that H2O2 can more fully achieve the purpose of oxidizing starch, thus reducing the viscosity of glue. In addition, H2O2 itself has bleaching effect, so the color of glue solution is good.Therefore, the effect of catalyst FeS04 was better if first added than that being added after Na0H .2.5.2 Influence of Catalyst Dosage on ViscosityTable 5 shows the influence of the amount of catalyst ferrous sulfate on the viscosity. With the increase of the amount of catalyst, the viscosity decreases, but the amount of catalyst increases to a certain extent, and the viscosity of adhesive slowly increases.This indicates that Fe2+ can catalyze the oxidation of H2O2 on starch, leading to degradation of starch molecular chain and decrease of viscosity. However, with the increase of Fe2+ dosage, the viscosity increases to a certain extent, possibly because Fe2+ has a certain complexation effect on starch molecular chain. 2.6 Influence of Oxidation Time on ViscosityTable 6 is the effect of oxidation time on adhesive viscosity.Oxidation time is long, oxidation depth is large, viscosity will also decrease.However, if oxidation time is too long, starch molecular chain is too all and short, liquidity is too large, resulting in insufficient coating, poor initial viscosity ,and the cardboard is easy to debonding, strength is not good as well. If oxidation time is too short, it will make starch molecular chain fracture degree insufficiently , cause big viscosity, and the oxidation modification effect is not good enough. 3 . Conclusion3.1 Water powder ratio has a great influence on viscosity of two-step starch adhesive.Considering the viscosity alone, the suitable powder water ratio is 1:4.4 ~ 1:4.7.3.2 Using H2O2 to oxidize starch carrier to improve the carrying capacity and solid content of the main starch , the viscosity of starch adhesive obtained is in the range of 40-50s with a good fluidity, with the amount of H2O2 is 1.6% ~ 2.4%, the amount of Na0H is 4.4% ~ 5% of the total amount of starch, and the amount of borax is 0.8% ~ 1.4%.3.3 Catalyst FeS04 was added before a all amount of Na0H for PH regulation, would make he oxidation reaction more complete and the appropriate oxidation time was 1.5-2h. --If there is Copyright Dispute about the content, please Contact us to Delete.

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Starch Viscosity and Quality of Corrugated Board

Abstract: viscosity is one of the important indexes to measure the quality of starch gum, which directly affects the quality of corrugated board. Therefore, in production, relevant personnel should observe different production conditions at any time, adjust the required viscosity in time, and make the production process reach the best state.Viscosity refers to the degree of liquid flow of starch glue and also the expression of initial viscosity of starch glue. The optimal range is 20 ~ 40 s. In this range of viscosity, the degree of glue liquid oxygenation is appropriate, no flow, no wire drawing; The amount of glue is easy to control. Long storage life. Whether single face, glue unit, or corrugated board production line are in good operation.Factors affecting starch viscosity 1. 1 Type and Quality of StarchStarch variety, fineness, protein and fat content can affect the viscosity of starch gum, especially protein. If the content of protein and fat in starch is too high (more than 1.1%) and the fineness is lower than 98 mesh (100 mesh screen filtration), even if the degree of oxidation is very high at the time of making, the viscosity at the time of discharging is only 20 seconds. After five to seven days of storage, starch glue will naturally thicken, lose fluidity, and be like jelly, affecting the bonding quality . As long as the degree of oxidation and gelatinization is appropriate, the viscosity of the prepared starch adhesive will be 40 + or 10 s. The viscosity will not change much during the storage period, only the color will be dark. The commonly used tapioca starch, potato starch than corn starch, wheat starch viscosity is higher. The dosage of starch varies according to the specific requirements of the adhesive object. 1. 2 Dosage of Oxidant and Oxidation Time For certain starch, the product performance is different due to different degree of oxidation. The content of sodium hydroxide, water ratio and borax remains unchanged. Under any oxidation time condition, the viscosity of starch gum decreases with the increase of oxidant dosage. This is because the larger the amount of oxidant, the larger the degree of oxidation of starch, the aller the molecules, and the aller the viscosity. When the amount of oxidant is less than 2%, the viscosity is not only affected by the amount of oxidant, but also affected by the oxidation time. When the amount of oxidant was more than 2.5%, the viscosity was less affected by the amount of oxidant, and the viscosity was very all, which may be because the oxidation of starch tends to be complete. The results showed that when the oxidant dosage was between 1.8% ~ 2.5% (measured by the percentage content of starch quality), the viscosity was not only suitable for the production of corrugated board, but also high bonding strength, and its viscosity was less affected by the oxidation time. The specific dosage of oxidant depends on the type and quality of starch. Sodium hypochlorite (10%) is about 28% of starch, hydrogen peroxide (27.5%) is about 4% of starch, and potassium permanganate is about 2% of starch. If excessive oxidant is added in operation, strong reducing agent (such as sodium sulfite, baking soda, etc.) should be added to reduce excessive oxidant and prevent excessive oxidation. For the self-use of all and medium-sized factories, it can be used to oxidize at night to prolong the oxidation time, reduce the dosage of oxidant, reduce the consumption of raw materials, so as to reduce the cost.1.3 Oxidation Temperature The effects of temperature on oxidation reactions are manifold: On the one hand, it can increase the speed and degree of oxidation reaction. The higher the temperature is, the faster the oxidation reaction will be. Under the same conditions, the lower the viscosity of starch adhesive produced will be. On the other hand, it can make starch gelatinize and increase the evaporation of water, make starch glue thicken and do not go against the diffusion and oxidation of oxidant, thus increase the viscosity of starch gum. Appropriate oxidation temperature of 20 ~ 30 ℃.1. 4 Dosage of the Gelatinizer NaOHKeep the dosage of oxidant, water ratio and borax unchanged. Under different oxidation time conditions, the viscosity increases with the increase of NaOH dosage. This is because starch particles have a strong cohesive force, and the water molecules must be introduced into starch particles with the help of NaOH, so that starch particles can expand, generate viscosity, and reduce the gelatinization temperature. The dosage of NaOH has a great influence on the viscosity of starch gum. Therefore, the dosage and temperature should be strictly controlled. The dosage is too all, the gelatinization is not complete, the viscosity is poor, the glue fluid is turbid, the fluidity is poor, not easy to store, affects the starch glue performance. If the dosage is too large, which exceeds all the required amount in the pasting process, the starch molecules will swell and pasting, which is not conducive to the diffusion of oxidants, thus affecting the degree of oxidation of starch. The dosage of NaOH should be observed in practice, generally about 12% of starch is more appropriate. On the other hand, the concentration of NaOH cannot be too high. High concentration, strong reaction when gelatinization, easy to saccharify, so that the gluing machine to shake the gum, the phenomenon of flower glue on corrugated peaks, resulting in unglued cardboard and difficult to dry.1. 5 Dosage of BoraxBorax, as a cross-linking agent, can thicken and improve viscosity, but the dosage should be strictly controlled, usually 1% ~ 2% of starch content.If exceeded, gel will be produced, resulting in high cohesion, which is characterized by high viscosity, poor viscosity and fluidity, difficulty in gluing and brittle adhesive layer.Less dosage, making starch glue thin which is easy to infiltrate into the paper, resulting in low viscosity, poor adhesion force, that caused deflected flute, collapse and degelatinize. 1.6 Water RatioWith the increase of water ratio, while Keeping the dosage and concentration of oxidant, sodium hydroxide and borax as well as oxidation time unchanged, the viscosity of starch glue decreases rapidly. However, when the water ratio exceeds 6, the viscosity is less affected by the water ratio. This is because the viscosity is already low, which almost close to the viscosity of water. The size of water ratio depends on the type and use of adhesive board, usually should be controlled between 4. 5 and 5. 5.1. 7 Storage Temperature , Time and Storage EnvironmentAs the storage temperature increases, the viscosity decreases rapidly. When the starch glue is stored in an airtight container, its viscosity changes very little with the extension of storage time. When stored in an open container, the viscosity is greatly affected by the storage time [3]. This is because the starch glue in the open container is oxidized by the oxygen in the air, while the moisture keeps evaporating, which makes the starch glue more viscous. 2 . Effect of Starch Viscosity on Board QualityWhen the viscosity is high, the fluidity of starch glue is poor, which not only increases the amount of glue consumption, but also causes the paper where on paper deflector of the single-sided machine to have pasting points and other problems such as discontinuous debonding, starch glue lateral ejection, cardboard warping, washboard, corrugated height reduced, and cardboard compression strength reduction, etc.When the viscosity is low and the speed is slow, the gumming roller is not gluing. It is not only easy to lose the paste, which makes the starch glue permeate into the corrugated medium and cardboard too much, resulting in poor adhesion; but also cause problems like washboard (the lighter the weight of liner, the more serious it is), longitudinal warping, cardboard too moist, loose linerboard , linerboard and corrugated medium separate after initial bonding ,which leads to delamination, cardboard adhesion strength is relatively low, blank edge compression strength and cardboard compressive strength reduced accordingly.Low viscosity of starch glue and fast speed of gluing will cause low viscosity starch glue where in the shape of water on the double-sided machine having insufficient gluing amount, and glue liquid deviating from the corrugated direction will be lateral ejection .If it is serious, it may cause the cardboard warping or high humidity, and the adhesive strength, side pressure strength and the compressive strength of the carton will be correspondingly reduced. And there may be a pull chain adhesive cardboard or linerboard layered. Too high or too low viscosity will lead to the linerboard or inner linerboard debonding; Slitting edge single face corrugated board loose; The shape of single-sided paper starch glue In the longitudinal will appear blank traces which is consistent with the shape of finger, unglued and without of starch glue. Cardboard moisture is too high; single face corrugated board sheet edge loose. 3 . Regulation of starch viscosityThe viscosity of starch should be adjusted according to the performance of the paper, the object used and the speed of the corrugated machine, heating capacity and other factors. Generally, the viscosity of starch glue used in production line is within the range of 50 ~ 90 s, and that used in single machine production is between 20 ~ 50 s. The bonding strength of high strength corrugated paper, single side corrugated board and thinner flute color board is about 30 + or 5The bonding strength of normal corrugated paper is about 40 + / 10 s. If the viscosity is too high, the content of starch in the carrier can be reduced or a vat of starch glue with low viscosity can be prepared. If NaOH is excessive, some viscosity stabilizer can be added to inhibit the increase of starch viscosity. The amount of NaOH should be reduced when making new paste at the same time. When the phenomenon of glue thrown appeared due to high viscosity or glue machine failed to use (normal use of starch glue viscosity is related to the speed of glue machine, when speed is slow, viscosity can be moderately higher, and vice versa. with no glue thrown as the principle), some moderate amount of oxidant can be added so as to oxidizing again. Don't add water to dilute, lest appear degelatinize and glue thrown . If the viscosity is too low (below 20 s), borax solution can be added or a vat of starch glue with higher viscosity can be prepared. Moderate starch paste (starch + water) can be added to starch glue, and then stirring evenly, but not long-term storage. If the amount of NaOH is insufficient, add some volume to avoid the viscosity reduced. Starch glue should be sealed in storage, not exposed to the air, to avoid scaling, thickening or frozen. 4 . ConclusionAdhesion is one of the most critical processes of corrugated paperboard production, which has the greatest impact on the quality of paperboard. The quality of adhesion ultimately depends on the quality of starch glue. The viscosity is an important index of starch glue and the volume of viscosity directly affect adhesion performance of corrugated board. Only with stable viscosity can the adhesion quality of starch glue be guaranteed. --If there is Copyright Dispute about the content, please Contact us to Delete.

