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WO2019107333A1 - Sheet-piece producing method, sheet-piece producing apparatus, and absorbent-body producing method - Google Patents

Sheet-piece producing method, sheet-piece producing apparatus, and absorbent-body producing method Download PDF

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Publication number
WO2019107333A1
WO2019107333A1 PCT/JP2018/043499 JP2018043499W WO2019107333A1 WO 2019107333 A1 WO2019107333 A1 WO 2019107333A1 JP 2018043499 W JP2018043499 W JP 2018043499W WO 2019107333 A1 WO2019107333 A1 WO 2019107333A1
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WO
WIPO (PCT)
Prior art keywords
sheet
narrow
cutting
cutting mechanism
manufacturing
Prior art date
Application number
PCT/JP2018/043499
Other languages
French (fr)
Japanese (ja)
Inventor
到 高濱
知之 茂木
優喜 加藤
Original Assignee
花王株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 花王株式会社 filed Critical 花王株式会社
Priority to RU2020120948A priority Critical patent/RU2774288C2/en
Priority to CN201880076656.8A priority patent/CN111417369B/en
Publication of WO2019107333A1 publication Critical patent/WO2019107333A1/en

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Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61FFILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
    • A61F13/00Bandages or dressings; Absorbent pads
    • A61F13/15Absorbent pads, e.g. sanitary towels, swabs or tampons for external or internal application to the body; Supporting or fastening means therefor; Tampon applicators
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61FFILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
    • A61F13/00Bandages or dressings; Absorbent pads
    • A61F13/15Absorbent pads, e.g. sanitary towels, swabs or tampons for external or internal application to the body; Supporting or fastening means therefor; Tampon applicators
    • A61F13/53Absorbent pads, e.g. sanitary towels, swabs or tampons for external or internal application to the body; Supporting or fastening means therefor; Tampon applicators characterised by the absorbing medium
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D1/00Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor
    • B26D1/01Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work
    • B26D1/12Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a cutting member moving about an axis
    • B26D1/14Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a cutting member moving about an axis with a circular cutting member, e.g. disc cutter
    • B26D1/22Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a cutting member moving about an axis with a circular cutting member, e.g. disc cutter coacting with a movable member, e.g. a roller
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D1/00Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor
    • B26D1/01Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work
    • B26D1/12Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a cutting member moving about an axis
    • B26D1/25Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a cutting member moving about an axis with a non-circular cutting member
    • B26D1/34Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a cutting member moving about an axis with a non-circular cutting member moving about an axis parallel to the line of cut
    • B26D1/40Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a cutting member moving about an axis with a non-circular cutting member moving about an axis parallel to the line of cut and coacting with a rotary member
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H35/00Delivering articles from cutting or line-perforating machines; Article or web delivery apparatus incorporating cutting or line-perforating devices, e.g. adhesive tape dispensers
    • B65H35/04Delivering articles from cutting or line-perforating machines; Article or web delivery apparatus incorporating cutting or line-perforating devices, e.g. adhesive tape dispensers from or with transverse cutters or perforators
    • B65H35/08Delivering articles from cutting or line-perforating machines; Article or web delivery apparatus incorporating cutting or line-perforating devices, e.g. adhesive tape dispensers from or with transverse cutters or perforators from or with revolving, e.g. cylinder, cutters or perforators

Definitions

  • the present invention relates to a method of continuously producing a plurality of sheet pieces of the intended size, and a method of producing an absorbent containing the sheet pieces.
  • Patent Document 1 describes an absorbent body comprising hydrophilic fibers and non-woven fabric pieces as an aggregate of synthetic fibers, and, as a method of producing the absorbent body, bonding fibers to each other There is described a manufacturing method comprising the steps of: grinding a non-woven fabric having a three-dimensional structure to obtain non-woven fabric pieces by a cutter mill method; and mixing the non-woven fabric pieces with hydrophilic fibers.
  • Patent Document 2 uses a slitter device that performs a corresponding number of slit cuts on an object to be cut with a predetermined number of slitter blades provided on a shaft axis, in the direction perpendicular to the sheet conveying direction. It is described to cut and separate into multiple rows.
  • the present invention is directed to a first cutting process of obtaining a plurality of strip-like narrow sheets by transporting the strip-like material sheet in one direction and cutting the material sheet along the transport direction by the first cutting mechanism.
  • the second cutting mechanism is configured to include a cutter roll rotatably supported around an axis and having a cutter blade on a circumferential surface, and an anvil roll disposed to face the cutter roll.
  • the second cutting step is performed by introducing the narrow sheet between the cutter roll rotating about an axis and the anvil roll.
  • this invention is a manufacturing method of the absorber containing a several sheet piece. It is a manufacturing method of an absorber which has a process of carrying and accumulating a sheet piece manufactured by a manufacturing method of a sheet piece of the above-mentioned present invention by a flow of air to a predetermined accumulation part.
  • a first cutting mechanism for forming a plurality of strip-like narrow sheets by cutting the strip-like raw material sheet in one direction while cutting the raw-material sheet along the transport direction;
  • the narrow sheet formed on the downstream side of the conveying direction with respect to the first cutting mechanism and cut by the first cutting mechanism is cut in the conveying crossing direction intersecting the conveying direction to form a plurality of strip-shaped sheet pieces It is a manufacturing apparatus of a sheet piece provided with the 2nd cutting mechanism to form.
  • the second cutting mechanism includes a cutter roll rotatably supported about an axis and having a cutter blade on a circumferential surface, and an anvil roll disposed opposite to the cutter roll, and both rolls rotating about an axis
  • the narrow sheet introduced therebetween is configured to be cut in the conveyance cross direction. It is a manufacturing apparatus of a sheet piece in which the peripheral speed of the said cutter roll is quicker than the introduction speed of the said narrow sheet
  • FIG. 1 is a schematic perspective view of an embodiment of an absorbent body produced by the method for producing an absorbent body of the present invention.
  • FIG. 2 is a schematic perspective view of a manufacturing apparatus that can be used to carry out the method of manufacturing an absorbent according to the present invention.
  • FIG. 3 is a schematic configuration view of a second supply mechanism (sheet piece manufacturing apparatus) included in the manufacturing apparatus shown in FIG.
  • FIG. 4 is an explanatory view of a method of cutting a raw material sheet performed by the second supply mechanism shown in FIG. 3.
  • FIG. 5 is an explanatory view of a method of cutting a narrow sheet by a cutter roll in the second cutting mechanism shown in FIG. 3.
  • FIG. 3 is a schematic configuration view of a second supply mechanism (sheet piece manufacturing apparatus) included in the manufacturing apparatus shown in FIG.
  • FIG. 4 is an explanatory view of a method of cutting a raw material sheet performed by the second supply mechanism shown in FIG. 3.
  • FIG. 5 is an explanatory view of a method of cutting a narrow
  • FIG. 6 is a schematic configuration view of another embodiment of the second supply mechanism (sheet piece manufacturing apparatus) included in the manufacturing apparatus shown in FIG.
  • FIG. 7 is an explanatory view of a narrow sheet cutting method according to another embodiment of the cutter roll in the second cutting mechanism shown in FIG. 3;
  • Patent Document 1 when a nonwoven fabric is manufactured by crushing a nonwoven fabric using a cutter mill method, it is difficult to form a nonwoven fabric piece of a desired size, and it is possible to use the intended size. Variations occur. As a result, unevenness occurs in the structure of the absorbent body including the non-woven fabric piece formed, which may cause a feeling of foreign matter during use.
  • a method capable of continuously producing a plurality of sheet pieces of the intended size there is mentioned a method (cross cut) of cutting an object to be cut in two cutting directions crossing each other.
  • a plurality of strip-like narrow sheets are first subjected to slit cutting as the first cutting using a known slitter as described in Patent Document 2 with respect to the non-woven fabric as the raw material sheet.
  • the plurality of narrow sheets are supplied to a cutter roll provided with a cutter blade extending in the slit direction, that is, in the direction intersecting with the conveyance direction of the raw material sheet, and the second cutting is performed.
  • the present inventors variously examined such non-woven cloth cross-cuts, it is possible that cutting defects may occur particularly in the second cutting step of cutting a strip narrow sheet in the transport direction. It turned out to be.
  • the present invention includes a method for producing a sheet piece, an apparatus for producing the sheet piece, and a production method for the sheet piece, in which cutting defects of the sheet are suppressed and a plurality of sheet pieces of the intended size can be efficiently produced continuously.
  • the present invention relates to providing a method of producing an absorbent.
  • FIG. 1 shows an absorber 10 which is an embodiment of an absorber produced by the method for producing an absorber of the present invention.
  • the absorbent body 10 includes a plurality of sheet pieces 11 and hydrophilic fibers 12.
  • Each of the plurality of sheet pieces 11 is a fiber assembly in which a plurality of fibers are integrated. As described later, the sheet piece 11 is manufactured by so-called cross cutting in which a raw material sheet having a predetermined size is cut in two cutting directions crossing each other (see FIG. 4). Due to the method of manufacturing such a sheet piece, the absorbent body 10 has a point that the plurality of sheet pieces 11 contained therein have a certain size.
  • each of the plurality of sheet pieces 11 has a rectangular parallelepiped shape, has a rectangular surface in a plan view, and has a longitudinal direction and a lateral direction.
  • the size of the sheet piece 11 affects the characteristics such as the cushioning property of the absorbent body 10 to some extent.
  • the average length of the sheet piece 11 is preferably 0.3 mm or more and 30 mm or less, more preferably 1 mm or more and 15 mm or less, and particularly preferably 2 mm or more and 10 mm or less.
  • the “average length of the sheet piece” mentioned here means that, in the case where the sheet piece 11 has a rectangular parallelepiped shape, the four long sides (longer than the other sides) extending in the longitudinal direction (long-axis direction) When the sheet piece 11 is cubic, it means the average value of the length of all the sides which define the cube.
  • the average width of the sheet piece 11 is preferably 0.1 mm or more and 10 mm or less, more preferably 0.3 mm or more and 6 mm or less, and particularly preferably 0.5 mm or more and 5 mm or less.
  • the “average width of the sheet piece” as used herein refers to a plurality of short sides (other sides) extending in a direction (short direction) orthogonal to the longitudinal direction (long axis direction) when the sheet piece 11 has a rectangular parallelepiped shape. This means the average value of the lengths of relatively shorter sides), and in the case of the sheet piece 11 having a cubic shape, it is the same as the “average length of the sheet piece” described above. That is, when the sheet piece 11 has a cubic shape, the average length and the average width are the same.
  • the absorbent body 10 When the average length of the sheet piece 11 is 0.3 mm or more and / or the average width is 0.1 mm or more, a loose structure is easily formed in the absorbent body 10, and the cushioning property is excellent.
  • the absorbent body 10 when the absorbent body 10 is used by incorporating it into an absorbent article such as a disposable diaper when the average length of the sheet piece 11 is 30 mm or less and / or the average width is 10 mm or less, the wearer of the absorbent article It is hard to give a sense of incongruity due to the absorber 10, and furthermore, it is difficult to make the absorption performance uneven depending on the position in the absorber 10.
  • a non-water absorbing synthetic resin can be illustrated as a raw material of the constituent fiber of the sheet piece 11, For example, polyethylene, a polypropylene, a polyethylene terephthalate etc. are mentioned.
  • the constituent fibers of the sheet piece 11 are typically short fibers consisting of one or more of these synthetic resins.
  • hydrophilic fibers 12 used in combination with the sheet piece 11 in the absorbent body 10 various types of fibers conventionally used in absorbent bodies for absorbent articles can be used without particular limitation.
  • pulp fibers, Rayon fibers, cotton fibers and the like can be mentioned.
  • the absorbent body 10 may further contain a water absorbing polymer, and as the water absorbing polymer, various materials conventionally used for an absorbent for absorbent articles can be used without particular limitation. Moreover, in this embodiment, as shown in FIG. 1, although the some sheet piece 11 is uniformly disperse
  • the absorbent body 10 is suitably used as a component of an absorbent article.
  • the absorbent articles mentioned here widely include articles used for absorbing body fluid (urine, soft stools, menstrual blood, sweat, etc.) discharged from the human body, and so-called unfolded disposable diapers having a fastening tape, pants type Disposable diapers, sanitary napkins, sanitary shorts, incontinence pads and the like.
  • the absorbent in the absorbent article typically comprises a liquid absorbent absorbent core and a liquid permeable core wrap sheet that covers the outer surface of the absorbent core, and the absorbent 10 is this absorbent. It can be used as a core.
  • As the core wrap sheet paper, non-woven fabric or the like can be used.
  • the absorber 10 does not need to contain a core wrap sheet, and in that case, an absorbent core is used for an absorbent article as the absorber 10 as it is.
  • An absorbent article having an absorbent body 10 typically has a liquid-permeable top sheet which can come into contact with the wearer's skin when worn, a liquid-impermeable to water-repellent back sheet, and a gap between these both sheets. And a liquid-retaining absorber disposed in between.
  • As the surface sheet various non-woven fabrics or porous synthetic resin sheets can be used, and as the back surface sheet, a synthetic resin film made of polyethylene, polypropylene, polyvinyl chloride or the like, or a composite of a synthetic resin film and non-woven fabric Materials and the like can be used.
  • the absorbent article may further include various members according to the specific use of the absorbent article. Such components are known to those skilled in the art. For example, when the absorbent article is applied to a disposable diaper or a sanitary napkin, one or two or more pairs of three-dimensional guards can be disposed on the left and right sides of the top sheet.
  • FIGS. 2 and 3 show a manufacturing apparatus (stacking apparatus) 1 that can be used to carry out the above-described method of manufacturing the absorbent body 10.
  • the method of manufacturing the absorbent body 10 includes the step of manufacturing the sheet piece 11 and the accumulation step of conveying and accumulating the plurality of sheet pieces 11 manufactured in the manufacturing step to a predetermined accumulation portion by an air flow.
  • the manufacturing apparatus 1 includes a rotating drum 2 in which an accumulation recess 22 as an accumulation portion is formed on an outer peripheral surface 2 f, and a duct 3 having a flow passage 30 for conveying the raw material of the absorber 10 on the outer peripheral surface 2 f.
  • the raw material carried on the air flow (vacuum air) generated in the flow path 30 by suction from the inside of the rotary drum 2 while rotating the rotary drum 2 around the rotary shaft along the drum circumferential direction 2Y Is made to be accumulated in the accumulation recess 22.
  • a first supply mechanism 4 and a second supply mechanism 5 are respectively connected to the duct 3 as a supply mechanism of the raw material (fiber material) of the absorber 10.
  • a vacuum conveyor 6 which receives the accumulated material of the raw material released from the accumulation recess 22, ie, the absorbent body 10 and conveys it to the next process.
  • a pressing belt 7 for pressing the accumulated material in the accumulation recess 22 is disposed along the outer peripheral surface 2 f of the rotary drum 2.
  • the presser belt 7 is an endless, breathable or non-breathable belt, and is stretched over the rolls 71 and 72 so as to move along with the rotation of the rotary drum 2.
  • the rotary drum 2 includes a cylindrical drum main body 20 made of a rigid metal body and an outer peripheral member 21 disposed on the outer peripheral portion of the drum main body 20 so as to form an outer peripheral surface 2 f of the rotary drum 2. ing.
  • the outer peripheral member 21 receives power from a prime mover such as a motor and rotates in the direction R1 along the drum circumferential direction 2Y about the horizontal rotation axis as a rotation center, but the drum main body disposed inside the outer peripheral member 21 20 is fixed and does not rotate. Both ends in the drum width direction Y of the drum main body 20 are airtightly sealed by a side wall not shown and a sealing material such as felt.
  • the outer peripheral member 21 is a bottom of the accumulation recess 22, that is, the air permeable porous plate 23 which forms the pile surface of the raw material, and the air permeability which forms a portion other than the pile surface in the outer peripheral surface 2 f of the rotary drum 2.
  • the pattern forming plate 24 has an annular shape extending continuously along the entire length in the drum circumferential direction 2Y, and a pair of pattern forming plates 24 is provided at both ends in the rotational axis direction of the rotary drum 2. Between the plates 24, 24, the porous plate 23 is located.
  • the porous plate 23 transmits an air flow generated by suction from the inside of the apparatus (inward of the rotating drum 2) to the outside of the apparatus (outward of the rotating drum 2), and is carried on the air flow It is a breathable plate that holds raw materials without permeation and allows only air to permeate.
  • a large number of suction holes penetrating the porous plate 23 in the thickness direction are formed in the entire porous plate 23, and the accumulation recess 22 is located on the space maintained at a negative pressure in the rotary drum 2.
  • the suction holes function as air flow passage holes.
  • porous plate 23 for example, a mesh plate made of metal or resin, or a plate made of metal or resin, in which a large number of pores are formed by etching, punching or the like can be used.
  • pattern forming plate 24 for example, a plate made of metal such as stainless steel or aluminum or resin can be used.
  • the inside of the drum main body 20 is divided into a plurality of spaces A, B, and C in the drum circumferential direction 2Y.
  • a pressure reducing mechanism (not shown) for reducing the pressure inside is connected to the drum body 20.
  • the decompression mechanism includes an exhaust pipe (not shown) connected to a side wall (not shown) constituting the drum main body 20 and an exhaust fan (not shown) connected to the exhaust pipe.
  • the plurality of spaces A, B and C in the drum main body 20 are independent of each other, and the negative pressure (suction force) of the plurality of spaces can be independently adjusted by the pressure reducing mechanism.
  • the rotary drum 2 has a predetermined range in the drum circumferential direction 2Y, specifically, a space A in which the outer peripheral portion is covered with the duct 3, a stacking zone in which stacking of raw materials can be performed by suction from inside. It is done.
  • the outer peripheral member 21 is rotated around the rotation axis in a state in which the space A is maintained at a negative pressure, the accumulation concave 22 formed in the outer peripheral member 21 passes over the space A.
  • the negative pressure in the space A acts on the bottom (the porous plate 23), and suction of air is performed through a large number of suction holes formed in the bottom.
  • the space B of the rotary drum 2 is normally set to a negative pressure or pressure (zero atmospheric pressure) weaker than the space A, and the space C is the transfer position of the fiber material in the accumulation recess 22 and its The pressure is set to zero or positive pressure because it is an area including front and back.
  • the vacuum conveyor 6 is disposed at a position opposed to the endless air-permeable belt 63 stretched over the driving roll 61 and the driven roll 62 and the area where the space C of the rotary drum 2 exists with the air-permeable belt 63 interposed therebetween. And a vacuum box 64.
  • a band-shaped core wrap sheet 10W is introduced onto the air-permeable belt 63, and the absorbent material 10 as a piled fiber released from the accumulation recess 22 is delivered onto the core wrap sheet 10W.
  • the duct 3 extends continuously from the first supply mechanism 4 to the rotary drum 2, and includes an opening on the upstream side and a downstream side (rotary drum 2 side) in the raw material supply direction. There is an opening, and a flow path 30 of the raw material exists between these two openings.
  • the top plate of the duct 3 is provided with a polymer scattering pipe 31 for supplying water absorbing polymer particles to the flow path 30. When the absorbent body 10 contains water absorbing polymer particles, this polymer scattering pipe 31 is used .
  • the absorbent body 10 contains two types of sheet pieces 11 and hydrophilic fibers 12 as a fiber material, and the manufacturing apparatus 1 correspondingly ducts the hydrophilic fibers 12 as a fiber material supply mechanism.
  • a first supply mechanism 4 hydrophilic fiber manufacturing device
  • a second supply mechanism 5 sheet piece manufacturing device
  • the first supply mechanism 4 (hydrophilic fiber producing device) is disposed at the opening of the duct 3 opposite to the rotary drum 2 side.
  • the first feeding mechanism 4 is configured in the same manner as the feeding mechanism of the fiber material in the fiber laying device such as this type of pulp fiber, and is disintegrated to break up the strip-like raw material sheet 10as in which a plurality of hydrophilic fibers 12 are accumulated.
  • a fiber machine 41 is provided.
  • the 2nd supply mechanism 5 (sheet piece manufacturing apparatus) is expanded and schematically shown by FIG.
  • the second supply mechanism 5 is an apparatus for manufacturing and supplying the rectangular or cubic sheet piece 11, and as shown in FIG. 4, a strip-like raw material sheet 10bs composed of constituent fibers (synthetic fibers) of the sheet piece 11 is shown.
  • a mechanism 5B As raw material sheet 10bs, the nonwoven fabric by various manufacturing methods can be illustrated.
  • the “first direction D1”, which is one of the cutting directions of the raw material sheet 10bs, corresponds to the conveyance direction MD of the raw material sheet 10bs in the second supply mechanism 5, and the angle between the first direction D1 and the conveyance direction MD. Is less than 45 degrees.
  • the first direction D1 coincides with the transport direction MD, and the angle between the two directions D1 and MD is zero.
  • the second direction D2 which is another one of the cutting direction of the raw material sheet 10bs is a direction intersecting the first direction D1, and in the illustrated embodiment, the first direction D1 (conveying direction MD)
  • the second direction D2 is orthogonal to the second direction D2, and the angle between the two directions D1 and D2 is 90 degrees.
  • a direction indicated by a code CD in FIG. 2 is a conveyance orthogonal direction orthogonal to the conveyance direction MD, and is a direction parallel to the rotation axes of various rolls included in the rotary drum 2 and the manufacturing apparatus 1. In the form, it coincides with the width direction (direction orthogonal to the longitudinal direction) of each of the long band shaped absorbent material 10 as the accumulated fiber and the long band shaped raw material sheet 10as, 10bs, and also coincides with the second direction D2. There is.
  • the first cutting mechanism 5A includes a cutter roll 51 and an anvil roll 52, as shown in FIGS.
