WO2017033961A1 - Absorbent article - Google Patents

Abstract

A polymer sheet (4) is so configured that an upper layer sheet (10) and a lower layer sheet (11) are bonded to each other through first bond parts (13) which are arranged in a houndstooth-like pattern and second bond parts (14) each of which is located at a halfway point on an oblique line that connects any two of four first bond parts respectively located on the right side and the left side and at the top and the bottom of the corresponding second bond part. The polymer sheet (4) is partitioned into: multiple first partitioned regions (15), each of which is surrounded by both of the bond parts (13) and (14), and which are arranged in a positive grid-like configuration, and each of which has, enclosed therein, a highly water-absorbable polymer (12); and second partitioned regions (16), each of which is positioned at the center of adjacent four pieces of the first partitioned regions (15), and four oblique directions of each of which are surrounded by the second bond parts (14). The bonding strength of each of the second bond parts (14) is set to a value that is smaller than that of each of the first bond parts (13), and the bonding at the second bond parts (14) is detached preferentially to the bonding at the first bond parts (13) when a highly water-absorbable polymer (12) absorbs a liquid and is swollen.

Description

Absorbent articles

The present invention relates to an absorbent article such as a sanitary napkin, a panty liner, an incontinence pad, and more particularly to an absorbent article provided with 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, a body fluid is absorbed and retained between a liquid-impermeable 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. The thing which interposed the absorber provided with the function to perform is known.

Many improvements have been made to this type of absorbent article, and the absorbent body has a polymer sheet in which a superabsorbent polymer is disposed between two sheets. For example, in Patent Document 1 below, as a sheet-like absorbent layer, a plurality of water-absorbing resin existing regions in which a water-absorbing resin is arranged between nonwoven fabric sheets, and a water-absorbing resin non-adjacent region adjacent to the water-absorbing resin existing region. There is disclosed an absorbent article having an existing region, in which the nonwoven fabric sheets are joined to form a sealing portion in the water-absorbing resin non-existing region.

Further, in Patent Document 2 below, as the water absorbent sheet, the first sheet, the second sheet, and the water absorbent resin powder fixed by an adhesive between both sheets, the first sheet and the second sheet, A plurality of water-absorbing resin powder existing areas are formed between the plurality of water-absorbing resin powders, and each of the plurality of existing areas extends in the longitudinal direction of the water-absorbent sheet and has a predetermined interval in the width direction of the water-absorbent sheet. It is arranged in parallel, between the adjacent existence areas, and both ends in the width direction of the water absorbent sheet are non-existence areas where the water absorbent resin powder is not present. The sheet and the second sheet are joined, and a part of the non-existing area is a sheet peeling area, and the sheet peeling area includes the first sheet and the second sheet of the water absorbent resin powder. Peel off due to liquid absorption and swelling Absorbent articles are Uninasa is disclosed.

Furthermore, in the following Patent Document 3, a first sheet layer having an absorbent accommodating pocket, an aggregate of superabsorbent materials accommodated in the absorbent accommodating pocket, and a second disposed on the first sheet layer. Having a sheet layer and a bonding bead disposed between each pocket, the first sheet layer forming a pleat at the superabsorbent material assembly, the outer periphery of the pocket formed by the pleat as described above An absorbent article is disclosed that exists in a zone beyond the periphery of.

Japanese Patent No. 5318747 JP 2009-61230 A JP 2014-530893 A

However, in the absorbent article described in Patent Document 1, since the non-woven fabric is joined to form a sealing portion in the water-absorbing resin non-existing region adjacent to the water-absorbing resin existing region, the water-absorbing resin absorbs water. The space that swells when liquid is confined to the water-absorbing resin existing region, the fluidity of the water-absorbing resin is reduced, and so-called “gel blocking” in which adjacent water-absorbing resins are bonded to each other is likely to occur. May not be expressed. Moreover, in the absorbent article described in Patent Document 2, the first sheet and the second sheet are peeled off due to liquid absorption / swelling of the water absorbent resin powder. The swollen water-absorbent resin powder may cause distortion and unevenness on the sheet, which may deteriorate the feeling of wearing. Furthermore, in the absorbent article described in Patent Document 3, pleats are formed on the outer periphery of the absorbent-accommodating pocket, and the pleats are enlarged due to swelling of the superabsorbent material, but before the pleats are enlarged. When the superabsorbent material causes gel blocking, the liquid absorption efficiency by the water absorbent resin is lowered.

Therefore, the main problem of the present invention is that the absorbent article has improved fluidity of the polymer and allows the polymer to absorb liquid efficiently without causing distortion or unevenness of the sheet when the polymer absorbs water and swells. Is to provide.

In order to solve the above-mentioned problem, a polymer sheet in which a superabsorbent polymer is interposed between an upper layer sheet disposed on the skin side and a lower layer sheet disposed on the non-skin side is provided as the present invention according to claim 1. An absorbent article comprising:
The polymer sheet is provided at an oblique middle position where the upper layer sheet and the lower layer sheet connect the first joint portions provided in a staggered arrangement and the first joint portions present in the vertical and horizontal positions. Joined by the second joint,
A plurality of first parts surrounded by the first joint part and the second joint part and arranged in a regular lattice shape along the longitudinal direction and the width direction of the absorbent article and having a superabsorbent polymer enclosed therein The area defined at the center of the four first defined areas adjacent to the defined area, and divided into the second defined area surrounded by the second joint portion in the oblique four directions,
The bonding strength of the second bonding portion is set to be smaller than the bonding strength of the first bonding portion, and when the superabsorbent polymer absorbs liquid and swells, the second bonding portion from the first bonding portion. The absorbent article is characterized in that the joining of the parts is preferentially peeled off.

