EP1099540A1 - Method and apparatus for producing corrugated paperboard with at least four layers - Google Patents

Abstract

The method involves transporting a first corrugated sheet laminated on one side with the first smooth layer and a second corrugated sheet laminated with an intermediate smooth layer. The spacings are measured, and the second sheet is extended to equalize the spacings. The relative corrugation positions are detected. The sheets are displaced to align the peaks and troughs, followed by gluing the peaks of the first sheet and joining and pressing the sheets together. The method involves transporting a first corrugated sheet laminated on one side with the first smooth layer (7) in a production direction and transporting a second corrugated sheet laminated on one side with an intermediate smooth layer (8) facing the first corrugated sheet, measuring the spacings of the corrugated sheets, extending the second sheet depending on the measurements to equalize the spacings, detecting the relative corrugation positions, displacing the sheets relative to each other to align the peaks of the first with the troughs of the second, gluing the peaks of the first sheet and joining and pressing the sheets together. Independent claims are also included for a system for implementing the method.

Description

The invention relates to a process for the production of at least 4-ply Corrugated cardboard which has an upper smooth first cover sheet, a smooth intermediate layer, one between the top first cover sheet and the liner arranged, glued with these upper first corrugated sheet and one arranged below the intermediate layer, glued to this lower second has corrugated web, and a plant for performing the method.

WO 91/17881 describes a plant for the production of a 5-ply Corrugated cardboard known, in the two-sided laminated corrugated cardboard be supplied to a heating device. Here, the corrugated cardboard sheets fed so that the corrugated sheets face each other and the cover sheets of the two one-sided laminated corrugated sheets each form the cover sheets of the 5-ply corrugated cardboard. The two Corrugated cardboard webs are placed on corrugated rollers before entering the heating device passed, which are driven synchronously, so that the two Corrugated cardboard sheets run into the heating device in such a way that the wave heads of the two corrugations facing away from the respective cover sheet congruent, d. H. mirror-symmetrical, are with each other. For the production An intermediate layer is introduced into a 5-layer corrugated cardboard web. The wave heads of the corrugated webs are made using two gluing units glued. This system has the disadvantage that the feed devices mirror symmetrical for feeding the two corrugated cardboard sheets the corrugated cardboard webs are not made up of two identical machines corrugated board laminated on one side can be supplied. Rather, a special machine is required.

From DE 42 36 211 A1 it is known to have two in one heating device Merge one-sided laminated corrugated cardboard sheets and a cover sheet and to connect to a 5-layer corrugated cardboard. The two corrugated cardboard webs are fed in the same position, d. H. the cover sheet lies in each case at the top and the corrugated web is at the bottom. The additional Cover sheet is fed from below. This configuration enables the corrugated cardboard sheets laminated on one side directly from the corresponding production machines feed directly. The disadvantage is that the corrugated cardboard webs cannot be brought together in such a way that the Corrugated heads of one corrugated cardboard web with the corrugated feet of the other Corrugated cardboard are congruent.

From WO 97/00769, WO 93/03913, WO 96/32250, US 5,674,349 and EP 0 279 609 B1 discloses producing 4-ply corrugated cardboard webs by that two corrugated sheets by means of corrugated rollers in the way with each other be connected that their shaft heads are connected to each other become. At the same time or afterwards, one or two outer cover sheets upset. The feeding of an intermediate layer is not from this known.

A fundamental problem with all such known designs it is that the division is to be connected to two or more Corrugated cardboard sheets is never the same, even if the machines used to manufacture them the one-sided corrugated cardboard lined with a cover sheet should produce identical division.

The invention has for its object a method and a system to create at least 4-ply corrugated cardboard in which it is ensured that the corrugated heads of a corrugated cardboard web with the Corrugated valleys of the other corrugated cardboard cover come to cover.