  • the two rolls 51 and 52 each have a substantially cylindrical shape, are rotatably supported about the rotation axis, and are arranged to rotate in opposite directions with the circumferential surfaces facing each other while aligning their rotation axes in parallel. It is done. While the cutter blade 51C is disposed on the circumferential surface of the cutter roll 51, the circumferential surface of the receiving roller 52 is smooth because the cutter blade is not disposed.
  • the cutter blade 51C of the cutter roll 51 corresponds to the cutting direction so as to cut the material to be cut (raw material sheet 10bs) in the transport direction MD (first direction D1).
  • the 2nd cutting mechanism 5B is comprised including the cutter roll 53 and the anvil roll 54, as shown in FIG.2 and FIG.3.
  • the two rolls 53 and 54 are rotatably supported around their respective rotation axes, and arranged so that their circumferential surfaces face each other and rotate in opposite directions while aligning their rotation axes in parallel.
  • the cutter blade 53C is disposed on the circumferential surface of the cutter roll 53
  • the circumferential surface of the receiving roller 54 is smooth without the cutter blade being disposed.
  • the cutter blade 53C of the cutter roll 53 corresponds to the cutting direction so as to cut the object to be cut (the narrow sheet 10bt) in the conveyance orthogonal direction CD (second direction D2).
  • the manufacturing method of the sheet piece 11 using the manufacturing apparatus 1 of the above structures is demonstrated with the manufacturing method of the absorber 10 using this manufacturing method.
  • a sheet piece manufacturing process for obtaining the sheet piece 11 by cutting (cross-cutting) the strip-like raw material sheet 10bs, and conveying and accumulating the sheet piece 11 to a predetermined accumulation portion by air flow And an accumulation step.
  • the said sheet piece manufacturing process is a process implemented according to the manufacturing method of the sheet piece of this invention. First, the sheet piece manufacturing process will be described.
  • the sheet piece manufacturing process in the method of manufacturing the absorbent body 10 of the present embodiment is performed by the second supply mechanism 5 and, as shown in FIGS.
  • the strip-like raw material sheet 10bs in which the fibers (synthetic fibers) are accumulated is cut in a first direction D1 (conveying direction MD) along the longitudinal direction of the raw material sheet 10bs to obtain a plurality of strip-like narrow sheets 10bt
  • the sheet pieces 11 are manufactured by cutting the plurality of narrow sheets 10bt in the second direction D2 (conveying orthogonal direction CD) intersecting (in the illustrated embodiment, "orthogonal") in the first direction D1.
  • the sheet material 10bs is conveyed by the first cutting mechanism 5A while the strip-like raw material sheet 10bs is conveyed in one direction.
  • the raw material sheet 10bs being conveyed is transferred to the cutting portion 50A which is the closest portion of the rolls 51 and 52 between the cutter roll 51 and the anvil roll 52 of the first cutting mechanism 5A.
  • the plurality of narrow sheets 10bt extending in the same direction D1 are manufactured by cutting in the first direction D1 (see FIG. 4) which is the longitudinal direction of the sheet 10bs and is also the transport direction MD by the cutter blade 51C. Cutting process).
  • the said 1st cutting process is implemented by introduce
  • the average width of the narrow sheets 10bt formed in the first cutting step (the average value of the lengths of the plurality of narrow sheets 10b in the conveyance orthogonal direction CD) is necessary for the sheet piece 11 to exhibit a predetermined effect. From the viewpoint of securing such dimensions, it is preferably 0.1 mm or more and 10 mm or less, more preferably 0.3 mm or more and 6 mm or less, and particularly preferably 0.5 mm or more and 5 mm or less.
  • the width of the narrow sheet 10bt (the length in the conveyance orthogonal direction CD) cut by the cutter roll 51 of the first cutting mechanism 5A is the width of the sheet piece 11 finally formed. It corresponds to the side length of the direction.
  • the width of the narrow sheet 10bt cut by the cutter roll 51 of the first cutting mechanism 5A is cut so as to correspond to the length of the longitudinal side of the sheet piece 11 finally formed.
  • the average width of the narrow sheet 10bt cut by the cutter roll 51 in that case is preferably 0.3 mm or more and 30 mm or less, more preferably 1 mm or more and 15 mm or less, and 2 mm or more and 10 mm or less Is particularly preferred.
  • the plurality of narrow sheets 10bt manufactured in this manner are conveyed to the second cutting mechanism 5B in a state of being arranged in parallel in the conveyance orthogonal direction CD.
  • the plurality of strip-like narrow sheets 10bt manufactured in the first cutting step are both rolls between the cutter roll 53 and the anvil roll 54 of the second cutting mechanism 5B.
  • the cutting portion 50B which is the closest portion of 53 and 54, it is cut by the cutter blade 53C in the second direction D2 (see FIG. 4) which is the width direction of the narrow sheet 10bt and the transport orthogonal direction CD.
  • a plurality of sheet pieces 11 having a predetermined length in the direction D2 are manufactured (second cutting step).
  • FIG. 5 shows how a plurality of sheet pieces 11 are manufactured by cutting a plurality of narrow sheets 10bt traveling in parallel in the transport orthogonal direction CD by the cutter roll 53 in the second cutting mechanism 5B in the transport orthogonal direction CD.
  • the second cutting step is performed by introducing the narrow sheet 10bt between the cutter roll 53 rotating around the rotation axis and the anvil roll 54 (cut portion 50B).
  • reference numeral 530 indicates a roll main body of the cutter roll 53
  • reference numeral 531 indicates a rotation axis of the cutter roll 53.
  • the other rolls 51, 52, 54 in the second supply mechanism 5 also have a roll main body and a rotating shaft.
  • the raw material sheet 10bs is cut into a gauze shape as shown in FIG.
  • the plurality of sheet pieces 11 have a rectangular parallelepiped shape or a cubic shape.
  • the average length of the sheet pieces 11 formed in the second cutting step is that the sheet pieces 11 have a predetermined effect.
  • the length of the sheet piece 11 cut by the cutter roll 53 of the second cutting mechanism 5B corresponds to the length of the side of the sheet piece 11 in the longitudinal direction.
  • the length of the sheet piece 11 cut by the cutter roll 53 of the second cutting mechanism 5B may be cut so as to correspond to the length of the short side of the sheet piece 11, in that case
  • the length (width) of the sheet piece 10bh cut by the cutter roll 53 of the second cutting mechanism 5B is preferably 0.1 mm or more and 10 mm or less, and further preferably 0.3 mm or more and 6 mm or less Preferably, it is 0.5 mm or more and 5 mm or less.
  • the second supply mechanism 5 is completed.
  • the plurality of sheet pieces 11 manufactured in the first embodiment and the hydrophilic fibers 12 manufactured in the first supply mechanism 4 are accumulated in the accumulation recess 22 as the accumulation portion formed on the outer peripheral surface 2 f of the rotating drum 2 (Accumulation process).
  • the plurality of sheet pieces 11 manufactured in the sheet piece manufacturing process are supplied to the flow path 30 in the duct 3 by the suction nozzle 8 and flow from the first supply mechanism 4 toward the rotary drum 2 It mixes with the hydrophilic fiber 12 which has scattered the path
  • the suction nozzle 8 is open at both ends in the length direction, and one of the openings 81 is near the cutting portion 50B which is the closest portion between the cutter roll 53 of the second cutting mechanism 5B and the anvil roll 54. , And communicates with the flow passage 30 in the duct 3 at the other opening (not shown).
  • the plurality of sheet pieces 11 manufactured between the cutter roll 53 and the anvil roll 54 are taken into the suction nozzle 8 through the opening 81 and supplied into the duct 3.
  • the connection position of the suction nozzle 8 and the duct 3 is between the rotary drum 2 and the first supply mechanism 4 as shown in FIG. It is the position of the side.
  • the polymer dispersion tube 31 (see FIG. 2) disposed in the duct 3 is used to flow the water absorbent polymer particles in the duct 3 in the accumulation step. It is supplied to the passage 30 and placed in the air flow flowing in the flow passage 30 toward the accumulation recess 22, and together with the sheet piece 11 and the hydrophilic fiber 12 separately supplied in the flow passage 30, the accumulation recess 22 Stacked
  • the 2nd cutting process in the 2nd supply mechanism 5 which cross-cuts the raw material sheet 10bs, ie
  • the narrow sheet 10bt is cut It is possible that a defect occurs and that the narrow sheet 10bt is not cut at a predetermined position but is conveyed to a predetermined accumulation portion in a long strip-like state, or a disadvantage such as winding around each portion of the manufacturing apparatus 1 such as the cutter roll 53 is generated.
  • the narrow sheet 10bt which is the object to be cut in the second cutting step, extends from the cutting portion 50A of the first cutting mechanism 5A to just before the cutting portion 50B of the second cutting mechanism 5B.
  • the narrow sheet 10bt after being cut in the conveyance orthogonal direction CD for the first time by the cutting section 50B and being cut out of the first sheet piece although it is continuous in the conveyance direction MD and given a constant tension. Since the cut end is in a non-fixed state, the tension is insufficient. Therefore, when the cutter blade 53C is worn and deteriorated due to long-term use, it is presumed that a cutting defect easily occurs.
  • the peripheral speed V1 (see FIG. 3) of the cutter roll 53 is the introduction speed V0 (see FIG. 3) between the cutter roll 53 and the anvil roll 54 of the narrow sheet 10bt (see FIG. 3). It is made faster than that, that is, the magnitude relation that "the peripheral velocity V1 of the cutter roll> the introduction velocity V0 of the object to be cut" is established.
  • the strip-like narrow sheet 10bt to be cut is given sufficient tension to cut it in the direction intersecting with the transport direction MD, and the thin sheet by the second cutting mechanism 5B
  • the width sheet 10bt can be stably cut, and the plurality of sheet pieces 11 of uniform size can be continuously and efficiently manufactured.
  • the ratio of the peripheral velocity V1 to the introduction velocity V0 is preferably 1.1 or more, more preferably 1.2 or more, and preferably 4.0 or less, more preferably V1 or V0, assuming V1> V0. Is less than 3.5.
  • the peripheral velocity V1 of the cutter roll 53 and the introduction velocity V0 of the narrow sheet 10bt are not particularly limited, respectively, and may be appropriately adjusted according to the type, physical properties, etc. of the narrow sheet 10bt.
  • the peripheral velocity V and the introduction velocity V0 can be set as follows.
  • Peripheral speed V1 preferably 30 m / min or more, more preferably 50 m / min or more, and preferably 1000 m / min or less, more preferably 500 m / min or less.
  • the introduction speed V0 is the same as the setting value of the peripheral speed V1. It can be set by the relationship between the peripheral velocity V1 and the introduction velocity V0.
  • the narrow sheet 10bt is placed between the first cutting mechanism 5A and the second cutting mechanism 5B.
  • a feed mechanism 5C for feeding out from the upstream side to the downstream side of the transport direction MD is disposed, and the introduction speed V0 is adjusted by the feed mechanism 5C.
  • the feeding speed of the narrow sheet 10bt by the feed mechanism 5C is usually the same as the introduction speed V0 of the narrow sheet 10bt to the cutter roll 53 (the second cutting mechanism 5B).
  • the delivery speed of the narrow sheet 10bt by the feed mechanism 5C means the speed on the surface of the delivered narrow sheet 10bt.
  • the feed mechanism 5C is configured to include a pair of rotating rolls 55, 55 disposed opposite to each other across the sheet conveyance path, and the narrow sheet 10bt introduced between the two rolls 55, 55 is It is configured to be sandwiched by both rolls 55, 55 and sent out to the downstream side in the transport direction MD.
  • the feed mechanism 5C contacts and sends out the narrow sheet 10bt at the closest portion (nip portion) between the rolls 55 and 55, and the closest portion is the narrow sheet 10bt and the narrow sheet 10bt.
  • Contact portion 50C One of the two rolls 55, 55 may be connected to the drive source, and may be a drive roll that can rotate alone about the rotation axis, and the other may be a co-rolling roll that can not rotate around the axis. Both may be drive rolls.
  • a separation distance L2 (see FIG. 3) along the sheet conveyance path between them is a separation distance L1 along the sheet conveyance path between the contact portion 50C and the cutting portion 50B of the narrow sheet 10bt in the first cutting mechanism 5A. It is preferable to be shorter than (see FIG. 3).
  • the ratio of the separation distances L1 and L2 is preferably 0.8 or less, and more preferably 0.5 or less as L2 / L1, on the assumption that L1> L2.
  • a tension adjustment process is provided to adjust the tension of the raw material sheet 10bs.
  • the tension adjustment mechanism 5D is disposed in the sheet conveyance path on the upstream side of the first cutting mechanism 5A in the conveyance direction MD, and the tension adjustment mechanism 5D tensions the raw material sheet 10bs.
  • the tension at the time of conveyance of the narrow sheet 10bt formed by cutting the raw material sheet 10bs in the conveyance direction MD is stabilized by adjusting.
  • the tension adjusting mechanism 5D includes two fixed rolls 59A, 59A intermittently arranged in the transport direction MD, and a dancer roll 59B arranged between the both rolls 59A, 59A. ing.
  • the dancer roll 59B is movable between the two rolls 59A, 59A in a direction approaching the raw material sheet 10b being conveyed, and is also movable in the opposite direction to the approaching direction.
  • By moving the dancer roll 59B between the two rolls 59A, 59A in a direction approaching the raw material sheet 10bs being conveyed the raw material sheet 10bs is pressed by the roll 59B, and the tension of the raw material sheet 10bs increases. Further, by moving in the opposite direction to the approaching direction, the tension is reduced.
  • Such moving mechanism of the dancer roll 59B can be configured in the same manner as in the known dancer roll.
  • FIG. 6 Another embodiment of the second supply mechanism 5 provided in the manufacturing apparatus 1 is shown in FIG.
  • the second supply mechanism 5 shown in FIG. 6 differs from the second supply mechanism 5 shown in FIG. 3 in the configuration of the feed mechanism 5C.
  • the feed mechanism 5C in the second supply mechanism 5 shown in FIG. 6 includes a pair of rotary belts 56, 56 disposed opposite to each other across the sheet conveyance path, and the narrow width introduced between both belts 56, 56
  • the sheet 10bt is moved by a predetermined distance in the same direction as the narrow sheet 10bt while holding the sheet 10bt between the belts 56 and 56, and thereafter, the narrow sheet 10bt is fed to the downstream side in the transport direction MD.
  • the pair of rotary belts 56 and 56 are respectively endless belts and are wound around a plurality of (two) rotary rolls 57 and 57 intermittently arranged in the conveyance direction MD along the sheet conveyance path.
  • a dancer roll 58 for adjusting the tension of the rotating belt 56 is disposed in the vicinity of each rotating belt 56.
  • the dancer roll 58 is movable in the direction approaching the rotating belt 56 and is also movable in the opposite direction to the approaching direction, and the rotation of the dancer roll 58 is adjusted by adjusting the moving direction and the amount of movement of the roll 58.
  • a feed mechanism not only the said embodiment but a vacuum conveyor provided with a suction device which makes the rotation belt and the narrow sheet 10bt adsorb
  • FIG. 7 shows another embodiment of the cutter roll 53 in the second cutting mechanism 5B included in the manufacturing apparatus 1.
  • the cutter blade 53C of the cutter roll 53 extends parallel to the rotation axis direction (the conveyance orthogonal direction CD) of the roll 53, but in the embodiment shown in FIG. It has a portion extending in a direction intersecting with the 53 rotational axis direction.
  • the plurality of cutter blades 53 ⁇ / b> C disposed on the circumferential surface extend in a direction intersecting with the rotational axis direction of the roll 53 without intersecting in plan view. It has a straight shape, and the entire cutter blade 53C extends in this direction.
  • the cutter blade 53C in the cutter roll 53 extend in parallel to the rotational axis direction of the roll 53 as shown in FIG. 5, the cutter blade 53C is brought into contact with the narrow sheet 10bt to be cut. Immediately after cutting, there occurs a time in which there is no other cutter blade 53C in contact with the cut narrow sheet 10bt, so that it is impossible to instantaneously apply an appropriate tension to the narrow sheet 10bt. The conveyance stability of the sheet 10bt may be reduced, which may lead to cutting failure. On the other hand, in the case where the cutter blade 53C has a portion extending in the direction intersecting the rotational axis direction of the cutter roll 53 as shown in FIG. 7, the cutter blade 53C with respect to the narrow sheet 10bt being conveyed.
  • the conveyance stability of the narrow sheet 10bt can be further improved, which can lead to the further prevention of the cutting failure.
  • the cutter blade 53C has a portion extending in the direction intersecting with the rotational axis direction of the cutter roll 53, and the whole of the cutter blade 53C is shown in FIG. It does not have to extend in the direction intersecting the rotation axis direction. From that point of view, the cutter blade 53C may have, for example, a wave shape extending in parallel with the rotation axis direction of the cutter roll 53 in a plan view, in addition to the form shown in FIG.
  • the inclination angle of the cutter roll 53 with respect to the rotation axis direction in the extension direction of the cutter blade 53C is 3 ° or more is preferable, 5 ° or more is further preferable, and 50 ° or less is preferable, 30 ° or less is more preferable, 3 ° or more and 50 ° or less is preferable, and 5 ° or more and 30 ° or less is more preferable.
  • the second cutting mechanism includes a cutter roll rotatably supported about an axis and having a cutter blade on a circumferential surface and an anvil roll disposed to face the cutter roll, and the second cutting step , By introducing the narrow sheet between the cutter roll rotating about an axis and the anvil roll;
  • the sheet strip manufacturing method wherein the peripheral speed (V1) of the cutter roll is made faster than the introduction speed (V0) of the narrow sheet between the cutter roll and the anvil roll.
  • a feed mechanism is disposed between the first cutting mechanism and the second cutting mechanism for feeding the narrow sheet from the upstream side to the downstream side in the conveying direction, and the feed mechanism is configured to The manufacturing method of the sheet piece as described in said ⁇ 1> which adjusts introduction speed.
  • a separation distance (L2) along a sheet conveyance path between a cutting portion of the raw material sheet in the second cutting mechanism and a contact portion with the narrow sheet in the feed mechanism is the contact portion The method of manufacturing a sheet piece according to ⁇ 2>, wherein the method is shorter than the separation distance (L1) along the sheet conveyance path between the first cutting mechanism and the cutting portion of the narrow sheet.
  • the ratio of L2 / L1 to the separation distance (L1) along the sheet conveyance path between the first cutting mechanism and the cutting portion of the narrow sheet is preferably 0.8 or less, more preferably 0.
  • the manufacturing method of the sheet piece as described in said ⁇ 3> which is .5 or less.
  • the feed mechanism is configured to include a pair of rotating rolls disposed opposite to each other with the sheet conveyance path interposed therebetween, and the narrow sheet introduced between both rolls is sandwiched by both rolls and the conveyance direction downstream thereof
  • the feed mechanism is configured to include a pair of rotating belts disposed opposite to each other across the sheet conveyance path, and the narrow sheet introduced between both belts is held by the both belts, the narrow width The sheet is moved by a predetermined distance in the same direction as the sheet, and thereafter, the narrow sheet is fed to the downstream side in the conveying direction.
  • Method. ⁇ 7> The method according to ⁇ 6>, wherein the pair of rotating belts is an endless belt, and is wound around a plurality of rotating rolls intermittently arranged in the conveying direction along the sheet conveying path. .
  • the feed mechanism is a vacuum conveyor including a rotating belt and a suction device for adsorbing the narrow sheet to the rotating belt, and the narrow sheet introduced between both belts is sandwiched by both belts.
  • ⁇ 9> The method for producing a sheet according to any one of ⁇ 1> to ⁇ 8>, further comprising: a tension adjusting step of adjusting the tension of the raw material sheet before the first cutting step.
  • a tension adjusting step of adjusting the tension of the raw material sheet before the first cutting step.
  • the inclination angle with respect to the rotation axis direction of the cutter roll is preferably 3 ° or more, more preferably 5 ° or more, and preferably The manufacturing method of the sheet piece as described in said ⁇ 10> which is 50 degrees or less, More preferably, it is 30 degrees or less.
  • the ratio of the peripheral speed (V1) of the cutter roll and the introduction speed (V0) of the narrow sheet between the cutter roll and the anvil roll is preferably 1.1 as V1 / V0.
  • the method for producing a sheet piece according to any one of the above ⁇ 1> to ⁇ 11> which is more preferably 1.2 or more, and preferably 4.0 or less, more preferably 3.5 or less.
  • the peripheral velocity (V1) of the cutter roll is preferably 30 m / min or more, more preferably 50 m / min or more, and preferably 1000 m / min or less, more preferably
  • the method for producing a sheet piece according to any one of the above ⁇ 1> to ⁇ 12> which has a value of 500 m / min or less.
  • the average value (average width) of the lengths in the conveyance cross direction of the plurality of narrow sheet pieces formed in the first cutting step is preferably 0.1 mm or more and 10 mm or less, more preferably 0.
  • the average value (average length) of lengths along the transport direction of the plurality of sheet pieces formed in the second cutting step is preferably 0.3 mm or more and 30 mm or less, more preferably 1 mm or more and 15 mm
  • a method of manufacturing an absorbent containing a plurality of sheet pieces A method of manufacturing an absorber, comprising the steps of conveying and accumulating sheet pieces manufactured by the manufacturing method according to any one of ⁇ 1> to ⁇ 15> by a flow of air to a predetermined accumulation portion.
  • a plurality of strip-shaped sheet pieces are formed by cutting the narrow sheet, which is disposed downstream of the cutting mechanism in the transport direction and formed by the first cutting mechanism, in the transport cross direction intersecting the transport direction.
