JP2019122717A - Absorbent article - Google Patents

Abstract

To hold diffusivity of a body fluid to a plane direction and improve liquid permeability.SOLUTION: There is provided a sanitary napkin 1 comprising a polymer sheet 4 on which a high water absorbent polymer 12 is arranged on a prescribed region between top and lower layer sheets 10, 11. The polymer sheet 4 is configured so that, a plurality of polymer arrangement regions 13 surrounded by junctions 15 which joint the top and lower layer sheets 10, 11 and in which the high water absorbent polymer 12 is arranged, are arranged in a zigzag lattice state or positive grid state in a state in which the junctions 15 are continuous by the adjacent polymer arrangement regions 13, 13 and a polymer non-arrangement region 14 surrounded by the junctions 15 surrounding the polymer arrangement region 13 and in which no high water absorbent polymer is arranged, is provided on a center of adjacent four polymer arrangement regions 13. On at least some polymer non-arrangement regions 14, an open hole 16 penetrating the top and lower layer sheets 10, 11 is provided.SELECTED DRAWING: Figure 3

Description

  The present invention relates to absorbent articles such as sanitary napkins, panty liners, incontinence pads and the like, and more particularly to an absorbent article comprising a polymer sheet in which a superabsorbent polymer is disposed between an upper layer sheet and a lower layer sheet.

  Conventionally, as the absorbent article, body fluid is absorbed and held between a liquid-impervious back sheet such as a polyethylene sheet or a polyethylene sheet-laminated nonwoven fabric and a liquid-permeable surface sheet such as a nonwoven fabric or a liquid-permeable plastic sheet. It is known to intervene an absorbent having a function to

  Many improvements have been made to this type of absorbent article, and it has been proposed that the absorbent comprises a polymer sheet in which a superabsorbent polymer is disposed between two-layer sheets. The polymer sheet is excellent in that it absorbs and holds a large amount of body fluid, but since an assembly of powdery superabsorbent polymers is disposed inside, the liquid permeability is low and the absorption speed is low. There was a problem of being late. Therefore, when a large amount of body fluid is discharged at one time, the body fluid may overflow on the polymer sheet without being absorbed by the superabsorbent polymer.

  As an absorbent article using such a polymer sheet, the following patent documents 1-3 can be mentioned, for example. In Patent Document 1 below, the upper sheet-like absorbent layer, the fiber assembly layer, and the lower sheet-like absorbent layer are provided in this order from the top sheet side, and each sheet-like absorbent layer has water absorbency between non-woven sheets. A plurality of water absorbent resin existing areas in which a water absorbent resin is disposed between non-woven sheets having a resin and no pulp fiber, and a water absorbent resin non existing area adjacent to the water absorbent resin existing area An absorbent article is disclosed, in which non-woven fabric sheets are joined to form a sealed portion in the non-water-absorbent resin non-existing region.

  Further, in Patent Document 2 below, an absorbent is interposed between the top sheet and the back sheet, a second sheet is disposed between the absorbent and the top sheet, and a liquid-permeable sheet of two absorbent polymers is provided. An absorbent sheet present between the top sheet and the second sheet, wherein the absorbent sheet has an absorbent polymer existing area in which an absorbent polymer is held between two liquid permeable sheets; There is disclosed an absorbent article having an absorbent polymer non-existing area in which the absorbent polymer is not sandwiched between the two liquid permeable sheets.

  Furthermore, in Patent Document 3 described below, the absorbent material is an absorbent for an absorbent article in which the absorbent material is wrapped with a sheet member containing a heat-fusible synthetic resin, and the absorber melts the sheet members. By forming a fusion-bonded portion formed on at least a part of the entire peripheral edge of the absorber, it is formed in a bag shape, and the sheet members are fused inside the entire periphery of the absorber. An absorbent body is disclosed which has an inner fusion-bonded portion formed and a through hole is formed inside the inner fusion-bonded portion.

Patent No. 5318747 gazette JP, 2012-110364, A Unexamined-Japanese-Patent No. 2015-112401

  The absorbent articles described in Patent Documents 1 and 2 described above have a polymer arrangement region in which the superabsorbent polymer is arranged between the upper layer sheet and the lower layer sheet, and a polymer non-arrangement region, so that the body fluid in the polymer arrangement region. While absorbing the fluid, it is easy for the body fluid to migrate to the absorbent comprising the lower fiber assembly through the polymer non-placement region, but in the polymer non-placement region, the upper layer sheet and the lower layer sheet May take time to pass, and sufficient liquid permeability and absorption speed may not be obtained.

  On the other hand, in the absorber described in Patent Document 3 described above, since the through holes are formed, it is considered that the body fluid can easily flow to the lower layer side through the through holes, but the through holes are provided in the fusion portion Therefore, the body fluid to be diffused in the planar direction on the surface of the fusion part flows to the lower layer side through the through holes, the diffusion in the planar direction is reduced, and the height of the body fluid discharge portion and its vicinity are increased. Only the water-absorbing polymer may absorb water, which may deteriorate the water absorption efficiency.

  Then, the main subject of this invention is providing the absorbent article which improved liquid permeability, hold | maintaining the diffusivity to the plane direction of a bodily fluid.

In order to solve the above problems, as the present invention according to claim 1, an absorbent comprising a polymer sheet in which a highly water-absorptive polymer is disposed in a predetermined region between the skin side upper layer sheet and the non-skin side lower layer sheet. Sexual goods,
The polymer sheet is surrounded by a joint portion where the upper layer sheet and the lower layer sheet are joined, and the polymer arrangement region in which the superabsorbent polymer is arranged inside is joined by the polymer arrangement regions adjacent to each other. A polymer non-disposition area is disposed in a regular lattice shape or a zigzag shape while continuing the parts, and is surrounded by the junction surrounding the polymer disposition area, and the superabsorbent polymer is not disposed inside. , Arranged in the center of the four adjacent polymer arrangement regions,
There is provided an absorbent article characterized in that at least a part of the non-polymer arrangement area is provided with an opening penetrating the upper layer sheet and the lower layer sheet.