In the first aspect of the present invention, as the polymer sheet, the upper layer sheet and the lower layer sheet are provided with a first joint portion provided in a staggered arrangement, and the first joint portions existing in the vertical and horizontal positions. It has the structure joined by the 2nd junction part provided in the diagonal intermediate position to connect. Moreover, while being enclosed by the said 1st junction part and a 2nd junction part, it arranged in the shape of a regular lattice along the longitudinal direction and the width direction of an absorbent article, and a plurality of superabsorbent polymers enclosed therein A second area having a smaller area than the first defined area, which is located at the center of the first defined area and the four first defined areas adjacent to each other, and whose four oblique directions are surrounded by the second joining portion. It is divided into defined areas. At this time, the bonding strength of the second bonding portion is set to be smaller than the bonding strength of the first bonding portion, and when the superabsorbent polymer absorbs liquid and swells, the second bonding portion has a second strength higher than that of the first bonding portion. The joint at the joint is peeled off preferentially. That is, the second joint provided in the four oblique directions of the first defined area is peeled off preferentially by the force that the superabsorbent polymer enclosed in the first defined area absorbs and swells. In addition, the superabsorbent polymer in the first definition region easily flows into the second definition region. Accordingly, the bonding of the second bonding portion is peeled off so that the first defined region and the second defined region communicate with each other, so that the diffusibility of the body fluid is improved, and the highly water-absorbing polymer that is swollen by absorbing the liquid Thus, the highly water-absorbing polymers are hardly bonded to each other and gel blocking does not occur, and the highly water-absorbing polymer can absorb liquid efficiently. In addition, when the superabsorbent polymer absorbs liquid and swells, the internal space of the first defined region communicates with the internal space of the second defined region in the oblique four directions, so that stress due to swelling can be released, The sheet is less likely to be distorted or uneven.

As a second aspect of the present invention according to claim 2, in the second defined region, a small amount of the superabsorbent polymer is enclosed in the interior of the first defined region, or the non-polymer interspersed with the superabsorbent polymer is not interposed. The absorbent article according to claim 1, which is a presence region.

In the second aspect of the present invention, the second defined region is a polymer non-existing region in which a superabsorbent polymer in a smaller amount than the first defined region is enclosed or a superabsorbent polymer is not interposed. Therefore, when the superabsorbent polymer absorbs liquid and swells, the internal space of the first defined area communicates with the internal space of the second defined area in the oblique four directions, so that the first defined area is separated from the first defined area. The superabsorbent polymer easily flows in the two defined regions, the bonding between the polymers can be prevented, and the water absorption efficiency by the superabsorbent polymer becomes good.

As the present invention according to claim 3, there is provided the absorbent article according to any one of claims 1 and 2, wherein the second defined region is formed with an area smaller than that of the first defined region.

In the invention of claim 3, the second defined region is formed in a smaller area than the first defined region, so that the second defined region is the first defined region without reducing the water absorption efficiency of the polymer sheet. It becomes easy to act as a buffer zone for releasing stress when the polymer in the formation region swells.

According to a fourth aspect of the present invention, the first defining region has an imaginary closed imaginary line inscribed in the first joint and the second joint, and the second defined region is The absorbent article according to any one of claims 1 to 3, wherein an imaginary line to be closed inscribed in the second joint portion is formed in a substantially rhombus shape.

In the invention described in claim 4, a combination of particularly preferable shapes is exemplified as the planar shape of the first defined region and the second defined region. Specifically, the first defining region is formed such that a closed virtual line inscribed in the first joining portion and the second joining portion is an ellipse, and the second defining region is the second joining portion. The closed imaginary line inscribed in is formed so as to have a substantially diamond shape. As a result, the first defined region and the second defined region are arranged in the polymer sheet with almost no gap, so that the water absorption efficiency of the polymer sheet can be improved, and when the polymer absorbs water and swells, it has an elliptical shape. The polymer filled in the first definition region easily flows toward the outer side, and the distortion and unevenness of the sheet can be suppressed small.

As this invention which concerns on Claim 5, while the said 1st junction part arrange | positioned at the upper and lower ends of the said 1st definition area | region is formed in the groove shape long in the left-right direction, it is at the left-right end of the said 1st definition area | region. The first joint portion to be arranged is formed in a groove shape that is long in the vertical direction, and the second joint portion is formed in an intermittent dot shape in a direction connecting the first joint portions. 4. An absorbent article according to any one of 4 is provided.

According to the fifth aspect of the invention, the first joint portion is formed in a groove shape long in a predetermined direction, and the second joint portion is formed in an intermittent dot shape, thereby joining the second joint portion. The strength is relatively smaller than the joint strength of the first joint.

The present invention according to claim 6 is characterized in that a fiber assembly layer containing a water-absorbing fiber assembly is disposed on the non-skin side or skin side of the polymer sheet. Articles are provided.