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Effect of Starch Gelatinization Temperature on the Quality of Corrugated Board

Gelatinization temperature is one of the important technical indexes of starch glue quality and the standard of gelatinization temperature is 58 + 2 ℃. Generally, the temperature of starch glue in summer is relatively high, paper and mechanical has enough heat to laminating. When gelatinization temperature is high (57-59 ℃), viscosity is relatively stable. The temperature is rather low in winter, so is starch glue. In order to reduce heat that starch glue gelatinization demand, gelatinization temperature should be lowered(55-57℃) to laminating.1. The process of Starch Glue Gelatinization Starch particles were stirred fully under the action of a certain temperature of water, and expanded gradually under the action of the gelatinizer to reach the gelatinization temperature. As the temperature rises, starch particles begin to collapse and gradually disperse into all pieces. When soaked to the inside of linerboard and corrugated medium, they start to bond which require a certain initial viscosity (mainly due to NaOH solution and borax solution). As the temperature rises, the moisture content of starch particles will evaporate, and some of them will be absorbed by linerboard and corrugated medium, so that the initial adhesion will be carried out rapidly. The starch glue will connect inner liner, corrugated medium, flute and linerboard into a whole, so as to achieve the purpose of adhesion. 2. Factors Affecting Gelatinization Temperature of Starch GlueWhen starch glue starts to thicken and the gelatinization temperature is that showing the bonding property due to raw starch gradually gelatinizing among all the starch glue raw materials.There are many factors affecting the gelatinization temperature, mainly in the following aspects.2.1 The Dosage of the Gelatinizer NaOH ① The Effect of the GelatinizerStarch particles itself has a strong cohesive force, water molecules are not easy to infiltrate, so water molecules must be brought into starch particles with the help of gelatinizer, which can weaken the interaction between starch macromolecules and reduce the gelatinization temperature. Secondly, when gelatinizer dissolves in starch solution, it will give out certain heat, making starch particles expand, producing viscosity, and also make starch glue having better fluidity, and not moldy easily.In the carton industry, sodium hydroxide (NaOH) is generally selected as the gelatinizer. The dosage is usually controlled below 1% of the quality of starch glue. It is appropriate to add the oxidized starch solution and stir the starch solution into a translucent paste for 20min.②The Amount of NaOH has a great influence on the Gelatinization Temperature of Starch GlueThe higher the amount of NaOH, the lower the gelatinization temperature with a better infiltration. However, if the weather is too hot, the temperature of starch glue will rise, and the activity of NaOH will increase as well, which will easily cause viscosity rising. Therefore, the amount of NaOH should be slightly adjusted to reach the appropriate gelatinization temperature. Generally, the amount of NaOH should be adjusted with the second amount of NaOH. Large amount of NaOH will cause swelling and gelatinization of starch molecules, resulting in thickening and increase of viscosity (higher than that of 80s). It is not conducive to the diffusion of oxidants, and it is not easy to glue or glue vague.The dosage of NaOH should be reduced according to the situation, and measures should be taken to dilute.If the amount of NaOH is too large, which exceeds all the required amount in the gelatinization process, the glue solution is in high fluidity, which will reduce the viscosity of starch glue and increase the pH value, resulting in yellowing corrugated box and the ink color shifted on the surface of corrugated box. The dosage of NaOH is relatively all., it is white or milky paste 20min after being added, opaque and non-sticky, which under this circumstances is not conducive to the oxidation of starch. The gelatinization is not complete. Glue solution is turbid with a poor fluidity and difficult to storage. If the dosage is too all, characterized by the amount of heat released is less, the gelatinization effect is not sufficient, the viscosity is too low (viscosity is below 20s), and the adhesion force is poor, then the amount of NaOH should be added appropriately according to the situation (the net amount of NaOH used should be clarified). When adding NaOH, fill a certain amount of NaOH with 5-10 times cold water, slowly add it to the container, and continue to stir. In addition, the concentration of NaOH cannot be too high, if so, the gelatinization reaction will be too strong, easy to saccharifying, resulting in glue thrown, and vague glue will be generated on the framed corrugated peak. It will cause debonding and destroy paper fiber and is difficult to dry. when air humidity is large, easy to absorb moisture and yellowing, which generally should be controlled in 10%-13% . The dosage of NaOH should be depended on the actual use, generally about 12% of starch is appropriate.2 . 2 The Type and Quality of Starch Starch is the main adhesive, insoluble in water, expands and gelatinizes with the increase of water temperature. When it acts with NaOH solution, it expands sufficiently and its viscosity increases.The commonly used starch mainly includes corn starch, wheat starch, tapioca starch and potato starch. The variation of gelatinization temperature is due to different producing areas, production climate, brands or quality of starch. The gelatinization temperature of different starch is referred to table 1. Therefore, in practices, combined with the actual situation of each place, choose the lower price starch to produce starch glue. The gelatinization temperature can be adjusted mailnly by changing the amount of sodium hydroxide, and it can be increased by reducing the amount of sodium hydroxide, and vice versa. But remember not to add sodium hydroxide to the prepared starch glue. The gelatinization temperature of starch gum in double corrugated board is lower than that of single ones. This is because the heat transfer of double-sided machine is not as good as single-sided machine, but too low gelatinization temperature often makes the adhesive layer brittle and form surface adhesion. Table 1 Gelatinization Temperature of Different Starch At present, expanding gelatinization is adopted in making various starch gels. The expanded maize starch has loose structure and is spongy and soluble in water. In water, the infiltration, expansion, viscosity, initial viscosity and adhesive strength are enhanced, which makes the expanded corn starch can be directly used as starch adhesive.2.3 TemperatureThe higher the water temperature, the stronger the activity of NaOH, the faster the starch glue viscosity increases, and therefore the lower the gelatinization temperature is. In this case, the amount of secondary NaOH must be reduced to achieve a stable gelatinization temperature, while the lower the water temperature is, the opposite is true.2.4 The Process of Configuration CraftAfter the first addition of NaOH, it should be stirred for 25 + / 5min to have sufficient time to evenly expand and get the correct gelatinization temperature. If the gelatinization temperature is too low, some starch particles will overexpand, while some are not yet expanded, and the viscosity changes greatly, in this case, the amount of NaOH must be reduced. If the gelatinization temperature is too high, the viscosity will be decreased in the text of shear cut during the use, and the amount of NaOH needs to be increased. 3. Effect of Gelatinization Temperature on the Storage Performance of Starch GlueThe biggest defect of starch glue is that it is easy to corrupt and deteriorate, the storage period is short, the service performance is not stable, and the reason why is related to gelatinization temperature. When gelatinization temperature is low, it is easy to cause insufficient gelatinization reaction. The more complete the gelatinization reaction, the longer the storage time of the glue. If starch glue deteriorates during storage from 3 days to 6 months, the reason for the insufficient gelatinization reaction is that ungelatinized starch molecules are more susceptible to bacterial erosion than gelatinized starch molecules.4. Effect of Gelatinization Temperature on the Quality of Corrugated Board When gelatinization temperature is too high, starch glue is not curing, flute tip paste is in white powder, resulting in poor bonding of linerboard, or linerboard loose, linerboard and corrugated medium seperate after preliminary adhesion. When a single-sided machine is running at high speed, continuous unbonded areas, usually spherical swelling, appear in the center of the single-sided web or on a substantial portion of the cross-sectional web, causing the board bubbled.Low gelatinization temperature makes board gelatinized before getting into heating plate , flute tips starch glue blackening and glistening, which cause linerboard in poor laminating. The gelatinization temperature is too high or too low, resulting in poor laminating of inner liner and its sheet edge , flute A and B; as well as in loose slitting edge single face blank linerboard and web edge single face blank. 5 . ConclusionAdhesion is one of the most critical processes in producing corrugated board, which has the greatest impact on the quality of board. The quality of adhesion ultimately depends on the quality of starch glue. Gelatinization temperature is one of the important indexes of starch glue, which directly affects the adhesive performance of corrugated board. Only with stable gelatinization temperature, the bonding quality of corrugated board can be guaranteed. --If there is Copyright Dispute about the content, please Contact us to Delete.

