JP2017043481A - Web conveyance device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a web processing device which reduces tensile force of a web in processing, and improves processing accuracy.SOLUTION: Web fixing means 22 is arranged on an upstream side or a downstream side of a processing stage 20, and switches the web between in a fixed state and in a released state. Web feeding means 7 is arranged on the upstream side or the downstream side of the processing stage which is opposite to the web fixing means, and intermittently feeds the web. Web tensile force control means operates the web feeding means or the web fixing means in a direction for reducing the tensile force of the web positioned between the web feeding means and the web fixing means in a state of the web fixed by the web fixing means in processing the web on the processing stage.SELECTED DRAWING: Figure 2

Description

The present invention relates to a web transport device that is a long sheet-like material, and more particularly to a transport device that includes a processing stage that processes a web in a stopped state.

When precise processing such as printing, laminating, and punching is performed on a thin-film ceramic green sheet formed on a long carrier film, the film needs to be temporarily stopped. Therefore, in the process of manufacturing the ceramic green sheet, a manufacturing apparatus is used in which a processing stage that is intermittently transferred is provided between the continuous transfer stages.

Patent Document 1 discloses a transport device that includes an unwinding roll, a processing table, a winding roll, and a pair of dancer rolls. The processing table sucks the sheet body, repeats the movement synchronized with the movement of the sheet body, and releases the sheet body to return to the initial position. For example, a laser is applied to the sheet body arranged on the processing table. Processing such as processing is performed. Clamps for holding the sheet body are provided on the upstream side and the downstream side of the processing table. The dancer roll is disposed at a position between the unwinding roll and the processing table and at a position between the processing table and the winding roll, and applies tension to the sheet body. Each dancer roll can move only in the vertical direction and can rotate about its axis, and is urged downward by an urging means (for example, an air cylinder) to apply tension to the sheet body.

A tension corresponding to the resultant force of the gravity of the dancer roll and the pressing force of the air cylinder is constantly acting on the sheet body. Therefore, the sheet body arranged on the processing table is stretched by tension, and processing such as laser processing is performed in a state where the sheet body is stretched. For this reason, when the processed sheet body is returned to the free state, a deviation occurs from the positional accuracy at the time of processing. That is, distortion occurs due to elongation during processing.

In order to solve such a problem, Patent Document 1 discloses a technique in which the tension applied to the sheet body during laser processing is lowered by changing the pressing force applied to the air cylinder. However, even if the pressing force applied to the air cylinder is lowered, the tension due to the gravity of the dancer roll is still acting, so the problem of distortion due to elongation during processing cannot be solved. Furthermore, when the pressing force of the dancer roll is lowered, not only the tension of the processing stage but also the tension of other parts is lowered, which may cause slack.

JP 2013-28470 A

The objective of this invention is providing the web processing apparatus which can reduce the tension | tensile_strength of the web at the time of a process, and can improve a processing precision.

In order to achieve the above object, the present invention provides a web transport device that sends a long web from a supply stage to a discharge stage via a processing stage, and the processing stage performs predetermined processing on the stationary web. Is to do. The web transport device is disposed between the supply stage and the processing stage or between the processing stage and the discharge stage, and includes a web feeding unit that intermittently feeds the web, an upstream side or a downstream side of the processing stage. Among them, the web fixing means which is arranged on the opposite side of the web feeding means and can be switched between a fixed state and a released state, and before processing the web on the processing stage, the web fixing means Web tension control means for operating the web feed means or the web fixing means in a direction to reduce the tension of the web located between the web feed means and the web fixing means in a state where the web is fixed. Prepare.

In the present invention, in order to make the tension of the web during processing as low as possible, a web fixing means capable of temporarily fixing the web is provided on the upstream side or downstream side of the processing stage on the side opposite to the web feeding means. Before processing the web on the stage, the web feed means or the web fixing means is operated in a direction to reduce the tension of the web located between the web feed means and the web fixing means while the web is fixed by the web fixing means. It is made to let you. Therefore, almost no tension is applied to the web disposed on the processing stage, and the problem of distortion due to the elongation of the web can be solved by processing the web. Note that the operation amount when operating the web feeding means or the web fixing means in the direction of reducing the tension of the web may be a very small amount because the initial tension acting on the web may be released.

