JP6050659B2 - Absorbent articles - Google Patents

Description

  The present invention relates to absorbent articles such as disposable diapers and sanitary napkins.

  Patent Document 1 describes an absorbent article having an acquisition layer and an absorbent core in this order between a top sheet and a back sheet. The acquisition layer is described in the document as acting to improve the penetration of the liquid onto or into the absorber core. The acquisition layer is formed from cellulose fibers that are at least partially crosslinked. On the other hand, the document describes that the absorbent core provides a means for absorbing liquid. The document describes that the liquid is allowed to pass through the top sheet more quickly by fixing the top sheet in contact with the acquisition layer. However, in the acquisition layer described in this document, there is a limit to the rapid passage of liquid.

  In Patent Document 2, the absorber is configured by laminating an upper absorbent layer and a lower absorbent layer, and in the laminated portion of both absorbent layers, the planar contact area of the surface of the upper absorbent layer on the lower absorbent layer side is set. In addition, there is described an absorbent article in which the surface area of the lower absorbent layer on the upper absorbent layer side is smaller than the contact area with the plane. By adopting this configuration, this absorbent article is described in the same document as having excellent liquid drawability. In order to reduce the contact area with the plane, the surface of the upper absorbent layer on the lower absorbent layer side in the laminated portion is embossed. Although it is thought that the upper absorption layer in the absorber described in the document acts as a layer for acquiring liquid, there is room for improvement in order to quickly transfer the acquired liquid to the lower absorption layer.

  Patent Document 3 describes an absorbent article in which an absorbent body includes an absorbent core and a continuous convex structure in which a large number of convex portions are continuous. The continuous convex structure is formed from a fiber assembly and is partially bonded to the topsheet side of the absorbent core. The literature describes that an absorber having this configuration is excellent in compression recovery. However, it is considered that the continuous convex structure positioned on the absorbent core does not have an action of acquiring liquid and quickly transferring to the absorbent core.

JP-A-8-502177 JP 2006-43155 A JP 2006-297076 A

  Therefore, the subject of this invention is providing the absorbent article which can eliminate the fault which the prior art mentioned above has.

The present invention relates to a top sheet positioned on the wearer's skin contact surface side, a back sheet positioned on the wearer's non-skin contact surface side, and a temporary stock of liquid positioned between the top sheet and the back sheet An absorbent article comprising a layer and an absorbent layer of liquid positioned between the temporary stock layer and the back sheet,
The temporary stock layer is a laminated fiber body including cross-linked cellulose fibers, and the temporary stock layer has a plurality of high basis weight portions having a relatively high basis weight and a basis weight that is relatively low. Consisting of a low basis weight part, having a plurality of block structures in which the periphery of each high basis weight part is surrounded by the groove part consisting of the low basis weight part over the entire area,
The said absorption layer provides the absorbent article comprised including the superabsorbent polymer.

  According to the present invention, the liquid residue in the temporary stock layer of liquid is reduced, and the transfer of the liquid to the liquid absorption layer is promoted.

FIG. 1 is a perspective view showing a disposable diaper as an embodiment of the present invention. 2 is a cross-sectional view taken along line II-II in FIG. FIG. 3 is a perspective view of the temporary stock layer shown in FIG. 2 as viewed from the non-skin contact surface side.

  The present invention will be described below based on preferred embodiments with reference to the drawings. The disposable diaper as one Embodiment of the absorbent article of this invention is shown by FIG. 2 is a cross-sectional view taken along line II-II in FIG. The disposable diaper 10 shown in the figure is a tape-type unfolded type. The diaper 10 has a longitudinal direction Y and a width direction X orthogonal to the longitudinal direction Y, and has a long shape in the longitudinal direction Y. The diaper 10 has a crotch portion C in the central region in the longitudinal direction Y. The front and back of the crotch C are an abdominal side A and a back side B.

  The diaper 10 includes a surface sheet 11 located on the side close to the wearer's skin, that is, on the skin contact surface side, and a back sheet 12 positioned on the side far from the wearer's skin, that is, on the non-skin contact surface side. Yes. A temporary stock layer 13 for liquid is located between the top sheet 11 and the back sheet 12. A liquid absorption layer 14 is located between the temporary stock layer 13 and the back sheet 12. Further, a sublayer sheet 15 is located between the top sheet 11 and the temporary stock layer 13. On the outer surface of the back sheet 12, an outer layer sheet 16 having a good texture such as a nonwoven fabric is disposed.

  The diaper 10 has a pair of leak-proof cuffs 17, 17 extending in the longitudinal direction Y on both left and right sides in the width direction X. The leak-proof cuff 17 extends over the entire length of the diaper 10. The leak-proof cuff 17 is composed of a sheet 17 a that is long in the longitudinal direction Y and folded in two along the longitudinal direction Y. The leak-proof cuff 17 has a free end and a fixed end along the longitudinal direction Y. The free end is a portion along the folding line of the folded sheet 17a. At the free end, an elastic member 17b such as rubber thread is arranged and fixed in an extended state. The elastic member 17b is disposed at least in the crotch part C. As the elastic member 17b contracts, the leak-proof cuff 17 has a tendency to stand up toward the wearer's skin. The fixed end of the leak-proof cuff 17 is joined to the surface sheet 11 extending laterally from the left and right side edges of the absorbent layer 14. Further, the fixed end of the leak-proof cuff 17 is also joined to the back sheet 12 extending laterally from the left and right side edges of the absorbent layer 14. By these joining, leg cuffs 18 are formed on the left and right sides of the diaper 10. In the leg cuff 18, an elastic member 18 a such as rubber thread is disposed and fixed in a stretched state between the fixed end of the leak-proof cuff 17 and the back sheet 12. The elastic member 18a is disposed at least on the crotch part C. As the elastic member 18a contracts, the leg cuff 18 is in close contact with the wearer's leg when the diaper 1 is worn.