1817 0

Five points to consider for cardboard factory when purchasing corrugator

Corrugator line purchase is generally divided into the whole line purchase, self-selection and upgrade purchase of the original equipment.The cardboard factory that purchases whole line often has relatively certain sales volume and long-term stable customer group.Self-selection is generally considered by cardboard factory who do not want to invest more money, but also want to get the corrugator line with good quality, price, performance. In this case, the purchase generally stems from the original corrugator line which has been unable to meet the needs of production or in order to reduce the risk of investment in the new plant, the corrugator line supplier will configure each parts according to the demand.Upgrade purchase of original equipment is generally the factory who do not want to buy new corrugator line.They may purchase two or three paper splicers to increase the average speed and production efficiency, or retrofit steam pipes to quickly replenish heat and reduce energy consumption, or acquire glue making equipment to improve the adhesion of cardboard.This way of purchasing has little impact on production, less capital investment and benefits can be seen in a short time.Corrugator purchase is a project features long life of equipment, relatively large investment.Cardboard factory should consider a supplier with good faith, timely after-sales service, reliable equipment performance, reasonable equipment price, good reputation when purchasing corrugator. In addition to listen to the introduction by suppliers,potential buyers should also do a field trip.Before deciding to buy, cardboard factory must do a full investigation.Investigate not only the product specifications and the main flute of the surrounding potential customers, providing the basis for the decision, but to understand the equipment status, management status and customer status of the peripheral compes.There are five main factors to consider when purchasing corrugator line: 1).Door width 2).The maximum speed 3). The product direction 4). The investment scale 5).The optimization direction.1.Corrugator Width Cardboard factory running corrugator line with the door width of 1800mm and below, the biggest advantage is that the base paper is easy to purchase, the second is the speed and cardboard production process is relatively easy to master.The price of all door width corrugator line is also relatively cheap, the price of standard configuration is about $850,000, it is suitable for all-scale development of cardboard factory, as well as food packaging as the leading products of cardboard factory.Small door width corugator line also has production and operation limitations.For example, the home appliance kind of carton generally required cardboard door width are wide.More than 1800mm door width of cardboard, all door width corrugator line can not be produced.Therefore, if the cardboard factory has the order of home appliance carton, it needs to consider the purchase of 2000mm-2200mm door width corrugator line.The door width of 2000 mm-2200 mm is the most conventional corrugator door width, the base paper of this door width is also relatively easy to purchase, the operation process is also relatively easy to master. 2000 mm-2200 mm door width corrugator is the most mainstream one, it is suitable for the production of most cardboard production enterprises, the price of its standard configuration is between $110,000 to $1,400,000. Table 1：The use range of corrugator with different door widths When cardboard factory develop to a certain stage, the size of the enterprise expanded, and orders like large furniture, home appliances refrigerator are very much needed, this kind of carton requires larger door width, in this case it is necessary to consider the configuration of 2500mm door corrugator2500mm and above corrugator line is suitable for large-scale operation of the cardboard factory, the current standard configuration price of more than $1,700,000At present, the development of wide, high-speed, automatic corrugator line, improve the operating rates are the corrugated board industry trend.The corrugator line is developing towards a wide width. On the one hand, the width of the paper machine is getting wider and wider. The paper mills are already running 6m wide paper machines or even 10m wide paper machines.On the other hand, the advantages of corugator line in the broad width are lowering trimming loss, increasing production.When purchasing corrugator, considering the factor of the door width, cardboard factory should purchase corrugator with wider door width in the case of adequate budget and superb equipment operation level.2. The Maximum Speed The selection principle for the high-speed corrugator line should take into account the degree of automation of each single machine, meanwhile, factories should pay more attention to the overall corrugated board production line matching and coordination. For instance, equipped with automatic paper splicer (according to the linear velocity, choose a suitable speed of paper splicer, equipped with quantity according to their own economic conditions), the positive pressure card cartridge single facer (roll change convenient, stable running, high speed), the production control system, internal rising collet (in order to meet the demands of safety, must choose more brakes), automatic thin knife slitter (in order to facilitate rapid change orders, equipped with 2 sets), slitter equipped with three kinds of scoring roll (convex to concave, convex, convex to the flat), spiral crossing cutter, automatic glue making system, gluer (use of touch pressure roll rather than roller pressure).The number of double facer hot plate to match the speed of the corrugator line (the drying part using a spring-type hot plate, of course, the advantages and disadvantages of condensate steam trap must be valued) and so on.At present, most domestic suppliers can produce corrugator line with a maximum speed of 200m/min and below. The price of standard configuration is about $110,000.If the speed of 200m/min-300m/min is needed, then domestic excellent suppliers and suppliers of Taiwan brand can produce. The standard configuration price is relatively high, generally between $1,400,000 and$ 2,500,000. Table 2：Corrugator Supply in the market under Different Speed If 300m/min and above speed is required, the corrugator line produced by a few excellent suppliers in China and Taiwan can reach this speed. While the speed 300m/min and above produced by foreign suppliers has a wider range of models. In terms of production efficiency, the higher the speed corrugator line, the better.The higher speed means that the production of higher output, and the increase in unit output and efficiency will certainly reduce the paperboard production of coal, electricity and other unit consumption and other labor, financial and other costs.However, high-speed corrugator line has two points to focus.First,corrugator line speed is too high, the variable cost of paperboard production such as raw paper purchase costs will rise, because the high-speed assembly line often put forward special requirements on paper, such as tensile strength, moisture content.Second, the high production speed of cardboard quality and scrap rate of effective control is also a challenge.Because corrugator line must be supplied with a higher steam temperature to maintain a relatively high running speed, if temperature too low cardboard will be soft.And in the production state of high temperature, once there is a speed fluctuation will inevitably lead to cardboard bending up and down warping, resulting in a waste of brittle. At the same time, at high speed, if there are breaking paper and other circumstances, it will cause loss multiplied.Therefore, before the purchase of high-speed corrugator, cardboard factory in the raw paper purchase, operator skills and other aspects to make full preparation.3.Products Orientation Cardboard industry has two main product models, one is based on cardboard production, one is based on carton production.Those who mainly based on cardboard production, generally the volumes of order are relatively high, and more disorderly, short orders are taking too much, the production of each order is relatively all, but the total number of orders is very high.In this case, when purchasing corrugator line, we need to consider the automation of order change.Otherwise, the loss of each order will directly pull up the total loss.When purchasing corrugator, it is recommended to strengthen the configuration of rectifying deviation, automatic glue control, automatic paper splicing and production control system.Under normal circumstances, the speed of 250m/min, door width of 2.2m or 2.5m corrugator line, the price of standard configuration is about $2,412,000.Those who mainly based on carton production, in general, each order has large production, but the total number of orders is relatively all.This requirements for this mode of automatic control corrugator will be relatively low.The investment saved in the automatic control part of corrugator line is recommended to be used in the configuration of printing equipment.This production mode, corrugator standard configuration of the price will be relatively low, generally $1,714,000.Table 3： Major Points for Different models of corrugator line4.Investment ScaleThe investment scale in the cardboard factory below $7,000,000, it is recommended to configure the corrugator line below $2,200,000.This price of corrugator line can be produced by the most domestic excellent suppliers .Corrugator line with higher price will be much advanced in many aspects like al design, material, intelligence.Cardboard factory should be in accordance with the expected use of life to evaluate the cost of corrugator line.The investment scale between $7,000,000 and $15 million, it is recommended to configure $2,200,000 to $3,500,000 of corrugator line, and consider the best choice of cost performance within 8 years.Investment of more than $22.5 million cardboard factory, it is recommended to configure more than $4,300,000 corrugator line.This price of corrugator line though can be produced by the domestic excellent suppliers, it still mainly depends on imported corrugator brand.Whether it is domestic or foreign corrugator line, in the intelligent equipment, equipment life, etc., we should consider the best choice of cost performance within 15 years. Table 4： Major Points to configuration for Different investment scale corrugator5.Optimization OrientationSome suppliers in corrugator automation performance is flawed.It is understood that the production control system of some brands of corugator line is not compatible with the ERP system, which will have a bad impact on the future development of automation equipment.When purchasing corrugator line, we should possibly choose standard spare parts. If corrugator malfunctions, emergency measures will be well implemented.Now a lot of corrugator suppliers are doing very well in this regard, the use of spare parts are universal.When purchasing corrugator line, cardboard factory should also take into account enough space.Otherwise if to upgrade the corrugator line in the future, such as adding some additional s when upgrading five ply to seven ply, there is no enough space for single machine to put. So reserving enough space for the future equipment transformation of cardboard factory will be more convenient and easier to implement.Table 5： Different Optimization Orientation of Corrugator line--If there is copyright dispute,please contact us to delete.