  In the invention according to the first aspect, a large number of polymer arrangement regions surrounded by the bonding portions are arranged in a regular lattice shape or a zigzag shape while continuing the bonding portions between adjacent polymer placement regions. Therefore, when the body fluid flows on the surface of the joint portion, the body fluid is easily diffused in the planar direction, and the body fluid is absorbed by the wide range of high water absorption polymers, and the absorption efficiency of the body fluid is improved.

  In the absorbent article according to the present invention, the non-polymer arrangement area is disposed at the center of each of the four polymer arrangement areas adjacent to each other, and in the non-polymer arrangement area, an opening penetrating the upper layer sheet and the lower layer sheet It is provided. That is, the opening is provided in the non-polymer arrangement area which is an area different from the joint. For this reason, the body fluid flows on the surface of the joint and diffuses in the plane direction, while maintaining the diffusivity in the plane direction of the body fluid, while flowing through the opening to the lower layer side, liquid permeability to the lower layer side Will improve.

  According to a second aspect of the present invention, there is provided the absorbent article according to the first aspect, wherein the bonding portion is provided continuously or intermittently along the periphery of the polymer disposition area.

  In the invention according to the second aspect, when the joint portion is formed as a continuous line or an intermittent line, when it is a continuous line, body fluid can easily flow in a wider range over the surface of the joint portion, and a wider range The body fluid is absorbed by the superabsorbent polymer, and in the case of an intermittent line, the flow of the body fluid along the joint becomes gentle, and it becomes easy to pass the lower layer through the opening.

  According to the present invention as set forth in claim 3, the polymer arrangement regions having a substantially circular or elliptical shape in plan view are arranged in a regular lattice along the longitudinal direction and the width direction of the absorbent article, and the four adjacent polymer arrangement regions are arranged. The absorbent article according to any one of claims 1 and 2, wherein the non-polymer-disposed region having a generally rhombic shape in a plan view is disposed at the center of.

  The invention according to the third aspect is representative of the arrangement pattern of the polymer arrangement region and the non-polymer arrangement region. By arranging in this pattern, it is possible to flow the liquid to the lower layer side through the holes in a well-balanced manner while maintaining the diffusion of the body fluid in the planar direction flowing on the surface of the joint.

  As the present invention according to claim 4, the number of the holes is relatively large in the portion corresponding to the body fluid discharge portion of the wearer, and relatively small in the other portions. The absorbent article as described in any one of 3 is provided.

  In the invention according to claim 4, when a large amount of body fluid is discharged at one time, etc., the body fluid may overflow on the surface if the absorption speed in the vicinity of the body fluid discharge portion is slow, so many openings are provided in this portion. ing.

  As the present invention according to claim 5, the absorbent article according to any one of claims 1 to 3, wherein the openings are provided every other one or more than one of the adjacent polymer non-arranged regions. Provided.

  In the invention according to the fifth aspect, by arranging the apertures at intervals, the body fluid is diffused in the planar direction to some extent on the surface of the polymer sheet, and then the liquid is appropriately flowed to the lower layer side.

  According to a sixth aspect of the present invention, the polymer sheet is laminated on the skin side of a fiber assembly layer including a water-absorbent fiber assembly between the liquid-permeable top sheet and the liquid-impervious back sheet. The absorbent article according to any one of claims 1 to 5, which is disposed or independently disposed.

  In the invention according to the sixth aspect, when the polymer sheet is laminated and disposed on the skin side of the fiber assembly layer, the body fluid can easily pass through the opening to the fiber assembly layer, and the fiber Body fluid is also absorbed into the aggregate layer. On the other hand, when the polymer sheet is disposed alone, the thickness of the absorbent article can be significantly reduced, and it becomes easy to pass through the opening to the lower layer sheet, and the body fluid absorbed in the lower layer sheet is flat It will be absorbed by the super absorbent polymer while diffusing in the direction.

  As described above, according to the present invention, it is possible to improve the liquid permeability while maintaining the diffusivity in the planar direction of the body fluid.

It is a partially broken development view of the sanitary napkin 1 according to the present invention. It is an II-II arrow line view of FIG. FIG. 2 is an enlarged plan view of a polymer sheet 4; It is an IV-IV arrow line view of FIG. It is a V-V line arrow line view of FIG. It is an IV-IV arrow line view of Drawing 3 concerning a modification. It is the VV line arrow directional view of FIG. 3 which concerns on a modification. It is an enlarged plan view of polymer sheet 4 concerning a modification. It is an arrangement pattern (the 1) of opening 16 concerning a modification. It is an arrangement pattern (the 2) of opening 16 concerning a modification. FIG. 6 is a side view showing the apparatus for producing the polymer sheet 4; (A)-(D) are sectional drawings which show the manufacture procedure of the polymer sheet 4. FIG. It is a cross-sectional view of the sanitary napkin 1 which arrange | positioned the polymer sheet 4 independently. It is a cross-sectional view of the polymer sheet 4 which concerns on a modification. It is an enlarged plan view of polymer sheet 4 concerning a modification.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

[Basic configuration of sanitary napkin 1]
The sanitary napkin 1 according to the present invention, as shown in FIGS. 1 and 2, has a liquid-permeable back sheet 2 made of a polyethylene sheet, a polypropylene sheet, etc. A liquid top sheet 3, a polymer sheet 4 interposed between the two sheets 2 and 3, in which a superabsorbent polymer is disposed between two layers of sheets, the polymer sheet 4 and the liquid-impervious back sheet 2 And a non-woven fabric 7, 7 disposed along the longitudinal direction on both sides of the surface. In the periphery of the fiber assembly layer 5, the outer edges of the liquid-impervious back sheet 2 and the liquid-permeable top sheet 3 have adhesive such as hot melt or heat at the front and rear end edges in the longitudinal direction of the napkin. The liquid-impervious back sheet 2 and the side non-woven fabric 7 which are joined by joining means such as a seal and which extend laterally beyond the side edges of the fiber assembly layer 5 and the polymer sheet 4 at the side edges thereof Are joined by an adhesive such as hot melt or a joining means such as heat seal, and an outer peripheral flap portion where the fiber assembly layer 5 and the polymer sheet 4 do not exist is formed on the outer peripheral.

