JP4657196B2 - Absorbent articles - Google Patents

Description

  The present invention relates to a hygroscopic body. The present invention also relates to an absorbent article using the hygroscopic body, in particular, an absorbent article for hygiene such as disposable diapers and short napkins, and an absorbent article for inner shoes.

  Various techniques for preventing stuffiness and stickiness while wearing absorbent articles have been proposed. For example, the present applicant has previously proposed an absorbent article having a hygroscopic sealant sealed with a moisture permeable layer (see Patent Document 1). In this absorbent article, by configuring the moisture permeability of the moisture permeable layer on the side of the skin to be higher than the moisture permeability of the moisture permeable layer on the opposite side, the humidity in the area close to the skin can be effectively reduced. The occurrence of discomfort such as stuffiness and stickiness during wearing can be prevented.

JP 2003-116912 A

  However, this absorbent article absorbs not only a little water vapor derived from the liquid absorbed by the absorber, but also absorbs moisture before the start of use. For this reason, moisture absorption that reduces the stuffiness and stickiness during wearing of the absorbent article may be difficult to be exhibited.

  Therefore, the present invention prevents the moisture absorption performance of the hygroscopic agent from being reduced by the excreted liquid, can effectively reduce the humidity in the region close to the skin, and causes discomfort such as stuffiness and stickiness during wearing. It aims at providing the absorptive article prevented.

  The present invention achieves the above object by providing a hygroscopic body in which a hygroscopic agent is sealed watertight in a waterproof moisture-permeable body, and the waterproof moisture-permeable body is sealed in a water-soluble moisture-proof body. .

  Further, the present invention provides an absorbent article comprising a surface material, a back material, and a liquid-retaining absorbent disposed between the surface material and the back material, wherein the moisture absorbent is the surface material and the absorber. An absorbent article disposed between the two is provided.

  Furthermore, this invention provides the absorbent article which has the said moisture absorption body and the foot fixing means for fixing this moisture absorption body to a leg | foot.

According to the hygroscopic body of the present invention, liquid moisture such as urine, stool, sweat, etc. and the water-soluble moisture-proof body come into contact with each other and the water-soluble moisture-proof body dissolves for the first time, vapor-like moisture generated from urine or the like Therefore, the moisture absorption effect can be maximized.
Moreover, the absorbent article of this invention can reduce effectively the humidity in the area | region near a wearer's skin. Furthermore, it is possible to prevent stuffiness in the clothing during wearing of the absorbent article and skin irritation due to stuffiness. In particular, moisture absorption starts for the first time when the water-soluble moisture-proof body dissolves and the waterproof moisture-permeable body is exposed in response to liquid moisture caused by excrement generated by urination or excretion of the wearer. Therefore, the moisture absorption effect is maximized.

  First, a preferred embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows a partially broken plan view of a disposable diaper according to an embodiment of the present invention as viewed from a surface material (hereinafter also referred to as a top sheet).

  As shown in FIG. 1, the disposable diaper 1 of this embodiment has a crotch area | region between a back side area | region, an abdominal side area | region, and a back side and an abdominal side. The diaper 1 includes a liquid-permeable top sheet 2, a liquid-impermeable back material 3 (hereinafter also referred to as a back sheet 3), and a liquid retaining property interposed between the top sheet 2 and the back sheet 3. And an absorber 4. The top sheet 2 is located on the side close to the wearer's skin. The backsheet 3 is located on the side far from the wearer's skin. The top sheet 2 is narrower than the back sheet 3. In the absorbent body 4, the width of the region corresponding to the crotch region of the diaper 1 is narrower than the width of the back region and the ventral region. The absorber 4 is sandwiched and fixed by the top sheet 2 and the back sheet 3.

  The top sheet 2 and the back sheet 3 extend outward from the longitudinal front and rear ends of the diaper 1 in the absorbent body 4. And the back part and the abdominal side waist part 5, 5 'are formed in the diaper 1 by the extended top sheet 2 and the back sheet | seat 3. As shown in FIG. Each of the waist portions 5 and 5 ′ is provided with belt-like elastic elastic members 5 a and 5 a ′ that can fit the waist portions 5 and 5 ′ to the wearer's body when the diaper 1 is worn. And by arranging these elastic elastic members 5a and 5a so that they can expand and contract, a waist gather is formed in the waist part.

