JP2017222508A - Production method and production device of sheet-like member related to absorbent article - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce a deviation amount of a position of processing of a continuous sheet from a proper position in a transport direction.SOLUTION: A production method of a sheet-like member related to an absorbent article comprises: a supply step for transporting a continuous sheet 3a, in which a continuous direction of the same sheet is a transport direction, for supplying the same sheet to a processing treatment part L3aK; a processing step for performing intermittent processing in a transport direction with respect to each part which becomes an absorbent article 1 on the same sheet, by a processor 34 of the processing treatment part L3aK on a processing treatment position P3a in the transport direction; a position adjustment step which is performed at an adjustment treatment position P35 in the transport direction, for adjusting a position of an end part 3ae in a CD direction crossing the transport direction in the same sheet, to the CD direction; and a detection step for detecting a trace of the processing which is left on the same sheet on a detection treatment position P36 on a downstream side of the processing treatment position P3a and adjustment treatment position P35, for outputting the detection result. In the supply step, a tension value of the same sheet in the transport direction, when the sheet is fed to the processing treatment part L3aK, is adjusted, based on the detection result.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a method for manufacturing a sheet-like member and an apparatus for manufacturing absorbent articles such as disposable diapers.

Conventionally, in a disposable diaper production line as an example of an absorbent article, a continuous sheet is conveyed to a processing line as an example of a processing unit by supplying the continuous sheet with the continuous direction of the continuous sheet as the conveying direction. ing. And in the same processing line, a suitable processing apparatus manufactures a diaper by processing each part used as a diaper in the said continuous sheet intermittently in a conveyance direction.
Further, when the direction intersecting with the conveyance direction is set as the CD direction, the position adjusting device is arranged so that the end in the CD direction of the continuous sheet being conveyed is positioned at the target position in the CD direction. The position of the part is adjusted in the CD direction.

JP 2004-262556 A

  Here, in the position adjustment, a force in the CD direction is applied from the position adjustment device to the continuous sheet, but the continuous sheet may be shortened or extended in the transport direction. For example, when adjusting the position of the end so that the width dimension of the continuous sheet (dimension in the CD direction) is increased, a force directed outward in the CD direction is applied to each end of the continuous sheet. In this case, however, the sheet can be shortened in the conveyance direction by an amount corresponding to the amount of enlargement of the width dimension.

  Then, due to the shortening (or extension) of the conveying direction, the pitch in the conveying direction at the above processing position becomes shorter (or longer) than the appropriate pitch such as the product pitch, etc. As a result, the processing position of the continuous sheet may deviate from the proper position in the transport direction.

  The present invention has been made in view of the conventional problems as described above, and an object of the present invention is to provide an appropriate position in the conveyance direction that can be generated by adjusting the position of the end of the continuous sheet in the CD direction in the CD direction. The amount of deviation of the processing position of the continuous sheet is reduced.

The main invention for achieving the above object is:
A method for producing a sheet-like member according to an absorbent article based on a continuous sheet,
Supplying the continuous sheet by feeding the continuous sheet to the processing unit by conveying the continuous sheet with the continuous direction of the continuous sheet as the conveying direction;
A processing step in which the processing device of the processing unit at the processing position in the transport direction performs processing intermittently in the transport direction on each portion that becomes the absorbent article in the continuous sheet;
A position adjustment step performed by a position adjustment device at an adjustment processing position in the conveyance direction, the position adjustment step of adjusting the position of an end portion in the CD direction intersecting the conveyance direction in the continuous sheet in the CD direction;
A detection step of detecting a trace of the processing remaining on the continuous sheet and outputting a detection result at a detection processing position downstream of the processing position and the adjustment processing position in the transport direction, and
In the supplying step, the tension value in the transport direction of the continuous sheet when the sheet is fed to the processing unit based on the detection result is adjusted. .
Also,
An apparatus for producing a sheet-like member according to an absorbent article based on a continuous sheet,
A supply processing unit that feeds and supplies the continuous sheet to a processing unit by conveying the continuous sheet with the continuous direction of the continuous sheet as a conveying direction;
A processing apparatus for intermittently processing in the transport direction for each part to be the absorbent article in the continuous sheet at a processing position in the transport direction in the processing unit;
A position adjusting device that adjusts the position of the end of the continuous sheet in the CD direction that intersects the transport direction in the transport direction at the adjustment processing position in the transport direction;
A detection device that detects a trace of the processing remaining on the continuous sheet and outputs a detection result at a detection processing position downstream in the transport direction from the processing processing position and the adjustment processing position;
The supply processing unit is an apparatus for manufacturing a sheet-like member according to an absorbent article, wherein the supply processing unit adjusts a tension value in the transport direction of the continuous sheet when being fed to the processing unit based on the detection result. is there.
Other features of the present invention will become apparent from the description of the present specification and the accompanying drawings.

  ADVANTAGE OF THE INVENTION According to this invention, the deviation | shift amount of the position of the process of a continuous sheet from the appropriate position of a conveyance direction which can arise by adjusting the position of the edge part of the CD direction in a continuous sheet to a CD direction can be made small.

FIG. 1A is a schematic plan view illustrating an example of a disposable diaper 1, and FIG. 1B is a cross-sectional view taken along line BB in FIG. 1A. It is a schematic plan view which shows the production | generation process of the diaper 1. It is a schematic side view of the production line LM of the diaper 1 which concerns on 1st Embodiment. It is a schematic side view of the top sheet processing system L3a. FIG. 5A is an enlarged schematic plan view showing the CD direction position adjusting device 35, and FIG. 5B is a view taken along the line BB in FIG. 5A. It is a schematic side view of the top sheet processing system L3a when the imaging position P36 is set downstream in the transport direction from the merging position Pj. It is a schematic side view of the backsheet processing system L4a. FIG. 8A is an enlarged schematic plan view showing the CD direction position adjusting device 49 provided in the backsheet processing system L4a, and FIG. 8B is a view taken along the line BB in FIG. 8A. FIG. 9A is a schematic plan view of the topsheet processing system L3a of the first embodiment, and FIG. 9B is a schematic plan view of a topsheet processing system L3a of a modification. It is a schematic plan view when two tension adjusting devices 33A and 33B are provided. It is the schematic side view which connected the CC arrow view in FIG. 10A, and the DD arrow view in FIG. 10A, and showed on one plane. It is a schematic side view of the top sheet processing line L3aK 'in the top sheet processing system L3a' of the second embodiment. It is a schematic side view of the top sheet processing line L3aK "in the top sheet processing system L3a" of the third embodiment. It is a schematic side view of tension adjusting device 133 other than a dancer type. 14A is a schematic side view of another example of the CD direction position adjusting device 135, and FIG. 14B is a view taken along the line BB in FIG. 14A.

At least the following matters will become apparent from the description of the present specification and the accompanying drawings.
A method for producing a sheet-like member according to an absorbent article based on a continuous sheet,
Supplying the continuous sheet by feeding the continuous sheet to the processing unit by conveying the continuous sheet with the continuous direction of the continuous sheet as the conveying direction;
A processing step in which the processing device of the processing unit at the processing position in the transport direction performs processing intermittently in the transport direction on each portion that becomes the absorbent article in the continuous sheet;
A position adjustment step performed by a position adjustment device at an adjustment processing position in the conveyance direction, the position adjustment step of adjusting the position of an end portion in the CD direction intersecting the conveyance direction in the continuous sheet in the CD direction;
A detection step of detecting a trace of the processing remaining on the continuous sheet and outputting a detection result at a detection processing position downstream of the processing position and the adjustment processing position in the transport direction, and
In the supplying step, the tension value in the transport direction of the continuous sheet when the sheet is fed to the processing unit based on the detection result is adjusted. .

  According to the manufacturing method of the sheet-like member related to such an absorbent article, the trace of processing remaining on the continuous sheet at the detection processing position located downstream in the conveyance direction from the processing processing position and the adjustment processing position. Based on the detection result, the tension value of the continuous sheet at the time of feeding to the processing unit is adjusted. Therefore, the processing position of the continuous sheet can be brought close to the appropriate position through shortening or extending the conveying direction of the continuous sheet by adjusting the tension value. Thus, it is possible to reduce the amount of deviation of the processing position from the proper position in the transport direction, which can occur by adjusting the position of the end portion in the CD direction on the continuous sheet in the CD direction.

A method for producing a sheet-like member according to such an absorbent article,
When the detection result indicates that the position of the trace of processing is located downstream of the target position on the continuous sheet, the tension value is increased.
When the detection result indicates that the position of the trace of processing is located upstream of the target position in the transport direction, it is desirable to reduce the tension value.

  According to the method for manufacturing a sheet-like member according to such an absorbent article, when the detection result indicates that the position of the trace of processing is located downstream from the target position, the tension value Further, when the detection result indicates that the position of the processing trace is located upstream of the target position, the tension value is decreased. Therefore, the processing position of the continuous sheet can be brought closer to the proper position through shortening or extending the conveying direction of the continuous sheet based on the adjustment of the tension value. As a result, the amount of deviation of the processing position from the appropriate position in the transport direction can be reliably reduced.

A method for producing a sheet-like member according to such an absorbent article,
The adjustment processing position is preferably located downstream of the processing position in the transport direction.

  According to the method for manufacturing a sheet-like member according to such an absorbent article, the adjustment processing position is located downstream in the transport direction from the processing processing position, so that the positional relationship is the reverse of this, The continuous sheet whose position has been adjusted in the CD direction can be sent to the next process in a shorter time. Therefore, in the next step, the processing in charge can be performed in a state where the position of the end portion has not changed much from the state after adjusting the position of the end portion in the CD direction in the CD direction. It is possible to improve the positional accuracy in the CD direction of the processing.

A method for producing a sheet-like member according to such an absorbent article,
When the continuous sheet is a first continuous sheet,
A second continuous sheet different from the first continuous sheet is transported along the continuous direction with the continuous direction being along the transport direction, and is joined downstream of the adjustment processing position in the transport direction. In the position, the joining device superimposes and joins the second continuous sheet to the first continuous sheet,
It is desirable that the detection processing position is located downstream of the joining position in the transport direction.

According to the manufacturing method of the sheet-like member related to such an absorbent article, the adjustment processing position can be arranged close to the merge position, and thereby the position of the end portion in the CD direction of the first continuous sheet can be set to CD. The sheet can be joined to the second continuous sheet in a state where the position of the end portion has not changed much from the state after adjustment in the direction. Details are as follows.
First, in order to join the first continuous sheet and the second continuous sheet in an appropriate relative positional relationship with respect to the transport direction, the detection processing position is theoretically set to the merging position. That is, if the trace of processing is detected at the merging position, the processing position of the first continuous sheet can be easily adjusted to an appropriate position with respect to the second continuous sheet. However, the joining device is located at the joining position. For this reason, it is difficult to set the detection processing position at the merging position, and as a result, the detection processing position must be set upstream or downstream in the transport direction from the merging position. If the former is set upstream of the former, the detection processing position is set between the adjustment processing position and the merge position. However, in that case, the adjustment processing position has to be set at a position further away from the merging position in order to secure a space for arranging the detection sensor to be arranged at the detection processing position. . Then, it becomes difficult to maintain the position in the CD direction of the end adjusted at the adjustment processing position to the merge position, and as a result, the position of the end greatly changes from the state after adjusting the position of the end in the CD direction. In this state, the sheet can be joined to the second continuous sheet. That is, the position accuracy of the end portion in the CD direction at the joining position may be deteriorated. However, with respect to this point, if the detection processing position is set downstream in the transport direction from the merging position as described above, the adjustment processing is performed without causing a problem of interference with the space for arranging the detection sensor. The position can be arranged close to the merge position. As a result, the first continuous sheet can be placed in the state in which the position of the end portion has not changed much from the state after adjusting the position of the end portion in the CD direction. It becomes possible to join two continuous sheets.

A method for producing a sheet-like member according to such an absorbent article,
When the continuous sheet is a first continuous sheet,
A second continuous sheet different from the first continuous sheet is transported along the continuous direction with the continuous direction being along the transport direction, and is joined downstream of the adjustment processing position in the transport direction. In the position, the joining device superimposes and joins the second continuous sheet to the first continuous sheet,
The rigidity value in the conveyance direction of the second continuous sheet is larger than the rigidity value in the conveyance direction of the first continuous sheet,
A second supply step of feeding and supplying the second continuous sheet to the second processing unit by transporting the second continuous sheet with the continuous direction of the second continuous sheet as the transport direction;
In the second processing position upstream of the merging position in the transport direction, the second processing device of the second processing section is in the transport direction with respect to each portion that becomes the absorbent article in the second continuous sheet. A second machining step of intermittently performing the second machining;
In the second position adjustment step performed by the second position adjustment device at the second adjustment processing position in the transport direction, the end in the CD direction intersecting the transport direction in the second continuous sheet is the target in the CD direction. The second position adjustment step of adjusting the position of the end portion to be a position,
In the second supply step, it is preferable to maintain a constant tension value in the transport direction of the second continuous sheet when the second continuous sheet is fed into the second processing unit.

According to the method for manufacturing a sheet-like member according to such an absorbent article, in the second supply step, the tension value in the conveyance direction of the second continuous sheet when being fed to the second processing unit is maintained constant. Therefore, in the said 2nd supply process, it is not necessary to use the apparatus for changing the target value of the tension | tensile_strength value of a 2nd continuous sheet, Thereby, reduction of installation cost can be aimed at.
Further, it is possible to effectively prevent a variation in the extension state of the second continuous sheet, which may occur by changing the target value of the tension value unnecessarily, from adversely affecting the processing position in the first continuous sheet via the merge position. Can do.
Incidentally, as described above, the reason why the second continuous sheet does not cause a big problem even if the tension value in the conveyance direction is kept constant is as follows. First, the rigidity value in the conveyance direction of the second continuous sheet is larger than the rigidity value in the conveyance direction of the first continuous sheet. For this reason, the rigidity value of the second continuous sheet can be set high, so that even if the position of the second continuous sheet in the CD direction is adjusted with respect to the end portion of the second continuous sheet, the rigidity of the second continuous sheet is increased. Can be shortened or reduced. As a result, even if the tension value of the second continuous sheet at the time of feeding to the second processing section in the second supply process is kept constant, the position of the second processing of the second continuous sheet is substantially at the proper position. To come.