This object is achieved according to the invention by a method with the features of claim 1 solved. The essence of the invention is that the Corrugated cardboard sheet, the cover sheet for the at least 4-layer corrugated cardboard sheet the intermediate layer is inherently with a smaller division than the other corrugated cardboard web is produced and supplied and then the the first-mentioned corrugated cardboard web is individually stretched without tearing, so that their division constantly adapted to the division of the other corrugated web becomes. Also constantly changing divisions of the undrawn corrugated cardboard web are so balanced. The invention is further characterized by a System with the features of claim 6 solved.

Advantageous embodiments of the invention result from the subclaims.

Fig. 1 eine Seitenansicht einer Anlage zur Herstellung 5-lagiger Wellpappe in schematischer Darstellung,

Fig. 2 eine 5-lagige Wellpappe in Seitenansicht,

Fig. 3 eine Einrichtung zur Erfassung der Teilung einer einseitig kaschierten Wellpappebahn in Seitenansicht,

Fig. 4 zwei einseitig kaschierte Wellpappebahnen mit unterschiedlicher Teilung, und

Fig. 5 eine weitere Ausführungsform einer Einrichtung zur Erfassung der Teilung einer Wellpappebahn in Seitenansicht.

Further features, advantages and details of the invention result from the following description of two exemplary embodiments with reference to the drawing. Show it:

1 is a side view of a plant for the production of 5-ply corrugated cardboard in a schematic representation,

2 a 5-ply corrugated cardboard in side view,

3 shows a device for detecting the division of a web of corrugated cardboard laminated on one side in a side view,

Fig. 4 two one-sided laminated corrugated sheets with different division, and

Fig. 5 shows another embodiment of a device for detecting the division of a corrugated cardboard web in side view.

The system shown in Figure 1 shows purely schematically - only by racks indicated - two machines 1, 2 for the production of laminated on one side Corrugated cardboard. One-sided come from each of the two machines laminated corrugated cardboard sheet 3, 4, the corrugated sheet 5 or 6 down is directed. Both corrugated sheets 3, 4 each have an upper smooth Cover sheet 7, 8 on. Such machines for one-sided production Laminated corrugated webs are generally known, for example from EP 0 687 552 A (corresponding to US Pat. No. 5,632,850) or DE 195 36 007 A (corresponding to GB 2,305,675 A), whereupon regarding the Details are referenced.

A train control station 9 is arranged downstream of the two machines 1, 2 one brake roller 10 or 11 for each corrugated cardboard web 3, 4 is, each of a torque-controllable electric motor 12th or 13 is drivable. Each brake roller 10 or 11 is a deflection roller 14 arranged in such a way that each corrugated cardboard web 3 or 4 with a wrap angle of approximately 180 ° around the respective brake roller 10 or 11 is performed.

The web control station 9 is followed by a preheating station 15 each has a heating cylinder 16, 17, via which the respective corrugated cardboard web 3 or 4 is guided with its cover sheet 7 or 8. At the bottom Area, a rolling device 18 is provided for a lower cover sheet 19, which is also followed by a heating cylinder 20 for the lower cover sheet 19 is. The heating cylinders 16, 17, 20 are deflection rollers 21 in the Assigned way that the webs 3, 4 and 19 with a large wrap angle are guided over the heating cylinders 16, 17, 20.

The two heating cylinders 16, 17 for the corrugated cardboard webs 3, 4 are gluing devices 22, 23 downstream, each having a deflecting roller 24 or have 25. The deflection rollers 24 and 25 are each a glue applicator Subordinate 26 or 27, in each case glue on the tips the curl, i.e. the wave heads facing away from the respective cover sheet 7, 8 28, 29 of the corrugated webs 5, 6 is applied. In the direction of production 30 is a heating device downstream of the glue application units 26, 27 31 provided in which the corrugated cardboard sheets 3, 4 and the lower Cover sheet 19 are merged and connected together. The Heating device 31 has a frame 32 with a flat horizontal Plate 33, below which heating elements 34 are provided. Above of the plate 33 are a plurality of pressing elements in succession in the direction of production 30 35 provided by means of which the entirety of the two Corrugated cardboard sheets 3, 4 and the lower cover sheet 19 onto the plate 33 during transport through the heating device 31 in the production direction 30 are pressed so that on the one hand they are glued together, on the other hand, the corrugations of the corrugated webs 5, 6 are not destroyed become. Here, the corrugated sheet 5 with the cover sheet 8 and the corrugated sheet 6 connected to the cover sheet 19. For common Introduce the corrugated cardboard sheets 3, 4 and the lower cover sheet 19 into the Heating device 31 are provided on this inlet rollers 36, 37. Such Heating devices 31 are known, for example from EP 0 623 459 B1 (corresponding to U.S. Patent 5,456,783). Instead of this heating device 31, a heating device can also be used, such as it is shown and described in DE 198 11 858 A.