  Solid gather forming sheets 7 and 7 are arranged on both the left and right sides of the diaper 1 so as to cover the side of the top sheet 2. The solid end forming sheets 7 are fixed to the top sheet 2 at the positions on both sides of the top sheet 2, whereby the standing end portion is formed. An inner part in a free state is formed on the inner side from the standing end part toward the center of the diaper width direction. Leg portions 6 and 6 are formed by the respective three-dimensional gather sheet 7 and the back sheet 3 on the outer side in the diaper width direction than the standing end portion. Leg gathers are formed on the leg portions 6 and 6 by fixing a plurality of elastic elastic members 6 a and 6 a in an extended state between the three-dimensional gather sheet 7 and the back sheet 3.

  Elastic members 7a, 7a are fixed in an extended state along the longitudinal direction of the three-dimensional gather forming sheet 7 on the free end side of the inner part of the three-dimensional gather forming sheet 7. When the elastic elastic member 7a expands and contracts, the inner portion of the sheet 7 for forming a three-dimensional gather rises from the standing end, and a three-dimensional gather is formed on the skin contact surface side of the wearer in the diaper 1.

  A pair of fastening devices 8 each made of a tape fastener or the like is attached to both side edges in the width direction of the waist portion 5 on the back side of the diaper 1. Further, an attachment device (not shown) made of a short landing tape or the like capable of engaging the attachment device 8 is affixed on the back sheet 3 in the waist portion 5 ′ on the ventral side of the diaper 1. ing. And in the wearing condition of the disposable diaper 1 of this embodiment, the fastening tools 8 and 8 are made to fasten on a to-be-fastened tool.

  As these members constituting the diaper 1, those usually used in the technical field can be appropriately used. For example, as the top sheet 2, various nonwoven fabrics and apertured films can be used. As the back sheet 3, a thermoplastic resin film can be used. This film may have moisture permeability as described later. As the absorbent body 4, a mixture of pulp fibers and superabsorbent polymer particles wrapped in paper such as tissue paper can be used.

  In the diaper 1 of the present embodiment, a flat moisture absorbent body 9 having a smaller area than the absorbent body 4 is disposed between the top sheet 2 and the absorbent body 4. The moisture absorber 9 is located closer to the wearer's skin than the absorber 4. The hygroscopic body 9 is bonded and fixed to the absorbent body 4 at the absorber facing surface. For this fixing, for example, an adhesive is used. The hygroscopic body 9 is sealed with a hygroscopic agent described later.

  In the hygroscopic body 9, as shown in FIGS. 2 and 3, the hygroscopic agent 13 is sealed in a waterproof and moisture permeable body 17 in a watertight manner. The waterproof and moisture permeable body 17 is sealed in the water-soluble moisture-proof body 10. Since the hygroscopic body 9 is configured in this manner, the hygroscopic agent 13 is prevented from directly contacting moisture or steam before the diaper 1 is used. While the diaper 1 is being worn, the water-soluble moisture-proof body 10 is dissolved by the liquid moisture generated by the sweating and excretion of the wearer, whereby the waterproof moisture-permeable layer 17 is exposed, and the moisture absorbent 13 starts to absorb moisture for the first time. . As described above, according to the present embodiment, the moisture absorption performance of the moisture absorbent 13 is maximized, and the humidity in the vicinity of the wearer's skin is effectively reduced to prevent stuffiness.

  The water-soluble moisture-proof body 10 is configured by bonding two vertically-long rectangular sheets having the same shape. The two sheets are joined all around their four sides with a predetermined width. Thereby, the peripheral joint 14 is formed in the water-soluble moisture-proof body 10. In addition, the two sheets are joined at a plurality of positions in the longitudinal direction at a predetermined interval in the longitudinal direction thereof, thereby forming the transverse joining portion 15. For the bonding, heat fusion such as heat sealing or ultrasonic sealing, adhesion by application of an adhesive, or the like is used.