1004 0

Conveyor purchase system and process technology

Since the 1980s, companies in the U.S., Japan and some Europe countries have often referred to improved conveyor as a "third source of profit".With the development of automation equipment, the improvement of conveyor system may be related to the revolution in management of enterprises, and will also affect the production efficiency of enterprises to a great extent.So, how to choose and buy a modern conveyor system to improve their competitiveness?1. Conveyor System This paper will talk about corrugated board production line on the conveyor system.In the whole corrugated board production line, in the process of processing all kinds of raw paper into corrugated board and carton, in addition to the cooperation of workers and corrugator equipment, it also need a very important process, that is, transportation, the raw paper, cardboard, waste paper and other transport to the corresponding equipment or location requires a lot of work.In the past, this part of the work is basically done by manual, but with the development of automation, corrugated board production line conveyor system has entered the era of automation. Corrugated board production line conveyor system mainly includes the raw paper conveyor system, cardboard conveyor system and waste paper conveyor system.The following will do a detailed introduction to each part of corrugated line conveyor system. 1). Base paper conveyor system Base paper conveyor system refers to the transport system responsible for the base paper.There are three modes of base paper conveyor:The first is a single track in and out mode, that is, a paper cylinder with a track.Each track is both in and out of the paper, this mode of investment is minimal, but is not suitable for high-speed machine production operations.Because it takes time to wait while the base paper in and out, has to wait until the inside base paper feeding out, which does not meet the needs of modern high-speed production.As a result, this pattern is relatively rare.The second mode is that you have four tracks that don't go in and one vertical track.That is, these four tracks only into, the base paper from the other end of the longitudinal rail out, the base paper from the other end after a long longitudinal rail out of the direct transport to the base paper warehouse.This model is fast, but at the same time because it takes up a lot of space, so the investment is also large.Therefore, although the layout is the most reasonable, the investment is large.The third pattern is four in and one out.That is, four tracks are only responsible for the base paper feeding in, and another track is responsible for the base paper feeding out.This is to add a track rather than the use of longitudinal track mode, that additional track specifically to let the base paper out, the base paper generally will not come out together, so this mode is relatively better, and relatively less investment and speed.So this is a relatively economical and efficient model at present.2). Cardboard Conveyor SystemCardboard conveyor system is responsible for the cardboard transport system.Cardboard conveyor system is divided into the following two forms:The first is part conveyor. This form is applied to the cardboard conveyor that needs to be packaged after coming out of the hanging basket of the production line. This form mainly requires the configuration of a trolley and multiple packaging tracks, which are converted to pallet transportation after packing.The second is the complete conveyor, this form is applied to the place where the space is big enough, and not need to pack products .This form mainly requires the configuration of automatic ground rail and transport conveyor system, its advantages are high degree of automation, less operators, can greatly reduce labor costs.However, this kind of form requires a large site area and is inconvenient to package and requires a large investment.Cardboard conveyor often used in the equipment are: electric feeding trolley, electric rotary table, non-power roll (of course, there are also dynamic roll with motor), electric induction trolley (servo control can be used) and infrared induction equipment and caterpillar plastic link.3).Waste Paper Conveyor SystemWaste paper conveyor system refers to the transport system responsible for waste paper.In the transport of waste paper in general with trench conveyor belt to transport waste paper, but also can use suction type transport.In addition, automatic paper packaging can be used to reduce the workload of paper packaging.To improve the production efficiency of the whole factory, we must do a good job in every link.Timely disposal of waste paper is an important step to ensure the normal production of corrugated line.Waste paper baling machine is mainly composed of belt feeding, belt returning, joint connecting and cutting device, transmission system, rail frame and control device.As long as the paper is sent into the automatic paper baler, it can be automatically packaged, no manual work at all. Trench conveyor belt Automatic waste paper baler 2.Factors to consider when purchase conveyor systemBefore purchasing conveyor system, let's understand the basic of conveyor system.The three basic s of conveyor system, there are input, conversion and output.In the corrugator production process, the conveyor system should meet the following s:1. Fast and accurate, shorten the process time2.Save manpower and material resources3. Easy to manage and identify The biggest purpose of conveyor purchase system is to improve the efficiency of paper transportation.On the basis of not damaging the paper, accurately and quickly transfer the paper to the designated location, shorten the production time will maximize production efficiency.However, no matter what kind of conveyor system is equipped, it is a prerequisite to meet the production speed.If the machine is produced at a high speed, it needs to be equipped with a high-speed conveyor system. If the production itself is very slow, then the high-speed conveyor system will make the production more disordered and disorderly, which is not conducive to the improvement of production efficiency.In addition, the biggest advantage of modern conveyor system is that automation equipment replaces manual operations, which greatly saves labor costs and facilitates factory management and system identification.In some relatively all three-level carton factories in China, workers can still see the handling of raw paper or finished products, which not only takes up labor and reduces the production speed, but also has instability, which is not conducive to the manual management of the factory.In some foreign carton factories, workers can hardly be seen. In spacious factories, cardboard runs orderly on the conveyor belt, and workers only need to set some parameters to operate the system.Purchasing conveyor system is to make the factory work more convenient, fast, stable and save manpower and material resources as much as possible.Generally speaking, the following two aspects should be paid attention to when purchasing conveyor system:1. Selection of position control mode2. Selection of tranission modeFirst, to consider the choice of position control mode.Generally speaking, there are two main ways of position control: servo motor control and electronic eye recognition.Servo control is controlled by program, not easy to damage the cardboard, cardboard protection is the most stable, but its cost is relatively high.But the electric eye automatic induction generally applies in the automatic transportation conveyor to control the cardboard position, its price is cheap.But its installation needs to be higher than the conveying surface, easy to cause cardboard bump damage.(Refer to table 1)Table 1：Comparative analysis of position control modeThen we need to consider the transmission mode of conveyor system.Generally speaking, there are several transmission modes: plastic link, roller conveyor, conveyor belt and air suction.If the caterpillar plastic link is used to transfer the cardboard, the bottom layer of the cardboard does not need the backing plate is not easy to damage, but it is not easy to maintain, because sometimes even a all part of the broken will lead to the removal of the whole piece, and its price is higher.Relatively speaking, drum transport is cheap and easy to maintain, but it is easy to damage the bottom of the cardboard, so in the transport of cardboard need to add pad.Conveyance belts and air suction belts are generally used for the conveyance of waste paper. Conveyance belts are suitable for the conveyance of larger materials, while air suction belts are suitable for the conveyance of materials.(Refer to table 2)Table 2：Comparative analysis of transmission mode--If there is copyright dispute, please contact us to delete.

1155 0

Treatment of Contaminants - Dioxins

Fundamental Data for Calculating the Quantities of Corresponding Class IDesignated Chemical Substances Released / TransferredIn general, the quantities of corresponding Class I Designated Chemical Substances released and transferred can be calculated using either the actual values or the measured values, as obtained by each company. However, in the event that these numeric values are difficult to determine, then it is acceptable to utilize either: industry average values, nominal values or the standard values set by machine manufacturers (the numeric values in red font), as listed in Table 6.(The particular values utilized must be clearly stated.)Table 6 Fundamental Data for Calculating the Quantities of Corresponding Class IDesignated Chemical Substances Released / TransferredNote: Actual quantities for each company must be utilized for the following: quantities of wastewater produced from other processes (m3 / day); quantities of materials handled (such as adhesives and ink); number of days of operation;and number of print color change operations. Dioxins[Calculation Procedures]①Annual quantity of dioxins in exhaust gases released= quantity of exhaust gases* × measured quantity of dioxins in exhaust gases ×number of daily hours operation × number of days operation②Annual quantity of dioxins in incinerated ashes transferred= quantity of incinerated ashes released × measured quantity of dioxins inincinerated ashes[Calculation Examples]<Input Data for Calculations>*TEQ: As a variety of different dioxins are produced, the quantity of dioxins has beenconverted tothetoxicequivalencespecifiedby2,3,7,8tetrachlorinateddibenzo-para-dioxin.<Calculation Results>①Annual quantity of dioxins in exhaust gases released= 1,180×2.0×10-6 × 8 × 20 × 12 = 4.53mg-TEQ / year②Annual quantity of dioxins in exhaust gases released= 21 × 10 6 × 1.1 × 10-6 = 23.1 mg － TEQ / year--If there is Copyright Dispute about the content, please Contact us to Delete.