  In the diaper 10, a pair of fastening tapes F, F are provided on both left and right edges of the back side B. On the outer surface of the abdominal side A, that is, on the non-skin contact surface of the outer layer sheet 16, a landing tape L for fastening fastening tapes F and F is provided as shown in FIG. The fastening state of the diaper 10 is completed by fastening the fastening tape F to the landing tape L.

  As the top sheet 11 and the back sheet 12, the same ones conventionally used for this type of article can be used. For example, as the surface sheet 11, a sheet material having liquid permeability, for example, a nonwoven fabric or a perforated film subjected to a hydrophilic treatment can be used. As the back sheet 12, a liquid-impermeable or liquid-impermeable film or non-woven fabric (for example, spunbond-meltblown-spunbond non-woven fabric) can be used. As the sheet 17a constituting the leak-proof cuff 17, various non-woven fabrics including a water-repellent sheet material such as a spunbonded non-woven fabric can be used.

  A sublayer sheet 15 is disposed immediately below the top sheet 11. The sublayer sheet 15 is used to quickly guide the liquid excreted on the topsheet 11 to the temporary stock layer 13 and enhance the dry feeling of the topsheet 11. For this purpose, the sublayer sheet 15 is preferably composed of a sheet material having high liquid permeability, such as a nonwoven fabric subjected to hydrophilic treatment. The sublayer sheet 15 is disposed so as to cover at least the upper surface of the temporary stock layer 13.

  The temporary stock layer 13 is used for the purpose of temporarily storing the liquid that has permeated through the top sheet 11 and the sublayer sheet 15 and transferring the liquid to the absorption layer 14 located therebelow. The temporary stock layer 13 preferably has only a function of temporarily storing the liquid, and preferably does not have a function of storing the liquid for a long time. From this point of view, it is preferable that the temporary stock layer 13 does not contain a superabsorbent polymer that is a material that absorbs and holds the liquid to form a hydrogel, for example, a crosslinked product of acrylate. The temporary stock layer 13 exists over the region from the ventral side A to the back side B of the diaper 10.

  The temporary stock layer 13 preferably has a structure that can stably hold a liquid absorption space that temporarily absorbs liquid and allows the liquid to permeate quickly even when wet. As the temporary stock layer 13 having such a structure, a stacked fiber body including crosslinked cellulose fibers is used. This is because the cross-linked cellulose fiber is difficult to swell or twist even when wet with a liquid, and the strength is hardly reduced.

  When the liquid reaches the temporary stock layer 13 including the cross-linked cellulose fiber, the liquid is temporarily held in the liquid holding space of the fiber stack formed by the cross-linked cellulose fiber included in the temporary stock layer 13. . The retained liquid is difficult to diffuse laterally in the temporary stock layer 13 and quickly penetrates through the inside. Furthermore, since the liquid holding space is excellent in liquid flow even when the temporary stock layer 13 is rewet, even if there is repeated excretion, it is extremely stable / effective without deteriorating the absorption performance. The liquid can be retained and permeated. Thus, the temporary stock layer 13 has not only the permeation of the liquid but also the liquid transmission function of absorbing the liquid that has permeated from the top sheet 11 and the sublayer sheet 15 and smoothly allowing the liquid to permeate the absorption layer 14. . That is, as a liquid transmission function, not only the liquid passage time is fast, but also a function of first absorbing the liquid from the top sheet 11. As a result, the temporary stock layer 13 including the crosslinked cellulose fiber has less liquid return and liquid leakage even when absorbing a large amount of liquid as well as when absorbing a small amount of liquid. It has an excellent feature.

  Temporary stock layer 13 may be a laminated body made only of crosslinked cellulose fibers, or may be a laminated body containing other materials in addition to crosslinked cellulose fibers. However, as described above, the temporary stock layer 13 preferably does not contain a superabsorbent polymer. Examples of other materials include nylon, acrylic resin, and acetate resin. The ratio of the crosslinked cellulose fibers in the temporary stock layer 13 is preferably 80% by mass or more, particularly 90% by mass or more. Moreover, it is preferable that the ratio of a crosslinked cellulose fiber is 100 mass% or less. For example, the ratio of the crosslinked cellulose fibers in the temporary stock layer 13 is preferably 80% by mass or more and 100% by mass or less, and preferably 90% by mass or more and 100% by mass or less.

  The temporary stock layer 13 shown in FIG. 2 is composed of a stacked fiber body containing crosslinked cellulose fibers. Instead, the temporary stock layer 13 is configured by covering the stacked fiber body with a liquid-permeable sheet. It may be. In this case, the mass of the liquid permeable sheet is not included in the calculation of the ratio of the crosslinked cellulose fibers described above.

  The crosslinked cellulose fiber is obtained by crosslinking cellulose constituting the fiber with a crosslinking agent. As the cellulose fiber, any of natural cellulose fibers such as wood pulp and cotton and regenerated cellulose fibers such as rayon and cupra may be used. From the viewpoint of cost, wood pulp is preferably used, and conifer pulp (NBKP) is particularly preferably used. These cellulose fibers may be used alone or in combination of two or more.

  Examples of crosslinking agents used for crosslinking cellulose fibers include N-methylol compounds such as dimethylolethyleneurea and dimethyloldihydroxyethyleneurea; polycarboxylic acids such as tricarballylic acid citrate and butanetetracarboxylic acid: dimethylhydroxyethylene Polyols such as urea; polyglycidyl ether-based crosslinking agents and the like. These crosslinking agents may be used alone or in combination of two or more.