  The moisture absorber 9 is divided into a plurality of small sections by the joint portions 14 and 15. A sealed space 12 is formed in each small compartment. In each sealed space 12, a hygroscopic agent 13 sealed by a waterproof moisture permeable body 17 is disposed. The waterproof and moisture permeable body 17 is formed by joining two rectangular sheets having the same shape over the entire circumference at their four sides. A hygroscopic agent 13 is sealed watertight inside. As a joining method for forming the waterproof moisture-permeable body 17, a method similar to the joining method for forming the water-soluble moisture-proof body 10 described above can be employed.

  The water-soluble moisture-proof body 10 maintains the sealed space 12 until the water-soluble moisture-proof body 10 comes into contact with liquid water and elutes, so that the waterproof moisture-permeable body 17 that seals the moisture absorbent 13 enclosed therein is not exposed. It is desirable to be configured. It is desirable that the waterproof moisture permeable body 17 is configured so as to be able to prevent contact between the moisture absorbent 13 enclosed therein and the water and to allow water vapor to flow.

  In the hygroscopic body 9, the above-described sealed space 12 formed in the water-soluble moisture-proof body 10 is divided into small sections, so that an uneven distribution is prevented when a granular material is used as the hygroscopic agent 13. is there. When the moisture absorbent 13 has a shape in which uneven distribution is unlikely to occur, for example, a fibrous or sheet shaped moisture absorbent, it is not necessary to divide the sealed space 12 into small sections. In that case, the hygroscopic body 9 can be configured as shown in FIG. In the hygroscopic body 9 shown in FIG. 4, the waterproof moisture-permeable body 17 is formed by joining only the peripheral edges of the two sheets, and two water-soluble substances are sealed so as to seal the waterproof moisture-permeable body 17. A moisture-proof body 10 is formed.

  As shown in FIG. 1, the hygroscopic body 9 is arranged in the crotch region, which is a part corresponding to the excretion part of the wearer in the diaper 1, with its longitudinal direction coinciding with the longitudinal direction of the diaper 1. Therefore, each small section is arranged in a line along the longitudinal direction of the diaper. Since the crotch region of the diaper 1 is a part where the liquid is concentrated and excreted and absorbed and retained, the moisture in the vapor absorbed from the liquid absorbed by the absorbent body 4 can be obtained by disposing the hygroscopic body 9 on the part. It is effectively captured and the inside of the dressing is kept at low humidity. When the hygroscopic body 9 is arranged in the crotch part of the diaper 1 as in this embodiment, the total length in the longitudinal direction of each small section is about 50 to 150 mm, and the width of each small section is about 10 to 20 mm. It is preferable that The hygroscopic body 9 is preferably 1 to 50%, particularly 5 to 25% of the area of the absorbent body 4 because the water absorption performance and the hygroscopic performance are well balanced.

  The waterproof moisture permeable body 17 in the moisture absorbent body 9 may be waterproof and moisture permeable on either the top sheet facing surface side or the absorber facing surface side, or the absorber facing surface side is only waterproof. It may not have wetness. In the case of the latter configuration, it is possible to preferentially absorb the vapor-like moisture present in the skin side of the absorber 4 over the vapor-like moisture generated from the liquid absorbed by the absorber 4. Therefore, there is an advantage that stuffiness is less likely to occur.

  When the water-soluble moisture-proof body 10 in the moisture-absorbing body 9 is entirely water-soluble, at the time of excretion, liquid moisture such as urine directly touches the moisture-absorbing body 9 and the water-soluble moisture-proof body 10 is partially dissolved. Moisture absorption begins for the first time. And after excretion, moisture absorption can also be started by contact with liquid water | moisture content, such as urine absorbed by the absorber 4, and the water-soluble moisture-proof body 10 melt | dissolving. Therefore, in the case of such a configuration, even when liquid moisture such as excrement or sweat is small and the moisture adheres to a site different from the location where the hygroscopic body 9 is disposed, moisture absorption is performed. There is an advantage that can be done.

  Moreover, the water-soluble moisture-proof body 10 may be water-soluble and moisture-proof on the top sheet facing surface side, and the water-absorbing material facing surface side may be water-insoluble or sparingly water-soluble and moisture-proof. In the case of such a configuration, when the absorber 4 absorbs a large amount of liquid water such as urine and sweat, the absorber 4 is more preferable than the vapor-like water generated from the liquid absorbed by the absorber 4. Since vapor-like moisture present in the skin-side space can be preferentially absorbed by moisture, there is an advantage that stuffiness is less likely to occur.

