JP2009202548A - Method of sizing single facer and device thereof - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent a defective corrugated board from bringing to market by eliminating a failure area where sizing is not performed by a sizing roll at the front and rear of a paper joining part of a core paper under the optimum pressing force in a device of sizing a single facer. <P>SOLUTION: In a method of sizing the single facer 1, a waveform is formed by passing the core paper (n) through a pair of corrugation rolls 2, 3 having a wave formed outer peripheral surface, then passing the core paper (n) through a downstream side corrugation roll 3 and a sizing roll 6 to stick on to corrugation top part of the core paper (n), and after that, the core paper (n) is laminated to a liner paper l to manufacture a single-faced corrugated paper k. The stick on roll 6 is operated by a drive cylinder 13 operated by an incompressible fluid, a pressing force for coating an optimum amount of glue is applied to the core paper (n) without damaging the core paper (n). When the paper joining part (r) of the core paper (n) passes through the downstream side corrugation roll 3 and the sizing roll 6, a returning path 19a for returning the incompressible fluid from the drive cylinder 13 to an incompressible fluid supply source 22 is closed. <P>COPYRIGHT: (C)2009,JPO&amp;INPIT

Description

  The present invention is provided in a corrugating machine, and when a single facer that manufactures single-sided corrugated paper is glued to the top of the core paper, the joint of the core paper passes between the corrugated roll and the glued roll. The present invention relates to a gluing method and apparatus capable of minimizing a rebound phenomenon of a gluing roll that sometimes occurs.

  In the single facer, the core paper is formed in a corrugated shape through a core paper between a pair of corrugated rolls whose outer peripheral surface is corrugated, and glued to the top of the corrugated core paper in a corrugating device. The gluing device is a starch-based product on the top of the core paper by passing the core paper between the gluing roll partly immersed in the glue reservoir and glued on the surface and the downstream corrugated roll. Adhere the glue. After that, the core paper and liner paper are overlapped and passed between the downstream corrugated roll and a pressure device (pressure belt or pressure roll, etc.), and the core paper and liner paper are bonded to each other, thereby providing single-sided cardboard. Manufacture paper.

The core paper is fed out from the roll base paper by a roll base paper supply device such as a mill roll provided on the upstream side of the single facer and transferred to the single facer. Then, the rear end of the core paper is spliced by the splicer with the front end of the next roll base paper and a double-sided tape or the like. That is, as shown in FIG. 5, the rear end of the old core paper n _{1 and} the front end of the new core paper n ₂ are bonded with a double-sided tape t or the like, so that a paper joint r having a length of about 50 mm is formed. It is formed. In the drawing, an arrow a indicates the conveyance direction of the core paper.

Since the paper splice r is twice as thick as the core paper, including the thickness of the double-sided tape t, there is a level difference between the front and back core paper. When passing between the attaching roll and the downstream side roll, the rebound phenomenon of the pasting roll occurs.
The gap between the sizing roll and the downstream corrugated roll is adjusted so as to be an optimum gap for gluing according to the thickness of the core paper, that is, slightly smaller than the thickness of the core paper or the thickness of the core paper. . However, when the paper splicing part r passes, the paper splicing part r forcibly passes between the glued roll and the downstream side roll, so that the glued roll moves backward from the downstream side roll.

  Since the glued roll is pressed against the downstream side roll with a desired pressing force, the glued roll causes a rebound phenomenon between the downstream roll and the downstream roll. Due to this rebound phenomenon, a non-uniform state of application of glue occurs. In the single facer, the running speed of the core paper reaches 300 to 400 m / min, so the paper joint r also advances at a speed of 6 m / sec. Therefore, the uneven state of glue may reach several meters.

  Patent Document 1 (Japanese Patent Laid-Open No. 2002-192636) discloses a means for eliminating the rebound phenomenon of the glued roll when passing through the paper splicing section. This means suppresses the rebound phenomenon by making the pressing force F2 against the core paper of the glued roll higher than the normal pressing force F1 when the paper joint r passes between the glued roll and the downstream side roll. It is what you do.