A method for producing a sheet-like member according to such an absorbent article,
The processing, the processing position, the processing step, the processing device, the adjustment processing position, the position adjustment step, and the position adjustment device are respectively referred to as the first processing, the first processing processing position, and the first processing step. In the case of the first processing device, the first adjustment processing position, the first position adjustment step, and the first position adjustment device,
Each of the third processing devices serving as the absorbent article in the continuous sheet at a third processing position downstream of the first processing position and the first adjustment processing position in the transport direction in the processing section. A third machining step for intermittently performing a third machining on the part in the transport direction;
A third position adjustment step performed by a third position adjustment device at a third adjustment processing position downstream of the first processing position and the first adjustment processing position in the transport direction, the CD direction of the continuous sheet The third position adjusting step of adjusting the position of the end of the head in the CD direction;
The trace of the third processing remaining on the continuous sheet is detected at a third detection processing position downstream in the transport direction from the third processing processing position and the third adjustment processing position, and a third detection result is obtained. A third detection step for outputting,
It is desirable that the timing at which the third processing apparatus performs the third processing is shifted based on the third detection result.

  According to the manufacturing method of the sheet-like member related to such an absorbent article, with respect to the first processing step located upstream, the shift amount of the first processing position in the transport direction is reduced by adjusting the tension value described above. However, in the third processing step located on the downstream side, the shift amount of the position of the third processing in the transport direction is reduced by shifting the timing at which the third processing apparatus performs the third processing. Therefore, it is possible to prevent the influence of reducing the amount of deviation of the position of the third processing from reaching the first processing step located upstream from the third processing step. That is, it is possible to effectively prevent a situation in which the position of the first machining in the first machining process located on the upstream side is greatly deviated from the appropriate position due to the reduction in the amount of deviation of the position of the third machining. Can do.

A method for producing a sheet-like member according to such an absorbent article,
In the supplying step, a feeding device for feeding the continuous sheet from the material coil is used.
In the feeding device, the continuous sheet is fed and conveyed with the X direction as the feeding direction in plan view, and the processing unit uses the Y direction that intersects the X direction in plan view as the conveying direction. Being transported,
In the transport direction, the continuous sheet is wound around a rod-shaped transport direction changing member disposed at a position between the feeding device and the processing unit, so that the transport direction of the continuous sheet is the X direction. To the Y direction,
It is desirable that a tension adjusting device for adjusting the tension value is disposed at a position between the transport direction changing member and the processing unit in the transport direction.

According to the manufacturing method of the sheet-like member related to such an absorbent article, the tension adjusting device is disposed in proximity to the processing unit. Therefore, the continuous sheet with the adjusted tension value can be reliably sent to the processing unit.
Further, the feeding device feeds the X direction as the feeding direction. Accordingly, the facility space for the supply process can be shortened in the Y direction as a whole. As a result, although the conveying direction of the processing unit is along the Y direction, the overall length in the Y direction of the manufacturing apparatus that performs the manufacturing method can be shortened, thereby reducing the size of the manufacturing apparatus. Can be achieved.

A method for producing a sheet-like member according to such an absorbent article,
When the tension adjusting device is a downstream tension adjusting device,
For controlling the feeding operation of the feeding device between the feeding device and the conveyance direction changing member in the feeding direction so that a tension value of the continuous sheet fed from the feeding device becomes a predetermined value. It is desirable to arrange an upstream tension adjusting device.

  According to the manufacturing method of the sheet-like member related to such an absorbent article, the continuous sheet is the above-described conveyance direction changing member in a state where the tension value is adjusted to the predetermined value by the upstream tension adjusting device. Pass through the position. Therefore, even when the optimum tension value when passing through the conveyance direction changing member and the optimum tension value when feeding into the processing section are different, it is possible to cope with no major problem.

A method for producing a sheet-like member according to such an absorbent article,
In the supplying step, a feeding device that feeds the continuous sheet from the material coil is used, and a tension adjusting device adjusts the tension value of the continuous sheet fed from the material coil. Supply to the processing section,
The tension adjusting device has a dancer roll guided so as to be movable in a predetermined direction,
The continuous sheet is looped around the dancer roll to form a loop of the continuous sheet, and the dancer roll has a size corresponding to a target value of the tension value of the continuous sheet by an actuator. Is applied in a direction in which the loop becomes larger in the predetermined direction,
It is desirable to change the target value based on the detection result.

  According to the method for manufacturing a sheet-like member according to such an absorbent article, it is possible to reliably adjust the tension value in the conveyance direction of the continuous sheet when the sheet is fed into the processing unit based on the detection result.

Also,
An apparatus for producing a sheet-like member according to an absorbent article based on a continuous sheet,
A supply processing unit that feeds and supplies the continuous sheet to a processing unit by conveying the continuous sheet with the continuous direction of the continuous sheet as a conveying direction;
A processing apparatus for intermittently processing in the transport direction for each part to be the absorbent article in the continuous sheet at a processing position in the transport direction in the processing unit;
A position adjusting device that adjusts the position of the end of the continuous sheet in the CD direction that intersects the transport direction in the transport direction at the adjustment processing position in the transport direction;
A detection device that detects a trace of the processing remaining on the continuous sheet and outputs a detection result at a detection processing position downstream in the transport direction from the processing processing position and the adjustment processing position;
The supply processing unit is an apparatus for manufacturing a sheet-like member according to an absorbent article, wherein the supply processing unit adjusts a tension value in the transport direction of the continuous sheet when being fed to the processing unit based on the detection result. is there.

  According to the manufacturing apparatus of the sheet-like member which concerns on such an absorbent article, there can exist an effect similar to the case of the manufacturing method mentioned above.

=== First Embodiment ===
The manufacturing method and the manufacturing apparatus of the sheet-like member according to the absorbent article according to the first embodiment are used in the manufacturing line LM of the disposable diaper 1. That is, the manufacturing method and manufacturing apparatus of the first embodiment are used for manufacturing a disposable diaper 1 as an example of an absorbent article.

FIG. 1A is a schematic plan view showing an example of a disposable diaper 1 developed. 1B is a cross-sectional view taken along the line BB in FIG.
This diaper 1 is a so-called tape-type diaper 1. That is, the diaper is a type that is worn on the wearer by using the fastening tape member 6 and the target tape 7. In the unfolded state where the fastening tape member 6 and the target tape 7 are disengaged to open the diaper 1 as shown in FIG. Direction.

  The diaper 1 is disposed on an absorbent body 2 that absorbs excrement such as urine, a liquid-permeable top sheet 3 disposed on the skin side of the absorbent body 2, and a non-skin side of the absorbent body 2. And a liquid-impermeable leak-proof sheet 5 disposed between the absorber 2 and the back sheet 4 to prevent leakage of excrement to the non-skin side.

  In the unfolded state of FIG. 1A, the top sheet 3 and the back sheet 4 have a substantially hourglass shape in plan view having the same shape. Therefore, in this substantially hourglass shape, the portion confined to the inner side in the width direction functions as the leg opening 1LH, 1LH when worn.

  In addition, when worn, the one side portion 1f and the other side portion 1b in the longitudinal direction of the diaper 1 in the unfolded state are the ventral side portion 1f that covers the wearer's belly side and the back side that covers the wearer's back side, respectively. It functions as part 1b. Therefore, for the purpose of enabling the shape of the diaper 1 to be maintained in such a worn state, a pair of fastening tape members 6 and 6 having a male material 6m of a hook-and-loop fastener are provided on both sides in the width direction on the back side portion 1b. In addition, a target tape 7 made of a female or non-woven surface fastener is provided on the non-skin side surface of the abdomen side portion 1f to lock the male material 6m when worn. .

  In this example, the absorbent body 2 is a liquid such as an absorbent core obtained by forming liquid absorbent fibers such as pulp fibers into a substantially rectangular shape in plan view, and tissue paper or nonwoven fabric covering the outer peripheral surface of the absorbent core. Although it has a permeable covering sheet, it is not limited to this.

  Moreover, as a raw material example of the top sheet 3 and the back sheet 4, the nonwoven fabric containing thermoplastic resin fibers, such as polyethylene and a polypropylene, can be mentioned, About the leak-proof sheet 5, a thermoplastic resin film, such as polyethylene, is illustrated. it can. However, it is not limited to this. For example, the material for the top sheet 3 and the back sheet 4 can be used as long as the material has appropriate stretchability in the longitudinal direction.

FIG. 2 is a schematic plan view showing a production process of the diaper 1.
The top sheet 3 and the back sheet 4 are carried into the production line LM in the form of material coils 3C and 4C formed by winding the continuous sheets 3a and 4a as materials in a coil shape.

  First, the continuous sheet 3a of the top sheet fed out from the material coil 3C is conveyed with the continuous direction as the conveying direction. The pair of fastening tape members 6 and 6 are arranged in the width direction at a predetermined position P6 in the conveying direction. The sheet is intermittently bonded to the non-skin side surface of the continuous sheet 3a at the product pitch P1 in the conveying direction. Further, after this joining, the end portions 3ae and 3ae in the width direction of the continuous sheet 3a are adjusted so as to be located at the target positions in the CD direction at a predetermined position P35 in the transport direction. In the adjusted state, the continuous sheet 3a is conveyed to a merge position Pj where the continuous sheet 4a merges with the back sheet continuous sheet 4a.

  On the other hand, the continuous sheet 4a of the back sheet is also fed out from another material coil 4C and conveyed with the continuous direction as the conveying direction. And during this conveyance, the sheet-like leakproof sheet 5 is intermittently joined to the skin side surface of the continuous sheet 4a at the product pitch P1 in the conveyance direction at a predetermined position P5 in the conveyance direction. Further, at a predetermined position P7 downstream thereof, a single-cut target tape 7 is intermittently joined to the non-skin side surface of the continuous sheet 4a at the product pitch P1 in the transport direction. Furthermore, after this joining, at the predetermined position P49 in the transport direction, the respective end portions 4ae and 4ae in the width direction of the continuous sheet 4a are adjusted so as to be located at the target positions in the CD direction, respectively. In the adjusted state, the continuous sheet 4a is also transported to the merging position Pj.

  In the merge position Pj, the absorber 2 also merges. That is, a plurality of absorbers 2, 2,... Are conveyed side by side at the product pitch P1 in the conveyance direction toward the merge position Pj. At the joining position Pj, the continuous sheet 3a of the top sheet joins from the skin side of the absorbent body 2, and the continuous sheet 4a of the back sheet joins from the non-skin side of the absorbent body 2, thereby The base material 1a of the diaper is produced by a person being joined and integrated with an adhesive or the like. That is, the base material 1a of the diaper is in a state in which the portions 1p that finally become the diaper 1 are continuously arranged in the transport direction at the product pitch P1.

  Then, the base material 1a of the diaper is continuously transported in the transport direction, but at a predetermined position P112 in the transport direction, each end in the width direction of the base material 1a is cut out at the product pitch P1 in the transport direction. Thereby, each part 1p used as a diaper is each made into the above-mentioned planar view substantially hourglass shape. Further, at the downstream position P116, the base material 1a is cut at the product pitch P1 in the transport direction. And thereby, the most downstream part 1p of each part 1p used as a diaper in the base material 1a is cut off, and as a result, the diaper 1 is produced | generated.

FIG. 3 is a schematic side view of the production line LM for the diaper 1.
The production line LM includes a topsheet processing system L3a that processes the continuous sheet 3a of the topsheet, a backsheet processing system L4a that processes the continuous sheet 4a of the backsheet, an absorber generation system L2 that generates the absorber 2, A base material processing system L1a for processing the base material 1a of the diaper. The top sheet processing system L3a, the back sheet processing system L4a, and the absorber generation system L2 merge at the above-described merging position Pj, and downstream of the merging position Pj, the base material processing system L1a. Are connected.

  In the base material processing system L1a, the top sheet continuous sheet 3a and the back sheet continuous sheet 4a may be substantially processed by processing the base material 1a of the diaper. Therefore, it can be said that the top sheet processing system L3a and the back sheet processing system L4a do not end at the merging position Pj, but continue to exist in the base material processing system L1a. Therefore, in a narrow sense, the top sheet processing system L3a and the back sheet processing system L4a end at the joining position Pj, but in a broad sense, the top sheet processing system L3a and the back sheet processing system L4a do not end at the joining position Pj. It exists to extend.

  In addition, each system L3a, L4a, L2, L1a is provided with an appropriate transport device such as a belt conveyor CV or a transport roller. Therefore, unless otherwise specified, it is assumed that conveyance objects such as the continuous sheets 3a and 4a and the base material 1a are conveyed in the conveyance direction by these conveyance devices. The transport operation of the transport device is performed based on a synchronization signal described later. That is, the transport device is position-controlled or speed-controlled so that the continuous sheets 3a, 4a, the base material 1a, and the like as transport objects are transported in the transport direction by the product pitch P1 for each unit signal of the synchronization signal. . Examples of the belt conveyor CV include a normal belt conveyor having an endless belt that circulates as a conveying surface, a suction belt conveyor having an adsorption function on the outer peripheral surface of the endless belt, and the like.

  Further, in the production line LM, a CD direction (a direction penetrating the paper surface in FIG. 3) is set as the width direction of the line LM. In this example, the CD direction is in the horizontal direction. Therefore, hereinafter, the CD direction is also referred to as “left-right direction”. However, the CD direction is not limited to the horizontal direction. Further, in this example, a vertical vertical direction and a horizontal front-back direction are set as two directions orthogonal to the CD direction, whereby the conveying direction of each continuous sheet 3a, 4a of the top sheet and the back sheet is Each of them faces the direction defined by both the up-down direction and the front-rear direction according to the position in the transport direction. The width directions of the continuous sheets 3a and 4a of the top sheet and the back sheet are parallel to the CD direction, respectively. When the direction perpendicular to the CD direction and the conveyance direction is defined as the Z direction, the Z direction is parallel to the thickness direction of the continuous sheets 3a and 4a of the top sheet and the back sheet, respectively.