  As described above, according to the present embodiment, moisture absorption before the start of use of the diaper 1 can be effectively prevented, and after the excretion of liquid such as urine, the liquid is absorbed by the absorber 4. Thus, the moisture absorbent 13 can effectively absorb the moisture in the form of vapor and the moisture in the form of vapor caused by the sweating of the wearer. As a result, an increase in humidity in the clothes due to the generation of water vapor is suppressed, and the occurrence of discomfort such as stuffiness and stickiness during wearing of the diaper 1 is effectively prevented.

  The water-soluble moisture-proof body 10 in the hygroscopic body 9 is made of a material that prevents permeation of water vapor in a state before contact with water and dissolves by contact with liquid water. As the water-soluble moisture-proof body 10, for example, a base film made of a water-soluble resin and a thin film such as a metal coated as a moisture-proof layer can be used.

  Water-soluble resins include starch, gelatin, polyvinyl alcohol, polyvinyl pyrrolidone, polyethylene oxide, polyethylene glycol, carboxymethyl cellulose, methyl cellulose, hydroxyethyl cellulose, polyacrylic acid, sodium polyacrylate, acrylic acid / maleic acid copolymer, acrylic An acid / sulfonic acid monomer copolymer can be used. Especially as a film which consists of these water-soluble resin, a polyvinyl alcohol (PVA) film is preferable from the point of the film strength, the solubility, and the high workability. When PVA is used as the water-soluble resin, the saponification degree is preferably 98 mol% or less, particularly 94 mol% or less, from the viewpoint of water solubility.

The moisture-proof layer can be formed by applying a metal such as aluminum, zinc, gold, silver, platinum, nickel or a thin film of silicon oxide to one surface of a base film such as PVA. A metal or silicon oxide thin film that is a constituent material of the moisture-proof layer can be formed on one side of a water-soluble base film by a method such as vacuum deposition, sputtering, or ion plating. Since the moisture-proof layer is extremely thin, when the water-soluble film is dissolved with a large amount of liquid water such as urine, the film cannot be maintained by itself, so that the water vapor is permeated. Therefore, the moisture barrier layer needs to be sufficiently thin. From this viewpoint, it is preferable that the moisture-proof layer has a thickness of 10 to 500 nm, particularly 10 to 200 nm. By setting the thickness of the moisture-proof layer within this range, a sufficient moisture-proof effect can be obtained economically while suppressing damage to the water-soluble film during processing such as vapor deposition. In particular, it is preferable to use an aluminum vapor-deposited film as the moisture-proof layer from the viewpoint that pinholes are not easily generated due to bending. Further, when a thin film made of a metal oxide such as SiO ₂ , TiO ₂ , or ZrO ₂ is used as the moisture-proof layer, these thin films are advantageous because they have a gas barrier property in addition to a water vapor barrier property.

  When the water-soluble moisture-proof body 10 is composed of a composite of a base film made of a water-soluble resin and a moisture-proof layer, the water-soluble moisture-proof body 10 may be disposed with the moisture-proof layer facing inward (the moisture absorbent side). preferable. Thus, the permeation of water vapor is prevented until the base film made of the water-soluble resin is dissolved with liquid water. As a result, the moisture absorbent 13 is contained by the water-soluble moisture-proof body 10 so as not to absorb vapor-like moisture.

  The constituent material of the waterproof and moisture permeable body 17 in the hygroscopic body 9 is classified into a porous film and a nonporous film from the viewpoint of the structure. The porous film is a sheet material having a large number of fine pores larger than water vapor and impervious to water droplets. As the porous film, for example, a microporous film used as a moisture-permeable back sheet for absorbent articles such as paper diaper products can be used. This microporous film is obtained by melt-kneading a thermoplastic resin and inorganic particles or a resin dispersed in the thermoplastic resin, an oil component, and the like into a film shape and then stretching at least uniaxially. Alternatively, the porous film may be a film material of polyolefin resin such as polyethylene provided with micropores by laser, electric discharge machining or the like. Among these various porous membranes, a microporous film obtained by uniaxially stretching after forming a film by dispersing inorganic fine particles such as calcium carbonate in a polyolefin resin such as polyethylene is particularly preferable. Such a microporous film having a thickness of 10 to 50 μm, particularly 10 to 30 μm can be suitably used.