  The amount of the crosslinking agent used is preferably 0.2 parts by mass or more and 20 parts by mass or less with respect to 100 parts by mass of the cellulose fiber. By setting the amount of the crosslinking agent used within this range, the cellulose can be sufficiently and sufficiently crosslinked. As a result, even when the temporary stock layer 13 is wet, it becomes difficult for the temporary stock layer 13 to sag and sag, and breakage of the temporary stock layer 13 when stress is applied can be effectively prevented.

  In order to cross-link cellulose fibers using the above-described cross-linking agent, for example, cellulose fiber is impregnated into an aqueous solution of a cross-linking agent, if necessary, so that the aqueous solution of the cross-linking agent becomes a designed adhesion amount. After dehydration, it may be heated to the crosslinking temperature. Alternatively, the aqueous crosslinking agent solution may be sprayed on the cellulose fibers by spraying or the like so as to have a designed adhesion amount, and then heated to the crosslinking temperature to cause a crosslinking reaction.

  Cross-linked cellulose fibers may have crimps, be twisted, or curled. By being in such a form, it becomes possible to form many liquid holding spaces in the temporary stock layer 13 containing the crosslinked cellulose fiber. This liquid holding space contributes to temporary holding of liquid and rapid permeation of liquid.

  A commercial item can also be used as a crosslinked cellulose fiber. Examples of such commercial products include “ALBACEL” (trade name) manufactured by Federal Paper Board Co., “INDORAYON” (trade name) manufactured by PT Inti Indorayon Utama, and “FILTRANIER” (trade name) manufactured by ITT Rayonier Inc. ) And “POROSANIER” (trade name) manufactured by the same company.

The temporary stock layer 13 containing crosslinked cellulose fibers has a basis weight of preferably 50 g / m ² or more, and more preferably 100 g / m ² or more. The upper limit of the basis weight is preferably 300 g / m ² or less, and more preferably 250 g / m ² or less. For example, the basis weight of the temporary stock layer 13 is preferably 50 g / m ² or more and 300 g / m ² or less, and more preferably 100 g / m ² or more and 250 g / m ² or less. Moreover, it is preferable that the thickness of the temporary stock layer 13 is 0.5 mm or more, and it is still more preferable that it is 1.0 mm or more. The upper limit value of the thickness is preferably 6.0 mm or less, and more preferably 5.0 mm or less. For example, the temporary stock layer 13 preferably has a thickness of 0.5 mm to 6.0 mm, and more preferably 1.0 mm to 5.0 mm. By having the basis weight and thickness in such a range, a large number of liquid holding spaces can be formed in the temporary stock layer 13. The thickness of the temporary stock layer 13 is measured under a load of 0.59 g / cm ² .

  The absorption layer 14 disposed below the temporary stock layer 13 exists over a region from the ventral side A to the back side B of the diaper 10. Moreover, the absorption layer 14 is arrange | positioned so that the whole region of the lower surface of the temporary stock layer 13 mentioned above may be coat | covered. As shown in FIG. 2, the absorbent layer 14 includes an absorbent core 14a and covering sheets 14b and 14c covering the absorbent core 14a. The covering sheet 14 b covers the entire upper surface of the absorbent core 14, that is, the entire area facing the temporary stock layer 13. The covering sheet 14 c covers the entire lower surface of the absorbent core 14, that is, the entire area facing the back sheet 12. The covering sheets 14b and 14c are used to improve the shape retention of the absorbent core 14a.

  The absorbent core 14a constituting the absorbent layer 14 is preferably made of a material that can absorb the liquid and hold it for a long time. It is also preferable that the amount of absorbed and retained liquid is large. From these viewpoints, it is preferable that the absorbent core 14a includes a hydrophilic fiber material. As such a fiber material, it is preferable to use cellulose fibers such as fluff pulp. Unlike the cellulose fiber contained in the temporary stock layer 13 described above, the cellulose fiber including the fluff pulp is preferably not crosslinked.

  The absorbent core 14a preferably further contains a superabsorbent polymer that is a material that absorbs and holds the liquid to form a hydrogel. As the superabsorbent polymer, a polymer that can absorb and retain a liquid 20 times or more of its own weight and can be gelled is preferable. The shape is not particularly limited, and may be, for example, spherical, massive, grape-like, powdery, or fibrous. The particle size is preferably 1 μm or more and 1000 μm or less, more preferably 10 μm or more and 500 μm or less. Examples of such superabsorbent polymers include polyacrylic acid and salts thereof, and polyacrylate graft polymers such as starch, crosslinked carboxylmethylated cellulose, polymers or copolymers of acrylic acid or alkali metal acrylates. Coalescence can be mentioned. As the polyacrylic acid salt, a sodium salt can be preferably used. In addition, a comonomer such as maleic acid, itaconic acid, acrylamide, 2-acrylamido-2-methylpropanesulfonic acid, 2- (meth) acryloylethanesulfonic acid, 2-hydroxyethyl (meth) acrylate or styrenesulfonic acid is added to acrylic acid. A copolymer copolymerized within a range not deteriorating the performance of the superabsorbent polymer can also be preferably used.

The amount of the hydrophilic fiber material in the absorbent core 14a is preferably 30 g / m ² or more, particularly 50 g / m ² or more. The upper limit is preferably 300 g / m ² or less, particularly preferably 250 g / m ² or less. For example, the amount of the hydrophilic fiber material is preferably 30 g / m ² or more and 300 g / m ² or less, more preferably 50 g / m ² or more and 250 g / m ² or less. On the other hand, the amount of the superabsorbent polymer in the absorbent core 14a is preferably 100 g / m ² or more, particularly 150 g / m ² or more. The upper limit is preferably 400 g / m ² or less, particularly preferably 350 g / m ² or less. For example, the amount of the superabsorbent polymer is preferably 100 g / m ² or more and 400 g / m ² or less, more preferably 150 g / m ² or more and 350 g / m ² or less.