<<<< Top Sheet Processing System L3a >>>>
FIG. 4 is a schematic side view of the top sheet processing system L3a.
The top sheet processing system L3a has a top sheet supply line L3aS (corresponding to the supply processing unit) and a top sheet processing line L3aK (corresponding to the processing unit) arranged downstream in the conveying direction of the supply line L3aS. . In the top sheet supply line L3aS, the continuous sheet 3a (corresponding to the continuous sheet and the first continuous sheet) is fed out and supplied from the material coil 3C (corresponding to a supply process). In the top sheet processing line L3aK, predetermined processing (corresponding to processing and first processing) is performed on the continuous sheet 3a of the top sheet supplied from the top sheet supply line L3aS and transported in the transport direction (processing). Process and the first processing step).

(1) Top sheet supply line L3aS
The top sheet supply line L3aS targets the feeding device 31 for feeding the continuous sheet 3a of the top sheet from the material coil 3C, and the tension value (N) in the conveyance direction of the continuous sheet 3a fed and conveyed by the device 31. A tension adjusting device 33 for adjusting the value.

  As shown in FIG. 4, the feeding device 31 includes a rotation shaft portion 31a along the CD direction, and a servo motor (not shown) as a drive source that drives and rotates the rotation shaft portion 31a. Then, the rotary shaft portion 31a is driven and rotated by a servo motor in a state where the rotary shaft portion 31a is inserted into the through hole in the central portion of the material coil 3C and the material coil 3C is supported by the rotary shaft portion 31a. Thus, the continuous sheet 3a of the top sheet is fed out from the material coil 3C.

  As described above, the tension adjusting device 33 adjusts the tension value (N) of the continuous sheet 3a of the top sheet to a predetermined target value, and here, a dancer type is used. That is, the apparatus 33 is arranged at a fixed position and is rotatable between a pair of fixed position rolls 33RSu, 33RSd and a pair of fixed position rolls 33RSu, 33RSd. The dancer roll 33RD, which is guided to be movable in a predetermined direction (vertical direction in FIG. 4) and is rotatable about the rotation axis along the CD direction, and the position of the dancer roll 33RD in the predetermined direction are detected and position information is obtained. It has a measuring instrument (not shown) such as an encoder for outputting, and a control unit (not shown) such as a sequencer or a computer to which the position information is input. Further, a load FD having a magnitude corresponding to the target value of the tension value of the continuous sheet 3a is applied to the dancer roll 33RD by a suitable actuator (not shown) such as an air cylinder. Is given in the direction. Furthermore, the continuous sheet 3a of the top sheet is wound around the pair of fixed position rolls 33RSu and 33RSd and the dancer roll 33RD, thereby forming a loop of the continuous sheet 3a, and the control unit includes: Based on the input position information, the feeding speed value (mpm) of the rotating shaft portion 31a is changed so that the size of the loop becomes constant. For example, if the tension value is greater than the target value, the loop will be smaller. Therefore, if the tension value is smaller than the target value, correct the feed speed value command value so that the loop becomes larger. Since the loop becomes larger, the feeding speed value command value is corrected so as to decrease so that the loop becomes smaller. Such correction is repeatedly performed at a predetermined control cycle. Thereby, the tension value of the continuous sheet 3a at the position of the dancer roll 33RD is adjusted so as to be the above target value. Incidentally, when it is desired to change the target value, it can be done by controlling the actuator and changing the magnitude of the load FD.

(2) Top sheet processing line L3aK
As shown in FIG. 4, in the top sheet processing line L3aK, first, the fastening tape member joining device 34 (corresponding to the processing device and the first processing device) is changed to the continuous sheet 3a of the top sheet at a predetermined position P6 in the transport direction. As processing to be performed, a pair of fastening tape members 6 and 6 are joined to the continuous sheet 3a in a state of being arranged at a product pitch P1 in the transport direction in the CD direction. After the joining, the CD direction position adjusting device 35 sets the positions of the end portions 3ae and 3ae in the CD direction of the continuous sheet 3a at the predetermined position P35 downstream in the transport direction from the predetermined position P6. (Corresponding to the position adjustment step and the first position adjustment step), thereby, the sheet 3a is moved to the joining position Pj in an appropriate state in which the end portions 3ae and 3ae are respectively positioned at the target positions in the CD direction. Send it out. Hereinafter, each of the devices 34 and 35 will be described.

(A) Fastening tape member joining apparatus 34
The fastening tape member joining device 34 has a rotary drum 34D that can rotate around a rotation axis along the CD direction while driving the outer peripheral surface 34Ds to face the conveyance path of the continuous sheet 3a of the top sheet, and a drive that drives and rotates the rotary drum 34D. And a servo motor (not shown) as a source. An adsorption force is generated on the outer peripheral surface 34Ds of the rotating drum 34D by intake air or the like. As a result, a pair of fastening tape members 6 and 6 are formed in the rotational direction Dc34 in the CD direction on the outer peripheral surface 34Ds. It is held in a state of being lined up at the product pitch P1. Therefore, each of the pair of fastening tape members 6 and 6 is opposed to the continuous sheet 3a by the rotation of the rotating drum 34D (the same position as the predetermined position P6 described above, the “processing position” and the “first processing position”). The pair of fastening tape members 6 and 6 are joined to the continuous sheet 3a with an adhesive when the sheet is passed to the processing position (corresponding to “processing position”) and passes through the same position P3a. A pair of fastening tape members 6 and 6 are handed over to the continuous sheet 3a.

  The rotating operation of the rotating drum 34D is basically performed based on the synchronization signal. The synchronization signal is a signal obtained by repeatedly outputting unit signals, and each unit signal is a rotation angle signal composed of rotation angle values of 0 ° to 360 °. In addition, each of the processing systems L3a, L4a, L2, and L1a, which will be described later, including the joining device 34, is connected to each portion 1p that becomes the diaper 1 in the continuous sheets 3a and 4a. It has patterned unit processing operations that should be repeated for it. The unit processing operation and the unit signal are associated on a one-to-one basis by position control or speed control. For example, in this joining device 34, a rotation operation for the product pitch P1 is associated as a unit processing operation. That is, the synchronization signal is transmitted to the servo motor of the rotary drum 34D, and the position of the synchronization signal is controlled so as to rotate by a rotation angle corresponding to the product pitch P1 for each unit signal of the synchronization signal. More specifically, the position of the servomotor of the rotary drum 34D is controlled so that the position where the pair of fastening tape members 6 and 6 are sucked and held in the CD direction on the outer peripheral surface 34Ds moves to the command position in the rotation direction Dc34 indicated by the synchronization signal. Has been. Thus, basically, each time a unit signal of the synchronization signal is output, the pair of fastening tape members 6 and 6 disposed on the outer peripheral surface 34Ds with the product pitch P1 is conveyed in the rotational direction Dc45 by the product pitch P1. Is done.

  The generation of the synchronization signal is performed by an appropriate control unit (not shown) such as a sequencer or a computer. That is, the control unit includes a processor and a memory, and a program for generating a synchronization signal is stored in advance in the memory. Then, the processor reads out the program from the memory and executes it, thereby repeatedly generating a unit signal of the synchronization signal. However, it is not limited to this. For example, the generation of the synchronization signal may be performed by an electric circuit, or more specifically, the synchronization signal may be generated by detecting a unit processing operation performed by another basic device with an appropriate detector. good. For example, a rotary encoder (not shown) for detecting the rotational operation is provided on a cutter roll 116u (see FIG. 3) of an end cut device 116 that cuts and generates the diaper 1 from the base material 1a of the diaper. The unit signal may be output every time one diaper 1 is cut and generated from the base material 1a in conjunction with the rotation operation of the cutter roll 116u.

(B) CD direction position adjusting device 35
As described above, the CD direction position adjusting device 35 (corresponding to the position adjusting device and the first position adjusting device) is such that the end portions 3ae and 3ae in the CD direction of the continuous sheet 3a of the top sheet are respectively in the CD direction. The positions of the end portions 3ae and 3ae are adjusted independently of each other so as to be positioned at the target position. Based on this adjustment, the continuous sheet 3a of the top sheet is brought into an appropriate relative positional relationship with respect to the CD direction with respect to the continuous sheet 4a and the absorber 2 of the back sheet that merges at the merge position Pj. And it is joined to the absorber 2.

FIG. 5A is a schematic plan view showing the CD direction position adjusting device 35 in an enlarged manner, and FIG. 5B is a BB arrow view in FIG. 5A.
As shown in FIG. 5A, the CD direction position adjusting device 35 includes position adjusting mechanisms 35A and 35A for adjusting the positions of the end portions 3ae and 3ae in the CD direction on the continuous sheet 3a of the top sheet. , 3ae corresponding to the left and right sides in the CD direction. The left and right position adjusting mechanisms 35A, 35A are mirror images of each other with respect to the center line CL in the CD direction, and their basic structures are substantially the same. Therefore, only one position adjustment mechanism 35A will be described below.

  As shown in FIGS. 5A and 5B, the position adjustment mechanism 35A is, for example, arranged with the outer peripheral surfaces facing each other so as to sandwich the end portion 3ae in the CD direction of the continuous sheet 3a from both sides in the thickness direction, and is driven to rotate. A pair of upper and lower nip rollers 35Ru and 35Rd, an actuator 35d for driving the pair of upper and lower nip rollers 35Ru and 35Rd around the support axis C35A in a plane having both the transport direction and the CD direction, and the nip roller 35Ru , 35Rd, a sensor 35s such as a phototube that measures the position of the end 3ae in the CD direction and outputs a measurement signal, and controls the actuator 35d based on the measurement signal from the sensor 35s. A controller (not shown).

  When the measurement signal indicates that the end 3ae is located on the left side in the CD direction with respect to the target position, the controller determines the deviation between the actual position indicated by the measurement signal and the target position. The actuator 35d is controlled by a control amount obtained by multiplying a predetermined gain, whereby the feed direction Dr35 of the pair of upper and lower nip rollers 35Ru and 35Rd is set to the amount corresponding to the control amount from the current feed direction Dr35. Turn to the right in the direction. On the other hand, when the measurement signal indicates that the end 3ae is located on the right side in the CD direction with respect to the target position, the controller similarly determines the actual position and the target position indicated by the measurement signal. The actuator 35d is controlled by a control amount obtained by multiplying the deviation by a predetermined gain, whereby the feed direction Dr35 of the pair of upper and lower nip rollers 35Ru, 35Rd corresponds to the control amount more than the current feed direction Dr35. Turn to the left side of the CD direction. Then, by repeating this at a predetermined control cycle, the end 3ae of the continuous sheet 3a is positioned at the target position in the CD direction.

  However, during such position adjustment, a force in the CD direction is applied to the continuous sheet 3a of the top sheet from each of the position adjustment mechanisms 35A, 35A of the CD direction position adjusting device 35, whereby the continuous sheet 3a is Further, it may be shortened or extended in the transport direction. For example, when the positions of the end portions 3ae and 3ae of the sheet 3a are adjusted so that the width dimension (size in the CD direction) of the continuous sheet 3a is enlarged, the end portions 3ae and 3ae are respectively provided with CDs. In this case, the sheet 3a can be shortened in the transport direction by an amount corresponding to the amount of enlargement of the width dimension. Then, due to the shortening (or extension) of the conveying direction, the pitch Pa in which the joining portions of the fastening tape members 6 are arranged in the conveying direction in the continuous sheet 3a is shorter than the above-described product pitch P1 (or the appropriate pitch) (or Long pitch) (see FIG. 5A). Then, when the sheet 3a is sent to the joining position Pj as it is, the position of the joining portion of the fastening tape member 6 on the sheet 3a is deviated from an appropriate position in the transport direction (hereinafter also referred to as a target position). As it is, the sheet 3a is joined to the continuous sheet 4a of the back sheet and the absorbent body 2 at the joining position Pj, which may lead to deterioration of the dimensional accuracy of the diaper 1.

  Therefore, in the first embodiment, a joining portion (corresponding to a processing trace) of the fastening tape member 6 in the continuous sheet 3a is detected (corresponding to a detection process), and the top sheet supply line L3aS is detected based on the detection result. The target value of the tension value (N) related to the tension adjusting device 33 is changed. That is, the tension value (N) when feeding into the top sheet processing line L3aK is adjusted. And thereby, the deviation | shift amount of the position of the said junction part of the continuous sheet 3a from the target position is made small.

  For example, when the detection result indicates that the position of the joint portion of the fastening tape member 6 is located downstream of the target position on the continuous sheet 3a, the target value of the tension value is set to Increase the tension value (N) when the continuous sheet 3a of the top sheet is fed into the top sheet processing line L3aK. Then, thereafter, the joint portion in the continuous sheet 3a moves relatively upstream in the transport direction, and as a result, the displacement amount of the joint portion from the target position is reduced. On the other hand, when the detection result indicates that the position of the joint portion is located upstream of the target position in the transport direction, the target value of the tension value is decreased and the tension value ( N) is decreased. Then, the joint portion in the continuous sheet 3a moves relatively downstream in the transport direction, and as a result, the shift amount in the transport direction of the position of the joint portion from the target position is reduced.

  The reduction processing of the displacement amount of the joint portion from the target position is realized by using the detection device 36 including the imaging device 36C such as a CCD camera and the control unit 36CN such as a computer shown in FIG. This is done as follows.