In the invention described in claim 6, the absorbability of body fluid is further enhanced by combining the polymer sheet and the fiber assembly layer.

As described above in detail, according to the present invention, when the polymer absorbs water and swells, the fluidity of the polymer is improved and the polymer can efficiently absorb liquid without causing distortion or unevenness of the sheet.

It is a partial fracture development view of sanitary napkin 1 concerning the present invention. It is the II-II arrow directional view of FIG. 3 is an enlarged plan view of a polymer sheet 4. FIG. FIG. 4 is a view taken along the line IV-IV in FIG. 3. FIG. 5 is a view taken along line VV in FIG. 3. 3 is a side view showing a production apparatus for a polymer sheet 4. FIG. (A) to (D) are cross-sectional views showing the procedure for producing the polymer sheet 4. It is sectional drawing (the 1) of the sanitary napkin 1 which concerns on another form example. It is sectional drawing (the 2) of the sanitary napkin 1 which concerns on another form example.

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

[Basic structure of sanitary napkin 1]
As shown in FIGS. 1 and 2, the sanitary napkin 1 according to the present invention has a liquid-impervious back sheet 2 made of a polyethylene sheet, a polypropylene sheet, or the like, and a permeate that quickly permeates menstrual blood or a cage. A liquid surface sheet 3, a polymer sheet 4 having a structure in which a superabsorbent polymer is disposed between two sheets interposed between the two sheets 2 and 3, and both sides of the surface along the longitudinal direction. The side nonwoven fabrics 7 and 7 are arranged. Further, around the polymer sheet 4, at the front and rear end edges in the napkin longitudinal direction, the outer edge of the liquid-impervious back sheet 2 and liquid-permeable surface sheet 3 is an adhesive such as hot melt, heat seal, etc. The liquid-impermeable back sheet 2 and the side nonwoven fabric 7 that are joined by the adhesive means and extend laterally from the side edges of the polymer sheet 4 at both side edges thereof are adhesives such as hot melt, Joined by adhesive means such as heat sealing, an outer peripheral flap portion where the polymer sheet 4 does not exist is formed on the outer periphery.

Hereinafter, the structure of the sanitary napkin 1 will be described in detail.
As the liquid-impermeable back sheet 2, a sheet material having at least water shielding properties such as an olefin resin sheet such as polyethylene or polypropylene is used. In addition, a laminated nonwoven fabric obtained by laminating a nonwoven fabric on a polyethylene sheet or the like, or A nonwoven fabric sheet (in this case, the waterproof film and the nonwoven fabric constitute a liquid-impervious back sheet) can be used after substantially impervious to liquid imperviousness by interposing a waterproof film. In recent years, those having moisture permeability tend to be used from the viewpoint of preventing stuffiness. This water- and moisture-permeable sheet material is a microporous sheet obtained by forming a sheet by melting and kneading an inorganic filler in an olefin resin such as polyethylene or polypropylene, and then stretching in a uniaxial or biaxial direction. It is.

Next, the liquid-permeable surface sheet 3 is preferably a porous or non-porous nonwoven fabric or a porous plastic sheet. Examples of the material fibers constituting the nonwoven fabric include synthetic fibers such as polyethylene or polypropylene, synthetic fibers such as polyester and polyamide, recycled fibers such as rayon and 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 melt blown method, or a needle punch method can be used. Among these processing methods, the spunlace method is excellent in terms of flexibility and the spunbond method is excellent in drapeability, and the thermal bond method and the air-through method are excellent in terms of being bulky and having high compression recovery properties. The non-woven fiber may be either a long fiber or a short fiber, but preferably a short fiber is used in order to give a towel texture. In order to facilitate the embossing treatment, it is preferable to use an olefin fiber such as polyethylene or polypropylene having a relatively low melting point. In addition, a composite fiber such as a core-sheath fiber, a side-by-side fiber, or a split fiber having a fiber having a high melting point as a core and a fiber having a low melting point as a sheath can be suitably used. The liquid-permeable surface sheet 3 may not be provided when the upper layer sheet 10 of the polymer sheet 4 described in detail later forms a skin contact surface layer.

The polymer sheet 4 interposed between the liquid-impermeable back sheet 2 and the liquid-permeable surface sheet 3 is between the upper layer sheet 10 disposed on the skin side and the lower layer sheet 11 disposed on the non-skin side. The superabsorbent polymer 12 is disposed on the surface.

As the upper layer sheet 10, a porous or non-porous nonwoven fabric or a porous plastic sheet is used. As the raw material fibers constituting the nonwoven fabric, in the same manner as the liquid-permeable surface sheet 3, for example, synthetic fibers such as olefins such as polyethylene or polypropylene, polyesters, and polyamides, recycled fibers such as rayon and cupra, cotton Natural fibers such as Although the processing method of the said nonwoven fabric is not ask | required, in order to prevent the superabsorbent polymer 12 from dropping off, a processing method that increases the fiber density of the obtained product, such as a spun bond method, a melt blown method, or a needle punch method, is used. preferable. The pore diameter of the porous plastic sheet is preferably smaller than the outer shape of the superabsorbent polymer 12 in order to prevent the superabsorbent polymer 12 from falling off. Further, as will be described in detail later, the upper layer sheet 10 is preferably subjected to a predetermined uneven process, and therefore preferably includes a material having thermoplasticity.