  • An apparatus for manufacturing a sheet piece comprising: a second cutting mechanism;
  • the second cutting mechanism includes a cutter roll rotatably supported about an axis and having a cutter blade on a circumferential surface, and an anvil roll disposed opposite to the cutter roll, and both rolls rotating about an axis Configured to cut the narrow sheet introduced therebetween in the conveying cross direction,
  • An apparatus for producing a sheet strip wherein the peripheral speed of the cutter roll is higher than the introduction speed of the narrow sheet between the cutter roll and the anvil roll.
  • a feed mechanism is provided between the first cutting mechanism and the second cutting mechanism to feed the narrow sheet from the upstream side to the downstream side in the conveying direction, and the introduction mechanism The manufacturing apparatus of the sheet piece as described in said ⁇ 17> which adjusts speed.
  • a separation distance (L2) along a sheet conveyance path between a cutting portion of the raw material sheet in the second cutting mechanism and a contact portion with the narrow sheet in the feed mechanism is the contact portion
  • the manufacturing apparatus of the sheet piece as described in said ⁇ 18> short compared with the separation distance (L1) along the sheet conveyance path between the cutting parts of this narrow sheet in said 1st cutting mechanism.
  • the ratio of L2 / L1 to the separation distance (L1) along the sheet conveyance path between the first cutting mechanism and the cutting portion of the narrow sheet is preferably 0.8 or less, more preferably 0.
  • the manufacturing apparatus of the sheet piece as described in said ⁇ 19> which is .5 or less.
  • the feed mechanism includes a pair of rotating rolls disposed opposite to each other with the sheet conveyance path interposed therebetween, and the narrow sheet introduced between both rolls is sandwiched by both rolls and the conveyance direction downstream thereof
  • the feed mechanism is configured to include a pair of rotating belts disposed opposite to each other across the sheet conveyance path, and the narrow sheet introduced between both belts is held by both belts while the narrow width is held.
  • the sheet is moved by a predetermined distance in the same direction as the sheet, and thereafter, the narrow sheet is fed to the downstream side in the transport direction, and the sheet piece according to any one of ⁇ 17> to ⁇ 20> is produced.
  • apparatus. ⁇ 23> The apparatus for manufacturing a sheet according to ⁇ 22>, wherein the pair of rotary belts are endless belts and are wound around a plurality of rotary rolls intermittently arranged in the conveyance direction along the sheet conveyance path. .
  • the feed mechanism is a vacuum conveyor provided with a rotating belt and a suction device for adsorbing the narrow sheet to the rotating belt, and the narrow sheet introduced between both belts is sandwiched by both belts.
  • ⁇ 25> The sheet piece according to any one of ⁇ 17> to ⁇ 24>, further including a tension adjusting mechanism for adjusting the tension of the raw material sheet on the upstream side in the transport direction with respect to the first cutting mechanism.
  • Production equipment. ⁇ 26> The sheet piece according to ⁇ 25>, wherein the tension adjustment mechanism includes two fixed rolls intermittently arranged in the transport direction and a dancer roll disposed between the two rolls.
  • the inclination angle with respect to the rotation axis direction of the cutter roll is preferably 3 ° or more, more preferably 5 ° or more, and preferably The manufacturing apparatus of the sheet piece as described in said ⁇ 27> which is 50 degrees or less, More preferably, it is 30 degrees or less.
  • the ratio of the peripheral speed (V1) of the cutter roll and the introduction speed (V0) of the narrow sheet between the cutter roll and the anvil roll is preferably 1.1 as V1 / V0.
  • the apparatus for producing a sheet piece according to any one of the above ⁇ 17> to ⁇ 28> which is more preferably not less than 1.2, and preferably not more than 4.0, more preferably not more than 3.5.
  • the peripheral velocity (V1) of the cutter roll is preferably 30 m / min or more, more preferably 50 m / min or more, and preferably 1000 m / min or less, more preferably The manufacturing apparatus of the sheet piece of any one of said ⁇ 17>- ⁇ 29> which is 500 m / min or less.
  • the average value (average width) of the lengths in the conveyance cross direction of the plurality of narrow sheet pieces formed by the first cutting mechanism is preferably 0.1 mm or more and 10 mm or less, more preferably 0 .
  • the average value (average length) of the lengths along the transport direction of the plurality of sheet pieces formed by the second cutting mechanism is preferably 0.3 mm or more and 30 mm or less, more preferably 1 mm or more
  • the manufacturing apparatus of the sheet piece of any one of said ⁇ 17>- ⁇ 31> which is 15 mm or less, especially preferably 2 mm or more and 10 mm or less.
  • the first cutting mechanism includes a cutter roll rotatably supported around an axis and having a cutter blade on a circumferential surface, and an anvil roll disposed opposite to the cutter roll, the first cutting.
  • the cutter blade of the mechanism extends in the circumferential direction of the cutter roll of the first cutting mechanism, and extends over the entire circumferential length of the peripheral surface of the cutter roll.
  • the cutter blade of the second cutting mechanism extends in the rotational axis direction of the cutter roll in the second cutting mechanism, and in the circumferential surface of the cutter roll from the central portion in the rotational axis direction, the same direction
  • seat is suppressed and the several sheet piece of the intended size can be manufactured continuously continuously and efficiently.

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  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Biomedical Technology (AREA)
  • Mechanical Engineering (AREA)
  • Epidemiology (AREA)
  • Forests & Forestry (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Vascular Medicine (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Absorbent Articles And Supports Therefor (AREA)
  • Perforating, Stamping-Out Or Severing By Means Other Than Cutting (AREA)

Abstract

A sheet-piece producing method according to the present invention includes: a first cutting step in which a raw-material sheet (10bs) is cut in a transport direction (MD) thereof by a first cutting mechanism (5A) to obtain a plurality of strip-shaped narrow sheets (10bt); and a second cutting step in which the narrow sheets (10bt) are cut in a direction (CD) intersecting the transport direction by a second cutting mechanism (5B) to obtain a plurality of sheet pieces (11). The second cutting step is performed by supplying the narrow sheets (10bt) between a cutter roll (53) and an anvil roll (54), which axially rotate, in the second cutting mechanism (5B). The circumferential velocity (V1) of the roll (53) is set to be higher than the velocity (V0) at which the narrow sheets (10bt) are supplied between the rolls (53), (54).

Description

シート片の製造方法及びシート片の製造装置並びに吸収体の製造方法Method of manufacturing sheet piece, apparatus of manufacturing sheet piece, and method of manufacturing absorbent body
 本発明は、意図したサイズの複数のシート片を連続的に製造する方法、及び該シート片を含有する吸収体の製造方法に関する。 The present invention relates to a method of continuously producing a plurality of sheet pieces of the intended size, and a method of producing an absorbent containing the sheet pieces.
 使い捨ておむつ、生理用ナプキン、失禁パッド等の吸収性物品に用いられる吸収体として、パルプ繊維及び合成繊維を含む吸収体が知られている。斯かる吸収体に関し、例えば特許文献1には、親水性繊維と、合成繊維の集合体としての不織布片とを含む吸収体が記載され、また、該吸収体の製造方法として、繊維どうしを結合させた三次元構造を有する不織布をカッターミル方式によって粉砕して不織布片を得、該不織布片を親水性繊維と混合する工程を有する製造方法が記載されている。 DESCRIPTION OF RELATED ART The absorber which contains a pulp fiber and a synthetic fiber as an absorber used for absorbent articles, such as a disposable diaper, a sanitary napkin, an incontinence pad, etc. is known. With regard to such an absorbent body, for example, Patent Document 1 describes an absorbent body comprising hydrophilic fibers and non-woven fabric pieces as an aggregate of synthetic fibers, and, as a method of producing the absorbent body, bonding fibers to each other There is described a manufacturing method comprising the steps of: grinding a non-woven fabric having a three-dimensional structure to obtain non-woven fabric pieces by a cutter mill method; and mixing the non-woven fabric pieces with hydrophilic fibers.
 また、大きな幅をもつ長尺シートを一定の幅で連続切断するいわゆるスリット加工は、本技術分野のみならず多種の分野で利用されている。例えば特許文献2には、シャフト軸に所定数設けられたスリッタ刃で被切断物に対して対応数のスリットカットを行うスリッタ装置を用い、被切断物たるシートをその搬送方向と直交する方向に多列に切断して分離することが記載されている。 Further, so-called slitting, in which a long sheet having a large width is continuously cut at a constant width, is used not only in this technical field but also in various fields. For example, Patent Document 2 uses a slitter device that performs a corresponding number of slit cuts on an object to be cut with a predetermined number of slitter blades provided on a shaft axis, in the direction perpendicular to the sheet conveying direction. It is described to cut and separate into multiple rows.
特開2002-301105号公報JP 2002-301105 A 特開2014-42944号公報JP 2014-42944 A
 本発明は、帯状の原料シートを一方向に搬送しつつ、第1の切断機構によって該原料シートをその搬送方向に沿って切断して、複数の帯状の細幅シートを得る第1切断工程と、該細幅シートを一方向に搬送しつつ、第2の切断機構によって該細幅シートをその搬送方向と交差する搬送交差方向に切断して、複数のシート片を得る第2切断工程とを有する、シート片の製造方法である。前記第2の切断機構が、軸周りに回転可能に支持され且つ周面にカッター刃を有するカッターロールと該カッターロールに対向配置されたアンビルロールとを含んで構成されている。前記第2切断工程が、軸周りに回転する該カッターロールと該アンビルロールとの間に前記細幅シートを導入することによって実施されている。前記カッターロールの周速度を、前記細幅シートの該カッターロールと前記アンビルロールとの間への導入速度よりも速くする、シート片の製造方法である。 The present invention is directed to a first cutting process of obtaining a plurality of strip-like narrow sheets by transporting the strip-like material sheet in one direction and cutting the material sheet along the transport direction by the first cutting mechanism. A second cutting step of obtaining the plurality of sheet pieces by transporting the narrow sheet in one direction, and cutting the narrow sheet in the transport cross direction intersecting with the transport direction by the second cutting mechanism; It is a manufacturing method of a sheet piece which has. The second cutting mechanism is configured to include a cutter roll rotatably supported around an axis and having a cutter blade on a circumferential surface, and an anvil roll disposed to face the cutter roll. The second cutting step is performed by introducing the narrow sheet between the cutter roll rotating about an axis and the anvil roll. It is a manufacturing method of a sheet piece which makes the peripheral speed of the above-mentioned cutter roll quicker than the introduction speed of the above-mentioned narrow sheet between the above-mentioned cutter roll of the above-mentioned cutter roll, and the above-mentioned anvil roll.
 また本発明は、複数のシート片を含有する吸収体の製造方法である。前記の本発明のシート片の製造方法によって製造されたシート片を、空気流によって所定の集積部まで搬送して集積する工程を有する、吸収体の製造方法である。 Moreover, this invention is a manufacturing method of the absorber containing a several sheet piece. It is a manufacturing method of an absorber which has a process of carrying and accumulating a sheet piece manufactured by a manufacturing method of a sheet piece of the above-mentioned present invention by a flow of air to a predetermined accumulation part.
 また本発明は、帯状の原料シートを一方向に搬送しつつ、該原料シートをその搬送方向に沿って切断して、複数の帯状の細幅シートを形成する第1の切断機構と、該第1の切断機構よりも搬送方向の下流側に配され、該第1の切断機構によって形成された該細幅シートを搬送方向と交差する搬送交差方向に切断して、複数の帯状のシート片を形成する第2の切断機構とを備えるシート片の製造装置である。前記第2の切断機構が、軸周りに回転可能に支持され且つ周面にカッター刃を有するカッターロールと、該カッターロールに対向配置されたアンビルロールとを備え、且つ軸周りに回転する両ロール間に導入された前記細幅シートを前記搬送交差方向に切断するように構成されている。前記カッターロールの周速度が、前記細幅シートの該カッターロールと前記アンビルロールとの間への導入速度よりも速い、シート片の製造装置である。 Further, according to the present invention, a first cutting mechanism for forming a plurality of strip-like narrow sheets by cutting the strip-like raw material sheet in one direction while cutting the raw-material sheet along the transport direction; The narrow sheet formed on the downstream side of the conveying direction with respect to the first cutting mechanism and cut by the first cutting mechanism is cut in the conveying crossing direction intersecting the conveying direction to form a plurality of strip-shaped sheet pieces It is a manufacturing apparatus of a sheet piece provided with the 2nd cutting mechanism to form. The second cutting mechanism includes a cutter roll rotatably supported about an axis and having a cutter blade on a circumferential surface, and an anvil roll disposed opposite to the cutter roll, and both rolls rotating about an axis The narrow sheet introduced therebetween is configured to be cut in the conveyance cross direction. It is a manufacturing apparatus of a sheet piece in which the peripheral speed of the said cutter roll is quicker than the introduction speed of the said narrow sheet | seat between this cutter roll and the said anvil roll.
図1は、本発明の吸収体の製造方法で製造される吸収体の一実施形態の模式的な斜視図である。FIG. 1 is a schematic perspective view of an embodiment of an absorbent body produced by the method for producing an absorbent body of the present invention. 図2は、本発明の吸収体の製造方法の実施に使用可能な製造装置の模式的な斜視図である。FIG. 2 is a schematic perspective view of a manufacturing apparatus that can be used to carry out the method of manufacturing an absorbent according to the present invention. 図3は、図2に示す製造装置が備える第2供給機構(シート片製造装置)の概略構成図である。FIG. 3 is a schematic configuration view of a second supply mechanism (sheet piece manufacturing apparatus) included in the manufacturing apparatus shown in FIG. 図4は、図3に示す第2供給機構で実施される原料シートの切断方法の説明図である。FIG. 4 is an explanatory view of a method of cutting a raw material sheet performed by the second supply mechanism shown in FIG. 3. 図5は、図3に示す第2の切断機構におけるカッターロールによる細幅シートの切断方法の説明図である。FIG. 5 is an explanatory view of a method of cutting a narrow sheet by a cutter roll in the second cutting mechanism shown in FIG. 3. 図6は、図2に示す製造装置が備える第2供給機構(シート片製造装置)の他の実施形態の概略構成図である。FIG. 6 is a schematic configuration view of another embodiment of the second supply mechanism (sheet piece manufacturing apparatus) included in the manufacturing apparatus shown in FIG. 図7は、図3に示す第2の切断機構におけるカッターロールの他の実施形態による細幅シートの切断方法の説明図である。FIG. 7 is an explanatory view of a narrow sheet cutting method according to another embodiment of the cutter roll in the second cutting mechanism shown in FIG. 3;
発明の詳細な説明Detailed Description of the Invention
 特許文献1に記載されているように、カッターミル方式を用いて不織布を粉砕して不織布片を製造した場合、所望のサイズの不織布片を形成するのは困難であり、意図したサイズに対してばらつきが生じる。結果として形成された不織布片を含む吸収体の構造にムラが生じてしまい、使用中に異物感が生じる原因となるおそれがある。 As described in Patent Document 1, when a nonwoven fabric is manufactured by crushing a nonwoven fabric using a cutter mill method, it is difficult to form a nonwoven fabric piece of a desired size, and it is possible to use the intended size. Variations occur. As a result, unevenness occurs in the structure of the absorbent body including the non-woven fabric piece formed, which may cause a feeling of foreign matter during use.
 意図したサイズの複数のシート片を連続的に製造し得る方法として、互いに交差する2方向の切断方向で被切断物を切断する方法(クロスカット)が挙げられる。具体的には例えば、原料シートとしての不織布に対して、先ず、特許文献2に記載の如き公知のスリッタ装置を用い、1回目の切断としてのスリットカットを行って、複数の帯状の細幅シートを得、次いで、これら複数の細幅シートを、スリット方向即ち該原料シートの搬送方向と交差する方向に延びるカッター刃を備えたカッターロールに供給しつつ、2回目の切断を行う方法である。しかしながら、このような不織布のクロスカットについて、本発明者らが種々検討したところ、特に、帯状の細幅シートをその搬送方向に切断する、2回目の切断工程で、切断不良が生じる可能性のあることが判明した。 As a method capable of continuously producing a plurality of sheet pieces of the intended size, there is mentioned a method (cross cut) of cutting an object to be cut in two cutting directions crossing each other. Specifically, for example, a plurality of strip-like narrow sheets are first subjected to slit cutting as the first cutting using a known slitter as described in Patent Document 2 with respect to the non-woven fabric as the raw material sheet. Then, the plurality of narrow sheets are supplied to a cutter roll provided with a cutter blade extending in the slit direction, that is, in the direction intersecting with the conveyance direction of the raw material sheet, and the second cutting is performed. However, when the present inventors variously examined such non-woven cloth cross-cuts, it is possible that cutting defects may occur particularly in the second cutting step of cutting a strip narrow sheet in the transport direction. It turned out to be.
 従って本発明は、シートの切断不良が抑制され、意図したサイズの複数のシート片を連続的に効率よく製造し得る、シート片の製造方法及び該シート片の製造装置並びに該シート片を含有する吸収体の製造方法を提供することに関する。 Therefore, the present invention includes a method for producing a sheet piece, an apparatus for producing the sheet piece, and a production method for the sheet piece, in which cutting defects of the sheet are suppressed and a plurality of sheet pieces of the intended size can be efficiently produced continuously. The present invention relates to providing a method of producing an absorbent.
 以下、本発明のシート片の製造方法及びシート片の製造装置並びに吸収体の製造方法を、それらの好ましい実施形態に基づき図面を参照しながら説明する。図1には、本発明の吸収体の製造方法で製造される吸収体の一実施形態である吸収体10が示されている。吸収体10は、複数のシート片11と、親水性繊維12とを含む。 Hereinafter, the method for producing a sheet piece, the apparatus for producing a sheet piece, and the method for producing an absorber according to the present invention will be described based on those preferred embodiments with reference to the drawings. FIG. 1 shows an absorber 10 which is an embodiment of an absorber produced by the method for producing an absorber of the present invention. The absorbent body 10 includes a plurality of sheet pieces 11 and hydrophilic fibers 12.
 複数のシート片11は、それぞれ、複数の繊維がまとまって一体となった繊維集合体である。シート片11は、後述するように、一定の大きさを有する原料シートを、互いに交差する2方向の切断方向で切断する、いわゆるクロスカットすることによって製造されたものである(図4参照)。斯かるシート片の製造方法に起因して、吸収体10は、それに含有されている複数のシート片11が一定のサイズを有している点が挙げられる。本実施形態においては、複数のシート片11は、それぞれ、直方体形状をなしており、平面視において長方形形状の面を有し、長手方向と短手方向とを有している。 Each of the plurality of sheet pieces 11 is a fiber assembly in which a plurality of fibers are integrated. As described later, the sheet piece 11 is manufactured by so-called cross cutting in which a raw material sheet having a predetermined size is cut in two cutting directions crossing each other (see FIG. 4). Due to the method of manufacturing such a sheet piece, the absorbent body 10 has a point that the plurality of sheet pieces 11 contained therein have a certain size. In the present embodiment, each of the plurality of sheet pieces 11 has a rectangular parallelepiped shape, has a rectangular surface in a plan view, and has a longitudinal direction and a lateral direction.
 シート片11のサイズは、吸収体10のクッション性等の諸特性に少なからず影響を及ぼす。シート片11の平均長さは、0.3mm以上30mm以下であることが好ましく、1mm以上15mm以下であることがさらに好ましく、2mm以上10mm以下であることが特に好ましい。ここでいう「シート片の平均長さ」とは、シート片11が直方体形状の場合は、その長手方向(長軸方向)に延びる4辺の長辺(他の辺よりも相対的に長い辺)の長さの平均値を意味し、シート片11が立方体形状の場合は、該立方体を画成する全ての辺の長さの平均値を意味する。 The size of the sheet piece 11 affects the characteristics such as the cushioning property of the absorbent body 10 to some extent. The average length of the sheet piece 11 is preferably 0.3 mm or more and 30 mm or less, more preferably 1 mm or more and 15 mm or less, and particularly preferably 2 mm or more and 10 mm or less. The “average length of the sheet piece” mentioned here means that, in the case where the sheet piece 11 has a rectangular parallelepiped shape, the four long sides (longer than the other sides) extending in the longitudinal direction (long-axis direction) When the sheet piece 11 is cubic, it means the average value of the length of all the sides which define the cube.
 また、シート片11の平均幅は、0.1mm以上10mm以下であることが好ましく、0.3mm以上6mm以下であることがさらに好ましく、0.5mm以上5mm以下であることが特に好ましい。ここでいう「シート片の平均幅」とは、シート片11が直方体形状の場合は、その長手方向(長軸方向)と直交する方向(短手方向)に延びる複数の短辺(他の辺よりも相対的に短い辺)の長さの平均値を意味し、シート片11が立方体形状の場合は、前記の「シート片の平均長さ」と同じである。即ち、シート片11が立方体形状の場合は、平均長さと平均幅とは同じである。 The average width of the sheet piece 11 is preferably 0.1 mm or more and 10 mm or less, more preferably 0.3 mm or more and 6 mm or less, and particularly preferably 0.5 mm or more and 5 mm or less. The “average width of the sheet piece” as used herein refers to a plurality of short sides (other sides) extending in a direction (short direction) orthogonal to the longitudinal direction (long axis direction) when the sheet piece 11 has a rectangular parallelepiped shape. This means the average value of the lengths of relatively shorter sides), and in the case of the sheet piece 11 having a cubic shape, it is the same as the “average length of the sheet piece” described above. That is, when the sheet piece 11 has a cubic shape, the average length and the average width are the same.