  First, in this example, as shown in FIG. 4, the imaging device 36 </ b> C has an arrangement position P <b> 35 of the nip rollers 35 </ b> Ru and 35 </ b> Rd of the CD direction position adjustment device 35 (the same position as the predetermined position P <b> 35 described above, Position ”and“ first adjustment processing position ”) and the position P36 in the transport direction between the above-described merge position Pj (hereinafter also referred to as an imaging position P36 and corresponding to“ detection processing position ”). Imaging is performed to generate image data of the continuous sheet 3a. Here, the imaging device 36C receives the above-described synchronization signal. Therefore, the imaging operation is performed every time the rotation angle value of the synchronization signal matches the specified rotation angle value recorded in advance in the memory of the imaging device 36C. The imaging operation is performed with a field of view (angle of view) such that at least the pair of fastening tape members 6 and 6 enters the captured image in the CD direction. That is, in this example, both of the pair of fastening tape members 6 and 6 are set as the imaging targets in the CD direction. However, it is not limited to this. That is, only one of the pair of fastening tape members 6 and 6 may be an imaging target.

  If it does so, control part 36CN will acquire the information on the amount of shift of the position of the joined part from the target position on the continuous sheet 3a of the top sheet by performing data analysis on the image data transmitted from imaging device 36C. For example, the position of the joint on the image data is acquired by binarization processing or the like, and the amount of deviation between this position and the target position on the image data recorded in advance in the memory of the control unit 36CN is calculated, This is information on the amount of positional deviation. Incidentally, the target position is a virtual position in the conveyance direction set on the continuous sheet 3a based on the synchronization signal, which is a so-called design position. In other words, the target position is a position at which it is generally guaranteed that the fastening tape member 6 is bonded to the continuous sheet 3a in the positional relationship according to the design drawing of the diaper 1 if the bonding portion is positioned at that position. That's it. Such a position is known in advance as to which position on the image data the target position should exist if the imaging operation is performed with the above-mentioned prescribed rotation angle value in the unit signal of the synchronization signal. Therefore, the target position information on the image data can be recorded in advance in the memory as described above.

  If it does so, control part 36CN will change the target value of the tension value of tension adjusting device 33 based on the information on the amount of shift of the position concerned. For example, when the information on the deviation amount indicates that “the joining portion is located downstream of the target position in the transport direction”, the control unit 36CN multiplies the deviation amount by a predetermined gain. If the tension value target value is made larger than the current target value by the adjusted amount, but indicates that `` the joint is located upstream of the target position in the transport direction '', The target value of the tension value is made smaller than the current target value by an adjustment amount multiplied by a predetermined gain.

  Such processing is performed, for example, every time the imaging operation is performed, that is, every time the image data is generated. Therefore, the deviation | shift amount of the position of the junction part from the target position in the continuous sheet 3a can be reduced reliably.

  By the way, the imaging position P36 is not limited to the upstream position in the transport direction with respect to the merging position Pj as described above. For example, as shown in FIG. 6, it may be set downstream of the merge position Pj, that is, the imaging position P36 may be set on the transport path of the substrate processing system L1a.

If the position is set downstream of the merging position Pj as described above, the arrangement position P35 of the nip rollers 35Ru and 35Rd of each position adjusting mechanism 35A can be arranged close to the merging position Pj. The sheet 3a can be joined to the continuous sheet 4a and the absorber 2 of the back sheet in a state where the end portions 3ae and 3ae in the CD direction of the continuous sheet 3a are substantially aligned with the target position in the CD direction. Details are as follows.
First, in order to join the continuous sheet 3a with the continuous sheet 4a and the absorber 2 of the back sheet in the most appropriate relative positional relationship with respect to the conveyance direction, the imaging position P36 is theoretically set to the merging position Pj. Good. That is, if the joining portion of the fastening tape member 6 in the continuous sheet 3a is detected at the joining position Pj, the position of the joining portion of the fastening tape member 6 is set to an appropriate position with respect to the continuous sheet 4a of the back sheet. It would be ideal if it could be done because it would be easier to match. However, the joining device 111 is arranged at the joining position Pj. As shown in FIG. 4, the joining device 111 has a pair of upper and lower press rolls 111u and 111d that rotate around a rotation axis along the CD direction. The press rolls 111u and 111d are mutually connected. Then, the three members of the continuous sheet 3a of the top sheet, the absorbent body 2, and the continuous sheet 4a of the back sheet are clamped together, and these three members are joined and integrated.

For this reason, it is difficult to set the imaging position P36 at the joining position Pj because the joining device 111 is in the way. As a result, the imaging position P36 is located upstream or downstream in the transport direction from the joining position Pj. You have to set it to And when it sets to the upstream side like the example of FIG. 4 here, the said imaging position P36 will be set between the arrangement position P35 of nip roller 35Ru, 35Rd, and the merge position Pj. However, in that case, the arrangement position P35 of the nip rollers 35Ru and 35Rd is more upstream than the merge position Pj in order to secure an arrangement space for the imaging device 36C such as a CCD camera to be arranged at the imaging position P36. It must be set to a position far away. Then, it becomes difficult to maintain the position in the CD direction of the end portion 3ae adjusted by the nip rollers 35Ru and 35Rd up to the joining position Pj, and as a result, the end portion 3ae is easily displaced from the target position in the CD direction. That is, the positional accuracy of the end portion 3ae in the CD direction is deteriorated.
However, in this regard, if the imaging position P36 is set downstream in the transport direction from the merging position Pj as shown in FIG. 6, the problem of interference with the space for arranging the imaging device 36C occurs. The position P35 of the nip rollers 35Ru and 35Rd can be set close to the joining position Pj, and as a result, the respective end portions 3ae and 3ae in the CD direction of the continuous sheet 3a of the top sheet are generally set to the target positions in the CD direction. In the aligned state, the sheet 3a can be joined to the continuous sheet 4a of the back sheet.

  Incidentally, from the viewpoint of grasping the above-described deviation amount with higher accuracy, the imaging position P36 is preferably set to a position immediately downstream of the merging position Pj as in the example of FIG. The “position immediately downstream” referred to here is an arbitrary position within 2 m downstream from the joining position Pj, and more preferably an arbitrary position within 1 m.

<<< Backsheet Processing System L4a >>>
FIG. 7 is a schematic side view of the backsheet processing system L4a.
The backsheet processing system L4a includes a backsheet supply line L4aS and a backsheet processing line L4aK (corresponding to a second processing unit) disposed downstream in the conveyance direction of the supply line L4aS. In the back sheet supply line L4aS, the back sheet continuous sheet 4a (corresponding to the second continuous sheet) is fed out and supplied from the material coil 4C (corresponding to the second supply process). In the backsheet processing line L4aK, predetermined processing is performed on the continuous sheet 4a of the backsheet supplied from the backsheet supply line L4aS and conveyed in the conveyance direction (corresponding to the second processing and the second processing step). ).

(1) Back sheet supply line L4aS
The back sheet supply line L4aS targets the feeding device 41 for feeding the continuous sheet 4a of the back sheet from the material coil 4C, and the tension value (N) in the conveyance direction of the continuous sheet 4a fed and conveyed by the device 41. A tension adjusting device 43 that adjusts the value.

  As shown in FIG. 7, the feeding device 41 includes a rotation shaft portion 41a along the CD direction and a servo motor (not shown) as a drive source that drives and rotates the rotation shaft portion 41a. Then, the rotary shaft portion 41a is driven and rotated by a servo motor in a state where the rotary shaft portion 41a is inserted into the through hole in the central portion of the material coil 4C and the material coil 4C is supported by the rotary shaft portion 41a. Thus, the continuous sheet 4a of the back sheet is fed out from the material coil 4C.

The tension adjusting device 43 adjusts the tension value (N) of the continuous sheet 4a of the back sheet to a predetermined target value, and here, as in the case of the above-described top sheet supply line L3aS, of the dancer type Is used. That is, the apparatus 43 is arranged at a fixed position and is rotatable between the pair of fixed position rolls 43RSu and 43RSd and rotatable around the rotation axis along the CD direction, and between the pair of fixed position rolls 43RSu and 43RSd. The dancer roll 43RD is guided to be movable in a predetermined direction (vertical direction in FIG. 7) and can rotate about the rotation axis along the CD direction, and the dancer roll 43RD corresponds to the target value of the tension value of the continuous sheet 4a. Position information by detecting the position of the dancer roll 43RD in the predetermined direction and an appropriate actuator (not shown) such as an air cylinder that applies a large load FD2 in the predetermined direction in the direction in which the loop described later increases. A measuring instrument (not shown) such as an encoder that outputs a signal, and a control unit (such as a sequencer or a computer to which the position information is input) Has a shown).
A continuous sheet 4a of the back sheet is wound around the pair of fixed position rolls 43RSu, 43RSd and the dancer roll 43RD, thereby forming a loop of the continuous sheet 4a. For this reason, as in the case of the above-described top sheet supply line L3aS, the control unit controls the feeding speed value of the rotary shaft portion 41a (based on the input position information so that the size of the loop is constant. mpm) is changed, and thereby, the tension value of the continuous sheet 4a at the position of the dancer roll 43RD is adjusted to be the above target value. If it is desired to change the target value, it can be done by controlling the actuator and changing the magnitude of the load FD2.

(2) Backsheet processing line L4aK
As shown in FIG. 7, in the backsheet processing line L4aK, first, the leakage prevention sheet joining device 45 (corresponding to the second processing device) performs the backsheet continuous sheet 4a at a predetermined position P5 in the transport direction. As described above, a plurality of single-sheet leak-proof sheets 5, 5,... Further, as the processing performed by the target tape bonding apparatus 47 (corresponding to the second processing apparatus) on the continuous sheet 4a at the predetermined position P7 downstream in the transport direction from the predetermined position P5, a plurality of single units are provided on the continuous sheet 4a. The sheet-like target tapes 7, 7,... After the joining, the CD direction position adjusting device 49 sets the positions of the end portions 4ae and 4ae in the CD direction of the continuous sheet 4a at the predetermined position P49 downstream of the predetermined position P7 in the conveyance direction, respectively. (Corresponding to the second position adjusting step), thereby sending the sheet 4a to the joining position Pj in an appropriate state in which the end portions 4ae and 4ae are respectively positioned substantially at the target positions in the CD direction. Hereinafter, each device 45, 47, 49 will be described.

(A) Leakproof sheet joining device 45
The leak-proof sheet joining device 45 has a rotary drum 45D that can rotate around a rotation axis along the CD direction with the outer peripheral surface 45Ds facing the conveyance path of the continuous sheet 4a of the back sheet, and a drive that drives and rotates the rotary drum 45D. And a servo motor (not shown) as a source. An adsorption force is generated on the outer peripheral surface 45Ds of the rotary drum 45D by intake air or the like. As a result, the outer peripheral surface 45Ds has a plurality of leak-proof sheets 5, 5 at the product pitch P1 in the rotation direction Dc45. ... are held side by side. Then, each leakage prevention sheet 5 is sent to the facing position P4a1 (the same position as the above-mentioned predetermined position P5 and corresponding to the “second processing position”) facing the continuous sheet 4a by the rotation of the rotating drum 45D. When passing through the same position P4a1, each leak-proof sheet 5 is joined to the continuous sheet 4a with an adhesive, whereby the leak-proof sheet 5 is delivered from the outer peripheral surface 45Ds of the rotating drum 45D to the continuous sheet 4a.

  The rotating operation of the rotating drum 45D is basically performed based on the synchronization signal as in the case of the fastening tape member joining device 34 described above. That is, the position of the servo motor of the rotary drum 45D is controlled so that the position where the leakage preventing sheet 5 is sucked and held on the outer peripheral surface 45Ds moves to the command position in the rotation direction Dc45 indicated by the synchronization signal. Thus, basically, each time a unit signal of the synchronization signal is output, the single sheet-shaped leak-proof sheet 5 arranged at the product pitch P1 on the outer peripheral surface 45Ds is conveyed in the rotational direction Dc45 by the product pitch P1. Is done.

(B) Target tape joining device 47
The target tape joining device 47 also has a rotating drum 47D that can rotate around the rotation axis along the CD direction with the outer peripheral surface 47Ds facing the conveyance path of the continuous sheet 4a of the back sheet, and a driving source that drives and rotates the rotating drum 47D. And a servo motor (not shown). An adsorption force is generated on the outer peripheral surface 47Ds of the rotary drum 47D by intake air or the like. As a result, a plurality of target tapes 7, 7,... Are held side by side. Then, the rotation of the rotary drum 47D causes each target tape 7 to be sent to the facing position P4a2 (the same position as the above-mentioned predetermined position P7 and corresponding to the “second processing position”) facing the continuous sheet 4a. When passing through the position P4a2, each target tape 7 is bonded to the continuous sheet 4a with an adhesive, whereby the target tape 7 is delivered from the outer peripheral surface 47Ds of the rotary drum 47D to the continuous sheet 4a.

  The rotating operation of the rotating drum 47D is basically performed based on the synchronization signal as in the case of the fastening tape member joining device 34 described above. That is, the position of the servo motor of the rotary drum 47D is controlled so that the position where the target tape 7 is sucked and held on the outer peripheral surface 47Ds moves to the command position in the rotation direction Dc47 indicated by the synchronization signal. Thus, basically, every time a unit signal of the synchronization signal is output, the target tape 7 arranged at the product pitch P1 on the outer peripheral surface 47Ds is conveyed in the rotational direction Dc47 by the product pitch P1.

(C) CD direction position adjusting device 49
As described above, in the CD direction position adjusting device 49 (corresponding to the second position adjusting device), the end portions 4ae and 4ae in the CD direction of the continuous sheet 4a of the back sheet are positioned at the respective target positions in the CD direction. As described above, the positions of the end portions 4ae and 4ae are adjusted independently of each other. By this adjustment, the continuous sheet 4a of the back sheet is brought into an appropriate relative positional relationship with respect to the CD direction with respect to the continuous sheet 3a and the absorbent body 2 of the top sheet that merges at the merge position Pj. It is joined to the body 2.