Hereinafter, the structure of the sanitary napkin 1 will be described in more detail,
The liquid-impervious back sheet 2 is a sheet material having at least water blocking properties such as an olefin-based resin sheet such as polyethylene or polypropylene, etc. In addition, laminated non-woven fabric in which non-woven fabric is laminated on polyethylene sheet etc. A non-woven fabric sheet (in this case, a liquid-impervious back sheet is composed of the waterproof film and the non-woven fabric) can be used after the liquid-imperviousness is substantially ensured by interposing the waterproof film. In recent years, it has tended to use what has moisture permeability from a viewpoint of muzzle prevention. This water-impervious and moisture-permeable sheet material is a microporous sheet obtained by melt-kneading an inorganic filler in an olefin resin such as polyethylene or polypropylene to form a sheet, and then stretching the sheet in a uniaxial or biaxial direction. It is.

  Next, a porous or non-porous non-woven fabric, a porous plastic sheet or the like is suitably used as the liquid-permeable surface sheet 3. The material fibers constituting the non-woven fabric can be, for example, synthetic fibers such as olefins, polyesters, polyamides, etc. such as polyethylene or polypropylene, regenerated fibers such as rayon or cupra, and natural fibers such as cotton. A nonwoven fabric obtained by an appropriate processing method such as a lace method, a spun bond method, a thermal bond method, a meltblown method, a needle punch method or the like can be used. Among these processing methods, the spun lace method is superior in flexibility, the spun bond method is superior in drapability, and the thermal bond method and air through method are superior in bulkiness and high compression recovery. The non-woven fibers may be either long fibers or short fibers, but preferably short fibers are used to give a towel texture. Further, in order to facilitate the embossing process, it is preferable to use an olefin-based fiber such as polyethylene or polypropylene having a relatively low melting point. In addition, composite fibers such as core-sheath fibers, side-by-side fibers, split fibers, etc., in which fibers having a high melting point are coreed and fibers having a low melting point are sheathed, can also be suitably used. The liquid-permeable top sheet 3 may not be provided when the upper layer sheet 10 of the polymer sheet 4 described in detail later constitutes a skin contact surface layer.

  The fiber assembly layer 5 interposed between the liquid-impervious backsheet 2 and the liquid-permeable topsheet 3 is, for example, a mixture of a highly water-absorbent resin in the pulp or a mixture of chemical fibers in the pulp. In addition to the above, it is possible to use an absorbent containing a highly water-absorbent resin. The fiber assembly layer 5, as shown in FIG. 2, is surrounded by the covering sheet 6 in order to maintain shape and diffuse menstrual blood etc. promptly and to prevent reversion of menstrual blood etc. once absorbed. Is desirable. Examples of the pulp include cellulose fibers obtained from wood, such as melt pulp, and artificial cellulose fibers such as rayon and acetate, and softwood pulp having a longer fiber length than hardwood pulp functions and It is suitably used in terms of price. Further, as the fiber assembly layer 5, a non-woven fabric made of hydrophilic fibers may be used.

  Further, synthetic fibers may be mixed in the fiber assembly layer 5. Examples of the synthetic fibers include polyolefins such as polyethylene and polypropylene, polyesters such as polyethylene terephthalate and polybutylene terephthalate, polyamides such as nylon, copolymers of these, and the like. It may be a mixture. In addition, composite fibers such as core-sheath fibers, side-by-side fibers, and split-type fibers in which fibers having a high melting point are cored and fibers having a low melting point are sheathed may be used. In the case of a hydrophobic fiber, it is desirable to use the synthetic fiber surface-treated with a hydrophilizing agent so as to have an affinity for body fluid.

  On the other hand, side non-woven fabrics 7 and 7 are provided along the longitudinal direction and over almost the entire length of the napkin 1 on both sides of the surface side of the sanitary napkin 1, and a part of the side non-woven fabrics 7 and 7 is Wing-shaped flaps W, W are formed by the laterally extending and a part of the liquid-impervious back sheet 2 also extending laterally.

  As the side nonwoven fabric 7, a water repellent treated nonwoven fabric or a hydrophilic treated nonwoven fabric can be used from the viewpoint of the function to be emphasized. For example, if importance is attached to the function of preventing menstrual blood and vaginal discharge from permeating, or enhancing the feel of the touch, a water repellent treatment coated with a silicone, paraffin or alkylchromic chloride water repellent etc. It is desirable to use a non-woven fabric. Also, if emphasis is placed on the absorbability of the wing-shaped flap W, such as menstrual blood, a method of causing a compound having a hydrophilic group, for example, an oxidized product of polyethylene glycol, etc. to coexist in the production process of synthetic fiber Treated with a metal salt such as stannic chloride, and the surface is partially dissolved to make the surface porous and deposit metal hydroxide, etc. to make the synthetic fiber swell or porous, and apply capillary action to make it hydrophilic It is desirable to use a hydrophilic treated nonwoven fabric given

  As shown in FIG. 2, the inner side of the side non-woven fabric 7 folds the side non-woven fabric 7 in a substantially double manner, and inside the double sheet, in the middle in the height direction, either end or longitudinal direction The solid gatherer BS is provided with one or a plurality of, in the illustrated example, two thread-like elastic stretchable members 8 and 8 whose position is fixed, and the double sheet portion is erected on the skin side by the contraction force thereof. , BS is formed.