837 0

Treatment of Contaminants - Ethylene Glycol

Fundamental Data for Calculating the Quantities of Corresponding Class IDesignated Chemical Substances Released / TransferredIn general, the quantities of corresponding Class I Designated Chemical Substances released and transferred can be calculated using either the actual values or the measured values, as obtained by each company. However, in the event that these numeric values are difficult to determine, then it is acceptable toutilize either: industry average values, nominal values or the standard values setby machine manufacturers (the numeric values in red font), as listed in Table 6.(The particular values utilized must be clearly stated.)Table 6 Fundamental Data for Calculating the Quantities of Corresponding Class IDesignated Chemical Substances Released / Transferred Note: Actual quantities for each company must be utilized for the following: quantities of wastewater produced from other processes (m3 / day); quantities of materials handled (such as adhesives and ink); number of days of operation; and number of print color change operations.Ethylene Glycol Shown below are the flows for the release and transfer of ethylene glycol.Ethylene glycol is contained in the quick drying inks used during the conversion process and is present in wastewater subject to treatment. The quantities both released and transferred can be calculated by following the procedures described below.Figure 10 Flows for Ethylene Glycol Released and Transferred The methods used for the cleaning and final treatment of printers that utilize quick drying inks will vary, depending upon the characteristics of the inks and the specifications of each machine. Therefore, the various treatment methods are classified as shown in (1) - (3), below.(1) Wipe-off Method: used for conventional roll transfer type printers and conventional spray type printers. After excess ink has been wiped off the printers with waste cloths, the materials used for cleaning are disposed of as industrial waste.(2) Industrial Waste Treatment Method for Waste Liquids: the waste inks resulting from color change processes and the wastewater from ink clean up are stored indrums, then disposed of as industrial waste, as is.(3) Wastewater Treatment Method: the printing process utilizes washable quick drying inks. After wastewater is treated by a standard wastewater treatments ystem, the wastewater is separated into liquid wastewater and solid waste. Inthe event that an activated sludge treatment is performed as a tertiary treatment,then the wastewater will be fully broken down into water and carbon dioxide.Therefore, the quantity of ethylene glycol released will be "0". Annual quantity handled Annual quantity released or transferred [Calculation Procedures]①Quantity of ethylene glycol handled = annual quantity of quick drying inkhandled × ethylene glycol content②Wipe-off Method: quantity of ethylene glycol transferred in waste= quantity of waste per color / cleaning operation × number of daily color changes×number of days of operation③Industrial Waste Treatment Method for Waste Liquids: quantity of ethyleneglycol transferred in waste = quantity of waste per color / cleaning operation× number of daily color changes× number of days of operation④Wastewater Treatment Method: quantity of ethylene glycol released towastewater = quantity of waste per color / cleaning operation × number ofdaily color changes × number of days of operation [Calculation Examples]<Input Data for Calculations>Note: Figures in red font represent industry average values / nominal values- Quantity of ink handled: 6,000 kg / year (wipe-off type: 3,500 kg / year)- Ethylene glycol content: 30%- Quantity of ink per disposal, per color: ② 350 g / disposal; ③ 50 g / disposal;④ 126 g / disposal- Number of color changes: 40 changes / day (wipe-off type: 20 changes / day)- Number of days of operation: 20 days × 12 months = 240 days / year<Calculation Results>①Quantity of ethylene glycol handled = 6,000 kg / year × 0.3 (3,500× 0.3) = 1,800 kg / year (1,050 kg / year)②Wipe-off Method: quantity of ethylene glycol transferred in waste = (350 /1,000 ) × 0.3 × 20 × 20 × 12 = 504 kg / year③Industrial Waste Treatment Method for Waste Liquids: quantity of ethyleneglycol transferred in waste = (50 / 1,000 ) × 0.3 × 40 × 20 × 12 = 144kg /year④Wastewater Treatment Method: quantity of ethylene glycol released towastewater = (126 / 1,000 ) × 0.3 × 40 × 20 × 12 = 363 kg /yearNote: In the event that the wastewater from procedure ④, above, receives tertiary treatment using an activated sludge treatment method, then complete decomposition would occur. Therefore, the quantity of ethylene glycolreleased would be determined as "0". If the wastewater is not treated using an activated sludge treatment method, then a slight amount of ethylene glycolwill be transferred along with the residual water, to the dehydrated waste(although most of the ethylene glycol is released to the wastewater itself).This miniscule quantity of transferred ethylene glycol is difficult to measureand is estimated as being only a few % of the entire quantity released.Therefore, for the purposes of the calculations above, the entire quantity ofethylene glycol is considered as being released to the wastewater, with none ofit being transferred to the dehydrated waste. --If there is Copyright Dispute about the content, please Contact us to Delete.

855 0

Treatment of Contaminants - Toluene

Fundamental Data for Calculating the Quantities of Corresponding Class IDesignated Chemical Substances Released / TransferredIn general, the quantities of corresponding Class I Designated Chemical Substances released and transferred can be calculated using either the actual values or the measured values, as obtained by each company. However, in the event that these numeric values are difficult to determine, then it is acceptable to utilize either: industry average values, nominal values or the standard values set by machine manufacturers (the numeric values in red font), as listed in Table 6.(The particular values utilized must be clearly stated.)Table 6 Fundamental Data for Calculating the Quantities of Corresponding Class IDesignated Chemical Substances Released / Transferred Note: Actual quantities for each company must be utilized for the following: quantities of wastewater produced from other processes (m3 / day); quantities of materials handled (such as adhesives and ink); number of days of operation; and number of print color change operations. Toluene Figure 8 Flows for Toluene Released The flow of toluene released from joint adhesives used during the conversion process is the same as the flow of xylene described in section 2, above). Annual quantity handled Annual quantity released or transferred [Calculation Procedures]①Annual quantity of toluene handled=②Quantity released to atmosphere = Annual quantity of joint adhesive handled × Toluene content[Calculation Examples]<Input Data for Calculations>Annual quantity of joint adhesive handled: 22,000 kg / yearToluene content in joint adhesive: 5%<Calculation Results>①Annual quantity of toluene handled = 22,000 kg / year × 0.05 = 1,100 kg / year=1.1 t / year②Quantity of toluene released to atmosphere = 22,000 kg / year × 0.05= 1,100 kg / year = 1.1 t / year --If there is Copyright Dispute about the content, please Contact us to Delete