 シート片11の平均長さが0.3mm以上及び/又は平均幅が0.1mm以上であると、吸収体10に疎な構造を形成しやすく、クッション性に優れる。また、シート片11の平均長さが30mm以下及び/又は平均幅が10mm以下であると、吸収体10を使い捨ておむつ等の吸収性物品に組み込んで使用した場合に、その吸収性物品の着用者に吸収体10による違和感を与え難く、さらに、吸収体10内の位置によって吸収性能にムラを生じ難い。 When the average length of the sheet piece 11 is 0.3 mm or more and / or the average width is 0.1 mm or more, a loose structure is easily formed in the absorbent body 10, and the cushioning property is excellent. In addition, when the absorbent body 10 is used by incorporating it into an absorbent article such as a disposable diaper when the average length of the sheet piece 11 is 30 mm or less and / or the average width is 10 mm or less, the wearer of the absorbent article It is hard to give a sense of incongruity due to the absorber 10, and furthermore, it is difficult to make the absorption performance uneven depending on the position in the absorber 10.
 シート片11の構成繊維の素材としては、非吸水性の合成樹脂(熱可塑性樹脂)を例示でき、例えば、ポリエチレン、ポリプロピレン、ポリエチレンテレフタレート等が挙げられる。シート片11の構成繊維は、典型的には、これらの合成樹脂の1種又は2種以上からなる短繊維である。 A non-water absorbing synthetic resin (thermoplastic resin) can be illustrated as a raw material of the constituent fiber of the sheet piece 11, For example, polyethylene, a polypropylene, a polyethylene terephthalate etc. are mentioned. The constituent fibers of the sheet piece 11 are typically short fibers consisting of one or more of these synthetic resins.
 また、吸収体10においてシート片11と併用される親水性繊維12としては、吸収性物品用の吸収体に従来用いられている各種のものを特に制限なく用いることができ、例えば、パルプ繊維、レーヨン繊維、コットン繊維等が挙げられる。 In addition, as the hydrophilic fibers 12 used in combination with the sheet piece 11 in the absorbent body 10, various types of fibers conventionally used in absorbent bodies for absorbent articles can be used without particular limitation. For example, pulp fibers, Rayon fibers, cotton fibers and the like can be mentioned.
 吸収体10には、さらに吸水性ポリマーが含有されていてもよく、該吸水性ポリマーとしては、吸収性物品用の吸収体に従来用いられている各種のものを特に制限なく用いることができる。また本実施形態においては、図1に示すように、複数のシート片11は吸収体10の全体に均一に分散されているが、偏在していてもよい。シート片11が偏在している形態として、シート片11が主体をなす層と親水性繊維12が主体をなす層との積層構造を有する吸収体を例示できる。 The absorbent body 10 may further contain a water absorbing polymer, and as the water absorbing polymer, various materials conventionally used for an absorbent for absorbent articles can be used without particular limitation. Moreover, in this embodiment, as shown in FIG. 1, although the some sheet piece 11 is uniformly disperse | distributed to the whole of the absorber 10, you may be unevenly distributed. As a form by which the sheet piece 11 is unevenly distributed, the absorber which has a laminated structure of the layer which the sheet piece 11 makes a main body, and the layer which the hydrophilic fiber 12 makes a main body can be illustrated.
 吸収体10は、吸収性物品の構成部材として好適に用いられる。ここでいう吸収性物品は、人体から排出される体液(尿、軟便、経血、汗等)の吸収に用いられる物品を広く包含し、止着テープを有するいわゆる展開型の使い捨ておむつ、パンツ型の使い捨ておむつ、生理用ナプキン、生理用ショーツ、失禁パッド等が包含される。吸収性物品における吸収体は、典型的には、液吸収性の吸収性コアと、該吸収性コアの外面を被覆する液透過性のコアラップシートとを具備し、吸収体10はこの吸収性コアとして用いることができる。コアラップシートとしては紙、不織布などを用いることができる。尚、吸収体10はコアラップシートを含んでいなくてもよく、その場合は吸収性コアがそのまま吸収体10として吸収性物品に使用される。 The absorbent body 10 is suitably used as a component of an absorbent article. The absorbent articles mentioned here widely include articles used for absorbing body fluid (urine, soft stools, menstrual blood, sweat, etc.) discharged from the human body, and so-called unfolded disposable diapers having a fastening tape, pants type Disposable diapers, sanitary napkins, sanitary shorts, incontinence pads and the like. The absorbent in the absorbent article typically comprises a liquid absorbent absorbent core and a liquid permeable core wrap sheet that covers the outer surface of the absorbent core, and the absorbent 10 is this absorbent. It can be used as a core. As the core wrap sheet, paper, non-woven fabric or the like can be used. In addition, the absorber 10 does not need to contain a core wrap sheet, and in that case, an absorbent core is used for an absorbent article as the absorber 10 as it is.
 吸収体10を具備する吸収性物品は、典型的には、着用時に着用者の肌と接触し得る液透過性の表面シートと、液不透過性ないし撥水性の裏面シートと、これら両シート間に介在配置された液保持性の吸収体とを具備している。表面シートとしては、各種の不織布又は多孔質の合成樹脂シート等を用いることができ、裏面シートとしては、ポリエチレン、ポリプロピレン、ポリ塩化ビニル等からなる合成樹脂フィルム、又は合成樹脂フィルムと不織布との複合材料等を用いることができる。吸収性物品はさらに、該吸収性物品の具体的な用途に応じた各種部材を具備していてもよい。そのような部材は当業者に公知である。例えば吸収性物品を使い捨ておむつや生理用ナプキンに適用する場合には、表面シート上の左右両側部に一対又は二対以上の立体ガードを配置することができる。 An absorbent article having an absorbent body 10 typically has a liquid-permeable top sheet which can come into contact with the wearer's skin when worn, a liquid-impermeable to water-repellent back sheet, and a gap between these both sheets. And a liquid-retaining absorber disposed in between. As the surface sheet, various non-woven fabrics or porous synthetic resin sheets can be used, and as the back surface sheet, a synthetic resin film made of polyethylene, polypropylene, polyvinyl chloride or the like, or a composite of a synthetic resin film and non-woven fabric Materials and the like can be used. The absorbent article may further include various members according to the specific use of the absorbent article. Such components are known to those skilled in the art. For example, when the absorbent article is applied to a disposable diaper or a sanitary napkin, one or two or more pairs of three-dimensional guards can be disposed on the left and right sides of the top sheet.
 図2及び図3には、前述した吸収体10の製造方法の実施に使用可能な製造装置(積繊装置)1が示されている。吸収体10の製造方法は、シート片11の製造工程と、該製造工程で製造された複数のシート片11を、空気流によって所定の集積部まで搬送して集積する集積工程とを有する。 FIGS. 2 and 3 show a manufacturing apparatus (stacking apparatus) 1 that can be used to carry out the above-described method of manufacturing the absorbent body 10. The method of manufacturing the absorbent body 10 includes the step of manufacturing the sheet piece 11 and the accumulation step of conveying and accumulating the plurality of sheet pieces 11 manufactured in the manufacturing step to a predetermined accumulation portion by an air flow.
 製造装置1は、外周面2fに集積部としての集積用凹部22が形成された回転ドラム2と、外周面2fに吸収体10の原材料を搬送する流路30を内部に有するダクト3とを備え、回転ドラム2をそのドラム周方向2Yに沿って回転軸周りに回転させつつ、回転ドラム2の内部側からの吸引によって流路30に生じた空気流(バキュームエア)に乗って搬送された原材料を、集積用凹部22に積繊させるようになされている。ダクト3には、吸収体10の原材料(繊維材料)の供給機構として、第1供給機構4及び第2供給機構5がそれぞれ接続されている。また、回転ドラム2の下方には、集積用凹部22から離型された原材料の積繊物即ち吸収体10を受け取って次工程に搬送するバキュームコンベア6が配されている。また、回転ドラム2を挟んでダクト3と反対側には、集積用凹部22内の積繊物を押さえ付けるための押さえベルト7が、回転ドラム2の外周面2fに沿って配されている。押さえベルト7は、無端状且つ通気性又は非通気性のベルトであり、ロール71及びロール72に架け渡されて、回転ドラム2の回転と共に連れ回るようになされている。 The manufacturing apparatus 1 includes a rotating drum 2 in which an accumulation recess 22 as an accumulation portion is formed on an outer peripheral surface 2 f, and a duct 3 having a flow passage 30 for conveying the raw material of the absorber 10 on the outer peripheral surface 2 f. The raw material carried on the air flow (vacuum air) generated in the flow path 30 by suction from the inside of the rotary drum 2 while rotating the rotary drum 2 around the rotary shaft along the drum circumferential direction 2Y Is made to be accumulated in the accumulation recess 22. A first supply mechanism 4 and a second supply mechanism 5 are respectively connected to the duct 3 as a supply mechanism of the raw material (fiber material) of the absorber 10. Further, below the rotary drum 2, there is disposed a vacuum conveyor 6 which receives the accumulated material of the raw material released from the accumulation recess 22, ie, the absorbent body 10 and conveys it to the next process. Further, on the opposite side of the rotary drum 2 from the duct 3, a pressing belt 7 for pressing the accumulated material in the accumulation recess 22 is disposed along the outer peripheral surface 2 f of the rotary drum 2. The presser belt 7 is an endless, breathable or non-breathable belt, and is stretched over the rolls 71 and 72 so as to move along with the rotation of the rotary drum 2.
 回転ドラム2は、金属製の剛体からなる円筒状のドラム本体20と、ドラム本体20の外周部に重ねて配され、回転ドラム2の外周面2fを形成する外周部材21とを含んで構成されている。外周部材21は、モータ等の原動機からの動力を受けて、水平な回転軸を回転中心としてドラム周方向2Yに沿って方向R1に回転するが、外周部材21よりも内側に配されたドラム本体20は、固定されていて回転しない。ドラム本体20のドラム幅方向Yの両端は、それぞれ、図示しない側壁及びフェルト等のシール材によって気密に封鎖されている。 The rotary drum 2 includes a cylindrical drum main body 20 made of a rigid metal body and an outer peripheral member 21 disposed on the outer peripheral portion of the drum main body 20 so as to form an outer peripheral surface 2 f of the rotary drum 2. ing. The outer peripheral member 21 receives power from a prime mover such as a motor and rotates in the direction R1 along the drum circumferential direction 2Y about the horizontal rotation axis as a rotation center, but the drum main body disposed inside the outer peripheral member 21 20 is fixed and does not rotate. Both ends in the drum width direction Y of the drum main body 20 are airtightly sealed by a side wall not shown and a sealing material such as felt.
 外周部材21は、集積用凹部22の底部即ち原材料の積繊面を形成する通気性の多孔性プレート23と、回転ドラム2の外周面2fにおける該積繊面以外の部分を形成する難通気性又は非通気性のパターン形成プレート24とを含んで構成されている。製造装置1においては、パターン形成プレート24は、ドラム周方向2Yの全長にわたって連続して延びる円環状をなし、回転ドラム2の回転軸方向の両端部に一対設けられており、その一対のパターン形成プレート24,24間に、多孔性プレート23が位置している。 The outer peripheral member 21 is a bottom of the accumulation recess 22, that is, the air permeable porous plate 23 which forms the pile surface of the raw material, and the air permeability which forms a portion other than the pile surface in the outer peripheral surface 2 f of the rotary drum 2. Alternatively, it is configured to include a non-air-permeable pattern forming plate 24. In the manufacturing apparatus 1, the pattern forming plate 24 has an annular shape extending continuously along the entire length in the drum circumferential direction 2Y, and a pair of pattern forming plates 24 is provided at both ends in the rotational axis direction of the rotary drum 2. Between the plates 24, 24, the porous plate 23 is located.
 多孔性プレート23は、装置内部側(回転ドラム2の内方)からの吸引によって生じた空気流を装置外部側(回転ドラム2の外方)に伝え、該空気流に乗って運ばれてくる原材料を透過させずに保持し、空気のみを透過させる通気性のプレートである。多孔性プレート23には、これを厚み方向に貫通する吸引孔が、該多孔性プレート23全体に多数形成されており、集積用凹部22が回転ドラム2内における負圧に維持された空間上を通過している間、該吸引孔が空気流の透過孔として機能する。多孔性プレート23としては、例えば、金属又は樹脂製のメッシュプレート、あるいは金属又は樹脂製の板にエッチング、パンチングで多数の細孔を形成したもの等を用いることができる。また、パターン形成プレート24としては、例えば、ステンレスあるいはアルミ等の金属又は樹脂製の板等を用いることができる。 The porous plate 23 transmits an air flow generated by suction from the inside of the apparatus (inward of the rotating drum 2) to the outside of the apparatus (outward of the rotating drum 2), and is carried on the air flow It is a breathable plate that holds raw materials without permeation and allows only air to permeate. In the porous plate 23, a large number of suction holes penetrating the porous plate 23 in the thickness direction are formed in the entire porous plate 23, and the accumulation recess 22 is located on the space maintained at a negative pressure in the rotary drum 2. During passage, the suction holes function as air flow passage holes. As the porous plate 23, for example, a mesh plate made of metal or resin, or a plate made of metal or resin, in which a large number of pores are formed by etching, punching or the like can be used. Further, as the pattern forming plate 24, for example, a plate made of metal such as stainless steel or aluminum or resin can be used.
 図2に示すように、ドラム本体20の内部は、ドラム周方向2Yに複数の空間A,B,Cに仕切られている。また、ドラム本体20には、その内部を減圧する減圧機構(図示せず)が接続されている。この減圧機構は、ドラム本体20を構成する側壁(図示せず)に接続された排気管(図示せず)と該排気管に接続された排気ファン(図示せず)とを含んで構成されている。ドラム本体20内の複数の空間A,B,Cは相互に独立しており、前記減圧機構により、これら複数の空間の負圧(吸引力)をそれぞれ独立に調整することが可能である。 As shown in FIG. 2, the inside of the drum main body 20 is divided into a plurality of spaces A, B, and C in the drum circumferential direction 2Y. Further, a pressure reducing mechanism (not shown) for reducing the pressure inside is connected to the drum body 20. The decompression mechanism includes an exhaust pipe (not shown) connected to a side wall (not shown) constituting the drum main body 20 and an exhaust fan (not shown) connected to the exhaust pipe. There is. The plurality of spaces A, B and C in the drum main body 20 are independent of each other, and the negative pressure (suction force) of the plurality of spaces can be independently adjusted by the pressure reducing mechanism.
 回転ドラム2は、ドラム周方向2Yの所定の範囲、具体的には、外周部がダクト3で覆われている空間Aが、内部側からの吸引によって原材料の積繊が可能な積繊ゾーンとなされている。空間Aを負圧に維持した状態で、外周部材21を回転軸周りに回転させると、外周部材21に形成された集積用凹部22が空間A上を通過している間、集積用凹部22の底部(多孔性プレート23)に空間A内の負圧が作用し、該底部に形成された多数の吸引孔を通じた空気の吸引が行われる。この吸引孔を通じた吸引により、ダクト3内の供給路32を搬送されてきた原材料が、集積用凹部22へと導かれてその底部上に積繊する。一方、通常、回転ドラム2の空間Bは、空間Aよりも弱い負圧又は圧力ゼロ(大気圧)に設定され、また、空間Cは、集積用凹部22内の積繊物の転写位置及びその前後を含む領域であるので、圧力ゼロ又は陽圧に設定される。 The rotary drum 2 has a predetermined range in the drum circumferential direction 2Y, specifically, a space A in which the outer peripheral portion is covered with the duct 3, a stacking zone in which stacking of raw materials can be performed by suction from inside. It is done. When the outer peripheral member 21 is rotated around the rotation axis in a state in which the space A is maintained at a negative pressure, the accumulation concave 22 formed in the outer peripheral member 21 passes over the space A. The negative pressure in the space A acts on the bottom (the porous plate 23), and suction of air is performed through a large number of suction holes formed in the bottom. By the suction through the suction holes, the raw material transported in the supply path 32 in the duct 3 is guided to the accumulation recess 22 and piled on the bottom thereof. On the other hand, the space B of the rotary drum 2 is normally set to a negative pressure or pressure (zero atmospheric pressure) weaker than the space A, and the space C is the transfer position of the fiber material in the accumulation recess 22 and its The pressure is set to zero or positive pressure because it is an area including front and back.
 バキュームコンベア6は、駆動ロール61及び従動ロール62に架け渡された無端状の通気性ベルト63と、該通気性ベルト63を挟んで回転ドラム2の空間Cが存する部分と対向する位置に配されたバキュームボックス64とを含んで構成されている。通気性ベルト63上には帯状のコアラップシート10Wが導入され、集積用凹部22から離型された積繊物たる吸収体10がコアラップシート10W上に受け渡されるようになされている。 The vacuum conveyor 6 is disposed at a position opposed to the endless air-permeable belt 63 stretched over the driving roll 61 and the driven roll 62 and the area where the space C of the rotary drum 2 exists with the air-permeable belt 63 interposed therebetween. And a vacuum box 64. A band-shaped core wrap sheet 10W is introduced onto the air-permeable belt 63, and the absorbent material 10 as a piled fiber released from the accumulation recess 22 is delivered onto the core wrap sheet 10W.
 ダクト3は、図2に示すように、第1供給機構4から回転ドラム2に亘って連続的に延びており、原材料の供給方向の上流側の開口部と下流側(回転ドラム2側)の開口部とを有し、これら両開口部間に原材料の流路30が存している。ダクト3の天板には、流路30に吸水性ポリマー粒子を供給するポリマー散布管31が配されており、吸収体10に吸水性ポリマー粒子を含有させる場合はこのポリマー散布管31を使用する。 As shown in FIG. 2, the duct 3 extends continuously from the first supply mechanism 4 to the rotary drum 2, and includes an opening on the upstream side and a downstream side (rotary drum 2 side) in the raw material supply direction. There is an opening, and a flow path 30 of the raw material exists between these two openings. The top plate of the duct 3 is provided with a polymer scattering pipe 31 for supplying water absorbing polymer particles to the flow path 30. When the absorbent body 10 contains water absorbing polymer particles, this polymer scattering pipe 31 is used .
 前述したように、吸収体10は繊維材料としてシート片11及び親水性繊維12の2種類を含有するところ、製造装置1はこれに対応して繊維材料の供給機構として、親水性繊維12をダクト3内に供給する第1供給機構4(親水性繊維製造装置)と、シート片11をダクト3内に供給する第2供給機構5(シート片製造装置)と備えている。 As described above, the absorbent body 10 contains two types of sheet pieces 11 and hydrophilic fibers 12 as a fiber material, and the manufacturing apparatus 1 correspondingly ducts the hydrophilic fibers 12 as a fiber material supply mechanism. A first supply mechanism 4 (hydrophilic fiber manufacturing device) for supplying the inside of the sheet 3 and a second supply mechanism 5 (sheet piece manufacturing device) for supplying the sheet piece 11 into the duct 3 are provided.
 第1供給機構4(親水性繊維製造装置)は、ダクト3における回転ドラム2側とは反対側の開口部に配されている。第1供給機構4は、この種のパルプ繊維等の積繊装置における繊維材料の供給機構と同様に構成されており、複数の親水性繊維12が集積した帯状の原料シート10asを解繊する解繊機41を備えている。 The first supply mechanism 4 (hydrophilic fiber producing device) is disposed at the opening of the duct 3 opposite to the rotary drum 2 side. The first feeding mechanism 4 is configured in the same manner as the feeding mechanism of the fiber material in the fiber laying device such as this type of pulp fiber, and is disintegrated to break up the strip-like raw material sheet 10as in which a plurality of hydrophilic fibers 12 are accumulated. A fiber machine 41 is provided.
 図3には、第2供給機構5(シート片製造装置)が拡大して模式的に示されている。第2供給機構5は、直方体形状ないし立方体形状のシート片11を製造供給する装置であって、シート片11の構成繊維(合成繊維)からなる帯状の原料シート10bsを、図4に示すように、互いに交差する2方向(第1方向D1及び第2方向D2)に所定の長さで切断する後述するシート片製造工程を実施する装置であり、被切断物(原料シート10bs)を第1方向D1に切断する第1の切断機構5Aと、該第1の切断機構5Aよりも被切断物の搬送方向MDの下流側に配され、被切断物を第2方向D2に切断する第2の切断機構5Bとを備えている。原料シート10bsとしては、各種製法による不織布を例示できる。 The 2nd supply mechanism 5 (sheet piece manufacturing apparatus) is expanded and schematically shown by FIG. The second supply mechanism 5 is an apparatus for manufacturing and supplying the rectangular or cubic sheet piece 11, and as shown in FIG. 4, a strip-like raw material sheet 10bs composed of constituent fibers (synthetic fibers) of the sheet piece 11 is shown. An apparatus for carrying out a sheet piece manufacturing process described later in which cutting is performed in a predetermined length in two directions (first direction D1 and second direction D2) intersecting each other, the object to be cut (raw material sheet 10bs) A first cutting mechanism 5A for cutting into D1 and a second cutting mechanism which is disposed downstream of the first cutting mechanism 5A in the conveying direction MD of the object to be cut and cuts the object to be cut in the second direction D2 And a mechanism 5B. As raw material sheet 10bs, the nonwoven fabric by various manufacturing methods can be illustrated.
 原料シート10bsの切断方向の1つである「第1方向D1」は、第2供給機構5における原料シート10bsの搬送方向MDに対応しており、第1方向D1と搬送方向MDとのなす角度は45度未満である。図示の形態においては、第1方向D1と搬送方向MDとは一致しており、両方向D1,MDのなす角度はゼロである。
 また、原料シート10bsの切断方向の他の1つである「第2方向D2」は、第1方向D1に交差する方向であり、図示の形態においては、第1方向D1(搬送方向MD)と第2方向D2とは直交し、両方向D1,D2のなす角度は90度である。
 また、図2中の符号CDで示す方向は、搬送方向MDと直交する搬送直交方向であると共に、回転ドラム2及び製造装置1が具備する各種ロールの回転軸と平行な方向であり、図示の形態では、長尺帯状の積繊物たる吸収体10及び長尺帯状の原料シート10as,10bsそれぞれの幅方向(長手方向と直交する方向)と一致し、また、第2方向D2とも一致している。
The “first direction D1”, which is one of the cutting directions of the raw material sheet 10bs, corresponds to the conveyance direction MD of the raw material sheet 10bs in the second supply mechanism 5, and the angle between the first direction D1 and the conveyance direction MD. Is less than 45 degrees. In the illustrated embodiment, the first direction D1 coincides with the transport direction MD, and the angle between the two directions D1 and MD is zero.