JP 2002-192636 A

  According to Patent Document 1, the pressing force F2 of the glued roll when passing through the paper splicing portion is “to the extent that the paper splicing portion and the core paper 21 immediately after the crushing portion are crushed and deteriorated, and troubles such as paper breakage do not occur. In addition, when the pasting roll 10 and the pasting device 13 are pushed back by the paper joint, they are not mechanically damaged, and the core paper 21 scrapes off the pasty from the outer peripheral surface of the pasting roll 10. Sometimes, the pressing force is such that the core paper 21 does not damage the mesh or the like surface-processed on the outer peripheral surface of the gluing roll 10, but the pressing force is such that the rebound phenomenon is minimized. ("Lower column on the left side of page 5)".

  However, with the means disclosed in Patent Document 1, the pressing force F2 when passing through the paper splicing section must be higher than the ideal pressing force F1 during normal operation, and thus deviates from the ideal pressing force. Must be in the driving state. The splicer r is cut and removed after it becomes double-sided corrugated paper on the downstream side of the corrugated board production line, but the range that must be operated with the pressing force F2 is also a problem of tracking accuracy of the splice section. However, the range of only the paper splicing portion is not sufficient, and it must be at least 1 m before and after the paper splicing portion and a total range of 2 m or more.

  As a result, it becomes larger than the range of the paper joint r to be cut and removed, and the corrugated paper manufactured with the pressing force F2 is put on the market as a product. The core paper pasted with a pressing force F2 larger than the optimum pressing force F1 is excessively compressed, so that the strength of the double-sided corrugated cardboard is reduced.

  In view of the problems of the prior art, the present invention eliminates the area of the core paper that is not glued under the optimum pressing force by the glue roll before and after the joint portion of the core paper in the single facer gluing device. Thus, the object is to prevent defective corrugated paper from being put on the market.

In order to achieve the above object, the single facer gluing method of the present invention comprises:
After forming the corrugated sheet through a core paper between a pair of corrugated rolls whose outer peripheral surface is corrugated, and then pasting the core paper between the downstream corrugated roll and the glued roll and pasting it on the corrugated top of the core paper, In the single facer gluing method of manufacturing single-sided corrugated paper by laminating core paper with liner paper,
The glue roll is operated by a drive cylinder that operates with an incompressible fluid, and a pressing force for applying an optimum amount of glue is applied to the core paper without damaging the core paper.
The return path for returning the incompressible fluid from the drive cylinder to the incompressible fluid supply source is closed when the splicing portion of the core paper passes between the downstream side roll and the glued roll.

  In the gluing method of the present invention, the gluing roll is operated by a drive cylinder that operates with an incompressible fluid, such as a hydraulic cylinder, and the normal core paper is not damaged with respect to the core paper during normal operation. The optimum pressing force for applying the optimum amount of glue is applied. The return path for returning the incompressible fluid from the drive cylinder to the incompressible fluid supply source is closed when the splicing portion of the core paper passes between the downstream side roll and the glued roll.

  By such an operation, the movement of the glued roll is restricted when passing through the paper splicing part, so that the rebound of the glued roll can be suppressed. For this reason, it is possible to press the core paper with the optimum pressing force except when passing through the paper splicing portion (usually a length of about 50 mm). In addition, the pressure applied to the core paper by the glued roll is increased when passing through the paper splicing part, but the paper splicing part is originally cut and removed as a defective part, so it is not put on the market as part of corrugated paper. .

In the method of the present invention, in order to match the timing of closing the return path with the time when the splicing portion of the core paper passes between the downstream corrugated roll and the glue roll, the paper from the splicing time of the core paper of the splicer is adjusted. By tracking the moving distance of the joint, it is preferable to calculate the timing of passing between the downstream roll and the glued roll (glued position) and close the return path in accordance with the timing. As a result, it is possible to synchronize the timing of passing the pasting position of the paper joint and the closing time of the return path.
In this case, if the width of the closing time of the return path is widened, the return path can be reliably closed when the paper splicing portion passes through the pasting portion.

  In the method of the present invention, the splicing portion of the core paper is detected at the upstream side and the downstream side of the gluing position between the downstream side roll and the gluing roll, and the splicing portion is detected at the upstream side detection position. Sometimes the return path is closed, and when the paper splice is detected at the downstream detection position, the return path is opened, so that the paper splice reaches the glue position between the glue roll and the downstream corrugated roll. The return point can be reliably closed in accordance with the passage of the paper splicing part.