Here, the web feeding means is means for intermittently feeding the web, in other words, a mechanism capable of switching the web between a stopped state and a feeding state, and between the supply stage and the machining stage or between the machining stage and the discharge stage. It is provided between the stages. As the web feeding means, for example, a suction roll, a nip roll, a movable table that sandwiches or sucks the web and reciprocates between the upstream side and the downstream side, a chuck mechanism that chucks the web and reciprocates between the upstream side and the downstream side and so on. In particular, the suction roll rotates while sucking and holding the back surface of the web. Therefore, even when a ceramic green sheet or the like is formed on the front surface of the web, it can be conveyed without damaging the ceramic green sheet. In addition, the structure is simple compared to the movable table and the chuck mechanism, and the controllability of stopping and starting is excellent.

On the other hand, the supply stage provided on the upstream side of the processing stage may be, for example, a continuous conveyance stage provided with an unwinding roll, and the discharge stage provided on the downstream side of the processing stage is, for example, a continuous stage provided with a winding roll. It may be a transfer stage. The feed speed at the time of driving the web feed means is larger than the transport speed of the supply stage and the discharge stage provided on both the upper and lower sides, preferably 10 times or more. In order to absorb the difference between the feeding speed of the web feeding means and the conveying speed of the supply stage / discharge stage, a known buffer mechanism such as a compensator roll can be provided. In addition, a dancer roll may be provided to absorb fluctuations in web tension. The processing stage is a stage that performs various operations on a stopped web, such as processing steps such as printing, lamination, punching, and inspection steps.

The web tension control unit may operate at least one of the web feeding unit and the web fixing unit in a direction approaching the web conveyance direction. That is, by operating in the direction of shortening the distance between the web feeding means and the web fixing means, the tension of the web positioned between the web feeding means and the web fixing means can be reduced. In this case, the web feeding means may be moved, or the web fixing means may be moved.

Further, the web tension control means may control the web feeding means so as to feed the web toward the processing stage. That is, the tension of the web positioned between the web feeding unit and the web fixing unit can be reduced by feeding the web toward the processing stage by the web feeding unit while the web fixing unit remains stationary.

When using a suction roll that is arranged on the downstream side of the processing stage and can suck and hold the web and feed the web intermittently, the web tension control means reversely rotates the suction roll. Also good. In this case, since the web tension on the processing stage can be reduced only by controlling the rotation direction of the suction roll, it is not necessary to add a special device.

Further, when a suction roll that is arranged downstream of the processing stage and can feed and hold the web intermittently is used as the web feeding means, a mechanism that moves the suction roll to the upstream side and the downstream side And the web tension control means may move the suction roll upstream. Also in this case, the web tension on the processing stage can be reduced by moving the suction roll in parallel.

As the web fixing means, a suction table arranged on the upstream side of the processing stage and capable of sucking and holding the web may be used. If the processing stage is equipped with a processing table that can hold the web by suction, for example, a suction table for temporarily fixing the web is arranged close to the upstream side of the processing table so that the suction table is placed inside the processing stage. It can also be arranged. When the suction table is located close to the upstream side of the processing stage, not only the function of temporarily holding the web during processing, but also the tension on the compensator roll and dancer roll provided on the upstream side of the processing stage causes the tension on the web on the processing stage. It also has a function to prevent the ripples from spreading.

When a suction table upstream of the processing stage is used as the web fixing means, a mechanism for moving the suction table to the upstream side and the downstream side is provided so that the web tension control means moves the suction table to the downstream side. Also good. In this case, it is not necessary to operate the web feeding means to reduce the web tension.

As described above, according to the present invention, the web fixing means capable of temporarily fixing the web is disposed on the upstream side or the downstream side of the processing stage on the side opposite to the web feeding means, and the web is processed on the processing stage. Immediately before the web feeding means or the web fixing means is operated so as to reduce the tension of the web positioned between the web feeding means and the web fixing means while the web is temporarily fixed by the web fixing means. As a result, almost no tension is applied to the web in the processing stage, and the problem of distortion due to the elongation of the web can be solved. Therefore, even a web that is greatly affected by elongation due to tension can be processed with high accuracy.

It is a schematic structure figure showing an example of a web conveyance device concerning the present invention. It is process drawing explaining an example of the operation principle of this invention. (A) is a figure which shows the tension | tensile_strength change in each conventional process, (b) is a figure which shows the tension | tensile_strength change in each process of this invention. It is process drawing of the principal part which shows the principle of operation of 2nd Example of this invention. It is process drawing of the principal part which shows the operating principle of 3rd Example of this invention. It is process drawing of the principal part which shows the principle of operation of 4th Example of this invention. It is process drawing of the principal part which shows the operating principle of 5th Example of this invention.