In addition, “the second direction D2” which is another one of the cutting direction of the raw material sheet 10bs is a direction intersecting the first direction D1, and in the illustrated embodiment, the first direction D1 (conveying direction MD) The second direction D2 is orthogonal to the second direction D2, and the angle between the two directions D1 and D2 is 90 degrees.
Further, a direction indicated by a code CD in FIG. 2 is a conveyance orthogonal direction orthogonal to the conveyance direction MD, and is a direction parallel to the rotation axes of various rolls included in the rotary drum 2 and the manufacturing apparatus 1. In the form, it coincides with the width direction (direction orthogonal to the longitudinal direction) of each of the long band shaped absorbent material 10 as the accumulated fiber and the long band shaped raw material sheet 10as, 10bs, and also coincides with the second direction D2. There is.
 第1の切断機構5Aは、図2及び図3に示すように、カッターロール51とアンビルロール52とを含んで構成されている。両ロール51,52は、それぞれ、略円筒状をなし、回転軸周りに回転可能に支持され、且つそれらの回転軸を平行に揃えつつ周面を対向させて互いに反対方向に回転するように配置されている。カッターロール51の周面にはカッター刃51Cが配されているのに対し、受けロール52の周面は、カッター刃が配されておらず平滑である。第1の切断機構5Aでは被切断物(原料シート10bs)を搬送方向MD(第1方向D1)に切断するため、カッターロール51のカッター刃51Cは、斯かる切断方向に対応して、該ロール51の周方向に延び、該ロール51の周面においてその周方向の全長にわたって延在している。カッターロール51の周面には、複数のカッター刃51Cが搬送直交方向CD(第2方向D2)に所定の間隔を置いて複数配されている。 The first cutting mechanism 5A includes a cutter roll 51 and an anvil roll 52, as shown in FIGS. The two rolls 51 and 52 each have a substantially cylindrical shape, are rotatably supported about the rotation axis, and are arranged to rotate in opposite directions with the circumferential surfaces facing each other while aligning their rotation axes in parallel. It is done. While the cutter blade 51C is disposed on the circumferential surface of the cutter roll 51, the circumferential surface of the receiving roller 52 is smooth because the cutter blade is not disposed. In the first cutting mechanism 5A, the cutter blade 51C of the cutter roll 51 corresponds to the cutting direction so as to cut the material to be cut (raw material sheet 10bs) in the transport direction MD (first direction D1). It extends in the circumferential direction 51 and extends over the entire circumferential length of the circumferential surface of the roll 51. On the circumferential surface of the cutter roll 51, a plurality of cutter blades 51C are disposed at predetermined intervals in the conveyance orthogonal direction CD (second direction D2).
 第2の切断機構5Bは、図2及び図3に示すように、カッターロール53とアンビルロール54とを含んで構成されている。両ロール53,54は、それぞれ、回転軸周りに回転可能に支持され、且つそれらの回転軸を平行に揃えつつ周面を対向させて互いに反対方向に回転するように配置されている。カッターロール53の周面にはカッター刃53Cが配されているのに対し、受けロール54の周面は、カッター刃が配されておらず平滑である。第2の切断機構5Bでは被切断物(細幅シート10bt)を搬送直交方向CD(第2方向D2)に切断するため、カッターロール53のカッター刃53Cは、斯かる切断方向に対応して、該ロール53の回転軸方向に延び、該ロール53の周面において該回転軸方向の中央部から同方向の両外方にわたって延在している。カッターロール53の周面には、複数のカッター刃53Cが該ロール53の周方向に所定の間隔を置いて複数配されている。 The 2nd cutting mechanism 5B is comprised including the cutter roll 53 and the anvil roll 54, as shown in FIG.2 and FIG.3. The two rolls 53 and 54 are rotatably supported around their respective rotation axes, and arranged so that their circumferential surfaces face each other and rotate in opposite directions while aligning their rotation axes in parallel. While the cutter blade 53C is disposed on the circumferential surface of the cutter roll 53, the circumferential surface of the receiving roller 54 is smooth without the cutter blade being disposed. In the second cutting mechanism 5B, the cutter blade 53C of the cutter roll 53 corresponds to the cutting direction so as to cut the object to be cut (the narrow sheet 10bt) in the conveyance orthogonal direction CD (second direction D2). It extends in the rotational axis direction of the roll 53, and extends from the central portion in the rotational axis direction on the circumferential surface of the roll 53 to both outer sides in the same direction. On the circumferential surface of the cutter roll 53, a plurality of cutter blades 53C are arranged at predetermined intervals in the circumferential direction of the roll 53.
 以上の如き構成の製造装置1を用いたシート片11の製造方法について、該製造方法を利用した吸収体10の製造方法と共に説明する。吸収体10の製造方法は、帯状の原料シート10bsを切断(クロスカット)してシート片11を得るシート片製造工程と、該シート片11を空気流によって所定の集積部まで搬送して集積する集積工程とを有する。前記シート片製造工程は、本発明のシート片の製造方法に従って実施される工程である。先ず、前記シート片製造工程について説明する。 The manufacturing method of the sheet piece 11 using the manufacturing apparatus 1 of the above structures is demonstrated with the manufacturing method of the absorber 10 using this manufacturing method. In the method of manufacturing the absorbent body 10, a sheet piece manufacturing process for obtaining the sheet piece 11 by cutting (cross-cutting) the strip-like raw material sheet 10bs, and conveying and accumulating the sheet piece 11 to a predetermined accumulation portion by air flow And an accumulation step. The said sheet piece manufacturing process is a process implemented according to the manufacturing method of the sheet piece of this invention. First, the sheet piece manufacturing process will be described.
 本実施形態の吸収体10の製造方法における前記シート片製造工程、即ちシート片11の製造方法は、第2供給機構5により実施されるものであり、図2及び図3に示すように、複数の繊維(合成繊維)が集積した帯状の原料シート10bsを、該原料シート10bsの長手方向に沿う第1方向D1(搬送方向MD)に切断して複数の帯状の細幅シート10btを得、次いで、該複数の細幅シート10btをそれぞれ第1方向D1に交差(図示の形態では「直交」)する第2方向D2(搬送直交方向CD)に切断してシート片11を製造する。 The sheet piece manufacturing process in the method of manufacturing the absorbent body 10 of the present embodiment, that is, the method of manufacturing the sheet piece 11 is performed by the second supply mechanism 5 and, as shown in FIGS. The strip-like raw material sheet 10bs in which the fibers (synthetic fibers) are accumulated is cut in a first direction D1 (conveying direction MD) along the longitudinal direction of the raw material sheet 10bs to obtain a plurality of strip-like narrow sheets 10bt The sheet pieces 11 are manufactured by cutting the plurality of narrow sheets 10bt in the second direction D2 (conveying orthogonal direction CD) intersecting (in the illustrated embodiment, "orthogonal") in the first direction D1.
 第2供給機構5で実施される前記シート片製造工程は、図3に示すように、帯状の原料シート10bsを一方向に搬送しつつ、第1の切断機構5Aによって該シート10bsをその搬送方向MDに沿って切断して、複数の帯状の細幅シート10btを得る第1切断工程と、該細幅シート10btを一方向に搬送しつつ、第2の切断機構5Bによって該細幅シート10btをその搬送方向MDと直交する搬送直交方向CDに切断して、複数のシート片11を得る第2切断工程とを有する。 In the sheet piece manufacturing process performed by the second supply mechanism 5, as shown in FIG. 3, the sheet material 10bs is conveyed by the first cutting mechanism 5A while the strip-like raw material sheet 10bs is conveyed in one direction. A first cutting step of obtaining a plurality of strip-like narrow sheets 10bt by cutting along the MD, and conveying the narrow sheets 10bt in one direction, the second sheet 10bt by the second cutting mechanism 5B And a second cutting step of obtaining a plurality of sheet pieces 11 by cutting in a conveyance orthogonal direction CD orthogonal to the conveyance direction MD.
 第2供給機構5では、先ず、搬送中の原料シート10bsを、第1の切断機構5Aのカッターロール51とアンビルロール52との間における両ロール51,52の最近接部である切断部50Aにて、カッター刃51Cにより、該シート10bsの長手方向であり搬送方向MDでもある第1方向D1(図4参照)に切断して、同方向D1に延びる細幅シート10btを複数製造する(第1切断工程)。前記第1切断工程は、回転軸周りに回転するカッターロール51とアンビルロール52との間(切断部50A)に原料シート10bsを導入することによって実施される。前記第1切断工程で形成された細幅シート10btの平均幅(複数の細幅シート10btの搬送直交方向CDの長さの平均値)は、シート片11が所定の効果を発現する上で必要な寸法を確保する観点などから、0.1mm以上10mm以下であることが好ましく、0.3mm以上6mm以下であることがさらに好ましく、0.5mm以上5mm以下であることが特に好ましい。本実施形態においては、第1の切断機構5Aのカッターロール51にて切断される細幅シート10btの幅(搬送直交方向CDの長さ)は、最終的に形成されるシート片11の短手方向の辺の長さに相当する。しかしながら、第1の切断機構5Aのカッターロール51にて切断される細幅シート10btの幅が、最終的に形成されるシート片11の長手方向の辺の長さに相当するように切断してもよく、その場合のカッターロール51にて切断される細幅シート10btの平均幅は、0.3mm以上30mm以下であることが好ましく、1mm以上15mm以下であることがさらに好ましく、2mm以上10mm以下であることが特に好ましい。こうして製造された複数の細幅シート10btは、搬送直交方向CDに並列に配された状態で第2の切断機構5Bに搬送される。 In the second supply mechanism 5, first, the raw material sheet 10bs being conveyed is transferred to the cutting portion 50A which is the closest portion of the rolls 51 and 52 between the cutter roll 51 and the anvil roll 52 of the first cutting mechanism 5A. The plurality of narrow sheets 10bt extending in the same direction D1 are manufactured by cutting in the first direction D1 (see FIG. 4) which is the longitudinal direction of the sheet 10bs and is also the transport direction MD by the cutter blade 51C. Cutting process). The said 1st cutting process is implemented by introduce | transducing the raw material sheet 10bs between the cutter roll 51 and the anvil roll 52 (cutting part 50A) which rotate around a rotating shaft. The average width of the narrow sheets 10bt formed in the first cutting step (the average value of the lengths of the plurality of narrow sheets 10b in the conveyance orthogonal direction CD) is necessary for the sheet piece 11 to exhibit a predetermined effect. From the viewpoint of securing such dimensions, it is preferably 0.1 mm or more and 10 mm or less, more preferably 0.3 mm or more and 6 mm or less, and particularly preferably 0.5 mm or more and 5 mm or less. In the present embodiment, the width of the narrow sheet 10bt (the length in the conveyance orthogonal direction CD) cut by the cutter roll 51 of the first cutting mechanism 5A is the width of the sheet piece 11 finally formed. It corresponds to the side length of the direction. However, the width of the narrow sheet 10bt cut by the cutter roll 51 of the first cutting mechanism 5A is cut so as to correspond to the length of the longitudinal side of the sheet piece 11 finally formed. The average width of the narrow sheet 10bt cut by the cutter roll 51 in that case is preferably 0.3 mm or more and 30 mm or less, more preferably 1 mm or more and 15 mm or less, and 2 mm or more and 10 mm or less Is particularly preferred. The plurality of narrow sheets 10bt manufactured in this manner are conveyed to the second cutting mechanism 5B in a state of being arranged in parallel in the conveyance orthogonal direction CD.
 次に、第2の切断機構5Bでは、前記第1切断工程で製造された複数の帯状の細幅シート10btを、第2の切断機構5Bのカッターロール53とアンビルロール54との間における両ロール53,54の最近接部である切断部50Bにて、カッター刃53Cにより、細幅シート10btの幅方向であり搬送直交方向CDでもある第2方向D2(図4参照)に切断して、同方向D2に所定の長さを有するシート片11を複数製造する(第2切断工程)。図5には、搬送直交方向CDに並走する複数の細幅シート10btを、第2の切断機構5Bにおけるカッターロール53によって搬送直交方向CDに切断し、シート片11を複数製造する様子が示されている。前記第2切断工程は、回転軸周りに回転するカッターロール53とアンビルロール54との間(切断部50B)に細幅シート10btを導入することによって実施される。尚、図5中、符号530はカッターロール53のロール本体を示し、符号531はカッターロール53の回転軸を示す。第2供給機構5における他のロール51,52,54も、カッターロール53と同様に、ロール本体及び回転軸を有している。 Next, in the second cutting mechanism 5B, the plurality of strip-like narrow sheets 10bt manufactured in the first cutting step are both rolls between the cutter roll 53 and the anvil roll 54 of the second cutting mechanism 5B. At the cutting portion 50B which is the closest portion of 53 and 54, it is cut by the cutter blade 53C in the second direction D2 (see FIG. 4) which is the width direction of the narrow sheet 10bt and the transport orthogonal direction CD. A plurality of sheet pieces 11 having a predetermined length in the direction D2 are manufactured (second cutting step). FIG. 5 shows how a plurality of sheet pieces 11 are manufactured by cutting a plurality of narrow sheets 10bt traveling in parallel in the transport orthogonal direction CD by the cutter roll 53 in the second cutting mechanism 5B in the transport orthogonal direction CD. It is done. The second cutting step is performed by introducing the narrow sheet 10bt between the cutter roll 53 rotating around the rotation axis and the anvil roll 54 (cut portion 50B). In FIG. 5, reference numeral 530 indicates a roll main body of the cutter roll 53, and reference numeral 531 indicates a rotation axis of the cutter roll 53. Like the cutter roll 53, the other rolls 51, 52, 54 in the second supply mechanism 5 also have a roll main body and a rotating shaft.
 このように、第2供給機構5において帯状の原料シート10bsを第1方向D1及びこれに直交する第2方向D2に順次切断することで、原料シート10bsは図4に示す如く賽の目状に切断され、直方体形状又は立方体形状の複数のシート片11となる。前記第2切断工程で形成されたシート片11の平均長さ(複数のシート片11の、細幅シート10btの搬送方向MDに沿う長さの平均値)は、シート片11が所定の効果を発現する上で必要な寸法を確保する観点などから、0.3mm以上30mm以下であることが好ましく、1mm以上15mm以下であることがさらに好ましく、2mm以上10mm以下であることが特に好ましい。本実施形態においては、第2の切断機構5Bのカッターロール53にて切断されるシート片11の長さは、シート片11の長手方向の辺の長さに相当する。しかしながら、第2の切断機構5Bのカッターロール53にて切断されるシート片11の長さが、シート片11の短手方向の辺の長さに相当するように切断してもよく、その場合の第2の切断機構5Bのカッターロール53にて切断されるシート片10bhの長さ(幅)は、0.1mm以上10mm以下であることが好ましく、0.3mm以上6mm以下であることがさらに好ましく、0.5mm以上5mm以下であることが特に好ましい。 As described above, by sequentially cutting the strip-like raw material sheet 10bs in the first direction D1 and the second direction D2 orthogonal to this in the second supply mechanism 5, the raw material sheet 10bs is cut into a gauze shape as shown in FIG. The plurality of sheet pieces 11 have a rectangular parallelepiped shape or a cubic shape. The average length of the sheet pieces 11 formed in the second cutting step (the average value of the lengths of the plurality of sheet pieces 11 along the conveyance direction MD of the narrow sheets 10bt) is that the sheet pieces 11 have a predetermined effect. From the viewpoint of securing dimensions necessary for expression, etc., it is preferably 0.3 mm or more and 30 mm or less, more preferably 1 mm or more and 15 mm or less, and particularly preferably 2 mm or more and 10 mm or less. In the present embodiment, the length of the sheet piece 11 cut by the cutter roll 53 of the second cutting mechanism 5B corresponds to the length of the side of the sheet piece 11 in the longitudinal direction. However, the length of the sheet piece 11 cut by the cutter roll 53 of the second cutting mechanism 5B may be cut so as to correspond to the length of the short side of the sheet piece 11, in that case The length (width) of the sheet piece 10bh cut by the cutter roll 53 of the second cutting mechanism 5B is preferably 0.1 mm or more and 10 mm or less, and further preferably 0.3 mm or more and 6 mm or less Preferably, it is 0.5 mm or more and 5 mm or less.
 本実施形態の吸収体10の製造方法では、前述したように、第2供給機構5によりシート片11の製造方法を実施して前記シート片製造工程を完了させた後、該第2供給機構5で製造された複数のシート片11と、第1供給機構4で製造された親水性繊維12とを、回転ドラム2の外周面2fに形成された前記集積部としての集積用凹部22に集積する(集積工程)。 In the method of manufacturing the absorbent body 10 of the present embodiment, as described above, after the method of manufacturing the sheet piece 11 is performed by the second supply mechanism 5 to complete the sheet piece manufacturing process, the second supply mechanism 5 is completed. The plurality of sheet pieces 11 manufactured in the first embodiment and the hydrophilic fibers 12 manufactured in the first supply mechanism 4 are accumulated in the accumulation recess 22 as the accumulation portion formed on the outer peripheral surface 2 f of the rotating drum 2 (Accumulation process).
 より具体的には、前記シート片製造工程で製造された複数のシート片11は、吸引ノズル8によってダクト3内の流路30に供給され、第1供給機構4から回転ドラム2に向かって流路30を飛散している親水性繊維12と混合され、親水性繊維12と共に集積用凹部22に積繊される(集積工程)。吸引ノズル8はその長さ方向の両端が開口しており、そのうちの一方の開口81が、第2の切断機構5Bのカッターロール53とアンビルロール54との最近接部である切断部50Bの近傍に位置し、他方の図示しない開口にてダクト3内の流路30と連通している。カッターロール53とアンビルロール54との間にて製造された複数のシート片11は、開口81を通じて吸引ノズル8内に取り込まれ、ダクト3内に供給される。製造装置1においては、吸引ノズル8とダクト3との接続位置は、図2に示すように、回転ドラム2と第1供給機構4との間であり、且つポリマー散布管31よりも回転ドラム2寄りの位置である。 More specifically, the plurality of sheet pieces 11 manufactured in the sheet piece manufacturing process are supplied to the flow path 30 in the duct 3 by the suction nozzle 8 and flow from the first supply mechanism 4 toward the rotary drum 2 It mixes with the hydrophilic fiber 12 which has scattered the path | route 30, and is accumulated in the recessed part 22 for accumulation | storage with the hydrophilic fiber 12 (accumulation process). The suction nozzle 8 is open at both ends in the length direction, and one of the openings 81 is near the cutting portion 50B which is the closest portion between the cutter roll 53 of the second cutting mechanism 5B and the anvil roll 54. , And communicates with the flow passage 30 in the duct 3 at the other opening (not shown). The plurality of sheet pieces 11 manufactured between the cutter roll 53 and the anvil roll 54 are taken into the suction nozzle 8 through the opening 81 and supplied into the duct 3. In the manufacturing apparatus 1, the connection position of the suction nozzle 8 and the duct 3 is between the rotary drum 2 and the first supply mechanism 4 as shown in FIG. It is the position of the side.