883 0

Treatment of Contaminants - Xylene

Fundamental Data for Calculating the Quantities of Corresponding Class IDesignated Chemical Substances Released / TransferredIn general, the quantities of corresponding Class I Designated Chemical Substances released and transferred can be calculated using either the actual values or the measured values, as obtained by each company. However, in the event that these numeric values are difficult to determine, then it is acceptable to utilize either: industry average values, nominal values or the standard values set by machine manufacturers (the numeric values in red font), as listed in Table 6.(The particular values utilized must be clearly stated.)Table 6 Fundamental Data for Calculating the Quantities of Corresponding Class IDesignated Chemical Substances Released / Transferred Note: Actual quantities for each company must be utilized for the following: quantities of wastewater produced from other processes (m3 / day); quantities of materials handled (such as adhesives and ink); number of days of operation; and number of print color change operations. Xylene Shown below are the flows for the xylene released. Xylene is contained in the joint adhesives used during the conversion process and is also used as an additive for boiler fuel. The quantity released can be calculated by following the procedures described below. Figure 7 Flows for Xylene Released [Calculation Procedures] Annual quantity handled Annual quantity released or transferred ①Annual quantity of xylene handled＝ annual quantity of kerosene handled × density × xylene content ＋ annual quantity of joint adhesive handled × xylene contentNote: 99.5% of xylene contained in kerosene is decomposed through combustion.The entire quantity of xylene contained in joint adhesives for combining is released to the atmosphere during the drying process.②Quantity of xylene released to atmosphere = Quantity of xylene in kerosene ×+ non-decomposition rate + annual quantity of joint adhesives handled ×xylene content[Calculation Examples]<Input Data for Calculations> <Calculation Results>①Annual quantity of xylene handled = 9,240* + 22,000 × 0.05 = 10,340 kg②Quantity of xylene released to atmosphere = 9,240 × 0.005 + 22,000 kg / year× 0.05= 1,146 kg / year--If there is Copyright Dispute about the content, please Contact us to Delete.

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Treatment of Contaminants - Borax

Fundamental Data for Calculating the Quantities of Corresponding Class IDesignated Chemical Substances Released / TransferredIn general, the quantities of corresponding Class I Designated Chemical Substances released and transferred can be calculated using either the actual values or the measured values, as obtained by each company. However, in the event that these numeric values are difficult to determine, then it is acceptable to utilize either: industry average values, nominal values or the standard values set by machine manufacturers (the numeric values in red font), as listed in Table 6.(The particular values utilized must be clearly stated.) Table 6 Fundamental Data for Calculating the Quantities of Corresponding Note: Actual quantities for each company must be utilized for the following: quantities of wastewater produced from other processes (m3 / day); quantities of materials handled (such as adhesives and ink); number of days of operation;and number of print color change operations.Borax*1 : Borax shall be calculated using Na2B4O7?10H2O (boron content: 11.3%) asstandard. When utilizing either Na2B4O7?5H2O (boron content: 14.8%) or boric acidH3BO3 (boron content: 17.5%), conversion to borax Na2B4O7?10H2O (boron content: 11.3%) must be performed, in accordance with the formulae shown below. Na2B4O7?10H2O= (14.8 / 11.3) ×Na2B4O7?5H2O (borax)Na2B4O7?10H2O= (17.5 / 11.3) ×H3BO3(boric acid) Example: If 4 tons of boric acid (H3BO3) and 5 tons of borax have been handled, then what is the total quantity of boron handled? Conversion of boric acid to borax: Na2B4O7?10H2O = (17.5 / 11.3) ×H3BO3(boric acid)= 1.55 × 4t = 6.2t Thus, 4 tons of boric acid is equivalent to 6.2 tons of borax. Therefore; after conversion, the quantity of borax equivalent is calculated as: 5t + 6.2t = 11.2 tand the total quantity of boron handled is calculated as: 11.2t × 0.113 = 1.266t= 1,266 kg. *2: Regarding Boron Content in Wastewater after Wastewater Treatment has beenPerformed (reference)- The effluent standard specified by the Water Pollution Control Law: boron content in wastewater shall be no more than 10mg/l.- Example of boron measurement at a corrugated packaging manufacturer (total quantity of wastewater discharged during manufacturing processes: 10m3/day):Over the weekend, the wastewater derived from the cleaning of glue vats was13combined with wastewater derived from the clean up of ink. Flocculants and similar coagulating agents were then added to this mixture at the beginning of he subsequent week. Lastly, the sludge within this mixture was separated out through pressure floatation and filter press techniques. The wastewater was analyzed and the boron content was found to range between 1.8-7.8mg/l, with an average concentration of 4.4 mg/l.- Normally, the wastewater derived from the clean up of ink is discharged every time that the ink color is changed, during printer operation. However, glue vat sand other parts of the corrugator are cleaned no more than once a day, even at factories that perform frequent cleaning. Factories that do not perform frequent cleaning may clean these parts only once each week. During these thorough cleaning operations, overall boron concentrations are greater due to the discharge of wastewater that contains laminating glue. Therefore, this example of actual quantities measured shows a situation in which wastewater containing a significant amount of laminating glue was discharged. Therefore, with consideration for previous examples of actual measured concentrations, it is estimated that annual average boron concentrations will actually be approximately 1-2mg / l, which is less than one-half of the average concentration measured in this example.- Precautions Prior to SamplingThe actual concentration of boron can vary greatly, depending upon the adhesives for combining content of the wastewater derived from clean up operations. Therefore, it is desirable to preset the effluent condition standards, then to perform 2 – 3 point sampling in chronological order. *3: Regarding the Decomposition Rate of Xylene in Combustion Equipment (such as boilers)- The process of combustion will cause 99.5% of the xylene present to decompose into water and carbon dioxide. The remaining 0.5% is noted composed and is released unchanged to atmosphere. (Cited from page 241 inthe "Manual for Estimating Quantities of Released and Transferred Chemical Substances" prepared by the Ministry of Economy, Trade and Industry and the Ministry of the Environment, in March 2001.)Note: Actual quantities for each company must be utilized for items that are noted scribed, including: quantities of wastewater produced from other processes(m3/day); quantities of materials handled (such as adhesives and ink); number of days of operation; and number of print color change operations.number of days of operation; and number of print color change operations. 