As can be seen in Figure 2, the upper corrugated web 3 and the lower Corrugated cardboard web 4 merged in this way when entering the heating device 31 be that the cover sheet 7 facing away from the wave heads 28 of the corrugation 38 of the corrugated sheet 5 of the upper corrugated sheet 3 each based on the production direction 30 in the same position are like the respective wave valleys 39 adjacent to the cover sheet 8 Corrugation 40 of corrugated sheet 6 of lower corrugated cardboard sheet 4. As before 2 shows, the corrugations 38 and 40 are each one have equally large divisions a and b. Their amplitudes c and d can against it be different. Where a wave head 28 and a Wellental 39 lying close together is a common one by gluing Connection point 41 formed, each in the cover sheet 8, the now forms an intermediate layer of the finished 5-ply corrugated cardboard 42, is involved.

To achieve this, each corrugated cardboard web 3, 4 is in front of the glue applicator 26, 27 a device 43 or 44 for detecting the division a or b assigned. Of these institutions with the same training, only that is Device 44 associated with corrugated cardboard web 4 is shown in more detail in FIG. Here, two laser sensors 45, 46 are provided, which on both sides of the Corrugated cardboard web 4 are arranged. A sensor 45 is therefore the cover sheet 8 assigned, while the other sensor 46 assigned to the corrugated web 6 is. Both sensors 45, 46 are on inputs of an evaluation device 47 switched, the outputs of which in turn are connected to the inputs of a control device 48 are switched. The evaluation device 47 can also with a Display device 49 may be provided. The control motor 48 is the drive motor 13 of the brake roller 11 controlled.

The device 43 is in the same way on inputs of the evaluation device 47 switched, the signals on inputs of the control unit 48 there. This in turn is also on the engine 12 Brake roller 10 switched.

The device 44 operates as follows:
The sensor 45 constantly measures the distance e of the cover sheet 8 from the sensor 45. This distance e should be constantly constant; but it is not because the corrugated cardboard web 4 flutters to a small extent. The sensor 46 assigned to the corrugated web 6 continuously measures the distance f of the corrugation 40 from the sensor 46. The values e and f are continuously fed to the evaluation device 47. The distance g of the sensors 45, 46 from one another is permanently stored in the evaluation device 47.

Every time the sensors 45, 46 have a trough 39 of the corrugated web 6 g ÷ e ÷ f assumes a minimum. The same applies to the facility 43, which scans the corrugated cardboard web 3 in the same way there the maximum of the relationship g ÷ e ÷ f is recorded; so there will be a Wave head 28 detected, the overlap with a wave trough 39 of Corrugated web 4 is to be brought.

The speed of the corrugated cardboard web 3 and 4 is by appropriate Feedback from the motors 12, 13 to the control device 48 and from there to the evaluation device 47 is known. In this way, the division a the corrugated cardboard web 3 and the division b of the corrugated cardboard web 4 are detected.