 尚、吸収体10に吸水性ポリマー粒子を含有させる場合は、前記集積工程において、ダクト3に配されたポリマー散布管31(図2参照)を用いて、吸水性ポリマー粒子をダクト3内の流路30に供給して、該流路30内を集積用凹部22に向かって流れる空気流に乗せ、該流路30内に別途供給されたシート片11及び親水性繊維12と共に、集積用凹部22に積繊させる。 When water absorbent polymer particles are contained in the absorbent body 10, the polymer dispersion tube 31 (see FIG. 2) disposed in the duct 3 is used to flow the water absorbent polymer particles in the duct 3 in the accumulation step. It is supplied to the passage 30 and placed in the air flow flowing in the flow passage 30 toward the accumulation recess 22, and together with the sheet piece 11 and the hydrophilic fiber 12 separately supplied in the flow passage 30, the accumulation recess 22 Stacked
 前述したシート片11の製造方法(吸収体10の製造方法におけるシート片製造工程)においては、原料シート10bsのクロスカットを行う第2供給機構5(シート片製造装置)における第2切断工程、即ち複数の帯状の細幅シート10btをそれらの搬送方向MDと交差する搬送交差方向(本実施形態では搬送直交方向CD)に切断して複数のシート片11を得る工程において、細幅シート10btの切断不良が生じ、細幅シート10btが所定箇所で切断されずに長尺帯状の状態で所定の集積部まで搬送される、カッターロール53等の製造装置1の各部に巻きつく等の不都合が生じる可能性がある。一般に、一方向に搬送中のシートを、本実施形態の製造装置1における切断部50A,50Bの如き、所定の切断部で切断するためには、切断部において該シートに張力がかかっている必要があり、一般的な切断装置においては、切断部の上流側及び下流側にシートのフィード機構を設けて搬送することにより、該切断部においてシートに張力を付与した状態で切断することができる。しかしながら、本発明で製造するシート片は、切断ピッチが30mm程度以下であるために、切断部より下流側にフィード機構を設けることが困難である。従って、前記第2切断工程の被切断物たる細幅シート10btは、図3に示すように、第1の切断機構5Aの切断部50Aから第2の切断機構5Bの切断部50Bの直前までは、搬送方向MDに連続していて一定の張力が付与されているものの、切断部50Bで初めて搬送直交方向CDに切断され、最初のシート片11が切り出された後は、該細幅シート10btの切断端部は非固定の状態となるため、張力が不十分となる。そのため、長期間の使用に伴いカッター刃53Cが摩耗等して劣化した場合には、切断不良が起こりやすくなるものと推察される。 In the manufacturing method of the sheet piece 11 mentioned above (sheet piece manufacturing process in the manufacturing method of the absorber 10), the 2nd cutting process in the 2nd supply mechanism 5 (sheet piece manufacturing apparatus) which cross-cuts the raw material sheet 10bs, ie, In the step of cutting the plurality of strip narrow sheets 10bt in the conveyance cross direction (in the present embodiment, the conveyance orthogonal direction CD) intersecting the conveyance direction MD to obtain the plurality of sheet pieces 11, the narrow sheet 10bt is cut It is possible that a defect occurs and that the narrow sheet 10bt is not cut at a predetermined position but is conveyed to a predetermined accumulation portion in a long strip-like state, or a disadvantage such as winding around each portion of the manufacturing apparatus 1 such as the cutter roll 53 is generated. There is sex. Generally, in order to cut a sheet being conveyed in one direction at a predetermined cutting portion such as the cutting portions 50A and 50B in the manufacturing apparatus 1 of this embodiment, the sheet needs to be under tension in the cutting portion In a general cutting device, by providing a sheet feed mechanism on the upstream side and downstream side of the cutting portion and conveying the sheet, it is possible to cut the sheet in a tensioned state at the cutting portion. However, since the sheet piece manufactured by this invention is about 30 mm or less in cutting pitch, it is difficult to provide a feed mechanism downstream from a cutting part. Therefore, as shown in FIG. 3, the narrow sheet 10bt, which is the object to be cut in the second cutting step, extends from the cutting portion 50A of the first cutting mechanism 5A to just before the cutting portion 50B of the second cutting mechanism 5B. Of the narrow sheet 10bt after being cut in the conveyance orthogonal direction CD for the first time by the cutting section 50B and being cut out of the first sheet piece although it is continuous in the conveyance direction MD and given a constant tension. Since the cut end is in a non-fixed state, the tension is insufficient. Therefore, when the cutter blade 53C is worn and deteriorated due to long-term use, it is presumed that a cutting defect easily occurs.
 そこで本発明では、第2の切断機構5Bにおけるカッターロール53の周速度と、被切断物たる細幅シート10btの該切断機構5Bへの搬送速度との比率に着目し、これを適切に制御することで、細幅シート10btの切断不良の問題を解決した。具体的には、カッターロール53の周速度V1(図3参照)を、細幅シート10btの該カッターロール53とアンビルロール54との間(切断部50B)への導入速度V0(図3参照)よりも速くする、即ち「カッターロールの周速度V1>被切断物の導入速度V0」なる大小関係を成立させるのである。斯かる速度比の調整により、被切断物たる帯状の細幅シート10btに、これを搬送方向MDと交差する方向に切断するのに十分な張力が付与されて、第2の切断機構5Bによる細幅シート10btの切断が安定的になされるようになり、サイズの揃った複数のシート片11を連続的に効率よく製造することが可能となる。周速度V1と導入速度V0との比率は、V1>V0を前提として、V1/V0として、好ましくは1.1以上、さらに好ましくは1.2以上、そして、好ましくは4.0以下、さらに好ましくは3.5以下である。 Therefore, in the present invention, attention is directed to the ratio of the peripheral speed of the cutter roll 53 in the second cutting mechanism 5B to the conveying speed of the narrow sheet 10bt to be cut to the cutting mechanism 5B, and this is appropriately controlled. Solved the problem of cutting defects of the narrow sheet 10bt. Specifically, the peripheral speed V1 (see FIG. 3) of the cutter roll 53 is the introduction speed V0 (see FIG. 3) between the cutter roll 53 and the anvil roll 54 of the narrow sheet 10bt (see FIG. 3). It is made faster than that, that is, the magnitude relation that "the peripheral velocity V1 of the cutter roll> the introduction velocity V0 of the object to be cut" is established. By adjusting the speed ratio, the strip-like narrow sheet 10bt to be cut is given sufficient tension to cut it in the direction intersecting with the transport direction MD, and the thin sheet by the second cutting mechanism 5B The width sheet 10bt can be stably cut, and the plurality of sheet pieces 11 of uniform size can be continuously and efficiently manufactured. The ratio of the peripheral velocity V1 to the introduction velocity V0 is preferably 1.1 or more, more preferably 1.2 or more, and preferably 4.0 or less, more preferably V1 or V0, assuming V1> V0. Is less than 3.5.
 カッターロール53の周速度V1及び細幅シート10btの導入速度V0は、それぞれ特に限定されず、細幅シート10btの種類や物性等に応じて適宜調整すればよい。例えば、細幅シート10bt(原料シート10bs)が不織布である場合、周速度V及び導入速度V0はそれぞれ下記のように設定することができる。
 周速度V1:好ましくは30m/分以上、さらに好ましくは50m/分以上、そして、好ましくは1000m/分以下、さらに好ましくは500m/分以下
 導入速度V0は、周速度V1の設定値と、前述した周速度V1と導入速度V0との比率との関係で、設定することができる。
The peripheral velocity V1 of the cutter roll 53 and the introduction velocity V0 of the narrow sheet 10bt are not particularly limited, respectively, and may be appropriately adjusted according to the type, physical properties, etc. of the narrow sheet 10bt. For example, when the narrow sheet 10bt (raw material sheet 10bs) is a non-woven fabric, the peripheral velocity V and the introduction velocity V0 can be set as follows.
Peripheral speed V1: preferably 30 m / min or more, more preferably 50 m / min or more, and preferably 1000 m / min or less, more preferably 500 m / min or less. The introduction speed V0 is the same as the setting value of the peripheral speed V1. It can be set by the relationship between the peripheral velocity V1 and the introduction velocity V0.
 本実施形態の第2の切断機構5B(シート片製造装置)においては、図3に示すように、第1の切断機構5Aと第2の切断機構5Bとの間に、細幅シート10btをその搬送方向MDの上流側から下流側に向けて送り出すフィード機構5Cを配置し、該フィード機構5Cによって導入速度V0を調整している。このように、第1の切断機構5A(切断部50A)と第2の切断機構5B(切断部50B)との中間位置にフィード機構5Cを配置することで、細幅シート10btの搬送安定性が向上するため、第2の切断機構5Bでの切断不良がより一層効果的に防止される。 In the second cutting mechanism 5B (sheet piece manufacturing apparatus) of the present embodiment, as shown in FIG. 3, the narrow sheet 10bt is placed between the first cutting mechanism 5A and the second cutting mechanism 5B. A feed mechanism 5C for feeding out from the upstream side to the downstream side of the transport direction MD is disposed, and the introduction speed V0 is adjusted by the feed mechanism 5C. Thus, by arranging the feed mechanism 5C at an intermediate position between the first cutting mechanism 5A (cutting portion 50A) and the second cutting mechanism 5B (cutting portion 50B), the conveyance stability of the narrow sheet 10bt is improved. In order to improve, cutting defects in the second cutting mechanism 5B are more effectively prevented.
 尚、フィード機構5Cによる細幅シート10btの送り出し速度は、通常、該細幅シート10btのカッターロール53(第2の切断機構5B)への導入速度V0と同じである。ここでいう、フィード機構5Cによる細幅シート10btの送り出し速度とは、送り出された細幅シート10btの表面での速度を意味する。 The feeding speed of the narrow sheet 10bt by the feed mechanism 5C is usually the same as the introduction speed V0 of the narrow sheet 10bt to the cutter roll 53 (the second cutting mechanism 5B). Here, the delivery speed of the narrow sheet 10bt by the feed mechanism 5C means the speed on the surface of the delivered narrow sheet 10bt.
 フィード機構5Cは、図3に示すように、シート搬送路を挟んで対向配置された一対の回転ロール55,55を含んで構成され、両ロール55,55間に導入された細幅シート10btを両ロール55,55で挟持してその搬送方向MDの下流側に送り出すようになされている。フィード機構5Cは、両ロール55,55間の最近接部(ニップ部)にて、細幅シート10btと接触してこれを送り出すようになされており、該最近接部が、細幅シート10btとの接触部50Cである。両ロール55,55のうちの一方が、駆動源に接続され、それ単体で回転軸周りに回転可能な駆動ロール、他方が、単体では軸周りに回転不能な連れ回りロールであってもよく、両方が駆動ロールであってもよい。 As shown in FIG. 3, the feed mechanism 5C is configured to include a pair of rotating rolls 55, 55 disposed opposite to each other across the sheet conveyance path, and the narrow sheet 10bt introduced between the two rolls 55, 55 is It is configured to be sandwiched by both rolls 55, 55 and sent out to the downstream side in the transport direction MD. The feed mechanism 5C contacts and sends out the narrow sheet 10bt at the closest portion (nip portion) between the rolls 55 and 55, and the closest portion is the narrow sheet 10bt and the narrow sheet 10bt. Contact portion 50C. One of the two rolls 55, 55 may be connected to the drive source, and may be a drive roll that can rotate alone about the rotation axis, and the other may be a co-rolling roll that can not rotate around the axis. Both may be drive rolls.
 フィード機構5Cの配置による作用効果をより確実に奏させるようにする観点から、第2の切断機構5Bにおける原料シート10bsの切断部50Bとフィード機構5Cにおける細幅シート10btとの接触部50Cとの間のシート搬送路に沿った離間距離L2(図3参照)は、接触部50Cと第1の切断機構5Aにおける細幅シート10btの切断部50Bとの間のシート搬送路に沿った離間距離L1(図3参照)に比して短いことが好ましい。離間距離L1,L2の比率は、L1>L2を前提として、L2/L1として、好ましくは0.8以下、さらに好ましくは0.5以下である。 From the viewpoint of ensuring the effect by the arrangement of the feed mechanism 5C more reliably, the cutting portion 50B of the raw material sheet 10bs in the second cutting mechanism 5B and the contact portion 50C between the narrow sheet 10bt in the feed mechanism 5C. A separation distance L2 (see FIG. 3) along the sheet conveyance path between them is a separation distance L1 along the sheet conveyance path between the contact portion 50C and the cutting portion 50B of the narrow sheet 10bt in the first cutting mechanism 5A. It is preferable to be shorter than (see FIG. 3). The ratio of the separation distances L1 and L2 is preferably 0.8 or less, and more preferably 0.5 or less as L2 / L1, on the assumption that L1> L2.
 本実施形態においては、細幅シート10btの搬送時の張力を安定させて、第2の切断機構5Bでの切断不良をより一層効果的に防止する観点から、前記第1切断工程の前に、原料シート10bsの張力を調整する張力調整工程を設けている。具体的には図3に示すように、第1の切断機構5Aよりも搬送方向MDの上流側におけるシート搬送路内に張力調整機構5Dを配置し、該張力調整機構5Dによって原料シート10bsの張力を調整することで、該原料シート10bsを搬送方向MDに切断してなる細幅シート10btの搬送時の張力の安定化を図っている。 In the present embodiment, before the first cutting process, the tension during conveyance of the narrow sheet 10bt is stabilized, and the cutting failure in the second cutting mechanism 5B is more effectively prevented. A tension adjustment process is provided to adjust the tension of the raw material sheet 10bs. Specifically, as shown in FIG. 3, the tension adjustment mechanism 5D is disposed in the sheet conveyance path on the upstream side of the first cutting mechanism 5A in the conveyance direction MD, and the tension adjustment mechanism 5D tensions the raw material sheet 10bs. The tension at the time of conveyance of the narrow sheet 10bt formed by cutting the raw material sheet 10bs in the conveyance direction MD is stabilized by adjusting.
 張力調整機構5Dは、図3に示すように、搬送方向MDに間欠配置された2個の固定ロール59A,59Aと、両ロール59A,59A間に配置されたダンサーロール59Bとを含んで構成されている。ダンサーロール59Bは、両ロール59A,59A間を搬送中の原料シート10bsに近づく方向に移動可能であると共に、該近づく方向とは逆方向にも移動可能になされている。ダンサーロール59Bが、両ロール59A,59A間を搬送中の原料シート10bsに近づく方向に移動することで、該原料シート10bsが該ロール59Bによって押圧されて、該原料シート10bsの張力が増加し、また、該近づく方向とは逆方向に移動することで、該張力が減少する。ダンサーロール59Bの斯かる移動機構は、公知のダンサーロールにおけるものと同様に構成することができる。 As shown in FIG. 3, the tension adjusting mechanism 5D includes two fixed rolls 59A, 59A intermittently arranged in the transport direction MD, and a dancer roll 59B arranged between the both rolls 59A, 59A. ing. The dancer roll 59B is movable between the two rolls 59A, 59A in a direction approaching the raw material sheet 10b being conveyed, and is also movable in the opposite direction to the approaching direction. By moving the dancer roll 59B between the two rolls 59A, 59A in a direction approaching the raw material sheet 10bs being conveyed, the raw material sheet 10bs is pressed by the roll 59B, and the tension of the raw material sheet 10bs increases. Further, by moving in the opposite direction to the approaching direction, the tension is reduced. Such moving mechanism of the dancer roll 59B can be configured in the same manner as in the known dancer roll.
 以下、本発明の他の実施形態について図6及び図7を参照して説明する。後述する他の実施形態については、前記実施形態と異なる構成部分を主として説明し、同様の構成部分は同一の符号を付して説明を省略する。特に説明しない構成部分は、前記実施形態についての説明が適宜適用される。 Hereinafter, other embodiments of the present invention will be described with reference to FIGS. 6 and 7. About the other embodiment mentioned below, a component different from the above-mentioned embodiment is mainly explained, the same component attaches the same numerals, and omits explanation. The description about the said embodiment is suitably applied to the component part which is not demonstrated in particular.
 図6には、製造装置1が備える第2供給機構5の他の実施形態が示されている。図6に示す第2供給機構5は、フィード機構5Cの構成の点で、図3に示す第2供給機構5と異なる。図6に示す第2供給機構5におけるフィード機構5Cは、シート搬送路を挟んで対向配置された一対の回転ベルト56,56を含んで構成され、両ベルト56,56間に導入された細幅シート10btを両ベルト56,56で挟持しつつ、細幅シート10btと同方向に所定距離移動し、しかる後、細幅シート10btをその搬送方向MDの下流側に送り出すようになされている。一対の回転ベルト56,56は、それぞれ、無端ベルトであり、シート搬送路に沿って搬送方向MDに間欠配置された複数(2個)の回転ロール57,57に掛け渡されている。各回転ベルト56の近傍には、該回転ベルト56の張力を調整するためのダンサーロール58が配置されている。ダンサーロール58は、回転ベルト56に近づく方向に移動可能であると共に、該近づく方向とは逆方向にも移動可能になされており、該ロール58の移動方向及び移動量を調整することで、回転ベルト56の張力を調整して、搬送中の細幅シート10btの、一対の回転ベルト56,56による保持力を調整可能になされている。フィード機構5Cにおける、被搬送物(細幅シート10bt)と接触してこれを送り出す手段として、図6に示す如き回転ベルト56を用いた場合には、図3に示す如き一対の回転ロール55,55を用いた場合に比して、被搬送物が比較的安定した状態で搬送される距離が長いため、搬送安定性がより一層向上し、第2の切断機構5Bでの切断不良がより一層効果的に防止され得る。
 また、フィード機構としては、前記実施形態に限らず、例えば、回転ベルトと、該回転ベルトに細幅シート10btを吸着させる吸引装置とを備えるバキュームコンベアを用いることもできる。
Another embodiment of the second supply mechanism 5 provided in the manufacturing apparatus 1 is shown in FIG. The second supply mechanism 5 shown in FIG. 6 differs from the second supply mechanism 5 shown in FIG. 3 in the configuration of the feed mechanism 5C. The feed mechanism 5C in the second supply mechanism 5 shown in FIG. 6 includes a pair of rotary belts 56, 56 disposed opposite to each other across the sheet conveyance path, and the narrow width introduced between both belts 56, 56 The sheet 10bt is moved by a predetermined distance in the same direction as the narrow sheet 10bt while holding the sheet 10bt between the belts 56 and 56, and thereafter, the narrow sheet 10bt is fed to the downstream side in the transport direction MD. The pair of rotary belts 56 and 56 are respectively endless belts and are wound around a plurality of (two) rotary rolls 57 and 57 intermittently arranged in the conveyance direction MD along the sheet conveyance path. In the vicinity of each rotating belt 56, a dancer roll 58 for adjusting the tension of the rotating belt 56 is disposed. The dancer roll 58 is movable in the direction approaching the rotating belt 56 and is also movable in the opposite direction to the approaching direction, and the rotation of the dancer roll 58 is adjusted by adjusting the moving direction and the amount of movement of the roll 58. By adjusting the tension of the belt 56, the holding force of the narrow sheet 10bt being conveyed by the pair of rotating belts 56, 56 can be adjusted. When the rotating belt 56 as shown in FIG. 6 is used as means for contacting with the transported object (the narrow sheet 10bt) and feeding it out in the feeding mechanism 5C, a pair of rotating rolls 55 as shown in FIG. Compared to the case of using 55, the transport stability is further improved because the transport distance of the transported object in a relatively stable state is longer, and cutting defects in the second cutting mechanism 5B are further enhanced. It can be effectively prevented.
Moreover, as a feed mechanism, not only the said embodiment but a vacuum conveyor provided with a suction device which makes the rotation belt and the narrow sheet 10bt adsorb | suck not only in the said embodiment, for example can also be used.
 図7は、製造装置1が備える第2の切断機構5Bにおけるカッターロール53の他の実施形態が示されている。図5に示す実施形態では、カッターロール53のカッター刃53Cは、該ロール53の回転軸方向(搬送直交方向CD)に対して平行に延びていたが、図7に示す実施形態では、該ロール53の回転軸方向と交差する方向に延びる部分を有している。より具体的には、図7に示すカッターロール53において、その周面に配置された複数のカッター刃53Cは、それぞれ平面視において、ロール53の回転軸方向と直交せずに交差する方向に延びる直線状をなしており、該カッター刃53Cの全体が該方向に延びている。 FIG. 7 shows another embodiment of the cutter roll 53 in the second cutting mechanism 5B included in the manufacturing apparatus 1. In the embodiment shown in FIG. 5, the cutter blade 53C of the cutter roll 53 extends parallel to the rotation axis direction (the conveyance orthogonal direction CD) of the roll 53, but in the embodiment shown in FIG. It has a portion extending in a direction intersecting with the 53 rotational axis direction. More specifically, in the cutter roll 53 shown in FIG. 7, the plurality of cutter blades 53 </ b> C disposed on the circumferential surface extend in a direction intersecting with the rotational axis direction of the roll 53 without intersecting in plan view. It has a straight shape, and the entire cutter blade 53C extends in this direction.
 カッターロール53における複数のカッター刃53Cが図5に示すように、該ロール53の回転軸方向に平行に延びている場合、被切断物たる細幅シート10btにカッター刃53Cを接触させてこれを切断した直後に、その切断された細幅シート10btと当接する他のカッター刃53Cが存在しない時間が生じるため、瞬間的に細幅シート10btに適切な張力を付与することが出来ず、細幅シート10btの搬送安定性が低下し、切断不良に繋がるおそれがある。これに対し、カッター刃53Cが図7に示す如くに、カッターロール53の回転軸方向と交差する方向に延びる部分を有している場合には、搬送中の細幅シート10btに対しカッター刃53Cが常時当接し得るため、細幅シート10btの搬送安定性が一層向上し、切断不良の一層の防止に繋がり得る。このような効果を得るためには、カッター刃53Cがカッターロール53の回転軸方向と交差する方向に延びる部分を有していればよく、該カッター刃53Cの全体が図7に示す如くに該回転軸方向と交差する方向に延びていなくてもよい。その観点から、カッター刃53Cとしては、図7に示す形態以外に例えば、平面視においてカッターロール53の回転軸方向に平行に延びる波形状とすることもできる。 When the plurality of cutter blades 53C in the cutter roll 53 extend in parallel to the rotational axis direction of the roll 53 as shown in FIG. 5, the cutter blade 53C is brought into contact with the narrow sheet 10bt to be cut. Immediately after cutting, there occurs a time in which there is no other cutter blade 53C in contact with the cut narrow sheet 10bt, so that it is impossible to instantaneously apply an appropriate tension to the narrow sheet 10bt. The conveyance stability of the sheet 10bt may be reduced, which may lead to cutting failure. On the other hand, in the case where the cutter blade 53C has a portion extending in the direction intersecting the rotational axis direction of the cutter roll 53 as shown in FIG. 7, the cutter blade 53C with respect to the narrow sheet 10bt being conveyed. However, the conveyance stability of the narrow sheet 10bt can be further improved, which can lead to the further prevention of the cutting failure. In order to obtain such an effect, it is sufficient that the cutter blade 53C has a portion extending in the direction intersecting with the rotational axis direction of the cutter roll 53, and the whole of the cutter blade 53C is shown in FIG. It does not have to extend in the direction intersecting the rotation axis direction. From that point of view, the cutter blade 53C may have, for example, a wave shape extending in parallel with the rotation axis direction of the cutter roll 53 in a plan view, in addition to the form shown in FIG.