As the lower layer sheet 11, in addition to a porous or non-porous nonwoven fabric or a porous plastic sheet, a sheet material having a water shielding property can be used. As with the upper layer sheet 10, the processing method of the nonwoven fabric is not limited, but in order to prevent the superabsorbent polymer 12 from falling off, the fiber density of the obtained product such as the spunbond method, the melt blown method, the needle punch method is large. It is preferable to use the processing method. The pore diameter of the porous plastic sheet is preferably smaller than the outer shape of the superabsorbent polymer 12 in order to prevent the superabsorbent polymer 12 from falling off. As the water-impervious sheet material, the same material as the liquid-impermeable back sheet 2 can be used.

Examples of the superabsorbent polymer 12 include a cross-linked polyacrylate, a self-crosslinked polyacrylate, a saponified acrylate-vinyl acetate copolymer cross-linked product, and a cross-linked isobutylene / maleic anhydride copolymer. , A crosslinked polysulfonate, and a partially crosslinked water-swellable polymer such as polyethylene oxide and polyacrylamide. Among these, those based on acrylic acid or acrylate that are excellent in water absorption and water absorption speed are preferred. In the production process of the highly water-absorbing polymer having the water-absorbing performance, the water-absorbing force and the water-absorbing speed can be adjusted by adjusting the crosslinking density and the crosslinking density gradient.

On the other hand, side nonwoven fabrics 7 and 7 are provided on both side portions on the surface side of the sanitary napkin 1 along the longitudinal direction and over almost the entire length of the napkin 1, respectively. Wing-like flaps W and W are formed by a part of the liquid-impervious back sheet 2 that extends laterally and also 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 important functions. For example, if importance is placed on functions such as preventing permeation of menstrual blood or vaginal discharge, or enhancing the touch feeling, water repellent treatment coated with silicon, paraffin or alkylchromic chloride water repellent It is desirable to use a nonwoven fabric. Further, if importance is attached to the absorption of menstrual blood and the like in the wing-shaped flaps W, W, a method of polymerizing a compound having a hydrophilic group, for example, an oxidation product of polyethylene glycol, in the process of producing a synthetic fiber, , By treating with a metal salt such as stannic chloride, partially dissolving the surface to make it porous, and depositing metal hydroxides to swell or make the synthetic fiber porous, applying capillary action to make it hydrophilic It is desirable to use a hydrophilic treated non-woven fabric provided with.

As shown in FIG. 2, the inner side of the side nonwoven fabric 7 folds the side nonwoven fabric 7 almost double, and inside the double sheet, in the middle in the height direction, as appropriate at both ends or in the longitudinal direction. One or a plurality of, in the illustrated example, two thread-like elastic elastic members 8 and 8 are disposed, and the double sheet portion is erected on the skin side by the contraction force. Is formed.

[About polymer sheet 4]
Hereinafter, the polymer sheet 4 will be described in detail. As shown in FIGS. 1 to 3, the polymer sheet 4 comprises an upper layer sheet 10 disposed on the skin side (liquid-permeable surface sheet 3 side) and a non-skin side (liquid-impermeable back sheet 2 side). The superabsorbent polymer 12 is interposed in a predetermined region between the lower layer sheet 11 and the lower layer sheet 11.

As shown in FIG. 3, the polymer sheet 4 is joined to the upper layer sheet 10 and the lower layer sheet 11 by the first joint portion 13 provided in a staggered arrangement, and is present in the vertical and horizontal positions. It joins by the 2nd junction part 14 provided in the diagonal intermediate position which connects each of the four 1st junction parts 13 and 13 .... The staggered arrangement is an arrangement in which adjacent rows or columns having the same pitch are shifted by half a pitch every other row or every other column, and up and down and left and right every other row or every other column. Are arranged so that they are aligned with each other. Further, in this document, the vertical position is a position in the direction matching the longitudinal direction (front-rear direction) of the sanitary napkin 1, and the left-right position is a position in the direction matching the width direction of the sanitary napkin 1. .

The polymer sheet 4 is surrounded by the first joint portion 13 and the second joint portion 14 and arranged in a regular lattice shape along the napkin longitudinal direction and width direction. Are located in the center of the four first defining regions 15, 15... Adjacent to each other (adjacent in the vertical and horizontal directions), and the four oblique directions are It is divided into a second defined region 16 surrounded by two joint portions 14.

That is, the first defining region 15 includes the first joints 13, 13... Disposed at the top, bottom, left, and right positions, respectively, and the second joints disposed at four positions in the middle of the top, bottom, left and right positions. 14, 14... In addition, the second defined area 16 is surrounded by four first defined areas 15, 15, which are arranged in a regular lattice shape and are adjacent in the vertical and horizontal directions. The four diagonal directions are each surrounded by the second joint portion 14.

When a certain first defined area 15 is taken as a reference, the first defined area 15 is adjacent to both ends in the longitudinal direction of the pad, and the first defined area 15 is disposed on both sides in the pad width direction. The intermediate regions 15 are adjacent to each other and are located in the middle of the first defining regions 15, 15..., And each of the second defined regions in the four oblique directions of the central first defining region 15. Region 16 is adjacent.