FIG. 8A is an enlarged schematic plan view showing such a CD direction position adjusting device 49, and FIG. 8B is a BB arrow view in FIG. 8A.
The basic structure of the CD direction position adjusting device 49 is substantially the same as that of the CD direction position adjusting device 35 provided on the top sheet processing line L3aK. That is, the CD direction position adjusting device 49 also corresponds to the end portions 4ae and 4ae with position adjusting mechanisms 49A and 49A for adjusting the positions of the end portions 4ae and 4ae in the CD direction in the continuous sheet 4a of the back sheet. And on both the left and right sides in the CD direction. The left and right position adjusting mechanisms 49A and 49A are mirror images of each other with respect to the center line CL in the CD direction, and their basic structures are substantially the same. Each position adjusting mechanism 49A is, for example, a pair of upper and lower nip rollers 49Ru that are driven and rotated with their outer peripheral surfaces facing each other so as to sandwich the end 4ae in the CD direction of the continuous sheet 4a from both sides in the thickness direction. , 49Rd and a pair of upper and lower nip rollers 49Ru, 49Rd are arranged immediately downstream of the nip rollers 49Ru, 49Rd, and an actuator 49d that pivots around a support axis C49A in a plane having both the transport direction and the CD direction. A sensor 49s such as a photoelectric tube that measures the position of the end 4ae in the CD direction and outputs a measurement signal; and a controller (not shown) that controls the actuator 49d based on the measurement signal from the sensor 49s. doing. The operation of adjusting each of the components 49Ru, 49Rd, 49d, 49s and the position is substantially the same as that of the CD-direction position adjusting device 35 of the above-described top sheet processing line L3aK. Therefore, further explanation is omitted.

  By the way, in this example, an SMS (spunbond / meltblown / spunbond) non-woven fabric is used as the material of the continuous sheet 4a of the back sheet, and an air-through non-woven fabric is used as the material of the above-described continuous sheet 3a of the top sheet. Is used. Therefore, the rigidity value of the continuous sheet 4a of the back sheet in the conveying direction is larger than the rigidity value of the continuous sheet 3a of the top sheet in the conveying direction. Thus, the rigidity value of the continuous sheet 4a of the back sheet is , Is set to a high value. For example, the rigidity value is set to a value of 2.7 (N / 25 mm) or more, preferably a value of 3.5 (N / 25 mm) or more, more preferably 4.5 (N / 25 mm) or more. More preferably, it is set to a value of 5.5 (N / 25 mm) or more.

Therefore, in this case, even if the CD direction position adjusting device 49 adjusts the position in the CD direction with respect to the continuous sheet 4a of the back sheet, the sheet 4a is shortened or extended in the transport direction. hard. Therefore, even if the tension value (N) of the continuous sheet 4a when the continuous sheet 4a of the back sheet is fed from the back sheet supply line L4aS to the back sheet processing line L4aK is kept constant, leakage is prevented in the continuous sheet 4a. The pitch at which the joint portions of the sheets 5 are arranged in the transport direction and the pitch at which the joint portions of the target tape 7 are arranged in the transport direction can be maintained at the above-described product pitch P1, which is substantially an appropriate pitch. The position of the part is generally located at an appropriate position.
Therefore, in this example, the tension adjusting device 43 of the backsheet supply line L4aS in FIG. 7 maintains the target value at a constant value without changing the target value of the tension value. As a result, the detection device 36 provided in the above-described topsheet processing system L3a in FIG. 4 can be omitted as shown in FIG. 7, and as a result, the equipment cost can be reduced. Further, the fluctuation of the stretch state of the continuous sheet 4a of the back sheet that may occur by changing the target value of the tension value unnecessarily occurs at the joint portion of the fastening tape member 6 in the continuous sheet 3a of the top sheet via the merge position Pj. It is also possible to effectively prevent adverse effects such as changing the position.

The rigidity value (N / 25 mm) referred to here is measured in a state in which the continuous sheet 3a, 4a having a width of 25 mm to be measured is stretched from the natural length to the conveyance direction with an elongation rate R of 2%. It is a rigidity value (N / 25 mm). That is, the rigidity value K (N / 25 mm) can be measured as follows. First, the state in which the test pieces of the continuous sheets 3a and 4a are extended in the direction corresponding to the conveying direction (hereinafter also referred to as the longitudinal direction) at the above-described elongation rate R of 2% is defined as an initial state. In addition, the dimension (width dimension) of the width direction orthogonal to the longitudinal direction of the test piece is 25 mm. Then, the load value Fs (N) in this initial state is recorded. Further, the load value Fe (N) when the elongation rate R is further extended in the longitudinal direction from this initial state until the elongation rate R becomes 5% is recorded. A value obtained by substituting the obtained values Fs and Fe into the following formula is the stiffness value (N / 25 mm).
K = Fe-Fs
The elongation rate R (%) referred to here is a natural length L0 obtained by subtracting the natural length L0 from the length L in the longitudinal direction in a state of being elongated in the longitudinal direction. It is a percentage notation value of a value R (= ΔL / L0) obtained by division.

<<< absorber production line L2 >>>
As illustrated in FIG. 3, the absorber generation system L2 includes a belt conveyor CV as a transport device. And this belt conveyor CV operates in conjunction with the above-mentioned synchronizing signal, and conveys each absorber 2,2, ... to the merge position Pj with the product pitch P1 in a conveyance direction.

<<< Base Material Processing Line L1a >>>
As described above with reference to FIG. 3, the base material processing system L1a is located downstream of the joining position Pj. Further, in the base material processing system L1a, a leg hole cut device 112 and an end cut device 116 are arranged in this order from upstream to downstream in the transport direction. First, the former cutting device 112 cuts out both sides in the CD direction with respect to the base material 1a of the diaper conveyed from the joining position Pj, and thereby a pair of legs around the base material 1a in the CD direction. Openings 1LH and 1LH are formed, and then the latter cutting device 116 cuts the base material 1a at a position P1ac between the absorbers 2 and 2 adjacent to each other in the transport direction, thereby forming the base material 1a. The downstream end is cut away from the diaper, thereby producing the diaper 1 of FIG. 1A.

  The leg hole cutting device 112 includes a pair of upper and lower rolls 112u and 112d that can rotate around a rotation axis along the CD direction, and a servo motor (not shown) as a drive source that drives and rotates the pair of rolls 112u and 112d. Have. The upper roll 112u is a cutter roll. That is, cutter blades (not shown) are provided on the outer peripheral surface of the upper roll 112u at a predetermined angle in the rotation direction Dc112 in a curved shape corresponding to the shape of the leg opening 1LH of the diaper 1. On the other hand, the lower roll 112d is an anvil roll that receives the cutter blade on its outer peripheral surface. Basically, the rotation operations of these rolls 112u and 112d are also performed based on the above-described synchronization signal. That is, basically, the servo motor is position-controlled so that the position of the cutter blade moves to the command position in the rotation direction Dc112 indicated by the synchronization signal. Thus, each time a unit signal of the synchronization signal is output, the cutter blade is a pair of portions where the leg opening 1LH is to be formed in the base material 1a of the diaper, that is, the absorber in the base material 1a. As a result, the leg openings 1LH and 1LH are formed in the base material 1a.

  The end-cut device 116 also has a pair of upper and lower rolls 116u and 116d that can rotate around a rotation axis along the CD direction, a servo motor (not shown) as a drive source that drives and rotates the pair of rolls 116u and 116d, Have The upper roll 116u is a cutter roll. That is, cutter blades (not shown) are provided on the outer peripheral surface of the upper roll 116u at a predetermined angle in the rotation direction Dc116 in the form of straight blades along the CD direction. On the other hand, the lower roll 116d is an anvil roll that receives the cutter blade on the outer peripheral surface. Basically, the rotation operation of these rolls 116u and 116d is also performed based on the synchronization signal. That is, basically, the position of the servo motor is controlled so that the position of the cutter blade moves to the command position in the rotation direction Dc116 indicated by the synchronization signal. Thus, each time a unit signal of the synchronization signal is output, the cutter blades should be cut at the position P1ac in the base material 1a of the diaper, that is, the absorbers 2 and 2 adjacent in the transport direction in the base material 1a. It rotates so that it may oppose position P1ac between them, and as a result, a downstream end part is cut | disconnected from the base material 1a, and the diaper 1 is produced | generated.

=== Modification ===
By the way, as shown in the schematic plan view of FIG. 9A, the direction along the CD direction when the production line LM is viewed in plan view is defined as the “X direction”, and the direction perpendicular to the CD direction is defined. If this is defined as “Y direction”, in the first embodiment described above, as shown in FIG. 9A, the feeding direction of the continuous sheet 3a of the feeding device 31 in the top sheet supply line L3aS and the top sheet processing line L3aK. The continuous sheet 3a is directed in the same Y direction as the conveyance direction of the continuous sheet 3a. However, it is not limited to this. That is, as in the modification of FIG. 9B, the feeding direction in the top sheet supply line L3aS may be mainly along the X direction, and the conveyance direction in the top sheet processing line L3aK may be along the Y direction.

  And if it becomes like this, as shown to the same FIG. 9B, the arrangement position of the rotating shaft part 41a of the drawing | feeding-out apparatus 41 will be set to the position shifted | deviated with respect to the top sheet processing line L3aK and the X direction (CD direction). be able to. Therefore, the overall length of the production line LM can be shortened in the Y direction, and as a result, the production line LM can be made compact.

  Here, as illustrated in FIG. 9B, the feeding direction of the continuous sheet 3a is set to the X direction, which is the CD direction, by arranging the rotation shaft portion 31a of the feeding device 31 along the Y direction. The change of the conveyance direction of the continuous sheet 3a from the X direction to the Y direction is realized by a turn bar TB (corresponding to a conveyance direction changing member). The turn bar TB is, for example, a round bar having a diameter of 25.4 mm, and is disposed so as not to move and rotate in a state in which the longitudinal direction thereof is in a direction inclined by 45 ° from both the X direction and the Y direction. Therefore, when the continuous sheet 3a of the top sheet is wound around the turn bar TB, the conveying direction of the continuous sheet 3a is changed from the X direction to the Y direction.

  However, when the turn bar TB is provided, when the tension of the continuous sheet 3a of the top sheet is changed at the position of the turn bar TB, the continuous sheet 3a is caught on the non-rotating turn bar TB or between the turn bars TB. It becomes easy to induce troubles such as excessive sliding resistance. Therefore, it is necessary to set an optimum tension value for passing through the turn bar TB. However, the tension value (N) and the optimum tension value (N) for feeding into the top sheet processing line L3aK are different from each other. There may be cases. For example, the former optimum tension value may be smaller than the latter optimum tension value, and vice versa.

In such a case, it is desirable to provide two tension adjusting devices 33A and 33B. 10A and 10B are explanatory diagrams of an example thereof. 10A is a schematic plan view thereof, and FIG. 10B is shown on one plane by connecting the CC arrow view in FIG. 10A and the DD arrow view in FIG. 10A. It is a schematic side view.
As shown in FIGS. 10A and 10B, in this example, one tension adjusting device 33A (corresponding to an upstream tension adjusting device) is provided between the feeding device 31 and the turn bar TB, and the turn bar TB and the top sheet processing line. One further tension adjusting device 33B (corresponding to the downstream tension adjusting device) is provided between L3aK and L3aK. Thus, each tension value can be individually adjusted.

  As shown in FIG. 10B, the former tension adjusting device 33A adjusts the tension value at the position of the turn bar TB. The configuration of the device 33A is substantially the same as that of the dancer-type tension adjusting device 33 described above. That is, the apparatus 33A is arranged at a fixed position and is rotatable between a pair of fixed position rolls 33ARSu, 33ARSd and a pair of fixed position rolls 33ARSu, 33ARSd. , A dancer roll 33ARD that is guided so as to be movable in a predetermined direction (vertical direction in FIG. 10B) and that can rotate around the rotation axis along the Y direction, and a target value (predetermined value) of the tension value of the continuous sheet 3a on the dancer roll 33ARD. And an appropriate actuator (not shown) such as an air cylinder that applies a load FD3 having a magnitude corresponding to that in the predetermined direction in the direction in which the loop described later increases, and the position of the dancer roll 33ARD in the predetermined direction. A measuring instrument such as an encoder (not shown) that detects position and outputs position information, and a sequence to which the position information is input. A control unit such as a server or a computer (not shown). Further, the continuous sheet 3a of the top sheet is wound around the pair of fixed position rolls 33ARSu, 33ARSd and the dancer roll 33ARD, thereby forming a loop of the continuous sheet 3a. Therefore, the control unit changes the feeding speed value (mpm) of the rotating shaft part 31a based on the input position information so that the size of the loop is constant, and thereby the dancer roll 33ARD is changed. The position and thus the tension value (N) of the continuous sheet 3a at the position of the turn bar TB is adjusted to be a predetermined target value.

  On the other hand, as shown in FIG. 10B, the latter tension adjusting device 33B adjusts the tension value when the continuous sheet 3a is fed into the top sheet processing line L3aK. The device 33B is also of a dancer type. That is, the apparatus 33B is arranged at a fixed position and is rotatable between a pair of fixed position rolls 33BRSu and 33BRSd arranged around the rotation axis along the X direction, and a position between the pair of fixed position rolls 33BRSu and 33BRSd. Corresponding to the target value of the tension value of the continuous sheet 3a on the dancer roll 33BRD, which is guided to be movable in a predetermined direction (vertical direction in FIG. 10B) while being rotatable about the rotation axis along the X direction. Positional information by detecting the position of the dancer roll 33BRD in an appropriate actuator (not shown) such as an air cylinder that applies a load FD4 of a magnitude in a direction in which the loop described later increases in the predetermined direction. A measuring instrument such as an encoder (not shown) that outputs a signal, and a sequencer or computer to which the position information is input. A control unit such as a motor (not shown). Further, a continuous sheet 3a of the top sheet is wound around the pair of fixed position rolls 33BRSu, 33BRSd and the dancer roll 33BRD, thereby forming a loop of the continuous sheet 3a. Further, among the pair of fixed-position rolls 33BRSu and 33BRSd, the fixed-position roll 33BRSu positioned upstream in the transport direction, that is, the fixed-position roll 33BRSu positioned upstream in the transport direction relative to the dancer roll 33BRD, As a drive roll (hereinafter also referred to as a fixed position drive roll 33BRSu) rotated by a servo motor. Therefore, the control unit changes the rotation speed value (mpm) of the fixed position drive roll 33BRSu based on the input position information so that the size of the loop is constant, The tension value of the continuous sheet 3a at the position of the dancer roll 33BRD is adjusted to a predetermined target value.