FIG. 1 shows an example in which the web conveying apparatus according to the present invention is applied to a ceramic green sheet processing apparatus. The web U used here (hereinafter also referred to as a film) is formed, for example, by forming a thin ceramic green sheet on a long carrier film. The transport apparatus includes a supply stage S1 on the upstream side, a processing stage S2 on the middle, and a discharge stage S3 on the downstream side. The supply stage S1 is provided with an unwinding roll 1 that is continuously rotated at a constant feed rate by a motor and supplies a web before processing. The processing stage S2 is provided with a processing machine 2 that performs predetermined operations such as printing, stacking, punching, and inspection while the web is stopped. The processing machine 2 includes a processing table 20 capable of sucking / blowing the web, and includes a processing head 21 that can be moved up and down to perform predetermined processing. A suction table 22 that can temporarily fix the web U is provided inside the processing machine 2 and in the vicinity of the upstream side of the processing table 20. The suction table 22 may be provided outside the processing machine 2. The suction table 22 only needs to suck and hold a part of the web U, and is formed smaller than the processing table 20. The discharge stage S3 is provided with a take-up roll 3 that is continuously rotated at a constant feed rate by a motor and takes up the processed web.

The web U supplied from the unwinding roll 1 is sent to the processing machine 2 through the guide roll 4, the dancer roll 5 and the compensator roll 6 in order. The web U that has passed through the processing machine 2 is wound around the winding roll 3 through the suction roll 7, the compensator roll 8, the dancer roll 9, and the guide roll 10. In FIG. 1, the upstream compensator roll 6 and dancer roll 5 are movable in the horizontal direction, and the downstream compensator roll 8 and dancer roll 9 are movable in the vertical direction.

The dancer rolls 5 and 9 are devices that apply a constant tension to the web U by determining the pressing force by the air cylinders 5a and 9a in order to absorb the tension fluctuation generated in the web.

The suction roll 7 constitutes a web feeding means for intermittently feeding the web. The suction roll 7 has a function of sucking and holding the web U on its outer peripheral surface, and is rotationally driven intermittently by a servo motor. The suction roll 7 of this embodiment is provided on the downstream side of the processing stage S2, that is, on the side opposite to the suction table 22 with the processing stage S2 in between.

The compensator rolls 6 and 8 are buffer devices that absorb slack and tension of the web U accompanying intermittent rotation of the suction roll 7. The feed speed at the time of driving the suction roll 7 is, for example, 200 mm / s to 2000 mm / s, which is considerably higher than the transport speed of the supply stage S1 and the discharge stage S3 (preferably 10 times or more larger). Absorbs the difference between the feed speed of the suction roll 7 and the transport speed of the supply stage / discharge stage. The compensator roll 6 includes a motor 6a and a ball screw 6b, and the compensator roll 6 can be moved in the horizontal direction by driving the motor 6a. On the other hand, the compensator roll 8 also includes a motor 8a and a ball screw 8b, and the compensator roll 8 can be moved in the vertical direction by driving the motor 8a.

The web conveyance device shown in FIG. 1 is provided with a control circuit 11 that integrally controls each driving device for conveying the web. That is, the control circuit 11 controls the unwinding roll 1, the compensator roll 6, the suction roll 7, the compensator roll 8, and the take-up roll 3. Further, the control circuit 11 can perform various controls such as suction / blow switching of the processing table 20 of the processing machine 2, raising / lowering of the processing head 21, and switching of suction / blow of the suction table 22. This control circuit 11 constitutes the web tension control means of the present invention.

Here, the operation of the transport apparatus according to the present invention will be described with reference to FIG. FIG. 2A shows a state in which the web (or film) U is intermittently conveyed (for example, conveyed 150 mm for 150 ms) by rapidly rotating the suction roll 7 forward. At this stage, the machining head 21 is retracted upward, blown from the machining table 20 and the suction table 22, and the web U is released from the machining table 20 and the suction table 22. Therefore, even if the suction roll 7 is rapidly rotated, damage due to rubbing between the web U, the processing table 20 and the suction table 22 does not occur. In addition, since the web U is pulled rightward by the rapid forward rotation of the suction roll 7, the compensator roll 6 also follows it and moves to the right at high speed.

FIG. 2B shows a state where the suction roll 7 is stopped. At this time, the processing table 20 and the suction table 22 are still blown, and the web U is released from the processing table 20 and the suction table 22. Initial tension by the dancer rolls 5 and 9 acts on the web U.