  The ratio between the hydrophilic fiber material and the superabsorbent polymer in the absorbent core 14a is expressed as a ratio of [hydrophilic fiber material / superabsorbent polymer] and is 0.2 or more, particularly 0.3 or more. Preferably, it is 1.2 or less, particularly 1.0 or less. By setting the amounts and ratios of the hydrophilic fiber material and the superabsorbent polymer in the absorbent core 14a within the above ranges, a sufficient liquid holding capacity can be secured without excessively thickening the absorbent core 14a. be able to.

The basis weight of the absorbent core 14a itself is preferably 200 g / m ² or more, particularly preferably 250 g / m ² or more. The upper limit is preferably 550 g / m ² or less, particularly 500 g / m ² or less. For example, the basis weight of the absorbent core 14a is preferably 200 g / m ² or more and 550 g / m ² or less, more preferably 250 g / m ² or more and 500 g / m ² or less.

  As the covering sheets 14b and 14c covering the absorbent core 14a, a sheet material having liquid permeability is used. These covering sheets 14b and 14c may be the same type or different types. Examples of the sheet material having liquid permeability include tissue paper and hydrophilic nonwoven fabric. In particular, for the covering sheet 14b disposed on the upper surface of the absorbent core 14a, the liquid that has permeated through the temporary stock layer 13 is diffused widely in the surface direction of the absorbent core 14a, so that the liquid absorption area of the absorbent core 14a is effective. From the viewpoint of utilization, it is preferable to use a sheet material having high diffusibility in the surface direction. Examples of such a sheet material include a spunbond-meltblown-spunbond nonwoven fabric. Further, embossing is performed on a single nonwoven fabric to form an embossed portion having a relatively high density and a non-embossed portion having a relatively low density over the surface direction of the nonwoven fabric. It is also effective from the viewpoint of improving the diffusibility of the liquid in the surface direction to use the one having a dense and dense structure as the covering sheet 14b. In this case, it is preferable that the embossed pattern, that is, the pattern of the portion having a relatively high density, is a discrete dot pattern which is independent from the viewpoint of smooth liquid diffusion in the surface direction.

  The diaper 10 of the present embodiment has one of the characteristics in the shape of the temporary stock layer 13 described above. Specifically, the temporary stock layer 13 includes a plurality of high basis weight portions having a relatively high basis weight and low basis weight portions having a relatively low basis weight, and the periphery of each high basis weight portion is the entire area thereof. It is preferable to have a block structure surrounded by the groove portion composed of the low basis weight portion. In the present embodiment, the high basis weight portion in the block structure is rectangular and is surrounded by a groove-like low basis weight portion in plan view. A plurality of rows in which the rectangular longitudinal direction is arranged in the longitudinal direction parallel to the longitudinal direction of the temporary stock layer are arranged in the width direction of the stock layer, and the block structure is regularly arranged. Thus, by forming the groove part which consists of a low basic weight part in the temporary stock layer 13, the liquid transfer to the absorption layer 14 is suppressed while suppressing the liquid diffusion of the liquid reaching the temporary stock layer 13 in the horizontal direction. As a result of investigations by the present inventors, it has been found that the liquid remaining amount is reduced by the promotion. Further, when the low basis weight portion is arranged on the skin contact surface side, the groove portion is arranged on the non-skin contact surface side, that is, the skin side coating sheet 14b side, so the horizontal direction on the coating sheet 14b The diffusion of the liquid into the liquid is more effectively suppressed, and the liquid remaining amount is reduced.

  FIG. 3 shows a temporary stock layer 13 having the structure described above. 2 is a view of the temporary stock layer 13 shown in FIG. 2 as viewed from the lower surface side thereof, that is, the non-skin contact surface side that is the surface facing the back sheet 12. As shown in the figure, the temporary stock layer 13 is adjacent to the high basis weight portion 13a having a relatively high basis weight and a convex shape protruding toward the non-skin contact surface side, and the high basis weight portion 13a. And a low basis weight portion 13b having a relatively low basis weight and recessed toward the skin contact surface side. The high basis weight portion 13a and the low basis weight portion 13b are integrally formed. The non-skin contact surface side of the temporary stock layer 13 has an uneven structure, and the skin contact surface side, that is, the surface side facing the top sheet 11 is flat.

  As shown in FIG. 3, the plurality of low basis weight portions 13 b extend in parallel to the longitudinal direction Y of the temporary stock layer 13. A plurality of low basis weight portions 13 b also extend in the width direction X of the temporary stock layer 13. As a result, the low basis weight portion 13 b has an orthogonal lattice shape extending in the longitudinal direction Y and the width direction X of the temporary stock layer 13. And the high basic weight part 13a is located in the grating | lattice formed of the low basic weight part 13b. Therefore, each high basic weight part 13a is divided by the low basic weight part 13b, and is independent independently. The shape of each high basis weight part 13a is substantially the same, it is rectangular when viewed from above, and the length in the longitudinal direction Y is larger than the length in the width direction X. On the other hand, regarding the low basis weight portion 13b, the low basis weight portion 13b extends in the longitudinal direction Y and the width direction X of the temporary stock layer 13 and is connected to each other to form a continuous body. The width of the low basis weight portion 13b extending in the longitudinal direction Y of the temporary stock layer 13 and the width of the low basis weight portion 13b extending in the width direction X of the temporary stock layer 13 may be the same or different. Good.