The single facer gluing device of the present invention is
A pair of corrugated rolls whose outer peripheral surface is corrugated and formed into a corrugated shape through a core paper, and a gluing device having a gluing roll that presses the downstream corrugated roll and glues it to the top of the middle core paper, In a single facer gluing device that manufactures single-sided corrugated paper by bonding core paper and liner paper,
A drive cylinder that operates with an incompressible fluid and activates a glued roll to apply a pressing force to the core paper passing between the downstream side roll and the glued roll;
An incompressible fluid supply / discharge path connecting between the drive cylinder and the incompressible fluid supply source is provided, and the incompressible fluid is supplied when the splicing portion of the core paper passes between the corrugated roll and the glued roll. And a valve mechanism for closing a return path from the drive cylinder to the incompressible fluid supply source.

  In the gluing device of the present invention, a driving cylinder that operates with an incompressible fluid is used as a means for applying a pressing force to the core paper by the gluing roll. With the drive cylinder, during normal operation, The optimum pressing force is applied so as to apply the optimum amount of paste without damaging the core paper. When the splicing portion of the core paper passes between the downstream side roll and the glued roll, the return path for returning the incompressible fluid from the drive cylinder to the incompressible fluid supply source is closed by the valve mechanism. Like that.

  Thereby, since the movement of the glued roll is restricted when the paper joint passes, rebound of the glued roll can be suppressed. Therefore, it is possible to press the core paper with the optimum pressing force except for the paper joint.

In the apparatus of the present invention, a detector for tracking the distance of the splicing section from the splicing time of the splicer core core paper, and a timing at which the detection signal of the detector passes between the downstream roll and the glued roll And a control device that closes the return path in accordance with the timing, it is possible to match the timing of closing the return path with the time when the paper splicing portion passes the glued position.
In this case, if the width of the closing time of the return path is widened, the return path can be reliably closed when the paper splicing portion passes through the pasting portion.

Further, in the apparatus of the present invention, there is provided a detection device for detecting a splicing portion of the core paper in the core paper transport path in the vicinity of the upstream side and the downstream side of the pasting position between the corrugated roll and the pasting roll. The return path may be closed when the detection unit detects the paper splicing part, and the return path may be opened when the downstream detection apparatus detects the paper splicing part.
With this configuration, it is possible to reliably grasp the time when the paper splicing portion has reached the gluing position between the gluing roll and the downstream side roll, and to open and close the return path without malfunction.

  In the apparatus of the present invention, the valve mechanism includes a check valve interposed in the incompressible fluid supply / discharge passage and a pilot valve circuit that opens and closes the check valve. The supply / discharge path is opened during normal operation, and the check valve is operated so as to close the return path when the core splicing section passes between the corrugated roll and the glue roll. Good.

  In such a configuration, the movement of the gluing roll can be restricted when passing through the gluing position of the paper splicing portion with a simple configuration comprising a check valve and a pilot valve circuit that opens and closes the check valve. Rebound can be suppressed.

According to the method of the present invention, a corrugated sheet is formed between a pair of corrugated rolls whose outer peripheral surfaces are corrugated, and then the corrugated sheet is passed between the downstream corrugated roll and the glued roll, In a single facer gluing method in which the core paper is glued to the liner paper after gluing to the top of the step to produce single-sided cardboard, the gluing roll is operated by a drive cylinder that operates with an incompressible fluid. Applying a pressing force to the core paper without damaging the core paper and applying the optimum amount of glue, and when the seam of the core paper passes between the downstream corrugated roll and the glue roll By closing the return path for returning the compressible fluid from the drive cylinder to the non-compressible fluid supply source, the movement of the glue roll is restricted when the paper joint passes the glue position, and the glue roll is rebounded. The phenomenon can be suppressed.
For this reason, since the core paper can be pressed with the optimum pressing force except when the paper splicing portion passes, a defective portion of the corrugated paper is not generated other than the paper splicing portion.