 前述したカッター刃53Cの延在方向の工夫による作用効果をより確実に奏させるようにする観点から、カッターロール53のカッター刃53Cの延びる方向における、カッターロール53の回転軸方向に対する傾斜角度としては、3°以上が好ましく、5°以上がさらに好ましく、そして、50°以下が好ましく、30°以下がより好ましく、また、3°以上50°以下が好ましく、5°以上30°以下がさらに好ましい。 From the viewpoint of more reliably achieving the function and effect by the device of the extension direction of the cutter blade 53C described above, the inclination angle of the cutter roll 53 with respect to the rotation axis direction in the extension direction of the cutter blade 53C is 3 ° or more is preferable, 5 ° or more is further preferable, and 50 ° or less is preferable, 30 ° or less is more preferable, 3 ° or more and 50 ° or less is preferable, and 5 ° or more and 30 ° or less is more preferable.
 以上、本発明をその実施形態に基づいて説明したが、本発明は、前記実施形態に制限されることなく適宜変更が可能である。前述した一の実施形態のみが有する部分は、すべて適宜相互に利用できる。前述した本発明の実施形態に関し、さらに以下の付記を開示する。 As mentioned above, although this invention was demonstrated based on the embodiment, this invention can be suitably changed, without being restrict | limited to the said embodiment. All parts that only the one embodiment described above has can be used mutually as appropriate. Further, the following appendices will be disclosed regarding the embodiment of the present invention described above.
<1> 帯状の原料シートを一方向に搬送しつつ、第1の切断機構によって該原料シートをその搬送方向に沿って切断して、複数の帯状の細幅シートを得る第1切断工程と、該細幅シートを一方向に搬送しつつ、第2の切断機構によって該細幅シートをその搬送方向と交差する搬送交差方向に切断して、複数のシート片を得る第2切断工程とを有する、シート片の製造方法であって、
 前記第2の切断機構が、軸周りに回転可能に支持され且つ周面にカッター刃を有するカッターロールと該カッターロールに対向配置されたアンビルロールとを含んで構成され、前記第2切断工程が、軸周りに回転する該カッターロールと該アンビルロールとの間に前記細幅シートを導入することによって実施され、
 前記カッターロールの周速度(V1)を、前記細幅シートの該カッターロールと前記アンビルロールとの間への導入速度(V0)よりも速くする、シート片の製造方法。
<2> 前記第1の切断機構と前記第2の切断機構との間に、前記細幅シートをその搬送方向の上流側から下流側に向けて送り出すフィード機構を配置し、該フィード機構によって前記導入速度を調整する前記<1>に記載のシート片の製造方法。
<3> 前記第2の切断機構における前記原料シートの切断部と前記フィード機構における前記細幅シートとの接触部との間のシート搬送路に沿った離間距離(L2)が、該接触部と前記第1の切断機構における該細幅シートの切断部との間のシート搬送路に沿った離間距離(L1)に比して短い前記<2>に記載のシート片の製造方法。
<4> 前記第2の切断機構における前記原料シートの切断部と前記フィード機構における前記細幅シートとの接触部との間のシート搬送路に沿った離間距離(L2)と、該接触部と前記第1の切断機構における該細幅シートの切断部との間のシート搬送路に沿った離間距離(L1)との比率が、L2/L1として、好ましくは0.8以下、さらに好ましくは0.5以下である前記<3>に記載のシート片の製造方法。
<5> 前記フィード機構が、シート搬送路を挟んで対向配置された一対の回転ロールを含んで構成され、両ロール間に導入された前記細幅シートを両ロールで挟持してその搬送方向下流側に送り出すようになされている前記<2>~<4>のいずれか1項に記載のシート片の製造方法。
<6> 前記フィード機構が、シート搬送路を挟んで対向配置された一対の回転ベルトを含んで構成され、両ベルト間に導入された前記細幅シートを両ベルトで挟持しつつ、該細幅シートと同方向に所定距離移動し、しかる後、該細幅シートをその搬送方向下流側に送り出すようになされている前記<2>~<4>のいずれか1項に記載のシート片の製造方法。
<7> 一対の前記回転ベルトは無端ベルトであり、前記シート搬送路に沿って搬送方向に間欠配置された複数の回転ロールに掛け渡されている前記<6>に記載のシート片の製造方法。
<8> 前記フィード機構が、回転ベルトと、該回転ベルトに前記細幅シートを吸着させる吸引装置とを備えるバキュームコンベアであり、両ベルト間に導入された前記細幅シートを両ベルトで挟持してその搬送方向下流側に送り出すようになされている前記<2>~<4>のいずれか1項に記載のシート片の製造方法。
<1> A first cutting process of obtaining a plurality of strip-like narrow sheets by cutting the raw material sheet along the transport direction by the first cutting mechanism while transporting the strip-like raw material sheet in one direction; And a second cutting step of obtaining a plurality of sheet pieces by conveying the narrow sheet in one direction and cutting the narrow sheet in a conveyance crossing direction intersecting the conveyance direction by a second cutting mechanism. A method of manufacturing a sheet piece,
The second cutting mechanism includes a cutter roll rotatably supported about an axis and having a cutter blade on a circumferential surface and an anvil roll disposed to face the cutter roll, and the second cutting step , By introducing the narrow sheet between the cutter roll rotating about an axis and the anvil roll;
The sheet strip manufacturing method, wherein the peripheral speed (V1) of the cutter roll is made faster than the introduction speed (V0) of the narrow sheet between the cutter roll and the anvil roll.
<2> A feed mechanism is disposed between the first cutting mechanism and the second cutting mechanism for feeding the narrow sheet from the upstream side to the downstream side in the conveying direction, and the feed mechanism is configured to The manufacturing method of the sheet piece as described in said <1> which adjusts introduction speed.
<3> A separation distance (L2) along a sheet conveyance path between a cutting portion of the raw material sheet in the second cutting mechanism and a contact portion with the narrow sheet in the feed mechanism is the contact portion The method of manufacturing a sheet piece according to <2>, wherein the method is shorter than the separation distance (L1) along the sheet conveyance path between the first cutting mechanism and the cutting portion of the narrow sheet.
<4> A separation distance (L2) along a sheet conveyance path between a cutting portion of the raw material sheet in the second cutting mechanism and a contact portion with the narrow sheet in the feed mechanism, and the contact portion The ratio of L2 / L1 to the separation distance (L1) along the sheet conveyance path between the first cutting mechanism and the cutting portion of the narrow sheet is preferably 0.8 or less, more preferably 0. The manufacturing method of the sheet piece as described in said <3> which is .5 or less.
<5> The feed mechanism is configured to include a pair of rotating rolls disposed opposite to each other with the sheet conveyance path interposed therebetween, and the narrow sheet introduced between both rolls is sandwiched by both rolls and the conveyance direction downstream thereof The method for producing a sheet piece according to any one of the above <2> to <4>, wherein the sheet piece is sent out to the side.
<6> The feed mechanism is configured to include a pair of rotating belts disposed opposite to each other across the sheet conveyance path, and the narrow sheet introduced between both belts is held by the both belts, the narrow width The sheet is moved by a predetermined distance in the same direction as the sheet, and thereafter, the narrow sheet is fed to the downstream side in the conveying direction. The sheet piece according to any one of <2> to <4>. Method.
<7> The method according to <6>, wherein the pair of rotating belts is an endless belt, and is wound around a plurality of rotating rolls intermittently arranged in the conveying direction along the sheet conveying path. .
<8> The feed mechanism is a vacuum conveyor including a rotating belt and a suction device for adsorbing the narrow sheet to the rotating belt, and the narrow sheet introduced between both belts is sandwiched by both belts. The sheet piece manufacturing method according to any one of <2> to <4>, wherein the sheet piece is fed to the downstream side in the conveying direction.
<9> 前記第1切断工程の前に、前記原料シートの張力を調整する張力調整工程を有する前記<1>~<8>のいずれか1項に記載のシート片の製造方法。
<10> 前記第2の切断機構における前記カッターロールの前記カッター刃が、該カッターロールの軸方向と交差する方向に延びる部分を有している前記<1>~<9>のいずれか1項に記載のシート片の製造方法。
<11> 前記第2の切断機構における前記カッターロールの前記カッター刃の延びる方向における、該カッターロールの回転軸方向に対する傾斜角度が、好ましくは3°以上、さらに好ましくは5°以上、そして、好ましくは50°以下、さらに好ましくは30°以下である前記<10>に記載のシート片の製造方法。
<12> 前記カッターロールの周速度(V1)と前記細幅シートの該カッターロールと前記アンビルロールとの間への導入速度(V0)との比率が、V1/V0として、好ましくは1.1以上、さらに好ましくは1.2以上、そして、好ましくは4.0以下、さらに好ましくは3.5以下である前記<1>~<11>のいずれか1項に記載のシート片の製造方法。
<13> 前記細幅シートが不織布である場合、前記カッターロールの周速度(V1)が、好ましくは30m/分以上、さらに好ましくは50m/分以上、そして、好ましくは1000m/分以下、さらに好ましくは500m/分以下である前記<1>~<12>のいずれか1項に記載のシート片の製造方法。
<14> 前記第1切断工程で形成された複数の前記細幅シート片の前記搬送交差方向の長さの平均値(平均幅)が、好ましくは0.1mm以上10mm以下、さらに好ましくは0.3mm以上6mm以下、特に好ましくは0.5mm以上5mm以下である前記<1>~<13>のいずれか1項に記載のシート片の製造方法。
<15> 前記第2切断工程で形成された複数の前記シート片の前記搬送方向に沿う長さの平均値(平均長さ)が、好ましくは0.3mm以上30mm以下、さらに好ましくは1mm以上15mm以下、特に好ましくは2mm以上10mm以下である前記<1>~<14>のいずれか1項に記載のシート片の製造方法。
<9> The method for producing a sheet according to any one of <1> to <8>, further comprising: a tension adjusting step of adjusting the tension of the raw material sheet before the first cutting step.
<10> Any one of the items <1> to <9>, wherein the cutter blade of the cutter roll in the second cutting mechanism has a portion extending in a direction intersecting the axial direction of the cutter roll. The manufacturing method of the sheet piece as described in.
<11> In the extending direction of the cutter blade of the cutter roll in the second cutting mechanism, the inclination angle with respect to the rotation axis direction of the cutter roll is preferably 3 ° or more, more preferably 5 ° or more, and preferably The manufacturing method of the sheet piece as described in said <10> which is 50 degrees or less, More preferably, it is 30 degrees or less.
<12> The ratio of the peripheral speed (V1) of the cutter roll and the introduction speed (V0) of the narrow sheet between the cutter roll and the anvil roll is preferably 1.1 as V1 / V0. The method for producing a sheet piece according to any one of the above <1> to <11>, which is more preferably 1.2 or more, and preferably 4.0 or less, more preferably 3.5 or less.
<13> When the narrow sheet is a non-woven fabric, the peripheral velocity (V1) of the cutter roll is preferably 30 m / min or more, more preferably 50 m / min or more, and preferably 1000 m / min or less, more preferably The method for producing a sheet piece according to any one of the above <1> to <12>, which has a value of 500 m / min or less.
<14> The average value (average width) of the lengths in the conveyance cross direction of the plurality of narrow sheet pieces formed in the first cutting step is preferably 0.1 mm or more and 10 mm or less, more preferably 0. The method for producing a sheet piece according to any one of <1> to <13>, which is 3 mm or more and 6 mm or less, particularly preferably 0.5 mm or more and 5 mm or less.
<15> The average value (average length) of lengths along the transport direction of the plurality of sheet pieces formed in the second cutting step is preferably 0.3 mm or more and 30 mm or less, more preferably 1 mm or more and 15 mm The method for producing a sheet according to any one of the above <1> to <14>, which is particularly preferably 2 mm or more and 10 mm or less.
<16> 複数のシート片を含有する吸収体の製造方法であって、
 前記<1>~<15>のいずれか1項に記載の製造方法によって製造されたシート片を、空気流によって所定の集積部まで搬送して集積する工程を有する、吸収体の製造方法。
<16> A method of manufacturing an absorbent containing a plurality of sheet pieces,
A method of manufacturing an absorber, comprising the steps of conveying and accumulating sheet pieces manufactured by the manufacturing method according to any one of <1> to <15> by a flow of air to a predetermined accumulation portion.
<17> 帯状の原料シートを一方向に搬送しつつ、該原料シートをその搬送方向に沿って切断して、複数の帯状の細幅シートを形成する第1の切断機構と、該第1の切断機構よりも搬送方向の下流側に配され、該第1の切断機構によって形成された該細幅シートを搬送方向と交差する搬送交差方向に切断して、複数の帯状のシート片を形成する第2の切断機構とを備えるシート片の製造装置であって、
 前記第2の切断機構が、軸周りに回転可能に支持され且つ周面にカッター刃を有するカッターロールと、該カッターロールに対向配置されたアンビルロールとを備え、且つ軸周りに回転する両ロール間に導入された前記細幅シートを前記搬送交差方向に切断するように構成されており、
 前記カッターロールの周速度が、前記細幅シートの該カッターロールと前記アンビルロールとの間への導入速度よりも速い、シート片の製造装置。
<18> 前記第1の切断機構と前記第2の切断機構との間に、前記細幅シートをその搬送方向の上流側から下流側に向けて送り出すフィード機構を備え、該フィード機構によって前記導入速度を調整する前記<17>に記載のシート片の製造装置。
<19> 前記第2の切断機構における前記原料シートの切断部と前記フィード機構における前記細幅シートとの接触部との間のシート搬送路に沿った離間距離(L2)が、該接触部と前記第1の切断機構における該細幅シートの切断部との間のシート搬送路に沿った離間距離(L1)に比して短い前記<18>に記載のシート片の製造装置。
<20> 前記第2の切断機構における前記原料シートの切断部と前記フィード機構における前記細幅シートとの接触部との間のシート搬送路に沿った離間距離(L2)と、該接触部と前記第1の切断機構における該細幅シートの切断部との間のシート搬送路に沿った離間距離(L1)との比率が、L2/L1として、好ましくは0.8以下、さらに好ましくは0.5以下である前記<19>に記載のシート片の製造装置。
<21> 前記フィード機構が、シート搬送路を挟んで対向配置された一対の回転ロールを含んで構成され、両ロール間に導入された前記細幅シートを両ロールで挟持してその搬送方向下流側に送り出すようになされている前記<17>~<20>のいずれか1項に記載のシート片の製造装置。
<22> 前記フィード機構が、シート搬送路を挟んで対向配置された一対の回転ベルトを含んで構成され、両ベルト間に導入された前記細幅シートを両ベルトで挟持しつつ、該細幅シートと同方向に所定距離移動し、しかる後、該細幅シートをその搬送方向下流側に送り出すようになされている前記<17>~<20>のいずれか1項に記載のシート片の製造装置。
<23> 一対の前記回転ベルトは無端ベルトであり、前記シート搬送路に沿って搬送方向に間欠配置された複数の回転ロールに掛け渡されている前記<22>に記載のシート片の製造装置。
<24> 前記フィード機構が、回転ベルトと、該回転ベルトに前記細幅シートを吸着させる吸引装置とを備えるバキュームコンベアであり、両ベルト間に導入された前記細幅シートを両ベルトで挟持してその搬送方向下流側に送り出すようになされている前記<17>~<20>のいずれか1項に記載のシート片の製造装置。
<17> A first cutting mechanism for cutting a raw material sheet along one of the conveyance directions while conveying the belt-like raw material sheet in one direction, thereby forming a plurality of narrow narrow sheets; A plurality of strip-shaped sheet pieces are formed by cutting the narrow sheet, which is disposed downstream of the cutting mechanism in the transport direction and formed by the first cutting mechanism, in the transport cross direction intersecting the transport direction. An apparatus for manufacturing a sheet piece, comprising: a second cutting mechanism;
The second cutting mechanism includes a cutter roll rotatably supported about an axis and having a cutter blade on a circumferential surface, and an anvil roll disposed opposite to the cutter roll, and both rolls rotating about an axis Configured to cut the narrow sheet introduced therebetween in the conveying cross direction,
An apparatus for producing a sheet strip, wherein the peripheral speed of the cutter roll is higher than the introduction speed of the narrow sheet between the cutter roll and the anvil roll.
<18> A feed mechanism is provided between the first cutting mechanism and the second cutting mechanism to feed the narrow sheet from the upstream side to the downstream side in the conveying direction, and the introduction mechanism The manufacturing apparatus of the sheet piece as described in said <17> which adjusts speed.
<19> A separation distance (L2) along a sheet conveyance path between a cutting portion of the raw material sheet in the second cutting mechanism and a contact portion with the narrow sheet in the feed mechanism is the contact portion The manufacturing apparatus of the sheet piece as described in said <18> short compared with the separation distance (L1) along the sheet conveyance path between the cutting parts of this narrow sheet in said 1st cutting mechanism.
<20> A separation distance (L2) along a sheet conveyance path between a cutting portion of the raw material sheet in the second cutting mechanism and a contact portion with the narrow sheet in the feed mechanism, and the contact portion The ratio of L2 / L1 to the separation distance (L1) along the sheet conveyance path between the first cutting mechanism and the cutting portion of the narrow sheet is preferably 0.8 or less, more preferably 0. The manufacturing apparatus of the sheet piece as described in said <19> which is .5 or less.
<21> The feed mechanism includes a pair of rotating rolls disposed opposite to each other with the sheet conveyance path interposed therebetween, and the narrow sheet introduced between both rolls is sandwiched by both rolls and the conveyance direction downstream thereof The apparatus for producing a sheet piece according to any one of the above <17> to <20>, which is configured to be fed to the side.
<22> The feed mechanism is configured to include a pair of rotating belts disposed opposite to each other across the sheet conveyance path, and the narrow sheet introduced between both belts is held by both belts while the narrow width is held. The sheet is moved by a predetermined distance in the same direction as the sheet, and thereafter, the narrow sheet is fed to the downstream side in the transport direction, and the sheet piece according to any one of <17> to <20> is produced. apparatus.
<23> The apparatus for manufacturing a sheet according to <22>, wherein the pair of rotary belts are endless belts and are wound around a plurality of rotary rolls intermittently arranged in the conveyance direction along the sheet conveyance path. .
<24> The feed mechanism is a vacuum conveyor provided with a rotating belt and a suction device for adsorbing the narrow sheet to the rotating belt, and the narrow sheet introduced between both belts is sandwiched by both belts. The apparatus for manufacturing a sheet piece according to any one of the above <17> to <20>, wherein the apparatus is configured to be fed to the downstream side in the transport direction.
<25> 前記第1の切断機構よりも前記搬送方向の上流側に、前記原料シートの張力を調整する張力調整機構を備える前記<17>~<24>のいずれか1項に記載のシート片の製造装置。
<26> 前記張力調整機構が、前記搬送方向に間欠配置された2個の固定ロールと、両ロール間に配置されたダンサーロールとを含んで構成されている前記<25>に記載のシート片の製造装置。
<27> 前記第2の切断機構における前記カッターロールの前記カッター刃が、該カッターロールの軸方向と交差する方向に延びる部分を有している前記<17>~<26>のいずれか1項に記載のシート片の製造装置。
<28> 前記第2の切断機構における前記カッターロールの前記カッター刃の延びる方向における、該カッターロールの回転軸方向に対する傾斜角度が、好ましくは3°以上、さらに好ましくは5°以上、そして、好ましくは50°以下、さらに好ましくは30°以下である前記<27>に記載のシート片の製造装置。
<29> 前記カッターロールの周速度(V1)と前記細幅シートの該カッターロールと前記アンビルロールとの間への導入速度(V0)との比率が、V1/V0として、好ましくは1.1以上、さらに好ましくは1.2以上、そして、好ましくは4.0以下、さらに好ましくは3.5以下である前記<17>~<28>のいずれか1項に記載のシート片の製造装置。
<30> 前記細幅シートが不織布である場合、前記カッターロールの周速度(V1)が、好ましくは30m/分以上、さらに好ましくは50m/分以上、そして、好ましくは1000m/分以下、さらに好ましくは500m/分以下である前記<17>~<29>のいずれか1項に記載のシート片の製造装置。
<31> 前記第1の切断機構で形成された複数の前記細幅シート片の前記搬送交差方向の長さの平均値(平均幅)が、好ましくは0.1mm以上10mm以下、さらに好ましくは0.3mm以上6mm以下、特に好ましくは0.5mm以上5mm以下である前記<17>~<30>のいずれか1項に記載のシート片の製造装置。
<32> 前記第2の切断機構で形成された複数の前記シート片の前記搬送方向に沿う長さの平均値(平均長さ)が、好ましくは0.3mm以上30mm以下、さらに好ましくは1mm以上15mm以下、特に好ましくは2mm以上10mm以下である前記<17>~<31>のいずれか1項に記載のシート片の製造装置。
<33> 前記第1の切断機構が、軸周りに回転可能に支持され且つ周面にカッター刃を有するカッターロールと、該カッターロールに対向配置されたアンビルロールとを備え、該第1の切断機構の該カッター刃が、該第1の切断機構の該カッターロールの周方向に延び、且つ該カッターロールの周面においてその周方向の全長にわたって延在している前記<17>~<32>のいずれか1項に記載のシート片の製造装置。
<34> 前記第2の切断機構の前記カッター刃が、該第2の切断機構における前記カッターロールの回転軸方向に延び、且つ該カッターロールの周面において該回転軸方向の中央部から同方向の両外方にわたって延在している前記<17>~<33>のいずれか1項に記載のシート片の製造装置。
<25> The sheet piece according to any one of <17> to <24>, further including a tension adjusting mechanism for adjusting the tension of the raw material sheet on the upstream side in the transport direction with respect to the first cutting mechanism. Production equipment.
<26> The sheet piece according to <25>, wherein the tension adjustment mechanism includes two fixed rolls intermittently arranged in the transport direction and a dancer roll disposed between the two rolls. Production equipment.