[Polymer sheet 4]
Hereinafter, the polymer sheet 4 will be described in detail. The polymer sheet 4 is between the liquid-permeable top sheet 3 and the liquid-impervious back sheet 2, and of the fiber assembly layer 5 (or the encapsulation sheet 6 surrounding the fiber assembly layer 5) It is disposed adjacent to the skin side (liquid permeable surface sheet 3 side). The polymer sheet 4 has a planar shape substantially equal to or slightly smaller than the outer shape of the fiber assembly layer 5 in the example shown in FIG.

  The polymer sheet 4 is formed between the upper layer sheet 10 disposed on the skin side (liquid permeable top sheet 3 side) and the lower layer sheet 11 disposed on the non-skin side (liquid impermeable back sheet 2 side). The super absorbent polymer 12 is arranged in the area. The super absorbent polymer 12 is not mixed in a fibrous absorbent material such as pulp, but is arranged as an aggregate of only the particulate super absorbent polymer 12.

  A nonwoven fabric is used as the upper layer sheet 10 constituting the polymer sheet 4. As the material fibers constituting the non-woven fabric, similarly to the liquid-permeable surface sheet 3, for example, synthetic fibers such as olefins such as polyethylene and polypropylene, polyesters and polyamides, regenerated fibers such as rayon and cupra, and cotton And other natural fibers. The method of processing the non-woven fabric is not limited, but in order to prevent the superabsorbent polymer 12 from falling off, the processing method is to increase the fiber density of the obtained product, such as spunbond method, meltblown method or needle punch method. preferable. Further, as described in detail later, the upper layer sheet 10 is preferably subjected to a predetermined concavo-convex process, so that it is preferable to include a material having thermoplasticity. The upper layer sheet 10 is preferably made of non-woven fabric in consideration of the easiness of the concavo-convex processing, the retention of the superabsorbent polymer 12 and the like.

  As the lower layer sheet 11, a non-woven fabric is used as in the upper layer sheet 10. Similarly, regarding the non-woven fabric processing method, there is no particular limitation, but in order to prevent the superabsorbent polymer 12 from falling off, a processing method by which the fiber density of the obtained product becomes large, such as spunbond method, meltblown method or needle punch method. It is preferable to

  Examples of the superabsorbent polymer 12 include crosslinked polyacrylates, self-crosslinked polyacrylates, saponified acrylic acid ester-vinyl acetate copolymer crosslinked products, crosslinked isobutylene / maleic anhydride copolymers And polysulfonate cross-linked products and those obtained by partially crosslinking water-swellable polymers such as polyethylene oxide and polyacrylamide. Among these, acrylic acid or acrylate based ones excellent in water absorption amount and water absorption speed are preferable. The superabsorbent polymer having the above water absorption performance can adjust the water absorption capacity and the water absorption rate by adjusting the crosslink density and the crosslink density gradient in the production process.

  As shown in FIG. 3, the polymer sheet 4 is formed with a polymer placement area 13 in which the superabsorbent polymer 12 is disposed and a nonpolymer placement area 14 in which the superabsorbent polymer 12 is not disposed. . The polymer placement area 13 is an area in which the superabsorbent polymer 12 is interposed between the upper layer sheet 10 and the lower layer sheet 11 with a predetermined basis weight or more. The polymer non-disposition area 14 is slightly separated by the fact that the superabsorbent polymer 12 does not intervene at all between the sheets 10 and 11 of the two layers or when the superabsorbent polymer 12 is dispersed in the polymer disposing area 13. Although the superabsorbent polymer 12 is present, the amount is extremely small compared to the polymer placement area 13. The polymer placement area 13 is formed in an intermediate area between the upper layer sheet 10 and the lower layer sheet 11 which does not reach the outer edge of the upper layer sheet 10 and the lower layer sheet 11.

  As shown in FIG. 3, the polymer placement area 13 is surrounded by a joint portion 15 where the upper layer sheet 10 and the lower layer sheet 11 are joined, and an area where the superabsorbent polymer 12 is disposed inside It is. Here, that the periphery is surrounded by the joint 15 is not only the case where the periphery is completely sealed by the joint 15 formed of a continuous line which is closed as shown in the illustrated example, but also along the periphery of the polymer placement region 13 This is a concept including the case where the periphery is surrounded by junctions 15 consisting of intermittent lines in which junction segments and non-junction segments are alternately arranged (see FIG. 8).

  A large number of the polymer arrangement regions 13 are arranged in a regular lattice shape or a zigzag shape, in the illustrated example, in a regular lattice shape, while making the junctions 15 continuous with the adjacent polymer arrangement regions 13 and 13. That is, in the adjacent polymer disposition areas 13, portions of the bonding portions 15 surrounding the periphery overlap or are connected. In the example shown in FIG. 3, when focusing on the joint portion 15 surrounding the periphery of a certain polymer placement area 13, both ends in the longitudinal direction and the width direction of the sanitary napkin 1 are respectively adjacent to the polymer placement area 13. It is arranged to overlap with the joint 15 surrounding the periphery. As described above, by causing the bonding portion 15 to be continuous between the adjacent polymer disposition areas 13 and 13, the body fluid flowing on the surface of the bonding portion 15 can be easily diffused continuously in the planar direction along the bonding portion 15.

The basis weight of the superabsorbent polymer 12 filled in the polymer placement area 13 may be ²⁰ to 300 g / m ² , preferably 80 to 200 g / m ² .