  Further, here, the target value of the tension value (N) of the tension adjusting device 33B is the same as in the first embodiment described above, and the fastening tape members 6 and 6 are joined to the continuous sheet 3a of the top sheet. It changes based on the detection result of a part. For example, when the detection result of the detection device 36 indicates that the joint portion of the fastening tape members 6 and 6 is located downstream of the target position on the continuous sheet 3a, the detection device The control unit 36CN of 36 increases the target value of the tension value, and thereby increases the tension value when the continuous sheet 3a of the top sheet is fed to the top sheet processing line L3aK. On the other hand, if the detection result indicates that the joint is located upstream of the target position in the transport direction, the target value of the tension value is decreased, and thereby the tension value at the time of feeding Decrease.

  Incidentally, the target value can be changed by controlling the actuator and changing the magnitude of the load FD4.

=== Second Embodiment ===
FIG. 11 is a schematic side view of a top sheet processing line L3aK ′ in the top sheet processing system L3a ′ of the second embodiment.
In the first embodiment described above, as shown in FIG. 4, the CD-direction position adjusting device 35 is arranged downstream of the fastening tape member joining device 34 in the transport direction. However, in the second embodiment, FIG. As shown, the order in which the two devices 34 and 35 are arranged in the conveying direction is reversed, that is, the CD-direction position adjusting device 35 is disposed upstream of the fastening tape member joining device 34 in the conveying direction. Mainly different. Other configurations are generally the same as those of the first embodiment described above. Therefore, in the following, this difference will be mainly described, the same reference numerals are given to the same configurations, and the description thereof will be omitted.

  In the second embodiment, as described above, the CD direction position adjusting device 35 is disposed upstream of the fastening tape member joining device 34 in the transport direction. Therefore, the continuous sheet 3a is joined to the fastening tape member in a state in which the end position 3ae, 3ae in the CD direction of the continuous sheet 3a of the top sheet is accurately aligned with the target position in the CD direction. Sent to device 34. Therefore, the joining device 34 can join the fastening tape members 6 and 6 to the end portions 3ae and 3ae of the continuous sheet 3a with high positional accuracy in the CD direction.

However, before the fastening tape member 6 is joined to the continuous sheet 3a, the fastening tape member 6 in the continuous sheet 3a is adjusted because the positions of the end portions 3ae and 3ae of the sheet 3a are adjusted in the CD direction. May be arranged in the transport direction at a pitch different from the product pitch P1 in the transport direction. Details are as follows.
For example, when the positions of the end portions 3ae and 3ae are adjusted so that the width dimension (dimension in the CD direction) of the continuous sheet 3a is enlarged by the CD direction position adjusting device 35, the amount corresponding to the amount of expansion of the width dimension. Only the sheet 3a is shortened in the transport direction. When the continuous sheet 3a passes through the position of the joining device 34 in such a shortened state, the joining device 34 uses the fastening tape at the product pitch P1 in the transport direction with respect to the continuous sheet 3a shortened in the transport direction. The members 6 are joined side by side. However, when the width of the continuous sheet 3a is reduced in the CD direction to the design width necessary for joining the continuous sheet 4a of the back sheet on the downstream side of the joining device 34, the reduction amount is reduced. The corresponding sheet 3a can be extended in the transport direction by the amount corresponding thereto. Then, the fastening tape member 6 will be in the state arranged in the conveyance direction with the pitch larger than the product pitch P1. As a result, the sheet 3a may be bonded to the continuous sheet 4a of the back sheet at the merging position Pj while the position of the bonding portion of the fastening tape member 6 is deviated from the target position in the conveyance direction. is there.

  However, in this respect, also in the second embodiment, as in the case of the first embodiment, the imaging position P36 of the imaging device 36C is set to the CD direction position adjusting device 35 and the fastening tape member joining device 34 in the transport direction. It is set downstream of the arrangement positions P35 and P6 (P3a), and the joint portion of the above-mentioned fastening tape member 6 is detected at the imaging position P36. As a result, even when the fastening tape members 6 are arranged in the conveying direction at a pitch larger than the product pitch P1 as described above, the joint can be detected in that state, and vice versa. Is also detectable. Therefore, based on the detection result, the tension adjusting device 33 of the top sheet supply line L3aS can adjust the tension value (N) when the continuous sheet 3a is fed to the top sheet processing line L3aK ′. In addition, it is possible to reduce the shift amount in the transport direction of the position of the joint portion from the target position.

=== Third Embodiment ===
FIG. 12 is a schematic side view of the top sheet processing line L3aK ″ in the top sheet processing system L3a ″ of the third embodiment.
In the first embodiment described above, the top sheet processing system L3a of FIG. 4 has only the fastening tape member joining device 34 as a processing device related to the continuous sheet 3a of the top sheet. However, in the third embodiment of FIG. 12, in addition to the above-described joining device 34, there is also a cushion sheet joining device 37 that joins the cushion sheet 8 to the continuous sheet 3a as a further processing device. This is different from the first embodiment. Another difference is that another CD direction position adjusting device 38 is additionally provided corresponding to the cushion sheet joining device 37. Other configurations are substantially the same as those in the first embodiment described above. Therefore, below, these differences are mainly demonstrated, the same code | symbol is attached | subjected about the same structure, and the description is abbreviate | omitted.

  As shown virtually in FIG. 1A and FIG. 1B by a two-dot chain line, the cushion sheet 8 is a sheet 8 that imparts cushioning properties to the skin side of the diaper 1. Therefore, the sheet 8 is interposed between the top sheet 3 and the absorber 2. In this example, an air-through nonwoven fabric is used as the material of the sheet 8, but the present invention is not limited to this.

  On the other hand, as shown in FIG. 12, the cushion sheet bonding apparatus 37 (corresponding to the third processing apparatus) is a predetermined position downstream from the respective arrangement positions P6 and P35 of the fastening tape member bonding apparatus 34 and the CD direction position adjusting apparatus 35. It is arranged at P8. Then, at the predetermined position P8, the cushion sheet joining apparatus 37 intermittently arranges and joins a plurality of single-sheet cushion sheets 8, 8,... In the transport direction with respect to the continuous sheet 3a of the top sheet ( This corresponds to the third processing and the third processing step).

  The cushion sheet joining device 37 includes a rotating drum 37D that can rotate around a rotation axis along the CD direction while the outer peripheral surface 37Ds faces the conveying path of the continuous sheet 3a of the top sheet, and a drive that drives and rotates the rotating drum 37D. And a servo motor (not shown) as a source. An adsorption force is generated on the outer peripheral surface 37Ds of the rotating drum 37D by intake air, and as a result, the outer peripheral surface 37Ds has a plurality of cushion sheets 8, 8... At a product pitch P1 in the rotation direction Dc37. Are held side by side. Then, the rotation of the rotary drum 37D causes each cushion sheet 8 to be sent to the facing position P3a2 (the same position as the aforementioned predetermined position P8 and corresponding to the “third processing position”) facing the continuous sheet 3a. When passing through the position P3a2, each cushion sheet 8 is bonded to the non-skin side surface of the continuous sheet 3a with an adhesive, whereby the cushion sheet 8 is delivered from the outer peripheral surface 37Ds of the rotary drum 37D to the continuous sheet 3a. .

  The rotating operation of the rotating drum 37D is basically performed based on the synchronization signal as in the case of the fastening tape member joining device 34 described above. That is, the position of the servo motor of the rotary drum 37D is controlled so that the position where the cushion sheet 8 is sucked and held on the outer peripheral surface 37Ds moves to the command position in the rotation direction Dc37 indicated by the synchronization signal. Thus, basically, each time a unit signal of the synchronization signal is output, the single-sheet cushion sheet 8 arranged at the product pitch P1 on the outer peripheral surface 37Ds is conveyed in the rotational direction Dc37 by the product pitch P1. The

  On the other hand, also in the third embodiment, the CD direction position adjusting device 35 is arranged adjacent to the downstream side in the transport direction of the fastening tape member joining device 34 as in the first embodiment. However, the merging position Pj described above is not located adjacent to the downstream side of the CD direction position adjusting device 35, and instead, the cushion sheet joining device 37 is located adjacent to the CD position adjusting device 35. Therefore, the use of the CD direction position adjusting device 35 in the third embodiment is “the top sheet continuous sheet 3a in the CD direction with respect to the back sheet continuous sheet 4a” which is the use in the first embodiment described above. This is different from the use of “to join at an appropriate position”. In other words, this CD direction position adjusting device 35 is arranged so that the positions of the end portions 3ae and 3ae of the continuous sheet 3a in the CD direction in order to join the cushion sheet 8 to the appropriate position in the CD direction of the continuous sheet 3a of the top sheet. Make adjustments.

  In the third embodiment, as described above, the CD direction position adjusting device 38 (corresponding to the third position adjusting device) different from the CD direction position adjusting device 35 is more than the cushion sheet joining device 37. It is additionally provided at a predetermined position P38 downstream in the transport direction and upstream from the merging position Pj. The CD direction position adjusting device 38 also adjusts the positions of the end portions 3ae and 3ae so that the end portions 3ae and 3ae in the CD direction of the continuous sheet 3a of the top sheet are positioned at target positions in the CD direction, respectively. Adjust in the CD direction independently of each other. Therefore, by such adjustment, the continuous sheet 3a of the top sheet is brought into an appropriate relative positional relationship with respect to the CD direction with respect to the continuous sheet 3a and the absorber 2 of the back sheet that merges at the merge position Pj. Joined to the body 2.

  The basic configuration of the CD direction position adjusting device 38 is substantially the same as that of the CD direction position adjusting device 35 described above with reference to FIGS. 4 to 5B. That is, although not shown in detail, the CD direction position adjusting device 38 of FIG. 12 also has a position adjusting mechanism 38A for adjusting the positions of the end portions 3ae, 3ae in the CD direction of the continuous sheet 3a of the top sheet. , 38A respectively corresponding to the end portions 3ae, 3ae on the left and right sides in the CD direction. The left and right position adjusting mechanisms 38A, 38A are mirror images of each other with respect to the center line CL (FIG. 5A) in the CD direction, and their basic structures are substantially the same. Further, each position adjusting mechanism 38A includes, for example, a pair of upper and lower nip rollers 38Ru that are arranged to face each other and face to rotate so as to sandwich the end 3ae in the CD direction of the continuous sheet 3a from both sides in the thickness direction. , 38Rd, a pair of upper and lower nip rollers 38Ru, 38Rd, an actuator (not shown) that rotates around a support shaft (not shown) in a plane having both the transport direction and the CD direction, and the nip rollers 38Ru, 38Rd A sensor (not shown) such as a phototube that is arranged immediately downstream of the sensor and measures the position of the end 3ae in the CD direction and outputs a measurement signal, and the actuator is not shown based on the measurement signal from the sensor. And a controller. Each of the above-described components is substantially the same as that of the above-described CD direction position adjusting device 35. Therefore, further explanation is omitted.

  By the way, as shown in FIG. 12, the third embodiment also has the same detection device 36 as in the first embodiment. The detection device 36 detects the joining portion of the fastening tape member 6 in the continuous sheet 3a of the top sheet. Based on the detection result, the tension adjusting device 33 of the top sheet supply line L3aS detects the continuous sheet 3a of the top sheet. Adjust the target tension value. Therefore, the CD direction position adjusting device 35 located on the upstream side of the two CD direction position adjusting devices 35, 38, that is, the CD direction position located adjacent to the downstream side of the fastening tape member joining device 34. The amount of shift in the transport direction of the position of the joint portion of the fastening tape members 6 and 6 that can be caused by the operation of the adjusting device 35 can be reduced.

On the other hand, when the other CD direction position adjusting device 38 is operated, the position of the joint portion of the cushion sheet 8 in the transport direction in the continuous sheet 3a of the top sheet can be changed from the appropriate position for the same reason as described above. . And when the same sheet 3a is sent to the merging position Pj as it is, the position of the joint portion of the cushion sheet 8 in the sheet 3a is shifted from the appropriate position in the transport direction (hereinafter also referred to as the target position), The sheet 3a is joined to the continuous sheet 4a of the back sheet and the absorbent body 2 at the joining position Pj, which can lead to deterioration of the dimensional accuracy of the diaper 1.
For this reason, the position of the joint portion of the cushion sheet 8 also needs to be adjusted in the transport direction. Here, this adjustment is not performed by the tension adjusting device 33, and the cushion sheet joining device 37 is used by the top sheet. This is done by adjusting the timing of joining the cushion sheet 8 to the continuous sheet 3a. And thereby, the influence of the adjustment of the position of the joint part of the cushion sheet 8 does not reach the position of the joint part of the fastening tape members 6 and 6 in the continuous sheet 3a.
Hereinafter, this adjustment method will be described.
This adjustment method is realized as follows by the detection device 39 of FIG. 12 and an appropriate control device (not shown) such as a computer cooperating with each other.
First, in this example, the detection device 39 detects a joint portion (corresponding to a trace of the third processing) of the cushion sheet 8 in the continuous sheet 3a at a predetermined position P39 in the transport direction (corresponding to a third detection step). . The predetermined position P39 (corresponding to the third detection processing position) is the arrangement position P8 (P3a2) of the cushion sheet joining device 37 and the arrangement position P38 of the nip rollers 38Ru and 38Rd of the CD direction position adjustment device 38 (the above-mentioned predetermined position). It is the same position as P38, and is set downstream in the transport direction from the “third adjustment processing position”. And the detection result (equivalent to a 3rd detection result) of a junction part is transmitted to the said control apparatus for every detection.
Then, each time the detection result is received, the control device indicates, based on the detection result, the timing at which the synchronous drum indicates the timing at which the rotary drum 37D of the cushion sheet joining device 37 sends the cushion sheet 8 to the aforementioned facing position P3a2. Move from. As a result, the shift amount of the position of the joint portion of the continuous sheet 3a from the target position is reduced.
For example, when the detection result indicates that the position of the joint portion of the cushion sheet 8 is shifted from the target position on the continuous sheet 3a to the downstream side in the conveyance direction by a predetermined shift amount, the control device The command position indicated by the synchronization signal is reduced by an adjustment amount obtained by multiplying the deviation amount by a predetermined gain. On the other hand, when the detection result indicates that the position of the joint portion is shifted by a predetermined shift amount upstream of the target position from the target position, the adjustment amount is obtained by multiplying the shift amount by a predetermined gain. Increase the above command position.