In the first defined region 15, the upper sheet 10 in the region surrounded by the first joint portion 13 and the second joint portion 14 bulges to the skin side in a dome shape with the central portion as a vertex. A space is formed between the upper layer sheet 10 and the lower layer sheet 11. Further, in the second defined region 16, the upper sheet 10 in the region surrounded by the four diagonal directions by the second joint portion 14 bulges to the skin side in a substantially quadrangular pyramid shape with the central portion as a vertex. Thus, a space is formed between the upper layer sheet 10 and the lower layer sheet 11. The internal space of the first defined region 15 is filled with the superabsorbent polymer 12, and the internal space of the second defined region 16 is filled with the superabsorbent polymer 12 as necessary.

The bonding strength of the second bonding portion 14 is set to be smaller than the bonding strength of the first bonding portion 13, and is higher than the first bonding portion 13 when the superabsorbent polymer 12 absorbs liquid and swells. The joint of the joint portion 14 is preferentially peeled off. That is, there is a relationship of the bonding strength of the first bonding portion 13> the bonding strength of the second bonding portion 14. By making the bonding strength of the second bonding portion 14 smaller than the bonding strength of the first bonding portion 13, when the superabsorbent polymer 12 absorbs liquid and swells, the bonding of the second bonding portion 14 with a relatively weak force. Will come off. Further, when the superabsorbent polymer 12 further swells and a greater force is generated, the joint of the first joint portion 13 is also peeled off.

The body fluid absorption mechanism of the polymer sheet 4 having the above configuration will be described with reference to FIGS. First, as shown in FIG. 3 and FIG. 4, in a cross-sectional view that cuts across the first defining region 15 in the width direction and cuts in a cross section that passes through the first joint portions 13, 13 on both left and right sides, Since the upper layer sheet 10 and the lower layer sheet 11 are bonded to each other between the adjacent first definition regions 15 and 15 by the first bonding portion 13 having relatively high bonding strength, the first definition region 15 is sealed. When the superabsorbent polymer 12 absorbs liquid and swells, the joint of the first joint portion 13 does not easily peel off, and in this state, the swelled superabsorbent polymer 12 distorts the upper layer sheet 10 and the lower layer sheet 11. And it is in a situation where irregularities are likely to occur.

However, in the polymer sheet 4 according to the present invention, as shown in FIGS. 3 and 5, the first defined region 15 and the second defined region 16 are alternately crossed obliquely across the first defined region 15. The upper sheet 10 and the lower layer 10 are separated from each other by the second bonding portion 14 having a relatively low bonding strength between the first defined region 15 and the second defined region 16 that are adjacent to each other in the oblique direction in a cross-sectional view cut along a transverse cross section. Since the sheet 11 is bonded, when the superabsorbent polymer 12 enclosed in the first defining region 15 absorbs liquid and swells, the bonding of the second bonding portion 14 peels off, and the first definition The area 15 and the second definition area 16 are communicated with each other. Therefore, the diffusibility of the body fluid is improved, the fluidity of the superabsorbent polymer 12 that has been absorbed and swollen is improved, the superabsorbent polymers 12 are not easily bonded to each other, and gel blocking does not occur. The liquid can be efficiently absorbed by the conductive polymer 12. Further, when the superabsorbent polymer 12 absorbs liquid and swells, the internal space of the first defined region 15 communicates with the internal space of the second defined region 16 in the oblique four directions. The stress due to the swelling can be released, and the sheet is less likely to be distorted or uneven, and the wearing feeling is improved. Further, the polymer sheet 4 does not peel off all the joints around the first defined region 15 at the same time, but provides a weak part and a strong part, peels the weak part preferentially and is strong. By leaving the joints of the parts, it is possible to prevent the swollen polymer from moving greatly and distorting or twisting the sheet.

The second defined area 16 is configured so that a smaller amount of the superabsorbent polymer 12 than that in the first defined area 15 is encapsulated therein, or is a polymer non-existing area in which the superabsorbent polymer 12 is not interposed. Is preferred. Since the second defined area 16 is formed with a smaller area than the first defined area 15 and the internal space has a smaller volume than the first defined area 15, the amount of the superabsorbent polymer 12 enclosed is relatively small. It is preferable to do this. Further, the second defined region 16 may be a polymer non-existing region in which the superabsorbent polymer 12 is not interposed. By reducing the amount of polymer in the second defined region 16 or making it a non-polymer present region, the second absorbing region 16 may absorb water. The superabsorbent polymer 12 that has swelled and swelled easily flows from the first defined region 15 to the second defined region 16, and gel blocking in the first defined region 15 can be more reliably prevented. The polymer non-existing region is somewhat present because the superabsorbent polymer 12 does not exist at all between the upper layer sheet 10 and the lower layer sheet 11 or enters between the fibers when the superabsorbent polymer 12 is sprayed. This means that the state is much smaller than that of the first defined region 15 in which the superabsorbent polymer 12 is encapsulated.

As shown in FIG. 3, the second defined region 16 is preferably formed with a smaller area than the first defined region 15. Thus, the second defined region 16 can easily act as a buffer zone for releasing stress when the polymer in the first defined region 15 swells without reducing the water absorption efficiency of the polymer sheet 4. Further, it is preferable that the second defining region 16 has an internal space having a volume smaller than that of the first defining region 15. Thereby, when the internal space of the 1st defined area | region 15 and the 2nd defined area | region 16 connects, it can prevent that a polymer sheet | seat is distorted by the superabsorbent polymer 12 moving largely.