  On the other hand, as shown in FIG. 3, the non-polymer arrangement area 14 is an area surrounded by the bonding portion 15 surrounding the polymer arrangement area 13 and in which the superabsorbent polymer 12 is not arranged. That is, the area other than the polymer placement area 13 and the bonding portion 15 is the non-polymer placement area 14. The non-polymer arrangement area 14 is arranged at the center of the four adjacent polymer arrangement areas 13, 13. In the polymer non-arrangement region 14, the superabsorbent polymer 12 does not intervene between the upper layer sheet 10 and the lower layer sheet 11, and the upper layer sheet 10 and the lower layer sheet 11 are laminated adjacent to each other without leaving a gap. There is.

  The polymer non-arranged area 14 is provided with an opening 16 penetrating the upper layer sheet 10 and the lower layer sheet 11. The openings 16 are provided in all the non-polymer arrangement areas 14 in the example shown in FIGS. 1 and 3, but may be provided in at least a part of the non-polymer arrangement areas 14. One of the holes 16 is provided at a central portion of the non-polymer-disposed region 14 and at an intermediate portion separated from the surrounding joint portion 15. That is, the opening 16 is provided in the non-polymer-disposed region 14 which is a region different from the joint 15 and is provided at an intermediate position of the non-polymer-disposed region 14 not connected to the joint 15. Therefore, a part of the non-polymer-disposed region 14 in which the upper layer sheet 10 and the lower layer sheet 11 are stacked without being interposed is interposed between the opening 16 and the bonding portion 15.

The openings 16 are preferably provided in a substantially circular shape in plan view, but may be formed in a substantially elliptical shape, a polygonal shape or the like. The area of the opening 16 is preferably 0.01 to ⁸ mm ² , preferably 1 to 5 mm ² so that body fluid can easily pass through the opening 16.

  As the joint portion 15, as shown in FIGS. 4 and 5, an adhesive means such as a hot melt adhesive may be used, or as shown in FIGS. A bonding means such as squeeze fusion from the surface side of the upper layer sheet 10 such as an ultrasonic seal may be used.

  When the bonding portion 15 is made of an adhesive, the infiltration of the body fluid at the bonding portion 15 is restricted by the non-water permeability of the adhesive, and the body fluid can easily flow along the surface of the bonding portion 15 along the bonding portion 15. When the bonding portion 15 is formed by squeeze fusion, the surface of the upper layer sheet 10 is laminated to restrict the permeation of the body fluid, and the body fluid can easily flow along the surface of the bonding portion 15 along the bonding portion 15. Further, as shown in FIG. 6 and FIG. 7, since the joint portion 15 in this case is formed of a concave pressing groove in which the cross-sectional shape is recessed to the non-skin side, body fluid can easily flow along this pressing groove. In any case, when the body fluid flows on the surface of the bonding portion 15, the body fluid is easily diffused in the planar direction.

  The junction 15 may be formed as a continuous line as shown in FIG. 3 or as an intermittent line as shown in FIG. The continuous line is a continuous connection in the circumferential direction of the periphery of the polymer placement area 13, and the intermittent line is an alternate of a bonding section and a non-bonding section along the circumferential direction of the circumference of the polymer placement area 13 , And intermittently joined by the joining section. When the joint portion 15 is a continuous line, the body fluid can easily flow on the surface of the joint portion 15 and be absorbed by the superabsorbent polymer 12 in a wider range of the polymer disposition area 13. When the joint portion 15 is an intermittent line, the flow of the body fluid along the joint portion 15 is gentle, and it becomes easy to flow through the opening 16 to the lower layer side. In the case where the junction 15 is an intermittent line, in order to continue the junctions 15 and 15 surrounding the adjacent polymer placement regions 13 and 13, as shown in FIG. It may be superimposed or connected and arranged.

  As the most preferable embodiment of the arrangement pattern of the polymer arrangement region 13 and the non-polymer arrangement region 14 in the polymer sheet 4, as shown in FIGS. 3 and 8, at least upper and lower, left and right positions of the upper layer sheet 10 in plan view A plurality of polymer arrangement regions surrounded by the joint portion 15 joined to the lower layer sheet 11 and arranged in a regular lattice along the longitudinal direction and the width direction of the sanitary napkin 1 and in which the superabsorbent polymer 12 is arranged inside It is preferable to have a structure partitioned into a polymer non-disposition region 14 located at the center of four adjacent polymer disposition regions 13, 13 ... and in which the superabsorbent polymer 12 is not disposed inside, 13, 13 ... .

  The embodiment shown in FIG. 3 and the embodiment shown in FIG. 8 are different in the arrangement of the polymer placement area 13 and the non-polymer placement area 14 only in whether the joint part 15 consists of a continuous line or an intermittent line. Since the pattern is the same, the arrangement pattern will be described more specifically by taking the embodiment shown in FIG. 8 as an example. The upper layer sheet 10 and the lower layer sheet 11 are joined by the first joining portion 15a provided in a staggered arrangement, and the polymer sheet 4 is provided with four first joining portions 15a located at upper, lower, left, and right positions. 15a... 15a are joined by a second joining portion 15b provided at an oblique intermediate position connecting the two. The staggered arrangement is an arrangement in which adjacent rows or columns having the same pitch are shifted by half pitch every other row or every other column, and vertically and horizontally in every other row or every other column Arranged to align with Further, in this document, the upper and lower positions are positions in the direction coinciding with the longitudinal direction (front-back direction) of the sanitary napkin 1, and the left and right positions are positions in the direction coincident with the width direction of the sanitary napkin 1. .

  Further, the polymer sheet 4 is surrounded by the first bonding portion 15a and the second bonding portion 15b, and is arranged in a regular lattice along the longitudinal direction and the width direction of the napkin, and the high water absorption polymer 12 inside is formed. Are located at the center of a plurality of polymer placement areas 13 in which the two are enclosed and four adjacent polymer placement areas 13 (adjacent in the vertical and horizontal directions), 13 ... And a polymer non-disposition area 14 surrounded by

  That is, the polymer placement area 13 is a middle portion between the first bonding portions 15a, 15a... Arranged at the upper and lower left and right positions, and a second bonding portion 15b respectively arranged at the diagonal four directions. It is surrounded by 15b. The non-polymer arrangement area 14 is positioned at the center of the polymer arrangement areas 13 arranged in a regular lattice and surrounded by four polymer arrangement areas 13 which are adjacent in the vertical direction and in the left-right direction. The four diagonal directions are respectively surrounded by the second bonding portion 15b.