The configuration example of the detection device 39 is substantially the same as that of the detection device 36 described in the first embodiment. That is, as shown in FIG. 12, the detection device 39 includes an imaging device 39C such as a CCD camera and a control unit 39CN such as a computer.
Then, the imaging device 39C images the continuous sheet 3a at the predetermined position P39 (hereinafter also referred to as the imaging position P39, and the same position as the predetermined position P39), and generates image data of the sheet 3a. The imaging operation is performed every time the rotation angle value of the synchronization signal received by the imaging device 39C matches the specified rotation angle value recorded in advance in the memory of the device 39C. At least a part of the cushion sheet 8 is formed in a field of view so as to enter the captured image. Each time image data is transmitted from the imaging device 39C, the control unit 39CN analyzes the image data to analyze the amount of shift in the position of the joint portion from the target position on the continuous sheet 3a of the top sheet. Get information. For example, the position of the joint portion on the image data is acquired by binarization processing or the like, and the amount of deviation between this position and the target position on the image data recorded in advance in the memory of the control unit 39CN is calculated This is information on the amount of deviation indicated by the detection result described above.

By the way, in this 3rd Embodiment, as above-mentioned, about the deviation | shift amount of the position of the junction part formed with the fastening tape member junction apparatus 34 of the upstream of a conveyance direction, adjustment of the tension value of the above-mentioned tension adjustment apparatus 33 is carried out. On the other hand, the displacement amount of the position of the joint formed by the cushion sheet joining device 37 downstream of the cushion sheet joining device 37 is made small by shifting the joining timing.
Therefore, in this example, the influence of the process of reducing the displacement amount of the joint portion of the cushion sheet 8 goes back to the joining process of the fastening tape member joining apparatus 34 located on the upstream side of the cushion sheet joining apparatus 37. This example is excellent in this respect.
That is, if this correspondence is reversed, the amount of displacement of the position of the joint formed by the fastening tape member joining device 34 is reduced by shifting the joining timing of the device 34 itself, The amount of shift in the position of the joint formed by the cushion sheet joining device 37 is reduced by adjusting the tension value of the tension adjusting device 33 located further upstream in the transport direction than the fastening tape member joining device 34. .
However, by doing so, due to the adjustment of the tension value, the position of the continuous sheet 3a varies in the transport direction even at the position of the fastening tape member joining device 34 in the transport direction. As a result, the position of the joint portion of the fastening tape member 6 may be greatly deviated from the target position. However, with this point, the occurrence of such inconvenience can be prevented if the above-described correspondence is established. it can.

=== Other Embodiments ===
As mentioned above, although embodiment etc. of this invention were described, said embodiment etc. are for making an understanding of this invention easy, and are not for limiting and interpreting this invention. Further, the present invention can be changed or improved without departing from the gist thereof, and needless to say, the present invention includes equivalents thereof. For example, the following modifications are possible.

  In above-mentioned embodiment etc., although the tape-type disposable diaper 1 was illustrated as an example of an absorbent article, it is not restricted to this at all. For example, a pants-type disposable diaper may be used. Moreover, as a pants-type disposable diaper, a liquid-absorbent absorbent main body (a sheet-like member having the absorber 2 therein) is stretched between the abdominal belt member and the back belt member in the unfolded state. A so-called three-piece type diaper may be used, or a so-called two-piece type diaper in which an absorbent main body is placed on the skin side surface of an approximately hourglass-shaped exterior sheet in the unfolded state. Furthermore, the absorbent article is not limited to the disposable diaper 1 described above, and may be any article that absorbs the excrement fluid of the wearer. For example, the absorbent article may be a sanitary napkin or a urine picking pad.

  In the above-described embodiment and the like, a dancer type was exemplified as the tension adjusting device 33 as shown in FIG. 4, but the present invention is not limited to this. That is, any device can be used as long as the tension value of the continuous sheet 3a is measured and the feeding speed value (mpm) of the feeding device 31 can be changed so that the tension value becomes a target value. FIG. 13 is an explanatory diagram of the tension adjusting device 133 as an example. First, instead of the dancer roll 33RD of FIG. 4 and the pair of fixed position rolls 33RSu, 33RSd positioned upstream and downstream of the dancer roll 33RD, the tension adjusting device 133 of FIG. 13 includes three rolls 133RSu, 133RSm at fixed positions in the transport direction. , 133RSd are provided. Note that these three rolls 133RSu, 133RSm, and 133RSd are each supported so as to be rotatable around a rotation axis along the CD direction. In addition, a sensor 133S such as a strain gauge is provided on the support portion 133P that supports the middle roll 133RSm among the three rolls 133RSu, 133RSm, and 133RSd. And, in a state where the continuous sheet 3a is wound around these three rolls 133RSu, 133RSm, 133RSd in a mountain shape, a value corresponding to the force F3a applied from the continuous sheet 3a to the middle roll 133RSm, The sensor 133S is made to output in real time, and the value outputted from the sensor 133S is converted into a tension value in real time by an appropriate converter (not shown). Then, the feeding speed value (mpm) of the feeding device 31 may be changed so that the tension value (N) becomes the above target value.

  In the above-described embodiment and the like, as an example of processing that is intermittently performed in the conveyance direction on each portion that is an absorbent article in the continuous sheet, the pair of fastening tape members 6 and 6 are joined to the continuous sheet 3a of the top sheet. In addition, as an example of the second processing that is intermittently performed in the conveyance direction for each part that becomes an absorbent article in the second continuous sheet, joining the leak-proof sheet 5 to the continuous sheet 4a of the back sheet, And the joining of the target tape 7 to the same continuous sheet 4a was illustrated. However, the process and the second process are not limited to this. For example, the processing and the second processing may be to apply the adhesive intermittently in the conveying direction to the corresponding continuous sheets 3a and 4a, respectively, or to press and weld intermittently. Or it may be cut.

In the above-described embodiment and the like, as shown in FIG. 4, as an example of the tension adjusting device 33, a pair of fixed position rolls 33 </ b> RSu and 33 </ b> RSd that are arranged at fixed positions and can rotate around the rotation axis along the CD direction; A dancer roll 33RD capable of rotating around a rotation axis along the CD direction while being guided to move in a predetermined direction (vertical direction in FIG. 4) at a position between the pair of fixed position rolls 33RSu and 33RSd, and a dancer An actuator that applies a load FD having a magnitude corresponding to the target value of the tension value of the continuous sheet 3a to the roll 33RD in a direction in which a loop described later increases in the predetermined direction, and a position of the dancer roll 33RD in the predetermined direction is detected. In this example, a measuring instrument that outputs position information and a control unit that receives the position information are illustrated. And in this apparatus 33, the target value of said tension value is changed based on the detection result of the junction part of the fastening tape members 6 and 6 in the continuous sheet 3a of the top sheet, thereby the same as the top sheet processing line L3aK. Although the tension at the time of feeding the continuous sheet 3a is adjusted, it is not limited to this.
That is, if the fixed position roll 33RSd located on the downstream side in the transport direction of the pair of fixed position rolls 33RSu, 33RSd in FIG. 4 is configured as a drive roll that is driven and rotated by a servo motor as a drive source. Instead of changing the target value of the tension value, the rotational speed value (mpm) of the drive roll 33RSd may be changed based on the detection result.
For example, when the detection result indicates that the position of the joint portion of the fastening tape members 6 and 6 is located downstream of the target position on the continuous sheet 3a, the drive roll 33RSd The rotational speed value (mpm) is made smaller than the current value, thereby increasing the tension value when the continuous sheet 3a is fed to the top sheet processing line L3aK. On the other hand, when the detection result indicates that the position of the joint portion is located upstream of the target position in the transport direction, the rotational speed value (mpm) is set larger than the current value, thereby , Decrease the tension value when feeding. And thereby, the deviation | shift amount of the position of the junction part of the fastening tape members 6 and 6 from the target position of the conveyance direction which can arise by adjusting the position of edge part 3ae of the CD direction in the continuous sheet 3a, 3ae to CD direction Can be reduced.

  In the above-described embodiment and the like, as illustrated in FIG. 5A, as an example of the CD direction position adjusting device 35, the device 35 that adjusts the positions of the end portions 3ae and 3ae in the CD direction on the continuous sheet 3a in the CD direction independently of each other. However, it is not limited to this. That is, as long as the apparatus adjusts the position of the end portion 3ae in the CD direction of the continuous sheet 3a in the CD direction as a result, the apparatus can also be used. 14A and 14B are explanatory diagrams of the CD direction position adjusting device 135 as an example. 14A is a schematic side view of the apparatus 135, and FIG. 14B is a view taken along the line BB in FIG. 14A. In FIG. 14B, the continuous sheet 3a is indicated by a three-dot chain line, and the sheet 3a is illustrated in a transparent state.

  As shown in FIG. 12A, this CD direction position adjustment device 135 (corresponding to the position adjustment device) includes four rollers 136a for conveying the continuous sheet 3a through a substantially U-shaped conveyance path in a side view as viewed from the CD direction. 136b, 136c, and 136d, and a sensor 137 such as a photoelectric tube that detects the position in the CD direction of at least one end 3ae in the CD direction of the continuous sheet 3a. The four rollers 136a, 136b, 136c, and 136d are arranged side by side in the transport direction. Further, the most downstream roller 136a and the most upstream roller 136d are provided so as to be rotatable around a rotation axis along the CD direction at a fixed position in the transport direction. On the other hand, as shown in FIG. 12B, the remaining two rollers 136b and 136c are supported by a predetermined swing rotation member 138 in a state where the rotation axes of the rollers are maintained in parallel. The swing rotation member 138 is supported so as to be swingable and rotatable about a support shaft C138 disposed at a fixed position. Further, the support shaft C138 is parallel to the normal direction of the portion 3ap spanned between the two rollers 136b and 136c in the continuous sheet 3a. Further, the support shaft C138 is disposed at the center position C3ap in the CD direction at the upstream end of the portion 3ap in a state where the continuous sheet 3a is located at the target position in the CD direction. Then, an appropriate actuator (not shown) such as a feed screw mechanism with a servomotor swings the swing rotation member 138 around the support shaft C138, whereby the continuous sheet 3a is fed out by the two rollers 136b and 136c. Dr3a can be tilted from one direction perpendicular to the CD direction to one side or the other side of the CD direction. Therefore, by performing such a swinging operation based on the position information in the CD direction of the end 3ae output from the sensor 137, the continuous sheet is set so that the position of the end 3ae becomes the target position in the CD direction. The position of 3a in the CD direction can be adjusted.

  In the third embodiment described above, as shown in FIG. 12, the imaging position P36 of the upstream detection device 36 of the two detection devices 36, 39 is the nip roller 35Ru of the upstream CD direction position adjustment device 35. , 35Rd and the nip rollers 38Ru, 38Rd of the downstream CD direction position adjusting device 38 (or the position P8 of the cushion sheet joining device 37). Not limited to this. For example, the imaging position P36 may be set on the downstream side of the arrangement position P38 related to the downstream CD direction position adjusting device 38. If the image pickup position P36 is set at such a position, the detection result of the detection device 36 indicates the conveyance direction of the joint portion of the fastening tape member 6 caused by the operation of the downstream CD direction position adjustment device 35. The amount of positional deviation is also reflected. Therefore, the tension adjusting device 33 can adjust the target value of the tension value more appropriately so that the deviation amount becomes smaller. As for the relative positional relationship with the merging position Pj, the imaging position P36 may be set on the upstream side of the merging position Pj or may be set on the downstream side.