  As described above, the temporary stock layer 13 has a block structure composed of a plurality of high basis weight portions 13a having a relatively high basis weight and low basis weight portions 13b having a relatively low basis weight, and The periphery of each high basis weight part 13a is surrounded by the groove part which consists of the low basic weight part 13b over the whole region. Furthermore, the outermost periphery of the block structure is surrounded by a groove portion composed of the low basis weight portion 13b. Preferably, the low basis weight portion 13b is unevenly distributed on the skin contact surface side, and the skin contact surface side is flat. The temporary stock layer 13 having such a structure, coupled with the fact that it includes cross-linked cellulose fibers, suppresses the diffusion of the liquid in the lateral direction and promotes the quick permeation of the liquid in the thickness direction. An advantageous effect is achieved.

  Moreover, in the said block structure, each high basic weight part 13a is surrounded by the groove part which consists of the low basic weight parts 13b, and the outermost periphery of a block structure is surrounded by the groove part which consists of the low basic weight parts 13b. Therefore, the temporary stock layer 13 is evenly applied to the side portions in the width direction X, so that the block structure of the temporary stock layer 13 is effectively prevented from being destroyed. In particular, if the corner of the low basis weight portion 13b located on the outermost periphery of the block structure is rounded to draw a convex curve toward the outside, stress is less likely to concentrate on the corner, It is more effectively prevented that the block structure of the temporary stock layer 13 is destroyed.

As for the basic weight of the low basic weight part 13b, the ratio with respect to the basic weight of the high basic weight part 13a has the minimum value of preferably 1%, More preferably, it is 3%. The upper limit is preferably 80%, more preferably 70%. The lower limit of the basis weight of the high basis weight portion 13a itself is preferably 50 g / m ² , and more preferably 100 g / m ² . The upper limit is preferably 300 g / m ² , more preferably 250 g / m ² . Regarding the low basis weight part 13b, the lower limit of the basis weight is preferably 10 g / m ² , more preferably 20 g / m ² . The upper limit is preferably 250 g / m ² , more preferably 200 g / m ² .

  The high basis weight part 13a not only has a larger basis weight than the low basis weight part 13b, but also has a larger thickness. The ratio of the thickness of the low basis weight portion 13b to the thickness of the high basis weight portion 13a is preferably 1%, more preferably 3%. The upper limit is preferably 80%, more preferably 70%. The lower limit of the thickness of the high basis weight portion 214a itself is preferably 0.5 mm, and more preferably 1.0 mm. The upper limit is preferably 6.0 mm, more preferably 5.0 mm. Regarding the low basis weight part 214b, the lower limit of the thickness is preferably 0.1 mm, and more preferably 0.5 mm. The upper limit is preferably 4.5 mm, and more preferably 4.0 mm.

  A non-block area 13c is arranged outside the block area where a plurality of block structures in the temporary stock layer 13 are arranged. That is, the temporary stock layer 13 is composed of a block region in which a plurality of block structures each including a high basis weight portion 13a and a low basis weight portion 13b are arranged, and a non-block region 13c. The non-block region 13c is located on the outermost periphery of the temporary stock layer 13 so as to surround the block structure. The block area and the non-block area 13c are partitioned by a low basis weight portion 13b located on the outermost periphery of the block structure. In the non-block area | region 13c, the thickness and basic weight in the arbitrary positions are constant. By forming the non-blocking region 13c around the block region, when the excreted liquid flows while being guided by the low basis weight portion 13b of the temporary stock layer 13, the outflow of the liquid from the peripheral portion is prevented from occurring in the non-blocking region 13c. Therefore, there is an advantage that liquid leakage from the peripheral edge is effectively prevented.

  The thickness of the non-block region 13c is substantially the same as the thickness of the high basis weight portion 13a of the block structure. However, the relationship between the thickness of the non-blocking region 13c and the thickness of the high basis weight portion 13a is not limited to this, and the thickness of the non-blocking region 13c may be larger, and conversely the thickness of the high basis weight portion 13a. May be large. Specifically, the lower limit of the thickness of the non-blocking region 13c is preferably 0.5 mm, and more preferably 1.0 mm. The upper limit is preferably 6.0 mm, more preferably 5.0 mm.

The basis weight of the non-block region 13c may be the same as or different from the basis weight of the high basis weight portion 13a of the block region. Further, the basis weight of the low basis weight portion 13b of the block region may be the same or different. Specifically, the lower limit of the basis weight of the non-block region is preferably 50 g / m ² , and more preferably 100 g / m ² . The upper limit is preferably 300 g / m ² , more preferably 250 g / m ² .

  The high basis weight portion 13a and the low basis weight portion 13b of the block structure in the temporary stock layer 13 are integrally formed. Moreover, the block area | region which consists of the high basic weight part 13a and the low basic weight part 13b, and the non-block area | region 13c located in the outer periphery are also integrally molded.

The basic weight of the high basic weight part 13a and the low basic weight part 13b is measured as follows. The high basic weight part 13a and the low basic weight part 13b are cut | disconnected using the single blade razor by a feather company along both boundary lines. About the small piece of the high basic weight part 13a obtained by cut | disconnecting, mass is measured using the electronic balance (A & D company electronic balance GR-300, accuracy: 4 digits below a decimal point). The calculated mass is divided by the area of the small piece of the high basis weight portion 13a to calculate the basic weight of the small piece. Let the average of the basic weight of five small pieces be the basic weight of the high basic weight part 13a.
Next, along the boundary line extending in the longitudinal direction (Y direction) of the high basis weight portion 13a and the low basis weight portion 13b, the length is 50 mm, and the width is adjusted to the width of the low basis weight portion 13b. Using a single-edged razor, a small strip of the low basis weight portion 13b having a thin stripe shape is cut out. The mass of the obtained small piece is measured using an electronic balance (Electronic balance GR-300 manufactured by A & D, accuracy: 4 digits after the decimal point). The calculated weight is divided by the area of the small piece of the low basis weight portion 13b to calculate the basic weight of the small piece. Let the average of the basic weight of 5 pieces be the basic weight of the low basic weight 13b. The basis weight of the non-blocking region 13c is also measured according to these.