Further, as the porous film, a sheet material having moisture permeability and subjected to waterproofing can be used. For example, paper or non-woven fabric whose surface is water-repellent with silicone or fluorine can be used. Alternatively, a fine fiber nonwoven fabric made of a hydrophobic resin can be used. Of these, it is preferable to use a fine fiber nonwoven fabric made of a hydrophobic resin. Specifically, a melt blown nonwoven fabric made of ultrafine fibers of a polyolefin resin such as polyethylene or polypropylene can be used. Alternatively, those obtained by splitting nonwoven fabrics using split fibers made of these resins by heat treatment or high-pressure water flow treatment, those obtained by dissolving these resins in a solvent at high temperature and high pressure, and heat-sealing them as ultrafine fibers ( For example, Tyvek (registered trademark) manufactured by DuPont may be used. Since these non-woven fabrics are made of fine fibers, the distance between the fibers is small, and since they are water-repellent fibers, they are excellent in waterproofness and can pass water vapor. When these nonwoven fabrics are used, the basis weight is preferably 10 to 50 g / m ² , particularly preferably 10 to 30 g / m ² . In particular, a laminate of a meltblown nonwoven fabric and a spunbond nonwoven fabric can be preferably used from the viewpoint of moisture permeability, waterproofness, and strength. The laminated form of the nonwoven fabric obtained by laminating the meltblown nonwoven fabric and the spunbond nonwoven fabric may be spunbond / meltblown or spunbond / meltblown / spunbond. In this case, each basis weight and layer ratio may be determined from the viewpoint of the balance between water pressure resistance and strength. For example, the melt blown nonwoven fabric is preferably 3 to 50 g / m ² , particularly preferably 10 to 30 g / m ² , The spunbonded nonwoven fabric is preferably 5 to 50 g / m ² , particularly preferably 10 to 30 g / m ² .

  On the other hand, as the non-porous film, a non-porous moisture-permeable polyurethane film using a polyurethane resin composed mainly of polyglycol and polyisocyanate and containing a polyglycol component of 20% by weight or more is preferably used. Further, a non-porous moisture permeable film using a block copolymer in which polyester or polyurethane is used as a hard segment and polyether having a polyglycol unit is used as a soft segment is also preferably used. As these non-porous films, those having a thickness of 5 to 50 μm, particularly 10 to 30 μm can be suitably used. When the film strength is low, these non-porous films may be laminated or coated on a nonwoven fabric such as polyester or polyamide.

The waterproof moisture permeable body 17 has a moisture permeability of not less than 0.5 g / (100 cm ² · hr), particularly 1.0 g / (100 cm ² · hr), measured at 40 ° C./90% as measured in accordance with JIS Z0208. In particular, 2.0 / (100 cm ² · hr) or more is particularly preferable. Moreover, it is preferable that the water pressure resistance measured according to JIS L1092B method is 100 mm or more, particularly 200 mm or more, and particularly 500 mm or more.

  The hygroscopic agent 13 enclosed in the waterproof moisture permeable body 17 may be granular. Moreover, it may be in the form of fibers or sheets. When using a superabsorbent polymer as the hygroscopic agent 13, it is possible to use a material obtained by polymerizing the monomer on the fiber with the raw monomer of the superabsorbent polymer attached to a predetermined fiber. it can. The hygroscopic agent 13 thus obtained is apparently fibrous.

Examples of the hygroscopic agent 13 include inorganic porous bodies and organic porous bodies that are materials that adsorb water molecules physicochemically. Specific examples include activated carbon, diatomaceous earth, natural / synthetic silica (silica gel), synthetic zeolite, natural zeolite, alumina gel, silica alumina gel, titania gel, zirconia gel, and yttria gel. Preferably, zeolite, silica gel, or silica alumina gel is used. In the case of using these hygroscopic porous, the charging amount of 50 to 1000 g / m ^2, in particular be a 100 to 500 g / m ^2, preferably in terms of expression and economy of sufficient moisture absorption effect.