  Further, according to the apparatus of the present invention, a pair of corrugated rolls whose outer peripheral surface is corrugated and corrugated through the core paper, and a glued roll that is pressed against the downstream corrugated roll and glued to the top of the middle core paper are provided. In a single facer gluing device that manufactures single-sided corrugated paper by laminating core paper and liner paper, a downstream stage is activated by an incompressible fluid and a gluing roll is activated. A drive cylinder for applying a pressing force for applying an optimum amount of glue without damaging the core paper to the core paper passing between the roll and the glued roll, and the drive cylinder and the non-compressed fluid supply source An incompressible fluid supply path that is interposed in the incompressible fluid supply / discharge path connecting between the drive cylinder and the incompressible fluid when the core paper splice passes between the corrugated roll and the glued roll And a valve mechanism for closing the return path to return to the paper joint. During the glue application position passing to restrict the movement of the glue roll, it is possible to suppress the rebound phenomenon of the glue application roll, it is possible to obtain the same effects as the present invention method.

  Hereinafter, the present invention will be described in detail with reference to embodiments shown in the drawings. However, the dimensions, materials, shapes, relative arrangements, and the like of the component parts described in this embodiment are not intended to limit the present invention to that only, unless otherwise specified.

(Embodiment 1)
1st Embodiment of this invention is described based on FIG.1 and FIG.2. FIG. 1 is a front view of a single facer 1 according to the present embodiment, and FIG. 2 is a front view of a roll base paper supply device 30 that feeds the core paper n to the single facer 1. In FIG. 1, the single facer 1 is arranged so that an upstream side roll 2 and a downstream side roll 3 mesh with each other, and rotate in the direction of arrow b or arrow c to form a meshing portion. The outer peripheral surfaces of the upstream side roll 2 and the downstream side roll 3 are corrugated, and the core paper n passing between these rolls is formed into a corrugated shape.

  A gluing device 4 is disposed on the downstream side of the meshing section in the core paper conveyance direction. The gluing device 4 includes a gluing reservoir 5 in which gluing g is stored, a gluing roll 6 in which gluing is adhered to the surface by immersing the lower part in gluing g stored in the gluing reservoir 5, and a gluing roll. 6 and a doctor roll 7 that adjusts the amount of glue adhering to the gluing roll 6 in sliding contact with the gluing roll 6. The gluing roll 6 rotates in the direction of arrow f, and the doctor roll 7 rotates in the direction of arrow h.

  An endless belt 8 is provided on the downstream side of the gluing device 4 in the core paper conveyance direction. The endless belt 8 is wound around a pair of pressure rolls 9a and 9b and pressed against the downstream corrugated roll 3, while the arrow Drive in direction e. The pressing force applied to the downstream side roll 3 side by the endless belt 8 is adjusted by changing the position of the pressure roll 9a or 9b and adjusting the tension of the endless belt 8.

  The core paper n transferred from the direction of arrow a passes through the meshing portion between the upstream side roll 2 and the downstream side roll 3 and is formed into a corrugated shape, and then the downstream side roll 3 and the glued roll 6. It is pasted to the top of the step after passing through the pasting position m.

  Inside the corrugated rolls 2 and 3 and the pressure rolls 9a and 9b, heating steam is introduced and heated, and the endless belt 8 is also heated by the pressure rolls 9a and 9b. Therefore, the core paper n is formed into a waveform while being heated at the meshing portions of the corrugated rolls 2 and 3, and the glue applied to the step top of the core paper n is heated by the downstream corrugated roll 3 and the endless belt 8. And gelled. The glued core paper n is pasted by being heated and pressurized by passing between the downstream roll 3 and the endless belt 8 in a state of being overlapped with the liner paper l transferred from the direction of the arrow d, Single-sided cardboard paper k is manufactured.

  A driving cylinder 13 attached to the frame 12 is provided below the gluing device 4. The support frame 11 that supports the gluing device 4 is connected to a movable base 15 that is connected to the head portion 14 of the drive cylinder 13. Hydraulic oil supply / discharge passages 19a and 19b are connected to the left and right cylinder chambers 16a and 16b of the drive cylinder 13, and hydraulic oil is supplied to and discharged from the left and right cylinder chambers 16a and 16b via the supply and discharge passages 19a and 19b.