  The thickness of the high basic weight part 13a and the low basic weight part 13b is measured as follows. A sample is cut into a predetermined size, the measurement site is pressurized at 5 kPa for 10 minutes, and measurement is performed by the following method immediately after dewetting. The number of measurement points is three or more per sheet, and the thickness is obtained by averaging two diaper samples (6 or more measurement points). For example, the diaper 10 is cut in the longitudinal direction (Y direction) or the lateral direction (X direction) shown in FIG. 3 with a feather razor manufactured by Feather, and the cross section of the cut sample is measured. When it is difficult to measure with the naked eye, the section of the cut sample may be observed and measured at a magnification of 20 to 100 times using, for example, a microscope (VHX-1000 manufactured by KEYENCE). The thickness of the non-blocking region 13c is also measured according to this.

  The temporary stock layer 13 having the above block structure and non-block region can be manufactured by a method described in, for example, Japanese Patent Application Laid-Open No. 2012-16684.

  As mentioned above, although this invention was demonstrated based on the preferable embodiment, this invention is not restrict | limited to the said embodiment. For example, in the embodiment, the low basis weight portion is unevenly distributed on the skin contact surface side, the skin contact surface side of the temporary stock layer 13 is flat, and the non-skin contact surface side is a block structure. However, instead of this, the low basis weight portion is unevenly distributed on the non-skin contact surface side, the non-skin contact surface side is flat, and the skin contact surface side Irregularities having a block structure may be formed.

  Moreover, although the said embodiment is an example which applied the absorbent article of this invention to the tape-clamp-type deployment type disposable diaper, this invention is an absorbent article of other forms, for example, a pants-type disposable diaper, an incontinence pad, The same applies to sanitary napkins and the like.

This invention discloses the following absorbent articles further regarding embodiment mentioned above.
<1> A surface sheet on the skin contact surface side of the wearer, a back sheet on the non-skin contact surface side of the wearer, a temporary stock layer of liquid positioned between the surface sheet and the back sheet, and the temporary An absorbent article comprising a liquid absorption layer located between a stock layer and the back sheet,
The temporary stock layer is a laminated fiber body including cross-linked cellulose fibers, and the temporary stock layer has a plurality of high basis weight portions having a relatively high basis weight and a basis weight that is relatively low. Consisting of a low basis weight part, having a plurality of block structures in which the periphery of each high basis weight part is surrounded by the groove part consisting of the low basis weight part over the entire area,
The absorbent layer is an absorbent article that includes a superabsorbent polymer.

<2> The absorbent article according to <1>, wherein the low basis weight portion of the absorbent layer is unevenly distributed on the skin-side contact surface side.
<3> The absorbent layer includes an absorbent core and a cover sheet covering the absorbent core, and at least a surface facing the temporary stock layer, the liquid diffusible cover sheet is disposed on the <1> or < Absorbent article according to 2>.
<4> The absorptive article according to <3>, wherein the covering sheet has a dense structure over the surface direction.
<5> The temporary stock layer has a block region in which the plurality of block structures are regularly arranged, and a non-block region in which the thickness and basis weight are constant,
The absorbent article according to any one of <1> to <4>, wherein the non-block region is located on an outermost periphery of the temporary stock layer so as to surround the block region.

<6> The absorbent article according to any one of <1> to <5>, wherein the temporary stock layer does not contain a superabsorbent polymer.
<7> The absorbent article according to <6>, wherein the temporary stock layer is a stacked body including other materials in addition to the crosslinked cellulose fiber.
<8> The absorbent article according to <7>, wherein the other material is any one of nylon, acrylic, and acetate.
<9> The absorbent article according to any one of <1> to <8>, wherein the temporary stock layer is configured by covering the stacked body with a liquid-permeable sheet.
<10> The absorbent article according to any one of <1> to <9>, wherein the crosslinked cellulose fiber is obtained by crosslinking cellulose constituting the fiber with a crosslinking agent.

<11> As a crosslinking agent used for crosslinking the cellulose fibers, N-methylol compounds such as dimethylolethylene urea and dimethylol dihydroxyethylene urea; polycarboxylic acids such as tricarbaryl acid citrate and butane tetracarboxylic acid: <10> The absorbent article according to <10>, wherein a polyol such as dimethylhydroxyethyleneurea; a polyglycidyl ether-based cross-linking agent is used alone, or a mixture of two or more types is used.
<12> The absorbent article according to any one of <1> to <11>, wherein the crosslinked cellulose fiber has crimps, is twisted, or is curled.
<13> Any one of the above <1> to <12>, wherein the temporary stock layer has a basis weight of 50 g / m2 or more, preferably 100 g / m2 or more, 300 g / m2 or less, preferably 250 g / m2 or less. Absorbent article as described in 1.
<14> Any one of the above <1> to <13>, wherein the temporary stock layer has a thickness of 0.5 mm or more, preferably 1.0 mm or more and 6.0 mm or less, preferably 5.0 mm or less. Absorbent article as described in 1.
<15> The temporary stock layer is relatively adjacent to the high basis weight portion having a relatively high basis weight and a convex shape protruding toward the non-skin contact surface side, and relatively The absorbent article according to any one of <1> to <14>, which has a low basis weight and a low basis weight portion that is recessed toward the skin contact surface side.