  When viewed with reference to one polymer placement area 13, the polymer placement area 13 is adjacent in the pad longitudinal direction and the polymer placement area 13 is adjacent in the pad width direction and disposed around them. The non-polymer arrangement areas 14 are adjacent to each other in four diagonal directions of the central polymer arrangement area 13 which is the middle of the polymer arrangement areas 13, 13...

  The polymer placement area 13 and the non-polymer placement area 14 can be formed in any planar shape. The planar shapes of the polymer placement region 13 and the non-polymer placement region 14 refer to the planar shape of the proximal portion of the region surrounded by the joint portion 15 as shown in FIGS. 3 and 8 respectively. The planar shape of the imaginary lines S1 and S2 closed inscribed in the joint portion 15. The planar shape of the polymer disposition area 13 can be formed by an ellipse, a circle, a polygon, a rhombus, etc., and the planar shape of the polymer non-disposition region 14 is formed by a substantially rhombus, an ellipse, a circle, a polygon, etc. can do. In the planar shape having the longitudinal direction and the short direction, the longitudinal direction may be oriented in the longitudinal direction of the napkin, or may be oriented in the transverse direction of the napkin. Among these planar shapes, particularly preferable ones are, as shown in FIGS. 3 and 8, the planar shape of the polymer placement region 13 is formed into an oval shape which is long in the longitudinal direction of the napkin, and The plane shape of 14 is made to be formed in a substantially rhombic shape. As a result, the polymer placement area 13 and the polymer non-placement area 14 are disposed on the polymer sheet 4 with almost no gap, and the water absorption efficiency of the polymer sheet 4 can be improved. The rhombic shape of the polymer non-arranged area 14 includes a rhombic shape in which each side is a straight line, and also a substantially rhombic shape in which each side is a curved line convex inward.

  In the polymer placement area 13, as shown in FIGS. 4 and 5, the upper layer sheet 10 in the area surrounded by the first bonding portion 15a and the second bonding portion 15b is dome-shaped with the central portion as the vertex By bulging to the skin side, a space portion is formed between the upper layer sheet 10 and the lower layer sheet 11. On the other hand, in the polymer non-placement region 14, as shown in FIG. 5, the flat portion of the upper layer sheet 10 is laminated on the upper surface of the lower layer sheet 11 to form a gap between the upper layer sheet 10 and the lower layer sheet 11. It is supposed not to be.

  The action of the sanitary napkin 1 provided with the polymer sheet 4 having the above configuration will be described. The body fluid that has penetrated the liquid-permeable surface sheet 3 and reaches the upper layer sheet 10 is absorbed by the upper layer sheet 10, At that time, in the joint portion 15, when the joint portion 15 is made of an adhesive such as hot melt, the surface is laminated when the joint portion 15 is made of a pressing groove due to the impermeability of the adhesive. As a result, the body fluid can easily flow in the plane direction on the surface of the joint 15. The body fluid flowing on the surface of the joint portion 15 is easily diffused in a wide range because the joint portion 15 is continuous between the adjacent polymer disposition areas 13 and 13 and is accommodated in the polymer disposition area 13 in the process of diffusion. It will be absorbed by the superabsorbent polymer 12. As described above, since the body fluid can be dispersed and absorbed by the wide range super absorbent polymer 12, the absorption efficiency of body fluid is improved without concentrating on the super absorbent polymer 12 disposed at a specific site. .

  Further, in the sanitary napkin 1, since the openings 16 are provided in the non-polymer-disposed area 14 which is an area different from the joint 15, the body fluid flows in the plane direction on the surface of the joint 15 and is flat. The body fluid overflowing from the junction 15 and the body fluid permeating the non-polymer-disposed region 14 as necessary, while being diffused in the direction, while maintaining the diffusion in the planar direction of the body fluid through the opening 16 as necessary. Liquid permeability to the lower layer side flowing to the side fiber assembly layer 5 can be improved. For this reason, even when a large amount of body fluid is discharged at one time, the body fluid hardly overflows on the surface of the polymer sheet 4, and the fluid permeability to the fiber assembly layer 5 disposed on the lower layer side can be improved.

  As a modification of the arrangement pattern of the holes 16, as shown in FIG. 9, the holes 16 are arranged relatively in a portion corresponding to the body fluid discharge portion H of the wearer, and in other portions Can be arranged relatively few. As a result, it becomes easy to pass the lower layer fiber assembly layer 5 through the opening 16 at the portion corresponding to the body fluid discharge portion H, so when a large amount of body fluid is discharged at one time, etc. The absorption speed in the vicinity of H can be particularly increased, and since the body fluid can be diffused and absorbed while being allowed to flow to the lower layer side near the body fluid discharge part, it is possible to more reliably prevent the body fluid from overflowing on the surface.

  In this case, most of the body fluid discharged in the portion corresponding to the body fluid discharge portion H is transferred to the lower-side fiber assembly layer 5 through the openings 16, as shown in FIG. May be disposed in a region including a portion corresponding to the body fluid discharge portion H in the longitudinal middle of the sanitary napkin 1, and the polymer sheet 4 is laminated on the fiber assembly layer 5 in the front portion and the back portion. It does not have to be.