  The working pressure of the working oil supplied and discharged to the left and right cylinder chambers 16 a and 16 b is transmitted to the support frame 11 through the piston pin 17, the piston rod 18, the head portion 14, and the movable base 15. Then, the pressing force of the gluing roll 6 is applied to the core paper n wound around the downstream side roll 3.

  By adjusting the operating pressure of the hydraulic oil, the core paper n passing through the gluing position m between the downstream side roll 3 and the gluing roll 6 is damaged by the gluing roll 6. Therefore, it is possible to apply a pressing force for applying an optimum amount of paste.

  The supply / discharge passages 19 a and 19 b are connected to a hydraulic oil supply source 22 via an electromagnetic valve 21. A check valve 23 is interposed in the supply / discharge passage 19 a on the upstream side of the electromagnetic valve 21. A pilot valve circuit 24 having a pilot solenoid valve 25 is connected between the check valve 23 and the hydraulic oil supply source 22, and the check valve 23 is supplied from the pilot valve circuit 24 to the check valve 23. It is configured to be opened and closed by hydraulic oil.

  Next, the configuration of the roll base paper supply device 30 illustrated in FIG. 2 will be described. The roll base paper supply device 30 includes a mill roll stand 31 and a splicer 36 disposed above the mill roll stand 31, and is a device that supplies the core paper n to the single facer 1. In FIG. 2, a roll base paper 34 a having a pair of roll support arms 33 a and 33 b on which roll base papers 34 a and 34 b are mounted on both sides of the stand 32, and having a paper material wound around the roll support arms 33 a and 33 b, 34b is rotatably mounted. One of the roll base papers 34a and 34b is fed out and supplied, and the other is put into a splicing standby state, spliced through the splicer 36, and supplied to the single facer 1 as the core paper n.

  The splicer 36 includes a pair of paper splicing preparation members 37a and 37b that are slid in the direction of the arrow. The paper splicing preparation members 37a and 37b guide one base paper 34a 'being fed out at the position indicated by the solid line in FIG. The end of the base paper 34b 'is supported by the paper splicing preparation member 37b at the end of feeding of the base paper 34b' and when the supply paper material is changed to change the order of paper quality, paper width, etc. The sheet is extruded onto the base paper edge 34a 'on the splicing preparation member 37a and spliced through a double-sided tape t or the like. Then, the spliced core paper n is continuously supplied to the single facer 1 through the guide roll 38.

  The roll base paper 34a that becomes unnecessary after the paper splicing is removed from the roll support arm 33a, a new roll base paper 34c is mounted on the roll support arm 33a, and the end of the roll base paper 34c is connected to the paper splicing preparation member at the dotted line position shown in the figure. The paper splicing preparation member is moved to the position shown by the solid line in FIG.

  In the present embodiment, a pulse counter 39 is provided on the guide roll 38 and the length n of the core paper passing through the guide roll 38 is measured by the pulse counter 39. Then, by measuring the number of pulses starting from the time when the paper joint r passes the guide roll 38, the position of the paper joint r can be detected.

  In the present embodiment having such a configuration, the pilot electromagnetic valve 25 is controlled by the control device 26 and the check valve 23 is opened during normal operation. Then, the hydraulic oil is supplied and discharged from the hydraulic oil supply source 22 to the left and right cylinder chambers 16 a and 16 b of the drive cylinder 13 through the supply and discharge passages 19 a and 19 b through the electromagnetic valve 21. Thereby, it is possible to apply a pressing force to the core paper n passing through the glue position m between the downstream side roll 3 and the glue roll 6. During normal operation, the control unit 26 controls the core paper n so as to apply an optimal pressing force that does not damage the core paper and applies an optimal amount of glue.

  Since the distance between the gluing position m of the guide roll 38 and the single facer 1 is known, the number of pulses measured by the pulse counter 39 is input to the control device 26, and the control device 26 calculates the number of pulses from the number of pulses. The time for r to reach the gluing position m is calculated. The control device 26 sends a control signal to the pilot solenoid valve 25 when the paper splice r reaches the gluing position m, operates the check valve 23 via the pilot valve circuit 24, and drives the drive cylinder. The thirteen supply / discharge passages 19a are closed. As a result, the return of hydraulic oil from the cylinder chamber 16a can be blocked.