<16> The absorbent article according to any one of <1> to <15>, wherein the temporary stock layer has a high basis weight part and a low basis weight part integrally formed.
<17> The <1> to <16, wherein the temporary stock layer has a concavo-convex structure on the non-skin contact surface side, and a surface side facing the surface sheet on the skin contact surface side is flat. > Any one of>.
<18> In the temporary stock layer, the low basis weight portion includes a plurality of low-weight parts extending in parallel with the longitudinal direction of the temporary stock layer, and the plurality of low basis weight portions extending in the width direction of the temporary stock layer. The absorbent article according to any one of <1> to <17>, wherein the basis weight portion has an orthogonal lattice shape extending in a longitudinal direction and a width direction of the temporary stock layer.
<19> In the temporary stock layer, the shape of each high basis weight portion is substantially the same, is rectangular in plan view, and the length in the longitudinal direction is larger than the length in the width direction. The absorbent article according to any one of <1> to <18>.
<20> The basis weight of the low basis weight part in the temporary stock layer is such that the ratio of the basis weight of the high basis weight part is 1% or more, preferably 3% or more, and the upper limit. The absorbent article according to any one of <1> to <19>, wherein the value is 80% or less, preferably 70% or less.

<21> The thickness of the low basis weight part in the temporary stock layer is a ratio to the thickness of the high basis weight part, the lower limit is 1% or more, preferably 3% or more, and the upper limit is The absorbent article according to any one of <1> to <20>, which is 80% or less, preferably 70% or less.
<22> The absorbent article according to <5>, wherein a thickness of the non-block region in the temporary stock layer is the same as a thickness of the high basis weight portion of the block structure.
<23> The absorbent layer includes an absorbent core and a covering sheet that covers the absorbent core, the covering sheet covers the entire upper surface of the absorbent core, that is, the entire area facing the temporary stock layer, and the absorbent core. The absorbent article according to any one of <1> to <22>, wherein the lower surface covers the entire area of the surface facing the back sheet.
<24> The absorbent core includes a hydrophilic fiber material. As the fiber material, cellulose fiber is used, and the cellulose fiber is any one of the items <1> to <23> that is not crosslinked. 2. The absorbent article according to 1.
<25> The ratio between the hydrophilic fiber material and the superabsorbent polymer in the absorbent core is 0.2 or more and 1.2 or less in terms of [hydrophilic fiber material / superabsorbent polymer]. The absorbent article according to any one of <1> to <24>.

<26> As the covering sheet for covering the absorbent core, a sheet material having liquid permeability is used, and as the sheet material having liquid permeability, a tissue paper and a hydrophilic non-woven fabric are described in <25>. Absorbent articles.
<27> The absorbent article according to <26>, wherein a spunbond-meltblown-spunbond nonwoven fabric, which is a sheet material having high diffusibility in the surface direction, is used as the covering sheet disposed on the upper surface of the absorbent core. .
<28> The coating sheet used by the absorbent core is obtained by embossing a single layer of the nonwoven fabric to obtain a relatively high density portion and a relatively low density portion of the nonwoven fabric. The absorbent article according to any one of the above <23> to <27>, which is a covering sheet formed over the surface direction.
<29> The absorbent article according to <28>, wherein the embossing pattern of the covering sheet used for the absorbent core is a discrete dot pattern.
<30> The absorbent article according to any one of <1> to <29>, wherein a sublayer sheet is located between the top sheet and the temporary stock layer.

<31> The absorbent article according to <30>, wherein the sublayer sheet includes a nonwoven fabric obtained by hydrophilizing a sheet material having high liquid permeability.
<32> The absorbent article according to any one of <1> to <31>, wherein the absorbent article is a deployable disposable diaper having an abdominal part, a back part, and a crotch part.
<33> The absorbent layer disposed on the lower side of the temporary stock layer exists over a region from the ventral side portion to the back side portion of the absorbent article,
The absorbent article according to <32>, wherein the absorbent layer is disposed so as to cover the entire lower surface of the temporary stock layer.
<34> The left and right side portions in the width direction each include a pair of leak-proof cuffs extending in the longitudinal direction, and the leak-proof cuffs extend either over the entire length of the disposable diaper <32> or <33> Absorbent article as described in 1.
<35> The absorbent article according to <34>, wherein the leak-proof cuff is configured by folding a sheet that is long in the longitudinal direction into two along the longitudinal direction.

<36> The leak-proof cuff has a free end and a fixed end along the longitudinal direction, and the free end is a portion along the folding line of the folded sheet, and the free end includes a rubber thread or the like. The absorbent article according to <35>, wherein the elastic member is arranged and fixed in an extended state.
<37> Leg cuffs are formed on both sides along the longitudinal direction of the disposable diaper. In the leg cuffs, a rubber thread is provided between the fixed end of the leak-proof cuff and the back sheet. The absorbent article according to any one of the above items <32> to <36>, wherein an elastic member such as is arranged and fixed in an extended state.

  Hereinafter, the present invention will be described in more detail with reference to examples. However, the scope of the present invention is not limited to such examples.