  The hygroscopic porous material is generally in the form of particles, but other forms of hygroscopic porous material may be used. For example, by using a plate-shaped zeolite desiccant (trade name MS-Serum-W), which is a material available from Tokai Chemical Industries, and arranging several of them in parallel, the shape of the diaper 1 by the hygroscopic body 9 It is preferable because the inhibition of deformation is minimized and it is difficult for the wearer to feel uncomfortable.

  On the other hand, examples of the moisture absorbent other than the adsorptive moisture absorbent include quick lime, calcium chloride, sulfuric acid, phosphorus pentoxide, sodium hydroxide, barium oxide, potassium carbonate, dehydrated copper sulfate, and metallic sodium. Moreover, superabsorbent polymers, such as a polyacrylic acid soda crosslinked body, a starch-polyacrylic acid graft polymer, and a hydrophilic polyurethane, are mentioned. Among these, quick lime and calcium chloride processed products are particularly preferably used. In addition, by using a highly water-absorbing and highly hygroscopic fiber formed by directly spinning a polymer mainly composed of polyacrylic acid sodium salt and forming a fiber shape, this is processed into a nonwoven fabric, a knitted fabric, a woven fabric, etc. It can also be used as the hygroscopic agent 13. The hygroscopic body 13 can be suitably used because it is flexible with respect to bending and compression. For example, Beloasis (registered trademark) available from Teijin can be used as the highly water-absorbing and highly hygroscopic fiber.

  Next, second to fourth embodiments will be described with reference to FIGS. In these embodiments, only the configuration different from that of the first embodiment will be described, and the description detailed with respect to the first embodiment will be appropriately applied to points that are not particularly described. 5-7, the same code | symbol is attached | subjected to the same member as FIGS. 1-4.

  2nd Embodiment shown in FIG. 5 concerns the disposable diaper 1 similarly to 1st Embodiment. Between the top sheet 2 of the diaper 1 and the absorbent body 4, two vertically long and rectangular moisture absorbent bodies 9 are arranged. Each hygroscopic body 9 is arranged at a site corresponding to the excretion site of the wearer in the crotch region of the diaper 1 with its longitudinal direction coinciding with the longitudinal direction of the diaper 1. In addition, the hygroscopic bodies 9 are arranged in parallel with being spaced apart from each other. Each small section in each hygroscopic body 9 is arranged in a line along the longitudinal direction of the diaper 1.

  As shown in FIG. 6, when a longitudinal section in the width direction in the crotch region of the diaper 1 is seen, a step due to the thickness of the hygroscopic body 9 is generated between the two hygroscopic bodies 9. This level difference extends in the longitudinal direction of the diaper 1. As a result, a single groove G extending in the longitudinal direction of the diaper 1 is formed between the two hygroscopic bodies 9 on the top sheet 2 side of the diaper 1. By the way, the crotch region of the diaper 1 in a worn state is a part where liquids such as excreted urine and loose stool are easily concentrated and the moisture of the liquid is held by the absorber 4. Therefore, by forming the groove G in this region, excreted urine, loose stool and other liquids are easily diffused along the groove G in the longitudinal direction of the diaper 1. As a result, it is possible to prevent the excrement from diffusing in the lateral direction of the diaper 1. Furthermore, leakage from the crotch region of the diaper 1 can be prevented. Further, the inside of the dressing is kept at a low humidity by the hygroscopic body 9 to prevent stuffiness.

  In the present embodiment, the surface area of the groove G can be increased by using the top sheet 1 having a concavo-convex shape on the skin facing surface. This contributes to an increase in the liquid absorption area in the groove G and an improvement in the liquid absorption performance. As a result, it is possible to further suppress excrement from flowing out in the lateral direction of the diaper 1. Furthermore, the absorbability can be further improved.

  As shown in FIG. 6, for example, as shown in FIG. 6, the top sheet 1 having a concavo-convex shape on the skin is composed of two sheets 2a and 2b partially joined together, One sheet 2a is raised in a convex shape at a portion other than the joint 2c, a plurality of convex parts 2d are formed on the one sheet 2a side, and the other sheet 2b is kept flat. And a three-dimensionally shaped composite sheet. As such a sheet | seat, the thing as described in Unexamined-Japanese-Patent No. 2004-174234 and Unexamined-Japanese-Patent No. 2005-111908 which concerns on the previous application of this applicant can be used, for example.