In this case, the time for closing the supply / discharge path 19a of the drive cylinder 13 is set to have a certain width. As a result, when the paper joint r reaches the gluing position m, the supply / discharge path 19a can be reliably closed. Therefore, even if the paper joint r passes the pasting position m, the rebound phenomenon of the pasting roll 6 can be eliminated.
Then, after the paper joint r has passed the pasting position m, the control device 26 operates the pilot electromagnetic valve 25 to activate the check valve 23 and open the supply / discharge path 19a. Thereby, the pressing force with respect to the core paper n of the gluing roll 6 can be returned to the optimum pressing force.

  According to the present embodiment, by operating in this way, the operation from the cylinder chamber 16a of the drive cylinder 13 when the paper joint r passes the pasting position between the pasting roll 6 and the downstream side roll 3 is performed. By blocking the return of oil, the rebound phenomenon of the glued roll 6 can be eliminated. Accordingly, since the core paper n can be pressurized with the optimum pressing force except when the paper joint is passed, the core paper n is damaged or the top of the core paper n is bonded to the liner paper l. There is no failure. When the paper joint r passes, the pressure applied to the core paper n by the gluing roll 6 is strengthened, but the paper joint r is originally cut and removed from the production line as a defective part, so it is marketed as a part of corrugated paper. It will not be issued.

In addition, since the operation can be performed with a simple configuration including the check valve 23 and the pilot valve circuit 24, the initial cost can be reduced.
Further, by providing a certain amount of time for closing the supply / discharge path 19a of the drive cylinder 13, precise control is not required, and the supply / discharge path 19a can be surely received when the paper joint r reaches the gluing position m. Can be closed.

  As shown in FIG. 5, the closing range q of the check valve 23 is a range q in which the paper joint r and the core paper n before and after the paper joining portion r pass the pasting position m. The closed range q is set to a range that takes into account the tracking accuracy of the paper splice r. In this embodiment, since the rebound phenomenon does not occur when the paper joint r passes the pasting position m, the range of the defective portion is not expanded even if the closing range q is set larger.

(Embodiment 2)
Next, a second embodiment of the present invention will be described with reference to FIGS. 3 and 4, the devices or members denoted by the same reference numerals as those in FIGS. 1 and 2 are the same devices or members as those in FIG. 2, so description thereof will be omitted. In the present embodiment, in the vicinity of the upstream side of the engagement portion of the upstream side corrugating roll 2 and the downstream side corrugating roll 3, the position of P ₁ along the conveying path of the corrugating medium n, fiberboard splice part r of the corrugating medium n together with the sensor 41 for detecting are provided to, in the vicinity of the downstream side of the sizing position between the downstream side corrugating roll 3 and the glue application roll 6, to a position P ₂ along the conveying path of the single face corrugated paper k, corrugating medium A sensor 42 for detecting n paper splices r is provided. Other configurations are the same as those of the first embodiment.

  When the paper joint r approaches the single facer 1 and the sensor 41 detects the paper joint r, the detection signal is transmitted to the control device 26. When receiving the detection signal, the control device 26 sends a control signal to the pilot electromagnetic valve 25, operates the check valve 23 via the pilot valve circuit 24, and closes the supply / discharge passage 19a of the drive cylinder 13. As a result, the return of hydraulic oil from the cylinder chamber 16a can be blocked.

  Next, when the paper joint r is detected by the sensor 42, the detection signal is transmitted to the control device 26. When the control device 26 receives the detection signal, it operates the pilot solenoid valve 25 to activate the check valve 24 and opens the supply / discharge passage 19a. Thereby, the pressing force with respect to the core paper n of the gluing roll 6 can be returned to the optimum pressing force.

  In the present embodiment, in addition to the operational effects obtained in the first embodiment, paper splice detection sensors 41 and 42 are provided in the vicinity of the upstream side and the downstream side of the gluing position m, and supplied by the detection signals of these sensors. Since the discharge path 19a is closed or opened, there is an advantage that the supply / discharge path 19a can be reliably closed when the paper joint r passes the pasting position m.