[Example 1]
As the model absorbent article, only the absorbent layer 14, the temporary stock layer 13 and the sub-layer sheet 15 in the disposable diaper having the structure shown in FIGS. 1 and 2 were used, and these were laminated on the structure shown in FIG. This laminate was pressurized for 2 minutes at a pressure of 2 kPa, and then artificial urine colored red was injected from the sublayer sheet 15 side using a metering pump. The injection amounts were 40 g and 80 g. In the case of an injection amount of 80 g, 40 g of artificial urine was first injected, left for 10 minutes after the injection was completed, and then the remaining 40 g was injected. In both cases where the injection amount was 40 g and 80 g, the temporary stock layer 13 was recovered from the laminate 1 minute after the completion of the injection, and its mass was measured. The amount of liquid remaining in the temporary stock layer 13 was calculated by subtracting the measured mass from the mass before injection of artificial urine. Artificial urine described in JP 2008-149017 A was used. Moreover, the diffusion area of the liquid in the surface facing the sublayer sheet 15 in the temporary stock layer 13 was determined by measuring the area of the colored region. After standing for 10 minutes after the liquid injection, the diffusion area of the temporary stock layer 13 facing the sublayer sheet 15 was measured, and this area was defined as the diffusion area of the temporary stock layer. The above results are shown in Table 1 below.

The absorbent layer 14 used for the model absorbent article has a size of 70 mm × 230 mm, and covers the absorbent core 14 a made of a uniform mixed product of fluff pulp and superabsorbent polymer from above and below. It comprised from the two coating sheets 14b and 14c to do. The basis weight of the fluff pulp in the absorbent core 14a was 110 g / m ² , and the basis weight of the superabsorbent polymer was 180 g / m ² . As each coating sheet 14b, 14c, a spunbond-meltblown-spunbond nonwoven fabric having a basis weight of 12.5 g / m ² was used. This nonwoven fabric is subjected to dot-like embossing over its surface direction. The area of each dot was 0.45 mm ² and the embossed area ratio was 14%.

The temporary stock layer 13 used for the model absorbent article has the same size as the absorbent layer 14 and is composed of crosslinked cellulose fibers (“High Bulk Additive HBA-S” manufactured by Weyerhauser Paper). The size of the high basis weight portion 13a in the block structure was 9 mm × 19 mm, the thickness was 1.8 mm, and the basis weight was 210 g / m ² . The low basis weight portion 13b had a width of 3 mm and a basis weight of 100 g / m ² . The thickness difference between the high basis weight portion 13a and the low basis weight portion 13b was 0.8 mm. The basis weight of the entire stock layer 13 was 180 g / m ² .

The sublayer sheet 15 used for the model absorbent article was made of a nonwoven fabric of core-sheath type composite fibers having PET as a core and PE as a sheath, and the basis weight was 44 g / m ² .

[Comparative Example 1]
This comparative example is an example in which the structure of the temporary stock layer is different from that of the first embodiment. In this comparative example, as a temporary stock layer, it was composed of the same laminated cellulose fiber laminate as in Example 1, and a flat laminate having the same basis weight and the same dimensions as those of Example 1 was used. Except for this, a model absorbent article was assembled in the same manner as in Example 1, and the same evaluation as in Example 1 was performed. The results are shown in Table 1.

[Comparative Example 2]
This comparative example is an example in which the types of fibers constituting the temporary stock layer are different from those in Example 1. In this comparative example, fluff pulp (uncrosslinked cellulose fiber) is used as the fiber constituting the temporary stock layer instead of the crosslinked cellulose fiber, and has the same basis weight and the same dimensions as in Example 1, and the same as in the example. A temporary stock layer having the following block structure was used. Except for this, a model absorbent article was assembled in the same manner as in Example 1, and the same evaluation as in Example 1 was performed. The results are shown in Table 1.

  As is clear from the results shown in Table 1, it can be seen that Example 1 (product of the present invention) has a small amount of liquid remaining in the temporary stock layer 13 as compared with Comparative Examples 1 and 2. It can also be seen that the liquid spreading area is comparable between Example 1 and Comparative Example 1. Comparative Example 2 has a larger liquid spreading area than Example 1. From this, in Example 1, it turns out that the transfer of the liquid to the thickness direction is progressing easily, suppressing the spreading | diffusion of the liquid to a horizontal direction.

DESCRIPTION OF SYMBOLS 10 Disposable diaper 11 Top sheet 12 Back sheet 13 Temporary stock layer 13a High basis weight part 13b Low basis weight part 14 Absorption layer 14a Absorption core 14b, 14c Cover sheet 15 Sublayer sheet 16 Outer sheet 17 Leak prevention cuff 17a Leak prevention cuff sheet 17b Leak-proof cuff elastic member 18 Leg cuff 18a Leg cuff elastic member

Claims (5)

A top sheet positioned on the skin contact surface side of the wearer, a back sheet positioned on the non-skin contact surface side of the wearer, a temporary stock layer of liquid positioned between the top sheet and the back sheet, and An absorbent article comprising a liquid absorbing layer located between the temporary stock layer and the back sheet,
The temporary stock layer is a laminated fiber body including cross-linked cellulose fibers, and the temporary stock layer has a plurality of high basis weight portions having a relatively high basis weight and a basis weight that is relatively low. Consisting of a low basis weight part, having a plurality of block structures in which the periphery of each high basis weight part is surrounded by the groove part consisting of the low basis weight part over the entire area,
The low basis weight portion is unevenly distributed on the skin side contact surface side,
The absorbent layer is an absorbent article that includes a superabsorbent polymer. 2. The absorbent article according to claim 1, wherein the absorbent layer includes an absorbent core and a covering sheet that covers the absorbent core, and the liquid-diffusible covering sheet is disposed at least on a surface facing the temporary stock layer. . The absorptive article according to claim 2 in which said covering sheet has a dense structure over the surface direction. The temporary stock layer has a block region in which the plurality of block structures are regularly arranged, and a non-block region in which the thickness and basis weight are constant,
The absorbent article according to any one of claims 1 to 3 , wherein the non-block region is located on an outermost periphery of the temporary stock layer so as to surround the block region. The absorbent article according to any one of claims 1 to 4 , wherein the temporary stock layer does not contain a superabsorbent polymer.

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