  On the other hand, as another modification of the arrangement pattern of the openings 16, as shown in FIG. 10, the openings 16 may be alternately or alternately provided in adjacent polymer non-arranged regions 14, 14. You may provide. In this embodiment, by providing the polymer sheet 4 in a region corresponding to the buttocks of the wearer on the rear side of the body fluid discharge portion H, in the polymer sheet 4 in which the openings 16 are arranged at intervals, While diffusing, it is possible to allow liquid to flow to the lower layer side appropriately.

  In order to manufacture the polymer sheet 4, as shown in FIGS. 11 and 12, a first embossing roll 21 in which a large number of convex portions 21a, 21a... Corresponding to the polymer disposition area 13 are arranged; A plurality of concave portions 22a, 22a... Corresponding to the convex portions 21a are arranged, and an upper layer is formed between the second embossing roll 22 in which pins 22b for piercing are disposed at the positions corresponding to the openings 16. By passing the sheet 10, the convex portion 21a and the concave portion 22a are engaged to form a bulging portion of the polymer disposition area 13, and the pin 22b is pierced to form an aperture of the upper layer sheet 10. Do.

  Thereafter, the superabsorbent polymer 12 is dispersed on the surface of the second embossing roll 22 on which the upper layer sheet 10 is disposed, and the superabsorbent polymer 12 is accommodated in the concave portion 22a corresponding to the polymer disposition area 13, The upper layer sheet 10 and the lower layer sheet 11 are joined and integrated by the joining portion 15 by passing the lower layer sheet 11 conveyed from another route in a laminated state between the two embossing rolls 22 and the flat roll 23. At the same time, the holes of the lower sheet 11 are formed by piercing the pins 22b. The bonding is performed by applying a hot melt adhesive or the like to the outer surface of the upper layer sheet 10 corresponding to the convex portion of the second embossing roll 22 and bonding it to the lower layer sheet 11 or engaging with the flat roll 23. This is performed by fusing the upper layer sheet 10 and the lower layer sheet 11 by heating or ultrasonic radiation of the convex portion of the second embossing roll 22.

  By providing a suction port at the bottom of the concave portion 22a of the second emboss roll 22 as needed, the upper layer sheet 10 can be sucked and embossed easily at the time of embossing and at the time of spraying the highly water-absorptive polymer 12 Can be prevented from falling. Alternatively, after the superabsorbent polymer 12 is dispersed, the amount of the superabsorbent polymer 12 contained in the polymer placement area 13 may be adjusted by leveling the surface with a scraper or the like.

  Thereafter, the longitudinally continuous polymer sheets 4, 4... Are cut at the laminated portion of the upper layer sheet 10 and the lower layer sheet 11 in which the polymer disposition area 13 is not provided.

[Other embodiment]
(1) In the embodiment described above, the polymer sheet 4 is disposed on the skin side of the fiber assembly layer 5 between the liquid-permeable top sheet 3 and the liquid-impervious back sheet 2. As shown in FIG. 13, the fiber aggregate layer 5 may not be provided by being disposed independently between the liquid-permeable top sheet 3 and the liquid-impervious back sheet 2. In this case, the body fluid on the surface of the upper layer sheet 10 can easily pass through the apertures 16 to the lower layer sheet 11, and the body fluid absorbed by the lower layer sheet 11 diffuses in the planar direction to achieve high water absorption. The effect of being easily absorbed by the polymer 12 is also exerted. When the polymer sheet 4 is disposed alone, a hydrophilic non-woven fabric is used as the lower layer sheet 11 so that the body fluid absorbed by the lower layer sheet 11 can easily diffuse the lower layer sheet 11 in the planar direction. preferable.

  (2) As shown in FIG. 14, a liquid diffusion sheet 17 may be laminated adjacent to the skin side surface of the lower layer sheet 11 to promote diffusion of body fluid in the planar direction. That is, the polymer sheet 4 is laminated in the order of the upper layer sheet 10, the liquid diffusion sheet 17, and the lower layer sheet 11 from the liquid permeable top sheet 3 side to the liquid impermeable back sheet 2 side. The super absorbent polymer 12 is disposed in a predetermined area between the liquid diffusion sheet 17 and the liquid diffusion sheet 17.

  The liquid diffusion sheet 17 is preferably composed of a fiber assembly which is excellent in the diffusion of body fluid in the planar direction and lower in liquid permeability in the thickness direction than the upper layer sheet 10 and the lower layer sheet 11. Examples of the material having such characteristics include crepe paper and tissue paper.

  The liquid diffusion sheet 17 is preferably provided only on the non-skin side of the superabsorbent polymer 12 and not provided on the skin side of the superabsorbent polymer 12. If it is provided on the skin side of the superabsorbent polymer 12, the liquid diffusion sheet 17 may reduce the penetration speed of the body fluid in the thickness direction, and the absorption speed of the polymer sheet 4 may be reduced.

  The liquid diffusion sheet 17 may be composed of only one layer, or may have a multilayer structure in which a plurality of sheets are laminated. When it consists of a multilayer structure, what laminated | stacked the sheet member which has the same property altogether may be used, and what may be laminated | stacked the sheet member which has a different property may be used. That is, at least one layer is excellent in diffusivity of body fluid in the planar direction and low in liquid diffusion in the thickness direction, or at least one layer is excellent in diffusivity of body fluid in the planar direction, At least one other layer is configured to have low liquid permeability in the thickness direction. In the latter case, the layer constituting the skin side surface has the property of being excellent in the diffusion property of the body fluid in the plane direction, and the layer constituting the non-skin side surface is arranged so as to have the property of low liquid permeability in the thickness direction. preferable.

  As a property excellent in the diffusion property of the bodily fluid in the plane direction provided in the liquid diffusion sheet 17, the creme water absorption degree is 25 mm in 10 minutes according to “water absorption test method by paper and board by crem method” defined in JIS P8141 The above, particularly 30 mm or more is preferable. Specifically, thin absorbent paper such as crepe paper and tissue paper may be mentioned as those having such properties.