<27> Any one of the items <17> to <26>, wherein the cutter blade of the cutter roll in the second cutting mechanism has a portion extending in a direction intersecting the axial direction of the cutter roll. The manufacturing apparatus of the sheet piece as described in.
<28> In the extending direction of the cutter blade of the cutter roll in the second cutting mechanism, the inclination angle with respect to the rotation axis direction of the cutter roll is preferably 3 ° or more, more preferably 5 ° or more, and preferably The manufacturing apparatus of the sheet piece as described in said <27> which is 50 degrees or less, More preferably, it is 30 degrees or less.
<29> The ratio of the peripheral speed (V1) of the cutter roll and the introduction speed (V0) of the narrow sheet between the cutter roll and the anvil roll is preferably 1.1 as V1 / V0. The apparatus for producing a sheet piece according to any one of the above <17> to <28>, which is more preferably not less than 1.2, and preferably not more than 4.0, more preferably not more than 3.5.
<30> When the narrow sheet is a non-woven fabric, the peripheral velocity (V1) of the cutter roll is preferably 30 m / min or more, more preferably 50 m / min or more, and preferably 1000 m / min or less, more preferably The manufacturing apparatus of the sheet piece of any one of said <17>-<29> which is 500 m / min or less.
<31> The average value (average width) of the lengths in the conveyance cross direction of the plurality of narrow sheet pieces formed by the first cutting mechanism is preferably 0.1 mm or more and 10 mm or less, more preferably 0 . The apparatus for producing a sheet piece according to any one of the above <17> to <30>, which is 3 mm or more and 6 mm or less, particularly preferably 0.5 mm or more and 5 mm or less.
<32> The average value (average length) of the lengths along the transport direction of the plurality of sheet pieces formed by the second cutting mechanism is preferably 0.3 mm or more and 30 mm or less, more preferably 1 mm or more The manufacturing apparatus of the sheet piece of any one of said <17>-<31> which is 15 mm or less, especially preferably 2 mm or more and 10 mm or less.
<33> The first cutting mechanism includes a cutter roll rotatably supported around an axis and having a cutter blade on a circumferential surface, and an anvil roll disposed opposite to the cutter roll, the first cutting. The cutter blade of the mechanism extends in the circumferential direction of the cutter roll of the first cutting mechanism, and extends over the entire circumferential length of the peripheral surface of the cutter roll. The manufacturing apparatus of the sheet piece of any one of these.
<34> The cutter blade of the second cutting mechanism extends in the rotational axis direction of the cutter roll in the second cutting mechanism, and in the circumferential surface of the cutter roll from the central portion in the rotational axis direction, the same direction The apparatus for manufacturing a sheet piece according to any one of the above <17> to <33>, which extends over both outer sides of the sheet.
 本発明によれば、シートの切断不良が抑制され、意図したサイズの複数のシート片を連続的に効率よく製造できる。 ADVANTAGE OF THE INVENTION According to this invention, the cutting defect of a sheet | seat is suppressed and the several sheet piece of the intended size can be manufactured continuously continuously and efficiently.

Claims (30)

  1.  帯状の原料シートを一方向に搬送しつつ、第1の切断機構によって該原料シートをその搬送方向に沿って切断して、複数の帯状の細幅シートを得る第1切断工程と、該細幅シートを一方向に搬送しつつ、第2の切断機構によって該細幅シートをその搬送方向と交差する搬送交差方向に切断して、複数のシート片を得る第2切断工程とを有する、シート片の製造方法であって、
     前記第2の切断機構が、軸周りに回転可能に支持され且つ周面にカッター刃を有するカッターロールと該カッターロールに対向配置されたアンビルロールとを含んで構成され、前記第2切断工程が、軸周りに回転する該カッターロールと該アンビルロールとの間に前記細幅シートを導入することによって実施され、
     前記カッターロールの周速度を、前記細幅シートの該カッターロールと前記アンビルロールとの間への導入速度よりも速くする、シート片の製造方法。
    A first cutting step of obtaining a plurality of strip-like narrow sheets by cutting the strip-like material sheet in one direction while conveying the strip-like material sheet in one direction; And a second cutting step of obtaining a plurality of sheet pieces by cutting the narrow sheet by a second cutting mechanism in a conveyance crossing direction crossing the conveyance direction while conveying the sheet in one direction. Manufacturing method of
    The second cutting mechanism includes a cutter roll rotatably supported about an axis and having a cutter blade on a circumferential surface and an anvil roll disposed to face the cutter roll, and the second cutting step , By introducing the narrow sheet between the cutter roll rotating about an axis and the anvil roll;
    A sheet strip manufacturing method, wherein the peripheral speed of the cutter roll is made faster than the introduction speed of the narrow sheet between the cutter roll and the anvil roll.
  2.  前記第1の切断機構と前記第2の切断機構との間に、前記細幅シートをその搬送方向の上流側から下流側に向けて送り出すフィード機構を配置し、該フィード機構によって前記導入速度を調整する請求項1に記載のシート片の製造方法。 A feed mechanism is disposed between the first cutting mechanism and the second cutting mechanism for feeding the narrow sheet from the upstream side to the downstream side in the conveying direction, and the introduction speed is set by the feeding mechanism. The manufacturing method of the sheet piece of Claim 1 to adjust.
  3.  前記第2の切断機構における前記原料シートの切断部と前記フィード機構における前記細幅シートとの接触部との間のシート搬送路に沿った離間距離が、該接触部と前記第1の切断機構における該細幅シートの切断部との間のシート搬送路に沿った離間距離に比して短い請求項2に記載のシート片の製造方法。 The separation distance along the sheet conveyance path between the cutting portion of the raw material sheet in the second cutting mechanism and the contact portion with the narrow sheet in the feeding mechanism is the contact portion and the first cutting mechanism. The method according to claim 2, wherein the distance between the narrow sheet and the cut portion of the narrow sheet is short as compared with the separation distance along the sheet conveyance path.
  4.  前記第2の切断機構における前記原料シートの切断部と前記フィード機構における前記細幅シートとの接触部との間のシート搬送路に沿った離間距離と、該接触部と前記第1の切断機構における該細幅シートの切断部との間のシート搬送路に沿った離間距離との比率が、後者に対する前者の比率として、0.8以下である請求項3に記載のシート片の製造方法。 A separation distance along a sheet conveyance path between a cutting portion of the raw material sheet in the second cutting mechanism and a contact portion with the narrow sheet in the feeding mechanism, the contact portion and the first cutting mechanism 4. The method according to claim 3, wherein the ratio of the separation distance between the narrow sheet and the cut portion of the narrow sheet along the sheet conveyance path is 0.8 or less as a ratio of the former to the latter.
  5.  前記フィード機構が、シート搬送路を挟んで対向配置された一対の回転ロールを含んで構成され、両ロール間に導入された前記細幅シートを両ロールで挟持してその搬送方向下流側に送り出すようになされている請求項2~4のいずれか1項に記載のシート片の製造方法。 The feed mechanism includes a pair of rotating rolls disposed opposite to each other with the sheet conveyance path interposed therebetween, and the narrow sheet introduced between the two rolls is nipped by both rolls and sent out to the downstream side in the conveyance direction. The method for producing a sheet piece according to any one of claims 2 to 4, which is carried out as described above.
  6.  前記フィード機構が、シート搬送路を挟んで対向配置された一対の回転ベルトを含んで構成され、両ベルト間に導入された前記細幅シートを両ベルトで挟持しつつ、該細幅シートと同方向に所定距離移動し、しかる後、該細幅シートをその搬送方向下流側に送り出すようになされている請求項2~4のいずれか1項に記載のシート片の製造方法。 The feed mechanism includes a pair of rotating belts disposed opposite to each other with the sheet conveyance path interposed therebetween, and the narrow sheet introduced between the two belts is held by the two belts in the same manner as the narrow sheet. The method for producing a sheet according to any one of claims 2 to 4, wherein the narrow sheet is fed to the downstream side in the transport direction after being moved by a predetermined distance in a direction.
  7.  一対の前記回転ベルトは無端ベルトであり、前記シート搬送路に沿って搬送方向に間欠配置された複数の回転ロールに掛け渡されている請求項6に記載のシート片の製造方法。 The method according to claim 6, wherein the pair of rotary belts are endless belts and are wound around a plurality of rotary rolls intermittently arranged in the conveyance direction along the sheet conveyance path.
  8.  前記フィード機構が、回転ベルトと、該回転ベルトに前記細幅シートを吸着させる吸引装置とを備えるバキュームコンベアであり、両ベルト間に導入された前記細幅シートを両ベルトで挟持してその搬送方向下流側に送り出すようになされている請求項2~4のいずれか一項に記載のシート片の製造方法。 The feed mechanism is a vacuum conveyor provided with a rotating belt and a suction device for adsorbing the narrow sheet to the rotating belt, and the narrow sheet introduced between both belts is sandwiched by both belts and conveyed The method of manufacturing a sheet piece according to any one of claims 2 to 4, wherein the sheet is fed downstream in the direction.
  9.  前記第1切断工程の前に、前記原料シートの張力を調整する張力調整工程を有する請求項1~8のいずれか1項に記載のシート片の製造方法。 The method for manufacturing a sheet piece according to any one of claims 1 to 8, further comprising a tension adjustment step of adjusting the tension of the raw material sheet before the first cutting step.
  10.  前記第2の切断機構における前記カッターロールの前記カッター刃が、該カッターロールの軸方向と交差する方向に延びる部分を有している請求項1~9のいずれか1項に記載のシート片の製造方法。 10. The sheet piece according to any one of claims 1 to 9, wherein the cutter blade of the cutter roll in the second cutting mechanism has a portion extending in a direction intersecting the axial direction of the cutter roll. Production method.
  11.  前記第2の切断機構における前記カッターロールの前記カッター刃の延びる方向における、該カッターロールの回転軸方向に対する傾斜角度が、3°以上50°以下である請求項10に記載のシート片の製造方法。 The method according to claim 10, wherein the inclination angle of the cutter roll relative to the rotation axis direction in the extending direction of the cutter blade of the second cutting mechanism is 3 ° or more and 50 ° or less. .
  12.  前記カッターロールの周速度と、前記細幅シートの該カッターロールと前記アンビルロールとの間への導入速度との比率が、該導入速度に対する該周速度の比率として、1.1以上4.0以下である請求項1~11のいずれか1項に記載のシート片の製造方法。 The ratio of the peripheral speed of the cutter roll to the introduction speed of the narrow sheet between the cutter roll and the anvil roll is 1.1 to 4.0 as a ratio of the peripheral speed to the introduction speed. The method for producing a sheet piece according to any one of claims 1 to 11, which is the following.
  13.  前記細幅シートが不織布であり、
     前記カッターロールの周速度が、30m/分以上1000m/分以下である請求項1~12のいずれか1項に記載のシート片の製造方法。
    The narrow sheet is a non-woven fabric,
    The method of manufacturing a sheet piece according to any one of claims 1 to 12, wherein a circumferential velocity of the cutter roll is 30 m / min or more and 1000 m / min or less.
  14.  複数のシート片を含有する吸収体の製造方法であって、
     請求項1~13のいずれか1項に記載の製造方法によって製造されたシート片を、空気流によって所定の集積部まで搬送して集積する工程を有する、吸収体の製造方法。
    A method of manufacturing an absorbent containing a plurality of sheet pieces, wherein
    A method of manufacturing an absorber, comprising the steps of conveying and accumulating sheet pieces manufactured by the manufacturing method according to any one of claims 1 to 13 by a flow of air to a predetermined accumulation portion.
  15.  帯状の原料シートを一方向に搬送しつつ、該原料シートをその搬送方向に沿って切断して、複数の帯状の細幅シートを形成する第1の切断機構と、該第1の切断機構よりも搬送方向の下流側に配され、該第1の切断機構によって形成された該細幅シートを搬送方向と交差する搬送交差方向に切断して、複数の帯状のシート片を形成する第2の切断機構とを備えるシート片の製造装置であって、
     前記第2の切断機構が、軸周りに回転可能に支持され且つ周面にカッター刃を有するカッターロールと、該カッターロールに対向配置されたアンビルロールとを備え、且つ軸周りに回転する両ロール間に導入された前記細幅シートを前記搬送交差方向に切断するように構成されており、
     前記カッターロールの周速度が、前記細幅シートの該カッターロールと前記アンビルロールとの間への導入速度よりも速い、シート片の製造装置。
    A first cutting mechanism for forming a plurality of strip-like narrow sheets by cutting the raw material sheet along the transport direction while transporting the strip-shaped raw material sheet in one direction, and the first cutting mechanism A second sheet forming the plurality of strip-shaped sheet pieces by cutting the narrow sheet formed by the first cutting mechanism in the conveyance cross direction intersecting the conveyance direction; What is claimed is: 1. A sheet piece manufacturing apparatus comprising: a cutting mechanism;
    The second cutting mechanism includes a cutter roll rotatably supported about an axis and having a cutter blade on a circumferential surface, and an anvil roll disposed opposite to the cutter roll, and both rolls rotating about an axis Configured to cut the narrow sheet introduced therebetween in the conveying cross direction,
    An apparatus for producing a sheet strip, wherein the peripheral speed of the cutter roll is higher than the introduction speed of the narrow sheet between the cutter roll and the anvil roll.
  16.  前記第1の切断機構と前記第2の切断機構との間に、前記細幅シートをその搬送方向の上流側から下流側に向けて送り出すフィード機構を備え、該フィード機構によって前記導入速度を調整する請求項15に記載のシート片の製造装置。 A feed mechanism is provided between the first cutting mechanism and the second cutting mechanism for feeding the narrow sheet from the upstream side to the downstream side in the transport direction, and the feed speed is adjusted by the feed mechanism. The manufacturing apparatus of the sheet piece of Claim 15.
  17.  前記第2の切断機構における前記原料シートの切断部と前記フィード機構における前記細幅シートとの接触部との間のシート搬送路に沿った離間距離が、該接触部と前記第1の切断機構における該細幅シートの切断部との間のシート搬送路に沿った離間距離に比して短い請求項16に記載のシート片の製造装置。 The separation distance along the sheet conveyance path between the cutting portion of the raw material sheet in the second cutting mechanism and the contact portion with the narrow sheet in the feeding mechanism is the contact portion and the first cutting mechanism. The apparatus for producing a sheet strip according to claim 16, wherein the apparatus is short as compared to the separation distance along the sheet conveyance path between the narrow sheet and the cut portion of the narrow sheet.
  18.  前記第2の切断機構における前記原料シートの切断部と前記フィード機構における前記細幅シートとの接触部との間のシート搬送路に沿った離間距離と、該接触部と前記第1の切断機構における該細幅シートの切断部との間のシート搬送路に沿った離間距離との比率が、後者に対する前者の比率として、0.8以下である請求項17に記載のシート片の製造装置。 A separation distance along a sheet conveyance path between a cutting portion of the raw material sheet in the second cutting mechanism and a contact portion with the narrow sheet in the feeding mechanism, the contact portion and the first cutting mechanism The apparatus for manufacturing a sheet piece according to claim 17, wherein the ratio of the separation distance between the narrow sheet and the cut portion of the narrow sheet along the sheet conveyance path is 0.8 or less as a ratio of the former to the latter.
  19.  前記フィード機構が、シート搬送路を挟んで対向配置された一対の回転ロールを含んで構成され、両ロール間に導入された前記細幅シートを両ロールで挟持してその搬送方向下流側に送り出すようになされている請求項15~18のいずれか1項に記載のシート片の製造装置。 The feed mechanism includes a pair of rotating rolls disposed opposite to each other with the sheet conveyance path interposed therebetween, and the narrow sheet introduced between the two rolls is nipped by both rolls and sent out to the downstream side in the conveyance direction. The apparatus for manufacturing a sheet piece according to any one of claims 15 to 18, which is configured as described above.
  20.  前記フィード機構が、シート搬送路を挟んで対向配置された一対の回転ベルトを含んで構成され、両ベルト間に導入された前記細幅シートを両ベルトで挟持しつつ、該細幅シートと同方向に所定距離移動し、しかる後、該細幅シートをその搬送方向下流側に送り出すようになされている請求項15~19のいずれか1項に記載のシート片の製造装置。 The feed mechanism includes a pair of rotating belts disposed opposite to each other with the sheet conveyance path interposed therebetween, and the narrow sheet introduced between the two belts is held by the two belts in the same manner as the narrow sheet. The apparatus for manufacturing a sheet piece according to any one of claims 15 to 19, wherein the narrow sheet is fed to the downstream side in the transport direction after being moved by a predetermined distance in a direction.
  21.  一対の前記回転ベルトは無端ベルトであり、前記シート搬送路に沿って搬送方向に間欠配置された複数の回転ロールに掛け渡されている請求項20に記載のシート片の製造装置。 21. The sheet piece manufacturing apparatus according to claim 20, wherein the pair of rotary belts is an endless belt and is wound around a plurality of rotary rolls intermittently arranged in the conveyance direction along the sheet conveyance path.
  22.  前記フィード機構が、回転ベルトと、該回転ベルトに前記細幅シートを吸着させる吸引装置とを備えるバキュームコンベアであり、両ベルト間に導入された前記細幅シートを両ベルトで挟持してその搬送方向下流側に送り出すようになされている請求項15~18のいずれか1項に記載のシート片の製造装置。 The feed mechanism is a vacuum conveyor provided with a rotating belt and a suction device for adsorbing the narrow sheet to the rotating belt, and the narrow sheet introduced between both belts is sandwiched by both belts and conveyed The apparatus for manufacturing a sheet piece according to any one of claims 15 to 18, wherein the sheet is fed downstream in the direction.
  23.  前記第1の切断機構よりも前記搬送方向の上流側に、前記原料シートの張力を調整する張力調整機構を備える請求項15~22のいずれか1項に記載のシート片の製造装置。 The apparatus for manufacturing a sheet piece according to any one of claims 15 to 22, further comprising a tension adjusting mechanism for adjusting the tension of the raw material sheet on the upstream side of the first cutting mechanism in the transport direction.
  24.  前記張力調整機構が、前記搬送方向に間欠配置された2個の固定ロールと、両ロール間に配置されたダンサーロールとを含んで構成されている請求項23に記載のシート片の製造装置。 The apparatus according to claim 23, wherein the tension adjusting mechanism includes two fixed rolls intermittently arranged in the transport direction and a dancer roll disposed between the two rolls.
  25.  前記第2の切断機構における前記カッターロールの前記カッター刃が、該カッターロールの軸方向と交差する方向に延びる部分を有している請求項15~24のいずれか1項に記載のシート片の製造装置。 25. The sheet piece according to any one of claims 15 to 24, wherein the cutter blade of the cutter roll in the second cutting mechanism has a portion extending in a direction intersecting with the axial direction of the cutter roll. manufacturing device.
  26.  前記第2の切断機構における前記カッターロールの前記カッター刃の延びる方向における、該カッターロールの回転軸方向に対する傾斜角度が、3°以上50°以下である請求項25に記載のシート片の製造装置。 The sheet strip manufacturing apparatus according to claim 25, wherein the inclination angle of the cutter roll in the extending direction of the cutter blade in the second cutting mechanism with respect to the rotation axis direction of the cutter roll is 3 ° or more and 50 ° or less. .
  27.  前記カッターロールの周速度と、前記細幅シートの該カッターロールと前記アンビルロールとの間への導入速度との比率が、該導入速度に対する該周速度の比率として、1.1以上4.0以下である請求項15~26のいずれか1項に記載のシート片の製造装置。 The ratio of the peripheral speed of the cutter roll to the introduction speed of the narrow sheet between the cutter roll and the anvil roll is 1.1 to 4.0 as a ratio of the peripheral speed to the introduction speed. The apparatus for manufacturing a sheet piece according to any one of claims 15 to 26, which is the following.
  28.  前記細幅シートが不織布であり、
     前記カッターロールの周速度が、30m/分以上1000m/分以下である請求項15~27のいずれか1項に記載のシート片の製造装置。
    The narrow sheet is a non-woven fabric,
    The sheet piece manufacturing apparatus according to any one of claims 15 to 27, wherein a circumferential velocity of the cutter roll is 30 m / min or more and 1000 m / min or less.
  29.  前記第1の切断機構が、軸周りに回転可能に支持され且つ周面にカッター刃を有するカッターロールと、該カッターロールに対向配置されたアンビルロールとを備え、該第1の切断機構の該カッター刃が、該第1の切断機構の該カッターロールの周方向に延び、且つ該カッターロールの周面においてその周方向の全長にわたって延在している請求項15~28のいずれか1項に記載のシート片の製造装置。 The first cutting mechanism includes a cutter roll rotatably supported about an axis and having a cutter blade on a circumferential surface, and an anvil roll disposed opposite to the cutter roll, the first cutting mechanism The cutter blade extends in the circumferential direction of the cutter roll of the first cutting mechanism, and extends along the entire circumferential length of the circumferential surface of the cutter roll in any one of claims 15 to 28. The manufacturing apparatus of the described sheet piece.
  30.  前記第2の切断機構の前記カッター刃が、該第2の切断機構における前記カッターロールの回転軸方向に延び、且つ該カッターロールの周面において該回転軸方向の中央部から同方向の両外方にわたって延在している請求項15~29のいずれか1項に記載のシート片の製造装置。 The cutter blade of the second cutting mechanism extends in the rotational axis direction of the cutter roll in the second cutting mechanism, and in the circumferential surface of the cutter roll, both outer sides in the same direction from the central portion in the rotational axis direction. The apparatus for manufacturing a sheet piece according to any one of claims 15 to 29, which extends across the same direction.
PCT/JP2018/043499 2017-11-28 2018-11-27 Sheet-piece producing method, sheet-piece producing apparatus, and absorbent-body producing method WO2019107333A1 (en)

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