1) Boron and its compounds - Figure 6 depicts the flows involved with the release and transfer of boron contained within adhesives for combining, during the processes of glue making, combining and wastewater treatment. The quantities of boron released and transferred can be calculated by following the procedures described below.- The borax utilized in these processes (i.e., boron and its compounds) reacts with caustic soda to produce sodium borate, which itself reacts with starch to form borate ester. As well, when boric acid is utilized, it reacts with caustic soda to produce borax. Thus, boron is transformed into a variety of chemical compounds, depending upon the processes in which it is utilized. However, for calculating the quantities released and transferred, the overall quantity should be understood in terms of the mass of elemental boron.- With respect to boron, the amount that will eventually be discharged into raw wastewater is equivalent to the difference between the quantity handled and the quantity shipped out in the form of finished product and corrugated waste. The wastewater treatment process then separates the raw wastewater into wastewater (treated water) and waste. Measurements are then performed to calculate the quantity of boron in the wastewater (treated water). The quantity of boron transferred in waste is equivalent to the difference between the quantity of boron discharged into raw wastewater and the quantity of boron measured in the wastewater (treated water). Figure 6 Boron Release / Transfer Flows *1 Containerboard combining process*2 Containerboard*3Adhesives forcombining [Calculation Procedures] Annual quantity handled Annual quantity released and transferred ①Annual quantity of boron handled = annual quantity of borax handled ×boron content②Quantity of boron in the product = production volume of corrugated boards×quantity of adhesives for combining applied × borax content of adhesives for combining × boron content of borax③Quantity of boron in corrugated waste = quantity of corrugated waste sold ÷average basis weight * × quantity of adhesives for combining applied ×borax content of adhesives for combining × boron content of borax④Quantity of boron in raw wastewater (untreated) released to the wastewater treatment process = ①－(②+③+⑦)⑤Quantity of boron released to bodies of water = quantity of boron in wastewater released from the wastewater treatment process = measured quantity × quantity of water released.⑥Quantity of boron in the sludge discharged from the wastewater treatment process = ④－⑤.⑦Quantity of boron in glue balls = quantity of glue balls produced× solids content × number of days of operation× borax content of adhesives for combining × boron content of borax⑧Quantity of boron transferred in waste =⑥+⑦ 1) Boron and its compounds - Figure 6 depicts the flows involved with the release and transfer of boron contained within adhesives for combining, during the processes of glue making, combining and wastewater treatment. The quantities of boron released and transferred can be calculated by following the procedures described below.- The borax utilized in these processes (i.e., boron and its compounds) reacts with caustic soda to produce sodium borate, which itself reacts with starch to form borate ester. As well, when boric acid is utilized, it reacts with caustic soda to produce borax. Thus, boron is transformed into a variety of chemical compounds, depending upon the processes in which it is utilized. However, for calculating the quantities released and transferred, the overall quantity should be understood in terms of the mass of elemental boron.- With respect to boron, the amount that will eventually be discharged into raw wastewater is equivalent to the difference between the quantity handled and the quantity shipped out in the form of finished product and corrugated waste. The wastewater treatment process then separates the raw wastewater into wastewater (treated water) and waste. Measurements are then performed to calculate the quantity of boron in the wastewater (treated water). The quantity of boron transferred in waste is equivalent to the difference between the quantity of boron discharged into raw wastewater and the quantity of boron measured in the wastewater (treated water). Table 7 Quantities of Boron Released / Transferred for Each Method of Wastewater Treatment [Calculation Examples]<Input Data for Calculations>Note: Figures in red font represent industry average values/nominal values- Production volume of corrugated boards: 49,000,000 m2 / year- Quantity of corrugated waste sold: 3,000 t / year = 3,000,000 kg / year- Average basis weight: 647g / m2 = 0.647kg / m2- Annual quantity of borax (Na2B4O7?10H2O) handled: 10,000 kg / year- Boron content: 11.3%- Quantity of adhesives for combining applied: 9g / m2 = 0.009kg / m2- Borax content of adhesives for combining : 2%- Quantity of glue balls produced: 12 kg / day- Solids content of glue balls: 35%- Number of days of operation: 20 days × 12 months / year- Quantity of clean up water discharged: 10m3 / day- Wastewater treatment facility: pressure floating + filter press method- Released to: bodies of water- Quantity of boron in treated wastewater: 4.4mg / l = 0.0044kg / m3 <Calculation Results>①Annual quantity of boron handled = 10,000 kg / year × 0.113 = 1,130 kg / year(Annual quantity of borax handled × boron content)②Quantity of boron in the product (corrugated boards) = 49,000,000 m2 / year ×0.009kg / m2 × 0.02 × 0.113 = 996.7kg / year(Production volume of corrugated boards × quantity of adhesive applied × borax content of adhesives for combining × boron content of borax)③Quantity of boron in corrugated waste= 3,000,000kg / year ÷ 0.647kg / m2 × 0.009kg / m2 × 0.02 × 0.113= 94.3kg / year(Quantity of corrugated waste sold ÷ basis weight × quantity of adhesive applied × borax content of adhesives for combining× boron content of borax)④Quantity of boron in raw wastewater released to the wastewater treatment process= 1,130－(996.7 + 94.3 + 2.3) = 36.7kg / year{①－(②+③+⑦)}⑤Quantity of boron released to bodies of water=quantity of boron in wastewater released to bodies of water from the wastewater treatment process= 0.0044 kg / m 3 × 10 m 3 / day × 240 days ＝ 10.6 kg / year(Measured quantity × quantity released (daily output × number of days ofoperation))⑥Quantity of boron in the sludge discharged from the wastewater treatment process = 36.7－10.6= 26.1 kg / year(④－⑤)⑦Quantity of boron in glue balls = 12kg / day × 0.35 × 240days / year ×0.02 × 0.113 = 2.3kg / year(Quantity of glue balls produced × solids content × number of days of operation × borax content of adhesives for combining × boron content of borax)⑧Quantity of boron transferred in waste = 26.1kg / year + 2.3kg / year= 28.4kg / year(⑥ +⑦) --If there is Copyright Dispute about the content, please Contact us to Delete.