1 disposable diaper (absorbent article), 1LH leg opening
1a base material of diaper, 1f ventral side, 1b dorsal side, 1p each part to be a diaper,
2 absorbers,
3 Top sheet,
3a Continuous sheet of top sheet (continuous sheet, first continuous sheet),
3ae end, 3ap part, 3C material coil,
4 Backsheet,
4a Continuous sheet of back sheet (second continuous sheet), 4ae end, 4C material coil,
5 leak-proof sheet, 6 fastening tape member, 6m male material,
7 Target tape, 8 cushion sheet,
31 feeding device, 31a rotating shaft,
33 Tension adjustment device, 33RD dancer roll,
33RSu fixed position roll, 33RSd fixed position roll,
33A tension adjuster (upstream tension adjuster), 33ARD dancer roll,
33ARSu fixed position roll, 33ARSd fixed position roll,
33B Tension adjustment device (downstream tension adjustment device), 33BRD dancer roll,
33BRSu fixed position roll, 33BRSd fixed position roll,
34 Fastening tape member joining device (processing device, first processing device),
34D rotating drum, 34Ds outer peripheral surface,
35 CD direction position adjustment mechanism (position adjustment device, first position adjustment device),
35A position adjustment mechanism, 35Ru nip roller, 35Rd nip roller,
35d actuator, 35s sensor,
36 detection device, 36C imaging device, 36CN control unit,
37 Cushion sheet joining device (third processing device),
37D rotating drum, 37Ds outer peripheral surface,
38 CD direction position adjusting device (third position adjusting device),
38A position adjustment mechanism, 38Ru nip roller, 38Rd nip roller,
39 detection device, 39C imaging device, 39CN control unit,
41 feeding device, 41a rotating shaft,
43 Tension adjustment device, 43RD dancer roll,
43RSu fixed position roll, 43RSd fixed position roll,
45 leakproof sheet joining device (second processing device), 45D rotating drum, 45Ds outer peripheral surface,
47 Target tape joining device (second processing device),
47D rotating drum, 47Ds outer peripheral surface,
49 CD direction position adjusting device (second position adjusting device), 49A position adjusting mechanism,
49Ru nip roller, 49Rd nip roller, 49d actuator,
49s sensor,
111 joining apparatus, 111u press roll, 111d press roll,
112 leghole cutting device, 112u upper roll, 112d lower roll,
116 end cut device, 116u upper roll, 116d lower roll,
133 tension adjusting device,
133RSu roll, 133RSm roll, 133RSd roll,
133P support part, 133S sensor,
135 CD direction position adjustment device (position adjustment device),
136a roller, 136b roller, 136c, 136d roller,
137 sensor, 138 swing rotating member,
TB turn bar (conveyance direction changing member), CV belt conveyor,
L1a substrate treatment system, L2 absorber generation system,
L3a topsheet processing system, L3a 'topsheet processing system,
L3a '' top sheet processing system,
L3aK top sheet processing line (processing unit),
L3aK 'top sheet processing line (processing unit),
L3aK '' top sheet processing line (processing unit),
L3aS top sheet supply line,
L4a backsheet processing system, L4aK backsheet processing line (second processing section),
L4aS backsheet supply line (supply processing unit), LM production line,
C3ap center position, CL center line, C35A support shaft,
C49A support shaft, C138 support shaft,
Pj merge position, P1ac position,
P3a facing position (processing position, first processing position),
P3a2 facing position (third processing position),
P4a1 facing position (second processing position), P4a2 facing position (second processing position),
P5 predetermined position (second processing position),
P6 predetermined position (processing position, first processing position),
P7 predetermined position (second processing position), P8 predetermined position (third processing position),
P35 arrangement position (predetermined position, adjustment processing position, first adjustment processing position),
P36 imaging position (detection processing position),
P38 arrangement position (third adjustment processing position), P39 imaging position (third detection processing position),
P49 predetermined position, P112 predetermined position, P116 position,

The main invention for achieving the above object is:
A method for producing a sheet-like member according to an absorbent article based on a continuous sheet,
Supplying the continuous sheet by feeding the continuous sheet to the processing unit by conveying the continuous sheet with the continuous direction of the continuous sheet as the conveying direction;
A processing step in which the processing device of the processing unit at the processing position in the transport direction performs processing intermittently in the transport direction on each portion that becomes the absorbent article in the continuous sheet;
A position adjustment step performed by a position adjustment device at an adjustment processing position in the conveyance direction, the position adjustment step of adjusting the position of an end portion in the CD direction intersecting the conveyance direction in the continuous sheet in the CD direction;
A detection step of detecting a trace of the processing remaining on the continuous sheet and outputting a detection result at a detection processing position downstream of the processing position and the adjustment processing position in the transport direction, and
In the supplying step, the tension value in the transport direction of the continuous sheet when feeding to the processing unit based on the detection result is adjusted ,
When the continuous sheet is a first continuous sheet,
A second continuous sheet different from the first continuous sheet is transported along the continuous direction with the continuous direction being along the transport direction, and is joined downstream of the adjustment processing position in the transport direction. In the position, the joining device superimposes and joins the second continuous sheet to the first continuous sheet,
The rigidity value in the conveyance direction of the second continuous sheet is larger than the rigidity value in the conveyance direction of the first continuous sheet,
A second supply step of feeding and supplying the second continuous sheet to the second processing unit by transporting the second continuous sheet with the continuous direction of the second continuous sheet as the transport direction;
In the second processing position upstream of the merging position in the transport direction, the second processing device of the second processing section is in the transport direction with respect to each portion that becomes the absorbent article in the second continuous sheet. A second machining step of intermittently performing the second machining;
In the second position adjustment step performed by the second position adjustment device at the second adjustment processing position in the transport direction, the end in the CD direction intersecting the transport direction in the second continuous sheet is the target in the CD direction. The second position adjustment step of adjusting the position of the end portion to be a position,
In the second supply step, the tension value in the transport direction of the second continuous sheet when the second continuous sheet is fed to the second processing unit is maintained constant, and the method for producing a sheet-like member according to the absorbent article It is.
Also,
An apparatus for producing a sheet-like member according to an absorbent article based on a continuous sheet,
A supply processing unit that feeds and supplies the continuous sheet to a processing unit by conveying the continuous sheet with the continuous direction of the continuous sheet as a conveying direction;
A processing apparatus for intermittently processing in the transport direction for each part to be the absorbent article in the continuous sheet at a processing position in the transport direction in the processing unit;
A position adjusting device that adjusts the position of the end of the continuous sheet in the CD direction that intersects the transport direction in the transport direction at the adjustment processing position in the transport direction;
A detection device that detects a trace of the processing remaining on the continuous sheet and outputs a detection result at a detection processing position downstream in the transport direction from the processing processing position and the adjustment processing position;
The supply processing unit adjusts the tension value in the transport direction of the continuous sheet when the processing unit is fed based on the detection result ,
When the continuous sheet is a first continuous sheet,
The second continuous sheet different from the first continuous sheet is transported along the continuous direction while keeping the continuous direction along the transport direction, and at a merging position downstream of the adjustment processing position in the transport direction. The joining device overlaps and joins the second continuous sheet to the first continuous sheet,
The rigidity value in the conveyance direction of the second continuous sheet is larger than the rigidity value in the conveyance direction of the first continuous sheet,
A second supply processing unit that feeds and supplies the second continuous sheet to a second processing unit by conveying the second continuous sheet with the continuous direction of the second continuous sheet as a conveying direction;
At the second processing position upstream in the transport direction from the merging position in the second processing section, the second continuous sheet is intermittently moved in the transport direction with respect to each portion that becomes the absorbent article. A second processing device for performing two processing;
A second adjusting position of the second continuous sheet so that an end of the second continuous sheet intersecting the transport direction in the CD direction is a target position in the CD direction at a second adjustment processing position in the transport direction; A second position adjustment device that performs position adjustment,
The second supply processing unit maintains a constant tension value in the transport direction of the second continuous sheet when fed into the second processing unit, and manufactures a sheet-like member according to an absorbent article Device.
Other features of the present invention will become apparent from the description of the present specification and the accompanying drawings.

Claims (10)

A method for producing a sheet-like member according to an absorbent article based on a continuous sheet,
Supplying the continuous sheet by feeding the continuous sheet to the processing unit by conveying the continuous sheet with the continuous direction of the continuous sheet as the conveying direction;
A processing step in which the processing device of the processing unit at the processing position in the transport direction performs processing intermittently in the transport direction on each portion that becomes the absorbent article in the continuous sheet;
A position adjustment step performed by a position adjustment device at an adjustment processing position in the conveyance direction, the position adjustment step of adjusting the position of an end portion in the CD direction intersecting the conveyance direction in the continuous sheet in the CD direction;
A detection step of detecting a trace of the processing remaining on the continuous sheet and outputting a detection result at a detection processing position downstream of the processing position and the adjustment processing position in the transport direction, and
In the supplying step, a tension value in the transport direction of the continuous sheet when the sheet is fed into the processing unit is adjusted based on the detection result. It is a manufacturing method of the sheet-like member concerning the absorptive article according to claim 1,
When the detection result indicates that the position of the trace of processing is located downstream of the target position on the continuous sheet, the tension value is increased.
Absorbency characterized by reducing the tension value when the detection result indicates that the position of the trace of processing is located upstream of the target position in the transport direction. A method for producing a sheet-like member according to an article. It is a manufacturing method of the sheet-like member concerning the absorptive article according to claim 1 or 2,
The method for manufacturing a sheet-like member according to an absorbent article, wherein the adjustment processing position is located downstream of the processing position in the transport direction. It is a manufacturing method of the sheet-like member concerning the absorptive article according to claim 3,
When the continuous sheet is a first continuous sheet,
A second continuous sheet different from the first continuous sheet is transported along the continuous direction with the continuous direction being along the transport direction, and is joined downstream of the adjustment processing position in the transport direction. In the position, the joining device superimposes and joins the second continuous sheet to the first continuous sheet,
The method for producing a sheet-like member according to an absorbent article, wherein the detection processing position is located downstream of the joining position in the transport direction. It is a manufacturing method of the sheet-like member concerning the absorptive article according to any one of claims 1 to 4,
When the continuous sheet is a first continuous sheet,
A second continuous sheet different from the first continuous sheet is transported along the continuous direction with the continuous direction being along the transport direction, and is joined downstream of the adjustment processing position in the transport direction. In the position, the joining device superimposes and joins the second continuous sheet to the first continuous sheet,
The rigidity value in the conveyance direction of the second continuous sheet is larger than the rigidity value in the conveyance direction of the first continuous sheet,
A second supply step of feeding and supplying the second continuous sheet to the second processing unit by transporting the second continuous sheet with the continuous direction of the second continuous sheet as the transport direction;
In the second processing position upstream of the merging position in the transport direction, the second processing device of the second processing section is in the transport direction with respect to each portion that becomes the absorbent article in the second continuous sheet. A second machining step of intermittently performing the second machining;
In the second position adjustment step performed by the second position adjustment device at the second adjustment processing position in the transport direction, the end in the CD direction intersecting the transport direction in the second continuous sheet is the target in the CD direction. The second position adjustment step of adjusting the position of the end portion to be a position,
In the second supply step, the tension value in the transport direction of the second continuous sheet when the second continuous sheet is fed to the second processing unit is maintained constant, and the method for producing a sheet-like member according to the absorbent article . A method for manufacturing a sheet-like member according to any one of claims 1 to 5,
The processing, the processing position, the processing step, the processing device, the adjustment processing position, the position adjustment step, and the position adjustment device are respectively referred to as the first processing, the first processing processing position, and the first processing step. In the case of the first processing device, the first adjustment processing position, the first position adjustment step, and the first position adjustment device,
Each of the third processing devices serving as the absorbent article in the continuous sheet at a third processing position downstream of the first processing position and the first adjustment processing position in the transport direction in the processing section. A third machining step for intermittently performing a third machining on the part in the transport direction;
A third position adjustment step performed by a third position adjustment device at a third adjustment processing position downstream of the first processing position and the first adjustment processing position in the transport direction, the CD direction of the continuous sheet The third position adjusting step of adjusting the position of the end of the head in the CD direction;
The trace of the third processing remaining on the continuous sheet is detected at a third detection processing position downstream in the transport direction from the third processing processing position and the third adjustment processing position, and a third detection result is obtained. A third detection step for outputting,
The manufacturing method of the sheet-like member which concerns on the absorbent article characterized by shifting the timing which the said 3rd processing apparatus performs a said 3rd process based on a said 3rd detection result. It is a manufacturing method of the sheet-like member concerning the absorptive article according to any one of claims 1 to 6,
In the supplying step, a feeding device for feeding the continuous sheet from the material coil is used.
In the feeding device, the continuous sheet is fed and conveyed with the X direction as the feeding direction in plan view, and the processing unit uses the Y direction that intersects the X direction in plan view as the conveying direction. Being transported,
In the transport direction, the continuous sheet is wound around a rod-shaped transport direction changing member disposed at a position between the feeding device and the processing unit, so that the transport direction of the continuous sheet is the X direction. To the Y direction,
Manufacture of a sheet-like member according to an absorbent article, wherein a tension adjusting device for adjusting the tension value is disposed at a position between the transport direction changing member and the processing unit in the transport direction. Method. It is a manufacturing method of the sheet-like member concerning the absorptive article according to claim 7,
When the tension adjusting device is a downstream tension adjusting device,
For controlling the feeding operation of the feeding device between the feeding device and the conveyance direction changing member in the feeding direction so that a tension value of the continuous sheet fed from the feeding device becomes a predetermined value. The manufacturing method of the sheet-like member which concerns on the absorbent article characterized by the upstream tension adjusting device being arrange | positioned. A method for producing a sheet-like member according to any one of claims 1 to 8,
In the supplying step, a feeding device that feeds the continuous sheet from the material coil is used, and a tension adjusting device adjusts the tension value of the continuous sheet fed from the material coil. Supply to the processing section,
The tension adjusting device has a dancer roll guided so as to be movable in a predetermined direction,
The continuous sheet is looped around the dancer roll to form a loop of the continuous sheet, and the dancer roll has a size corresponding to a target value of the tension value of the continuous sheet by an actuator. Is applied in a direction in which the loop becomes larger in the predetermined direction,
The method for producing a sheet-like member according to an absorbent article, wherein the target value is changed based on the detection result. An apparatus for producing a sheet-like member according to an absorbent article based on a continuous sheet,
A supply processing unit that feeds and supplies the continuous sheet to a processing unit by conveying the continuous sheet with the continuous direction of the continuous sheet as a conveying direction;
A processing apparatus for intermittently processing in the transport direction for each part to be the absorbent article in the continuous sheet at a processing position in the transport direction in the processing unit;
A position adjusting device that adjusts the position of the end of the continuous sheet in the CD direction that intersects the transport direction in the transport direction at the adjustment processing position in the transport direction;
A detection device that detects a trace of the processing remaining on the continuous sheet and outputs a detection result at a detection processing position downstream in the transport direction from the processing processing position and the adjustment processing position;
The said supply process part adjusts the tension value of the said conveyance direction of the said continuous sheet at the time of sending to the said process part based on the said detection result, The manufacturing apparatus of the sheet-like member which concerns on the absorbent article characterized by the above-mentioned.

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