In order now to ensure that the divisions a and b are identical, that is to say the same amount, and that the corrugation heads 28 of the corrugated web 5 of the corrugated cardboard web 3 are congruent with the troughs 39 of the corrugated web 6 of the corrugated cardboard web 4, the procedure is as follows : As can be seen in FIG. 4, the corrugated cardboard webs 3 and 4 are produced in machines 1 and 2 in such a way that the division b of the corrugated cardboard web 4 is somewhat smaller than the division a of the corrugated cardboard web 3. The division b is so much smaller than the division a, that even taking into account the fluctuations that occur during production, the division b is always smaller than a. For this it is usually sufficient if 0.97a ≤ b ≤ 0.995a applies. The division b is therefore 0.5% to 3% smaller than the division a. These dimensions are specified on corrugated machines 1 and 2. Corresponding to the actual dimensions a and b determined by the device 43, 44, the motor 13 of the brake roller 11 is controlled in such a way that the cover sheet 8 of the corrugated cardboard sheet 4 is stretched by a corresponding increase in torque, without tearing. To make this possible, it is more stretchable than the cover sheets 7 or
19. The cover sheet 8 should be stretchable by 2% to 12% without tearing. In addition, 8 paper can be used for the cover sheet, which is thinner than is usually used for the production of corrugated cardboard. It is sufficient if a paper of 60 to 80 g / m ^{2 is} used for the cover sheet 8. This type of expansion of the cover sheet 8 and thus the corrugated cardboard sheet 4 can be achieved that the division b is equal to the division a. The control is operated in such a way that the maximum of g ÷ e ÷ f in the device 43 and the minimum of g ÷ e ÷ f in the device 44 coincide with each other, as a result of which a wave head 28 and a wave trough 39 meet at one Connection point 41 is reached, as shown in Figure 2.

Instead of the laser sensors 45, 46, corresponding sensors can also be used the corrugated web 3 or 4 are used by means of ultra-sound scan and determine the values described.

5 shows a further device 44 'for detecting the division b or a, which has an accelerometer 50, the by means of a button 51 with a predetermined force against that of the corrugated Lane 6 facing away from the cover sheet 8. Between two Troughs 39 of the corrugation 40 become the cover sheet 8 as it passes on button 51 pressed in a little more than in the stiffer area of the respective Connection 41 produced by gluing. The accelerometer 50 receives exactly at the connection points 41 greatest acceleration impulse. In this way, the accelerometer 50 the division b and also the exact location of the connection points 41, i.e. the troughs 39, capture. The detection of the division a the corrugated cardboard web 3 takes place in the same way with the device 43 '. The processing of the detected signals and the control of the motors 12, 13 and thus the brake rollers 10, 11 takes place in the same way as in the first embodiment.

Claims (11)