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Equipments

Corrugator & Wet-End

Layers

Width

Speed

Corrugator Dry-End

Layers

Width

Speed

Corrugator Related Machine

Roll Stand

Pre-Heater

Single Facer

Corrugating Roll

Glue Kitchen

Splicer

Guiding System

Double Facer

Sheet Presser

Corrugator Conveying Belt

Engery System

Slitter Scorer

Cut Off

Stacker

Process Control System

Printer Slotter Die-cutter

Machine Transfer Way

Sheet Transfer Way

Printing Way

Graphic

Flexo Folder Gluer

Driven Way

Sheet Transfer Way

Printing Way

Digital Printer

Printing Way

Printing Ink

Printing Related

Conveyor system

Pre-feeder

Printing Unit

Mold Making

Stacking

Complete in-line exit

Flatbed Die-Cutting

Manual

Semi Automatic

Automatic

Folder Gluer

Operate Way

Special Function

Stitching Machine

Operate Way

Strapping Machine

Operate Way

Conveyor System

Conveyor Function

Stacker

Winding Equipment

Waste paper Baler Machine

Robot Palletizer

Box Making Machine

Parts

Blades

Additive

Printing Comsumable Material

Dasong DS Bridge Web Alignment and Tension Control System

FUMA HIP Series Splicer

FULI SFM25N POSITIVE PRESSURE CASSETTE TYPE SINGLE FACER

XIAOHUA XH-2000 Full automatic glue kitchen system

XIEYANG MSF-28P/32P Multi-Cassette Positive Pressure Single Facer

DGMJ SP-10 servo type high performance machine

KaDar Whole plant intelligent logistics control system

COMAUTO Automatic Up Stacker-Zigzag Bundle Function

Taiquan TQ-T Automatic Zero Emission Pulping Machine

FUMA Steam System With Intelligent Control for Great Savings

Solution to the problem of discoloration in carton printing

How to Choose Carton Equipment in Newly Opened Carton Factory

Pay Attention to the Problems in Choosing Carton Packaging Machinery for Carton Enterprises

How to address poor gluing（Adhesion difference between drive side and operational side）