The first defining region 15 and the second defining region 16 can be formed in an arbitrary planar shape. As shown in FIG. 3, the planar shape of the first defined region 15 is the planar shape of the base end portion of the region surrounded by the first joint portion 13 and the second joint portion 14. It is the planar shape of the imaginary line S1 that is inscribed in contact with the first joint portion 13 and the second joint portion 14. Further, the planar shape of the second defined region 16 is the planar shape of the base end portion of the region surrounded by the second joint portion 14 as shown in FIG. This is the planar shape of the imaginary line S <b> 2 that is inscribed in the portion 14. The planar shape of the first defined area 15 may be an ellipse, a circle, a polygon, a rhombus, etc., and the planar shape of the second defined area 16 may be a substantially rhombus, an ellipse, a circle, a polygon. Etc. can be formed. In the case of a planar shape having a longitudinal direction and a short direction, the longitudinal direction may be oriented in the napkin longitudinal direction or in the napkin width direction. Among these planar shapes, as shown in FIG. 3, the first defined region 15 is preferably formed into an elliptical shape that is long in the longitudinal direction of the napkin, and the second defined region, as shown in FIG. Sixteen planar shapes are formed in a substantially diamond shape. As a result, the first defined region 15 and the second defined region 16 are arranged in the polymer sheet 4 with almost no gap, so that the water absorption efficiency of the polymer sheet 4 can be improved, and the highly water-absorbing polymer 12 absorbs liquid. Thus, the sheet is swelled, the bonding of the second bonding portion 14 is peeled off, and the distortion of the sheet when the first defining region 15 and the second defining region 16 communicate with each other can be suppressed. The planar shape of the second defined region 16 includes a substantially rhombus shape, and includes a rhombus shape in which each side is formed by a curved line that protrudes inward.

As shown in FIG. 3, each of the first definition area 15 and the second definition area 16 has a first gap without a gap between the first definition area 15 and the second definition area 16 adjacent to each other. Although it is preferable to arrange the joint 13 and the second joint 14 adjacent to each other as a boundary line, the first defined regions 15 are surrounded by the independent first joint 13 and the second joint 14, respectively. A gap may be provided between the first defining area 15 and the first defining area 15 (not shown). In the former case, the highly water-absorbing polymer 12 is arranged with almost no gap with respect to the polymer sheet 4, and the liquid absorption effect can be enhanced. In the latter case, when the superabsorbent polymer 12 in the first defining region 15 swells and the thickness of the polymer sheet 4 increases, there is a gap between the adjacent first defining regions 15 and 15. As a buffer zone, the distortion of the sheet is absorbed, and the entire polymer sheet 4 can be prevented from being distorted. If the gap is too small, the distortion of the sheet cannot be absorbed, and if it is too large, the liquid absorption effect is reduced. Therefore, the gap is preferably about 10% to 30% of the length of the first defining region 15 in the major axis direction. preferable.

The internal space between the upper layer sheet 10 and the lower layer sheet 11 in the first defining region 15 has an elliptical bottom surface that is long in the longitudinal direction of the napkin, and is directed from the surface of the lower layer sheet 11 to the skin side in a cross-sectional view. It is preferably formed in a dome-like generally rounded hollow arc shape, and in a three-dimensional manner, it is formed in a substantially semi-ellipsoidal shape in which the ellipsoid is approximately halved in the major axis direction.

On the other hand, the internal space between the upper layer sheet 10 and the lower layer sheet 11 in the second defining region 16 has a substantially rhombic bottom surface, and inclines from the surface of the lower layer sheet 11 toward the skin side in a cross-sectional view. It is preferably formed in a hollow triangular shape having a linear slope, and in a three-dimensional manner, it is preferably formed in a substantially quadrangular pyramid shape. The angle of the top of the internal space of the second defining region 16 is an acute angle, preferably 60 ° or less, more preferably 45 ° or less.

As shown in FIG. 5, it is desirable that the bulge height of the first defined area 15 and the bulge height of the second defined area 16 are formed substantially equal. This makes it easier to transfer body fluid to the absorber side in the second defined region 16 while maintaining the feeling of touch in the first defined region 15. If the height of the first defined region 15 is set higher than the height of the second defined region 16, the body fluid is not sufficiently transferred to the absorber side by the second defined region 16, and the skin side When the height of the second defined area 16 is made higher than the height of the first defined area 15 on the contrary, the second defined area is mainly used. The top of 16 hits the skin and the feeling of touch is worsened. Although it is desirable that there is almost no difference between the height of the first defined area 15 and the height of the second defined area 16, there is a difference of about ± 3 mm, preferably about ± 2 mm, more preferably about ± 1 mm. It doesn't matter.

As the first joint portion 13 and the second joint portion 14, it is preferable to use an adhesive means such as a hot melt adhesive, but it is also possible to use a fusion means such as heat seal or ultrasonic seal. Is possible.

The adjustment of the bonding strength between the first bonding portion 13 and the second bonding portion 14 is performed by adjusting the coating amount per unit area and the length of the coating pattern when an adhesive means using an adhesive is used. In the case where a joining means by fusion is used, it can be performed by adjusting the fusion area or the fusion temperature.