  Each above-mentioned embodiment is an example which applied the present invention to an absorptive article used in order to absorb excrement, such as urine excreted from a wearer's body. Therefore, this absorbent article is attached to the crotch region of the wearer. On the other hand, the embodiment shown in FIG. 7 is an example in which the present invention is applied to an absorbent article used by being worn on a wearer's foot.

  The absorbent article 20 shown in FIG. 7 has a hygroscopic body (not shown) and foot fixing means 21 for fixing the hygroscopic body to the foot. The hygroscopic body in the present embodiment has the same structure as the hygroscopic body in the above-described embodiments. The hygroscopic body is enclosed in a bag 22 made of a breathable water-repellent sheet 22 such as a nonwoven fabric. The bag body 22 has a vertically long flat shape. Fixing bands as foot fixing means 21 are respectively attached to front and rear end portions along the width direction of the bag body 22. The fixing band can be made of an elastic material, for example.

  The usage method of the absorbent article 20 of this embodiment is as follows. First, in a state of bare feet or wearing socks, a hygroscopic body is brought into contact with the arch portion of the foot. Under this condition, the absorbent article 20 is fixed to the foot with two fixing bands. In the case of bare feet, wear shoes with socks on them, and wear shoes in the same state when wearing socks. This can reduce the stuffiness in the shoe. In addition, the water-soluble moisture-proof body in a moisture absorption body is easily collect | recovered by the bag body 22 which encloses this, after melt | dissolving.

  As mentioned above, although this invention was demonstrated based on the preferable embodiment, this invention is not restrict | limited to the said embodiment. In the first and second embodiments, a waterproof member having no moisture permeability may be disposed on a part of the waterproof moisture-permeable body 17. For example, as shown in FIG. 8 (a), between the waterproof and moisture permeable body 17b and the hygroscopic agent 13 on the side facing the absorber 4 of the waterproof and moisture permeable bodies 17a and 17b, A non-moisture permeable member 30, which is another member that hinders the moisture permeable function, may be interposed. The non-moisture permeable member 30 can be attached to, for example, the waterproof moisture permeable body 17b or the hygroscopic agent 13 (in the case of other than particles). Further, as shown in FIG. 8B, of the waterproof and moisture permeable bodies 17a and 17b, on the inner surface of the waterproof and moisture permeable body 17b located on the side facing the absorber 4 (that is, the surface facing the moisture absorbent 13), Another agent 31 that hinders the moisture permeability function of the waterproof moisture permeable body 17b may be applied intermittently or over the entire surface. Further, as shown in FIG. 8 (c), the side of the waterproof / moisture permeable body 17 that faces the absorber 4 is formed of a member 32 that is different from the waterproof / moisture permeable body 17. A member that hinders the moisture function may be used.

In the first and second embodiments, a slightly water-soluble member may be disposed on a part of the water-soluble moisture-permeable body 10. For example, as shown in FIG. 9 (a), between the water-soluble moisture-proof bodies 10a and 10b, between the water-soluble moisture-proof body 10b located on the side facing the absorber 4 and the waterproof moisture-permeable body 17b, Another member 40 that interferes with the water-soluble function of the moisture-proof body 10b may be interposed. The member 40 can be attached to, for example, the water-soluble moisture-proof body 10b or the waterproof moisture-permeable body 17b. As the member 40, for example, a film made of polyethylene or polypropylene can be used. Further, a film formed by applying a hot melt adhesive to the water-soluble moisture-proof body 10b can be used as the member 40. Furthermore, a printed film formed by applying water-resistant ink to the water-soluble moisture-proof body 10b can also be used as the member 40.
Further, as shown in FIG. 9B, of the water-soluble moisture-proof bodies 10a and 10b, the inner surface of the water-soluble moisture-proof body 10b located on the side facing the absorber 4 (that is, the surface facing the waterproof moisture-permeable body 17b). In addition, another agent 41 that interferes with the water-soluble function of the water-soluble moisture-proof body 10b may be applied intermittently or over the entire surface. As the agent 41, for example, a hot melt adhesive or ink having water resistance can be used. Examples of the resin of the hot melt adhesive that can be used for the agent 41 and the member 40 include ethylene vinyl acetate copolymer, amorphous polyolefin, and styrene-based thermoplastic elastomer. Further, the resin of the ink having water resistance includes polyvinyl chloride, polyester, polyurethane, cured rosin, chlorinated rubber, petroleum resin, nitrocellulose, cellulose derivative, ethyl cellulose, polyamide, acrylic resin, maleic acid resin, fumaric acid. Examples thereof include resins, polyketones, shellacs, proteins, phenol resins, methacrylic acid resins, and epoxy resins. Of these, polyester, acrylic resin, and methacrylic acid resin can be preferably used.
Further, as shown in FIG. 9 (c), the side of the water-soluble moisture-proof body 10 that faces the absorbent body 4 is composed of a member 42 that is different from the water-soluble moisture-proof body 10, and the member 42 is water-soluble. A member that hinders the function of sex may be used. As this member 42, the thing similar to the member 40 shown to Fig.9 (a) can be used.