FIG. 2 (c) shows the stage of low tension, which is a feature of the present invention. In this state, first, the suction table 22 starts suction to fix the web. Next, the suction roll 7 is reversed by a minute distance. This operation is for releasing the initial tension acting on the web U, and its return length may be as small as about 0 to 0.2 mm. After the suction roll 7 is slightly reversed, suction of the processing table 20 is started and the web is held on the processing table 20. At this stage, the processing table 20 may be positioned in the Y direction / θ direction. In this way, almost no tension is applied to the web sucked by the processing table 20.

FIG. 2D is a processing stage, and while the processing table 20 and the suction table 22 are sucked, the processing head 21 is lowered to perform a desired processing on the web. In this way, since the processing is performed on the web on which almost no tension acts, the occurrence of elongation can be suppressed and high-precision processing becomes possible. The reason why the suction table 22 continues the suction during processing is that the compensator roll 6 moves to the upstream side at a low speed along with the continuous conveyance in the supply stage S1, thereby preventing the fluctuation of the tension from acting on the web being processed. It is to do.

FIG. 2E shows a suction release stage. After the machining head 21 is raised, the web is released by blowing from the machining table 20 and the suction table 22. Thereafter, the suction roll 7 is rotated forward by a minute length (for example, 0 to 0.2 mm). This slight forward rotation of the suction roll 7 is an arbitrary operation. This operation is for preliminarily applying an initial tension to the web on the processing table 20 and suppressing the vibration of the web due to the subsequent rapid forward rotation of the suction roll 7 (see FIG. 2A). Thereafter, the process returns to the first step (FIG. 2A), and thereafter the same steps are repeated.

FIG. 3 shows a change in web tension caused by the conventional conveying device and the conveying device of the present invention. As shown in FIG. 3 (a), in the conventional conveying apparatus, the initial tension T1 due to the dancer roll is applied even during the machining, and the machining is finished at time t5 and the intermittent conveyance is started. During intermittent conveyance, a large tension T2 is temporarily applied to the web, but the tension is below the elastic limit of the web. At time t6 when the intermittent conveyance ends, the web tension only returns to the initial tension T1, and does not become zero. Processing is performed with the initial tension T1 applied. That is, in the conventional apparatus, the initial tension T1 by the dancer roll always acts, and the web tension does not become zero until the web is wound on the take-up roll.

In the present invention, as shown in FIG. 3B, the suction release (FIG. 2E) is started at time t1, and the initial tension T1 acts on the web. By starting intermittent conveyance (FIG. 2A) at time t2, tension T2 acts on the web. When intermittent conveyance ends at time t3, the tension returns to the initial tension T1. Next, when the operation for reducing the tension is performed at time t4, the tension becomes almost zero (FIG. 2C), and then the processing (FIG. 2D) is performed. By reducing the tension, the web tension on the processing table becomes almost zero. By performing processing on the web in this state, highly accurate processing is possible. Thereafter, the same operation is repeated.

In FIG. 3B, the period of (e) to (a) to (b) is shown long in order to clarify the difference between the present invention and the prior art, but actually (e) to (a) ) To (b) is considerably shorter than the processing time (d), and therefore the processing time is not affected by the low tension operation of the present invention.

FIG. 4 shows the conveying process of the second embodiment of the present invention. (A) and (b) in FIG. 4 correspond to (a) and (c) in FIG. In FIG. 4, the web conveyance stage is the same as in FIG. 2, but differs in that the suction roll 7 itself is retracted (moved upstream) by a small distance in the low tension stage. In the suction release stage, the suction roll 7 itself needs to be moved forward (moved downstream) by a small distance. In this case, a mechanism for moving the suction roll 7 back and forth is provided. In this embodiment, the tension of the web on the processing table 20 can be released by reversing the suction roll 7 by a very small distance without reversing the rotation.

FIG. 5 shows a conveying process of the third embodiment of the present invention. (A) and (b) in FIG. 5 correspond to (a) and (c) in FIG. In this embodiment, a mechanism for moving the suction table 22 back and forth with respect to the processing table 20 (reciprocating between the upstream side and the downstream side) is provided. The suction table 22 is set at a position away from the processing table 20 during web conveyance. At the stage of lowering the tension, first, the suction roll 7 is stopped and the web is sucked by the suction table 22 and slightly advanced. Thereafter, the processing table 20 is sucked. Thereby, the tension of the web on the processing table 20 can be released.