The joint strength of the first joint portion 13 and the second joint portion 14 is such that the upper layer sheet 10 and the lower layer sheet 11 do not break when the superabsorbent polymer 12 absorbs liquid and swells, that is, the upper layer. The strength is set to be smaller than the tensile strength of the sheet 10 and the lower layer sheet 11. Specifically, the bonding strength of the first bonding portion 13 is preferably about 0.5 to 2 N / 25 mm, and the bonding strength of the second bonding portion 15 is preferably about 0.2 to 1 N / 25 mm. Further, it is preferable that the difference in bonding strength is 0.3 N / 25 mm or more.

The joint strength can be measured from the tensile strength when a tensile test is performed in which the sheet material joined by the joint portion cut to a width of 25 mm is pulled at a speed of 300 mm / min. Moreover, you may measure the joint strength of each junction part 13 and 14 with the following method using the sheet | seat in which the said 1st junction part 13 and the 2nd junction part 14 were actually provided. First, the tensile test is performed in a state where the upper layer sheet 10 and the lower layer sheet 11 are bonded by the first bonding portion 13 and the second bonding portion 14, and the bonding strength P1 is measured. Next, water is poured into the polymer sheet to swell the superabsorbent polymer 12, the second joint portion 14 is peeled off, and the upper layer sheet 10 and the lower layer sheet 11 are joined only by the first joint portion 13. Then, the bonding strength P2 is measured (the bonding strength P2 at this time is defined as the bonding strength of the first bonding portion 13). The difference (P1−P2) between the bonding strengths P1 and P2 is defined as the bonding strength of the second bonding portion 14.

As shown in FIG. 3, the first joint portions 13 disposed at the upper and lower ends of the first defining region 15 are preferably formed in a groove shape that is long in the left-right direction (napkin width direction). It is preferable to form the 1st junction part 13 arrange | positioned at the right-and-left end of the defined area | region 15 in a groove shape long in an up-down direction (napkin longitudinal direction). Thereby, the 1st junction part 13 is formed in the shape of a groove | channel long in the tangential direction to each connect between the adjacent 1st definition area | regions 15 and 15, and the connection of adjacent 1st definition area | regions 15 is restrict | limited. Will come to be. The first joint 13 is preferably formed in a continuous groove shape, but may be formed in an intermittent dot shape.

In addition, the second joint portion 14 is disposed apart from the first joint portion 13 and is formed in a plurality of dots that are intermittent in the direction connecting the adjacent first joint portions 13 and 13. Is preferred. The second joint portion 14 is formed in an intermittent dot shape in which the joint strength is weaker than that of the first joint portion 13 so as to peel preferentially when the superabsorbent polymer 12 absorbs liquid and swells. Is preferred. Further, the second joint portion 14 may be formed in a continuous groove shape or may be formed by one dot.

Meanwhile, the weight of the superabsorbent polymer 12 filled in the first defining region 15 is 20 to 300 g / m ² , preferably 80 to 200 g / m ² . Further, the weight of the superabsorbent polymer 12 filled in the second defined region 16 may be equal to or smaller than the weight filled in the first defined region 15.

In order to manufacture the polymer sheet 4, as shown in FIGS. 6 and 7, a plurality of convex portions 21a, 21a,... Corresponding to the first defining region 15 are arranged, and the second image is formed. The first embossing roll 21 in which a large number of convex portions 21b, 21b... Corresponding to the formation region 16 are arranged, and the numerous concave portions 22a, 22a. The upper sheet 10 is passed between the second embossing roll 22 in which a large number of concave portions 22b, 22b... Corresponding to the convex portion 21b are arranged, so that the convex portions 21a and the concave portions 22a are engaged with each other. Is used to form the bulging portion of the first defining region 15 and to form the bulging portion of the second defining region 16 by meshing the convex portion 21b and the concave portion 22b. It is preferable to that.

Thereafter, the superabsorbent polymer 12 is sprayed 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 first defining region 15. If necessary, the superabsorbent polymer 12 is accommodated in the concave portion 22b corresponding to the second defining region 16, and the lower layer sheet 11 is conveyed between the second embossing roll 22 and the flat roll 23 from another path. Are passed in a laminated state, the upper sheet 10 and the lower sheet 11 are joined and integrated by the first joint 13 and the second joint 14. These joints are performed by applying a hot-melt adhesive or the like on the outer surface of the upper layer sheet 10 corresponding to the convex portion of the second embossing roll 22 and adhering to the lower layer sheet 11 or when meshing 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 portions of the second embossing roll 22.

By providing suction ports at the bottom of the concave portion 22a of the second embossing roll 22 and if necessary at the bottom of the concave portion 22b, the upper sheet 10 is easily sucked and embossed during embossing, and the superabsorbent polymer 12 is provided. The polymer can be prevented from falling by sucking when spraying. In addition, after the superabsorbent polymer 12 is sprayed, the amount of the superabsorbent polymer 12 accommodated in the first defining region 15 may be adjusted by leveling the surface with a scraper or the like.

Thereafter, the polymer sheets 4, 4... Continuous in the longitudinal direction are cut at the joint between the upper layer sheet 10 and the lower layer sheet 11 where the first and second defined regions 15 and 16 are not provided.