  Moreover, although 1st and 2nd embodiment is an example which applied this invention to the deployment type disposable diaper provided with the fastening means by a tape fastener, this invention is another disposable diaper, for example, a pants-type disposable. It can also be applied to diapers. Furthermore, the present invention can also be applied to absorbent articles other than disposable diapers, such as sanitary napkins, incontinence pads, panty liners, and the like.

  In addition, each of the above embodiments is an example in which the hygroscopic body of the present invention is applied to an absorbent article. However, the hygroscopic body can be installed alone in a bag, a shoebox, a push-in, etc. to absorb the moisture. It may be used.

It is the partially broken sectional top view which looked at the deployment type disposable diaper as a 1st embodiment of the present invention from the top sheet side. It is a perspective view which shows the moisture absorption body used for the diaper shown in FIG. It is the III-III sectional view taken on the line in FIG. It is a partially broken perspective view which shows another form of the moisture absorption body used for the diaper shown in FIG. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a partially broken cross-sectional plan view (corresponding to FIG. 1) of an unfolded disposable diaper as an embodiment of the present invention, viewed from the top sheet side. It is the VI-VI sectional view taken on the line in FIG. It is a perspective view showing an absorptive article for legs as a 3rd embodiment of the present invention. It is sectional drawing which shows the other form of the moisture absorption body used for 1st and 2nd embodiment. It is sectional drawing which shows the further another form of the moisture absorption body used for 1st and 2nd embodiment.

Explanation of symbols

1 disposable diaper (absorbent article)
2 Top sheet 3 Back sheet 4 Absorber 9 Absorbent body 10 Water-soluble moisture-proof body 12 Sealed space 13 Hygroscopic agent 14 Peripheral joint part 15 Transverse joint part 17 Waterproof moisture-permeable body 30 Another member that impedes moisture permeability (non-breathable member)
31 An agent that prevents the moisture permeability function 32 Another member that prevents the moisture permeability function 40 Another member that prevents the water-soluble function 41 An agent that blocks the water-soluble function 42 Another member that prevents the water-soluble function

Claims (6)

In an absorbent article comprising a surface material, a back material and a liquid-retaining absorbent disposed between the surface material and the back material,
A hygroscopic agent is sealed in a water-proof moisture-permeable body in a water-tight manner, and a moisture- absorbing body formed by sealing the waterproof and moisture-permeable body in a water-soluble moisture-proof body is disposed between the surface material and the absorber .
Absorbent article in which another agent that interferes with the moisture-permeable function of the waterproof moisture-permeable body is intermittently applied to the inner surface of the waterproof moisture-permeable body located on the side facing the absorber of the waterproof moisture-permeable body . Wherein during intake wet product in the water-soluble moisture-proof member and the absorbent body, the absorbent article according to claim 1, characterized in that it arranged the poorly water-soluble members of the moisture absorber. The absorptive article according to claim 1 or 2 provided with a plurality of said hygroscopic bodies prolonged in the longitudinal direction of an absorptive article, and each hygroscopic body separated from each other and arranged in parallel. The said surface material is an absorptive article in any one of Claims 1-3 which has the shape by which the skin opposing surface side was three-dimensionally shaped. The absorbent article according to any one of claims 1 to 4, wherein another agent that interferes with the moisture-permeable function is a moisture-impermeable member. The absorbent article according to claim 5, wherein the moisture-impermeable member is a waterproof moisture-permeable material or a hygroscopic agent.

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