FIG. 6 shows a conveying process of the fourth embodiment of the present invention. 6A and 6B correspond to FIGS. 2A and 2C. This embodiment is characterized in that suction rolls 7 and 12 are provided on both the upstream side and the downstream side of the processing stage, and a suction table 22 is provided on the downstream side of the processing table 20. At the time of web conveyance, both suction rolls 7 and 12 are rotated in the normal direction and intermittently conveyed. At the stage of lowering the tension, the downstream suction roll 7 is stopped, and the upstream suction roll 12 is slightly rotated forward while the suction table 22 is sucked. Thereby, the initial tension of the web on the processing table 20 is released. Thereafter, the processing table 20 may be sucked to perform processing. In this embodiment, since the downstream suction roll 7 can serve as the suction table 22 (web fixing means), the suction table 22 can be omitted.

FIG. 7 shows a conveying process of the fifth embodiment of the present invention. (A) and (b) in FIG. 7 correspond to (a) and (c) in FIG. In FIG. 7, only the point which used the nip rolls 13 and 14 instead of the suction roll 7 differs from 1st Example, and the other point is the same as that of 1st Example. That is, the nip rolls 13 and 14 are rotated forward while blowing the processing table 20 and the suction table 22 during web conveyance. In the low tension stage, the web is first sucked by the suction table 22 and the nip rolls 13 and 14 are slightly reversed to release the web tension on the processing table 20. Thereafter, the processing may be performed while the processing table 20 is sucked.

In the above embodiment, an example using a suction roll as a web feeding means and an example using a nip roll have been described, but other than that, a movable table that moves back and forth by pinching or sucking the web, It is possible to use a chuck device that chucks and moves back and forth. Furthermore, another embodiment can be configured by applying elements of one embodiment to another embodiment.

The present invention is not limited to the embodiments described above. The web targeted by the present invention is not limited to the one in which a ceramic green sheet is formed on a carrier film, but may be a web or the like used as a material for an electronic component or a substrate, or a long sheet-like material. If applicable. The processing on the processing stage is arbitrary as long as it is performed on a stationary web, and includes punching, printing, laser drilling, and the like. The present invention is not limited to the one in which a processing stage is provided between the unwinding roll and the winding roll as shown in FIG. 1, and a processing stage may be provided in the middle of a plurality of manufacturing stages. That is, the supply stage and / or the discharge stage may be a stage that does not continuously convey the web but intermittently conveys the same as the processing stage.

U web S1 supply stage S2 processing stage S3 discharge stage 1 unwinding roll 2 processing machine 20 processing table 21 processing head 22 suction table (web fixing means)
3 Winding roll 5, 9 Dancer roll 6, 8 Compensator roll 7 Suction roll (web feeding means)
11 Control circuit (tension control means)
12 Suction rolls 13 and 14 Nip rolls (web feed means)

Claims (7)

In the web transport device that sends a long web from the supply stage to the discharge stage through the processing stage, the processing stage performs predetermined processing on the stationary web,
A web feed means that is disposed between the supply stage and the processing stage or between the processing stage and the discharge stage, and intermittently feeds the web;
A web fixing means arranged on the opposite side to the web feeding means on the upstream side or the downstream side of the processing stage, the web fixing means being switchable between a fixed state and a released state;
Before processing the web on the processing stage, the web is fixed in the direction to reduce the tension of the web positioned between the web feeding means and the web fixing means in a state where the web is fixed by the web fixing means. And a web tension control means for operating the feeding means or the web fixing means. 2. The web conveyance device according to claim 1, wherein the web tension control unit operates at least one of the web feeding unit and the web fixing unit in a direction approaching along a conveyance direction of the web. 2. The web conveyance device according to claim 1, wherein the web tension control unit controls the web feeding unit to feed the web toward the processing stage. 3. The web feeding means is a suction roll that is arranged on the downstream side of the processing stage and can suck and hold the web to intermittently feed the web.
4. The web conveyance device according to claim 3, wherein the web tension control means reversely rotates the suction roll. The web feeding means is a suction roll that is arranged on the downstream side of the processing stage and can suck and hold the web to intermittently feed the web.
A mechanism for reciprocating the suction roll between the upstream side and the downstream side;
The web conveyance device according to claim 2, wherein the web tension control means moves the suction roll to the upstream side. The web conveyance device according to any one of claims 1 to 5, wherein the web fixing means is a suction table that is arranged upstream of the processing stage and is capable of sucking and holding the web. The web fixing means is a suction table that is arranged on the upstream side of the processing stage and can suck and hold the web.
A mechanism for reciprocating the suction table between the upstream side and the downstream side;
The web conveyance device according to claim 2, wherein the web tension control means moves the suction table to the downstream side.

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