Process for the production of at least 4-ply corrugated cardboard (42), which glues an upper smooth first cover sheet (7), a smooth intermediate layer (8), an intermediate layer between the upper first cover sheet (7) and the intermediate layer (8) has an upper first corrugated sheet (5) and a lower second corrugated sheet (6) arranged below the intermediate layer (8) and glued to it, a) wherein a one-sided laminated first corrugated cardboard web (3), which has the smooth first cover web (7) and the first corrugated web (5) with a first corrugation (38) and corrugated heads (28) and a first division (a), in a production direction (30) is transported, b) wherein a one-sided laminated second corrugated cardboard web (4) is transported in the production direction (30), which the smooth intermediate layer as a second cover web (8) and the second corrugated web (6) with a second corrugation (40) and wave heads (29) and Has troughs (39) and a second division (b), the first corrugated sheet (5) facing the second cover sheet (8) and the second division (b) of the second corrugated sheet (6) being slightly smaller than the first Division (a) of the first corrugated web (5), c) the first division (a) of the first corrugated web (5) being measured, d) the second division (b) of the second corrugated web (6) being measured, e) the second corrugated cardboard web (4) being stretched in the production direction (30) as a function of the measured first division (a) and the measured second division (b) such that the second division (b) is equal to the first division (a) becomes, f) the position of the first corrugation (38) of the first corrugated web (5) relative to the position of the second corrugation (40) of the second corrugated web (6) in the production direction (30) is detected, g) the first corrugated cardboard web (3) and the second corrugated cardboard web (4) being displaced relative to one another in the production direction (30) in such a way that the corrugated heads (28) of the first corrugated cardboard web (3) with the troughs (39) of the second corrugated cardboard web ( 4) come to cover, h) wherein the wave heads (28) of the first corrugated web (5) are glued, and i) the first corrugated cardboard web (3) and the second corrugated cardboard web (4) being brought together and pressed together and connected to one another. Method according to claim 1, characterized in that the second cover sheet (8) serving as an intermediate layer consists of a paper which is more stretchable in the production direction (30) than the paper forming the first cover sheet (7). Method according to claim 2, characterized in that the second cover sheet (8) is stretchable by 2% to 12% in the production direction (30) without tearing. A method according to claim 1, characterized in that the wave heads (29) of the second corrugated web (6) are glued, and that a third cover sheet (19) is fed and brought together with the second corrugated sheet (4) and connected to it. Method according to Claim 1, characterized in that the measurement of the division (a) of the first corrugated web (5), the measurement of the second division (b) of the second corrugated web (6) and the detection of the position of the first corrugation (38) the first corrugated web (5) relative to the position of the second corrugation (40) of the second corrugated web (6) in the production direction (30) takes place simultaneously. Plant for carrying out the method according to one of claims 1 to 5, a) with a device for feeding a single-sided laminated first corrugated cardboard web (3), the smooth first cover web (7) and the first corrugated web (5) with a first corrugation (38) and corrugated heads (28) and a first division (a ) has, in a production direction (30), b) with a device for feeding a one-sided laminated second corrugated cardboard web (4), the smooth intermediate layer as a second cover web (8) and the second corrugated web (6) with a second corrugation (40) and wave heads (29) and troughs (39 ) and a second division (b), in the direction of production (30), the first corrugated sheet (5) facing the second cover sheet (8) and the second division (b) of the second corrugated sheet (6) being slightly smaller as the first division (a) of the first corrugated web (5), c) with a device (43, 43 ') for detecting the first division (a) of the first corrugated web (5), d) with a device (44, 44 ') for detecting the second division (b) of the second corrugated web (6), e) with a device (9) for stretching the second corrugated cardboard web (4) depending on the detected first division (a) and the detected second division (b) in the production direction (30) such that the second division (b) is equal to that first division (a), f) with a device (43, 43 ', 44, 44') for detecting the position of the first corrugation (38) of the first corrugated web (5) relative to the position of the second corrugation (40) of the second corrugated web (6) in Production direction (30), g) with a device (10, 11) for displacing the first corrugated cardboard web (3) and the second corrugated cardboard web (4) relative to one another in the production direction (30) in such a way that the corrugated heads (28) of the first corrugated cardboard web (3) with the troughs (39) the second corrugated cardboard web (4) come to cover, h) with a gluing device (22) for gluing the wave heads (28) of the first corrugated web (5) and i) with a device (31) for bringing together, pressing together and connecting the first corrugated cardboard web (3) and the second corrugated cardboard web (4). Installation according to claim 6, characterized in that at least one device (43, 44) for detecting the division (a, b) of a corrugated web (5, 6) has two sensors (45, 46) arranged on both sides of the corrugated cardboard web (3, 4). , of which a first sensor (45) is designed to measure the distance (e) of the cover sheet (7, 8) from the first sensor (45), and
of which a second sensor (46) is designed to measure the distance (f) of the corrugated web (5, 6) from the second sensor (46). System according to claim 7, characterized in that the sensors (45, 46) are designed to measure without contact. System according to claim 7, characterized in that the sensors are designed as laser sensors (45, 46). System according to claim 6, characterized in that at least one device (43 ', 44') for detecting the pitch (a, b) of a corrugated web (5, 6) has an acceleration sensor (50). Installation according to claim 6, characterized in that the device for stretching the second corrugated cardboard web (4) has a brake roller (11).

Images