Specifically, Table 1 shows the results of measuring the Klemm water absorption for each of the following materials. The measurement was carried out 10 times each for the line flow direction (MD direction) of the material and the direction (CD direction) orthogonal thereto, and the average value was taken as the crem water absorption. The material used for the measurement is (1) liquid diffusion sheet 17 (crepe paper, 15 g / m ² ), (2) air-through non-woven fabric (polyethylene / polypropylene composite fiber and polyethylene / polyethylene terephthalate composite fiber laminate, 25 g / M ² ) and (3) Spunbond nonwoven fabric (polypropylene, 18 g / m ² ). As shown in Table 1, the Klemm's water absorbency largely varies depending on the material, but the material of (1) used in the present invention is excellent in liquid diffusivity in the planar direction.

  The liquid diffusion sheet 17 preferably has a property that the liquid permeability in the thickness direction is lower than that of the upper layer sheet 10 and the lower layer sheet 11. With such a property, the body fluid absorbed by the liquid diffusion sheet 17 does not immediately move to the lower layer sheet 11 but diffuses more widely in the liquid diffusion sheet 17, and more superabsorbent polymer 12 and more. It is preferable because it can be contacted. This allows the superabsorbent polymer 12 to more reliably absorb body fluid.

  Examples of the material having such properties include thin absorbent paper such as crepe paper and tissue paper, and fiber aggregate such as non-woven fabric having a lower degree of hydrophilicity than the upper layer sheet 10 and the lower layer sheet 11.

  The liquid diffusion sheet 17 is preferably formed to have substantially the same planar shape as the upper layer sheet 10 and the lower layer sheet 11 or to have a size including at least all the polymer disposition areas 13 slightly smaller than this. In addition, the liquid diffusion sheet 17 may be disposed only in a portion where it is desired to promote the diffusion of body fluid in the surface direction, for example, only in the urination port corresponding region and its peripheral region.

  The upper layer sheet 10 is bonded at a predetermined bonding portion 15 in a state of being in direct contact with the liquid diffusion sheet 17.

  In the polymer sheet 4 in which the liquid diffusion sheet 17 is disposed, the body fluid absorbed through the opening 16 or from the upper layer sheet 10 and absorbed by the liquid diffusion sheet 17 is a liquid in the planar direction of the liquid diffusion sheet 17 The diffusion action allows the body fluid to be diffused quickly in the plane direction, and the body fluid can be in contact with a wide range of the highly water-absorbing polymer 12 so that it can be efficiently absorbed. In addition, the body fluid diffused in the planar direction by the liquid diffusion sheet 17 is absorbed as it wraps around from the lower side of the superabsorbent polymer 12 disposed in the polymer placement area 13, so bodily fluid absorption by the superabsorbent polymer 12 Will be done efficiently. Furthermore, since the body fluid diffused in the planar direction by the liquid diffusion sheet 17 is absorbed by the wide area super absorbent polymer 12, the body fluid is concentrated and absorbed only in the specific narrow area super absorbent polymer 12 As a result, it is possible to prevent the deterioration of the wearing feeling in which only the superabsorbent polymer 12 in this narrow area is swollen and thickened.

  (3) As a modification of the planar shape of the polymer placement area 13 and the non-polymer placement area 14, as shown in FIG. 15A, the planar shape of the polymer placement area 13 may be formed circular. Further, as a modification of the arrangement pattern, as shown in FIG. 15 (B), the polymer arrangement regions 13 may be arranged in a zigzag manner, or a positive lattice as shown in FIG. 15 (C). It may be arranged in a shape.

  DESCRIPTION OF SYMBOLS 1 ... Sanitary napkin, 2 ... Liquid impermeable back sheet, 3 ... Liquid permeable surface sheet, 4 ... Polymer sheet, 5 ... Fiber assembly layer, 7 ... Side nonwoven fabric, 10 ... Upper layer sheet, 11 ... Lower layer sheet, 12 ... super absorbent polymer, 13 ... polymer arrangement area, 14 ... polymer non-arrangement area, 15 ... junction, 16 ... opening, 17 ... liquid diffusion sheet

Claims (6)

An absorbent article comprising a polymer sheet in which a superabsorbent polymer is disposed in a predetermined region between a skin side upper layer sheet and a non-skin side lower layer sheet,
The polymer sheet is surrounded by a joint portion where the upper layer sheet and the lower layer sheet are joined, and the polymer arrangement region in which the superabsorbent polymer is arranged inside is joined by the polymer arrangement regions adjacent to each other. A polymer non-disposition area is disposed in a regular lattice shape or a zigzag shape while continuing the parts, and is surrounded by the junction surrounding the polymer disposition area, and the superabsorbent polymer is not disposed inside. , Arranged in the center of the four adjacent polymer arrangement regions,
An absorbent article characterized in that at least a part of the non-polymer arrangement area is provided with an opening penetrating the upper layer sheet and the lower layer sheet.   The absorbent article according to claim 1, wherein the joint is provided continuously or intermittently along the periphery of the polymer placement area.   The polymer placement areas in a generally circular or oval shape in plan view are arranged in a regular grid along the longitudinal direction and the width direction of the absorbent article, and in the center of the four adjacent polymer placement areas in a plan view. The absorbent article according to any one of claims 1 and 2, wherein the polymer non-disposition area is disposed.   The absorbent article according to any one of claims 1 to 3, wherein the number of the holes is relatively large at a portion corresponding to the body fluid discharge portion of the wearer and relatively small at other portions. .   The absorbent article according to any one of claims 1 to 3, wherein the holes are provided alternately or alternately in the non-polymer-disposed regions adjacent to each other.   The polymer sheet is disposed between the liquid-permeable top sheet and the liquid-impervious back sheet, laminated on the skin side of the fiber assembly layer including the water-absorbent fiber assembly, or separately disposed. The absorbent article according to any one of claims 1 to 5.

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