  According to the present invention, in a single facer for producing single-sided corrugated paper, the defective area that has occurred before and after the joint portion of the core paper when the core paper is glued with a simple configuration is eliminated. It can be prevented from going on the market.

1 is a front view of a single facer according to a first embodiment of the present invention. It is a front view of the roll base paper supply apparatus of the said 1st Embodiment. It is a front view of the roll base paper supply apparatus which concerns on 2nd Embodiment of this invention. It is a front view of the roll base paper supply apparatus of the said 2nd Embodiment. It is explanatory drawing which shows the paper joint part of a core paper.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Single facer 2 Upstream side stage roll 3 Downstream side stage roll 6 Glue roll 13 Drive cylinder 19a, 19b Hydraulic oil supply / discharge path 22 Hydraulic oil supply source 23 Check valve 24 Pilot valve circuit 25 Pilot electromagnetic valve 26 Controller 30 Roll base paper supply device 36 Splicer 39 Pulse counter 41, 42 Paper joint detection sensor k Single-sided corrugated paper l Liner paper m Gluing position n Core paper r Paper joint

Claims (7)

After forming the corrugated sheet through a core paper between a pair of corrugated rolls whose outer peripheral surface is corrugated, and then pasting the core paper between the downstream corrugated roll and the glued roll and pasting it on the corrugated top of the core paper, In the single facer gluing method of manufacturing single-sided corrugated paper by laminating core paper with liner paper,
The glue roll is operated by a drive cylinder that operates with an incompressible fluid, and a pressing force for applying an optimum amount of glue is applied to the core paper without damaging the core paper.
The return path for returning the incompressible fluid from the drive cylinder to the incompressible fluid supply source is closed when the splicing portion of the core paper passes between the downstream side roll and the glued roll. Single facer gluing method.   By tracking the moving distance of the splicing section from the splicing time of the splicer core core paper, the timing of passing between the downstream side roll and the glued roll is calculated, and the return path is closed in accordance with the timing. The single facer gluing method according to claim 1, wherein the gluing method is performed.   The splicing portion of the core paper is detected at the upstream side and near the downstream side of the gluing position between the downstream side roll and the gluing roll, and the return path is closed when the paper splicing portion is detected at the upstream detection position. 2. The single facer gluing method according to claim 1, wherein the return path is opened when a paper splice is detected at a downstream detection position. A pair of corrugated rolls whose outer peripheral surface is corrugated and corrugated through the core paper, and a gluing device comprising a gluing roll that presses the downstream corrugated roll and glues it to the top of the core paper, In a single facer gluing device that manufactures single-sided corrugated paper by laminating core paper and liner paper,
A drive cylinder that operates with an incompressible fluid and activates a glued roll to apply a pressing force to the core paper passing between the downstream side roll and the glued roll;
An incompressible fluid that is interposed in an incompressible fluid supply / discharge path that connects the drive cylinder and an incompressible fluid supply source and that passes through the intermediate paper core between the downstream roll and the glued roll. A single facer gluing device comprising: a valve mechanism for closing a return path from the drive cylinder to the incompressible fluid supply source.   A detector that tracks the movement distance of the splicing section from the splicing time of the core paper of the splicer, receives the detection signal of the detector, calculates the timing of passing between the downstream roll and the glue roll, The single facer gluing device according to claim 4, further comprising a control device that closes the return path in accordance with timing.   A detection device for detecting a splicing portion of the core paper is provided in the core paper conveyance path in the vicinity of the upstream side and in the vicinity of the downstream side of the pasting position between the downstream side roll and the pasting roll, and the upstream side detection device provides a paper 5. The single facer according to claim 4, wherein the return path is closed when a joint portion is detected, and the return path is opened when a paper joint portion is detected by a downstream detection device. Gluing device.   The valve mechanism includes a check valve interposed in the incompressible fluid supply / discharge passage and a pilot valve circuit that opens and closes the check valve, and the pilot valve circuit performs the supply / discharge in normal operation. The check valve is operated so as to close the return path when the path is opened and the splicing portion of the core paper passes between the corrugated roll and the glue roll. The gluing device for a single facer according to any one of claims 4 to 6.

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