Incidentally, as shown in FIG. 2, the polymer sheet 4 may be interposed between the liquid-permeable top sheet 3 and the liquid-impervious back sheet 2 as a single unit. As shown, the polymer sheet 4 may be interposed as a laminate with a fiber assembly layer 30 including a water-absorbing fiber assembly such as pulp disposed on the non-skin side or the skin side. The fiber assembly layer 30 is composed of at least a water-absorbing fiber assembly, and may contain a highly water-absorbing polymer.

In FIG. 8, the fiber assembly layer 30 is disposed on the non-skin side of the polymer sheet 4, and the laminate of the polymer sheet 4 and the fiber assembly layer 30 is formed as a liquid-permeable surface sheet 3 and a liquid-impermeable back sheet 2. It is interposed between. As a result, the body fluid that has passed through the upper polymer sheet 4 is absorbed and retained by the lower fiber assembly layer 30. In this case, a water-permeable sheet material is preferably used as the lower layer sheet 11 constituting the polymer sheet 4.

In FIG. 9, the fiber assembly layer 30 is disposed on the skin side of the polymer sheet 4, and the laminate of the polymer sheet 4 and the fiber assembly layer 30 is formed as a liquid-permeable top sheet 3 and a liquid-impervious back sheet 2. Between. Thereby, the body fluid diffused in the fiber assembly layer 30 can be quickly absorbed by the polymer sheet 4. In this case, as shown in FIG. 9, a slit 31 penetrating along the longitudinal direction may be provided at the center in the width direction of the fiber assembly layer 30. As a result, the slit 31 acts as a temporary storage space for bodily fluid, and the bodily fluid can be diffused in the polymer sheet 4 while diffusing the bodily fluid along the slit 31 in the longitudinal direction. The sheet 4 can be absorbed.

When the laminate of the polymer sheet 4 and the fiber assembly layer 30 is used, the polymer sheet 4 does not need to be disposed on the entire surface of the fiber assembly layer 30, for example, only in the napkin central region including the blood drainage port. It is possible to arrange them or to arrange them only in the annular region surrounding the blood drainage port. In this case, the fiber assembly layer 30 is disposed up to the outer peripheral portion of the sanitary napkin 1 leaving the outer peripheral flap portion.

Although not shown, the liquid-permeable surface sheet 3 is not necessarily an essential element. When the upper sheet 10 of the polymer sheet 4 functions as a skin contact surface layer, the liquid-permeable surface sheet 3 is disposed. You don't have to. Thereby, the sanitary napkin 1 can be further reduced in thickness, and the cost can be reduced by reducing the number of materials.

DESCRIPTION OF SYMBOLS 1 ... Sanitary napkin, 2 ... Liquid impervious back sheet, 3 ... Liquid permeable top sheet, 4 ... Polymer sheet, 7 ... Side nonwoven fabric, 10 ... Upper layer sheet, 11 ... Lower layer sheet, 12 ... Super absorbent polymer, DESCRIPTION OF SYMBOLS 13 ... 1st junction part, 14 ... 2nd junction part, 15 ... 1st defined area | region, 16 ... 2nd defined area | region

Claims (6)

1. An absorbent article comprising a polymer sheet in which a superabsorbent polymer is interposed between an upper layer sheet disposed on the skin side and a lower layer sheet disposed on the non-skin side,
   The polymer sheet is provided at an oblique middle position where the upper layer sheet and the lower layer sheet connect the first joint portions provided in a staggered arrangement and the first joint portions present in the vertical and horizontal positions. Joined by the second joint,
   A plurality of first parts surrounded by the first joint part and the second joint part and arranged in a regular lattice shape along the longitudinal direction and the width direction of the absorbent article and having a superabsorbent polymer enclosed therein The area defined at the center of the four first defined areas adjacent to the defined area, and divided into the second defined area surrounded by the second joint portion in the oblique four directions,
   The bonding strength of the second bonding portion is set to be smaller than the bonding strength of the first bonding portion, and when the superabsorbent polymer absorbs liquid and swells, the second bonding portion from the first bonding portion. An absorbent article characterized in that the joining of the parts is preferentially peeled off.
2. 2. The second defined region is a polymer non-existing region in which a smaller amount of the superabsorbent polymer than the first defined region is enclosed or the superabsorbent polymer is not interposed. The absorbent article as described.
3. The absorbent article according to any one of claims 1 and 2, wherein the second defined region is formed with an area smaller than that of the first defined region.
4. In the first defined area, a closed imaginary line inscribed in the first joint and the second joint is formed in an elliptical shape, and the second defined area is inscribed in the second joint. The absorbent article according to any one of claims 1 to 3, wherein the imaginary line to be closed is formed in a substantially diamond shape.
5. The first joints disposed at the upper and lower ends of the first defining region are formed in a groove shape that is long in the left-right direction, and the first joints disposed at the left and right ends of the first defining region are The absorbent article according to any one of claims 1 to 4, wherein the absorbent article is formed in a groove shape that is long in the vertical direction, and the second joint portion is formed in an intermittent dot shape in a direction connecting the first joint portions. .
6. The absorbent article according to any one of claims 1 to 5, wherein a fiber assembly layer containing a water-absorbing fiber assembly is disposed on the non-skin side or the skin side of the polymer sheet.

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