Patent Description:
A disposable diaper often causes roughness of the skin of a wearer, particularly, rash disadvantageously.

Examples of a cause for this include friction with the skin at the time of wearing the diaper, and stimulation received by the skin from a body fluid and excreta (urine and loose stool) due to wearing the diaper for a long time.

In particular, the cause by stimulation due to contact of the skin with loose stool for a long time is large. In order to suppress this, the diaper needs to quickly absorb loose stool into an absorber. If the diaper can quickly absorb loose stool into the absorber, it is useful not only in reducing stimulation received by the skin but also in preventing leakage from a leg portion or a dorsal portion.

A first cause for hindering absorption of loose stool through a top sheet is that when a stool component passes through the top sheet, a component that cannot pass through the top sheet remains on a surface portion of fibers constituting the top sheet, and the top sheet is clogged. A second cause for hindering absorption of loose stool through the top sheet is that an excreta speed exceeds an absorption rate of the diaper, and loose stool cannot be absorbed and remains on the top sheet.

Remaining of a loose stool component on the top sheet may cause the loose stool component to slide on the top sheet, and may result in leakage of stool.

Therefore, it is very important for the diaper to quickly absorb loose stool into an absorber.

Patent Literature <NUM> discloses that a skin care agent is provided between so-called gather cuffs on both sides in the width direction of a diaper.

In addition, the skin care agent is provided on a top sheet, and for example, the skin care agent contains a diamide derivative as an active component.

<CIT> discloses an absorbent article <NUM> including: a liquid-permeable surface layer <NUM> forming a skin-facing surface; a liquid-impermeable leakproof layer <NUM> forming a skin non-facing surface; and a liquid-retention liquid absorption layer <NUM> interposed between both layers <NUM> and <NUM>. The absorbent article further includes an intermediate layer <NUM> containing glycerine between the surface layer <NUM> and the absorption layer <NUM>, and the skin-facing surface side of the surface layer <NUM> has a recessed/protruding shape. Protrusions <NUM> constituting the recessed/protruding shape of the surface layer <NUM> are filled with fibers. Recesses <NUM> constituting the recessed/protruding shape of the surface layer <NUM> have high density compared with the protrusions <NUM> constituting the recessed/protruding shape.

However, the present inventor has found that there is a limit to suppressing roughness of the skin by the skin care agent, and it is more important to configure a diaper so as to quickly absorb loose stool into an absorber.

Therefore, a main object of the present invention is to provide an absorbent article that can prevent or suppress roughness of the skin of a wearer by configuring the absorbent article so as to quickly absorb a body fluid into an absorber (for example, configuring a diaper so as to quickly absorb loose stool into an absorber).

Main aspects of an absorbent article that has solved the above problem are as follows.

A disposable diaper is provided as claimed in claim <NUM>.

As illustrated in Examples described later, it has been found that when an absorbent mainly containing glycerin is provided on an intermediate sheet that is disposed between the top sheet and the absorber and transfers a body fluid that has passed through the top sheet to the absorber, the body fluid (for example, loose stool) is quickly absorbed into the absorber.

In a second aspect, the intermediate sheet includes a second sheet on the top sheet side and a wrapping sheet wrapping whole of the absorber, and the absorbent is provided on the skin side surface of the second sheet and a skin side surface of the wrapping sheet.

The absorbent can be provided not only on the second sheet but also on the wrapping sheet wrapping the absorber.

In a third aspect, the absorbent contains <NUM>% by mass or more of glycerin as a composition component, and contains one or more additives selected from the group consisting of an emulsifier, a phosphate, a paraffin, and a surfactant as an additive.

The present invention can prevent or suppress roughness of the skin of a wearer by configuring an absorbent article so as to quickly absorb a body fluid into an absorber (for example, configuring a diaper so as to quickly absorb loose stool into an absorber).

A configuration example of a tape-type disposable diaper as an absorbent article of the present invention is illustrated in <FIG>.

An example of a disposable diaper is illustrated. In the drawings, a reference character X indicates the maximum width of the diaper excluding a connecting tape, a reference character L indicates the maximum length of the diaper, and a dotted pattern portion in a cross-sectional view indicates a hot melt adhesive as a bonding means for bonding constituent members located on a front surface side and a back surface side.

The hot melt adhesive can be applied by a known method such as slot application, bead application into a continuous line or dot shape, spray application into a spiral shape or a Z shape, or pattern coating (transfer of a hot melt adhesive by a letterpress method). Alternatively or in addition, in a fixing portion of an elastic member, the hot melt adhesive can be applied to an outer peripheral surface of the elastic member, and the elastic member can be fixed to an adjacent member.

Examples of the hot melt adhesive include an EVA-based agent, a pressure sensitive adhesive rubber-based agent (elastomer-based agent), a polyolefin-based agent, and a polyester/polyamide-based agent, and these can be used without particular limitation. As a bonding means for bonding constituent members, a means by material welding such as heat sealing or ultrasonic sealing can also be used.

The tape-type disposable diaper includes a crotch portion including a center in a front-back direction LD, a ventral side portion F extending forward from the center in the front-back direction LD, and a dorsal side portion B extending backward from the center in the front-back direction LD.

This tape-type disposable diaper includes an absorber <NUM> incorporated in a range including the crotch portion, a liquid pervious top sheet <NUM> covering a front surface side of the absorber <NUM>, a liquid impervious sheet <NUM> covering a back surface side of the absorber <NUM>, and an exterior nonwoven fabric <NUM> covering a back surface side of the liquid impervious sheet and forming a product outer surface.

On the other hand, side flap portions SF not including the absorber <NUM> are formed on both sides in the width direction from the ventral side portion F to the dorsal side portion B, and each have a connecting tape <NUM> detachably connected to an outer surface of the ventral side portion F. In an attached state, the connecting tape <NUM> is connected to an outer surface of the ventral side portion F. In addition, the tape-type disposable diaper of the illustrated example has a pair of end flap portions EF extending to a front side and a back side of the absorber <NUM> and not including the absorber <NUM>.

Hereinafter, a material of each portion and a characteristic part thereof will be described sequentially.

The absorber <NUM> absorbs and holds an excrement liquid, and can be formed by an assembly of fibers. As this fiber assembly, in addition to those obtained by accumulating a short fiber such as fluff pulp or a synthetic fiber, a filament assembly obtained by opening a tow (fiber bundle) of a synthetic fiber such as cellulose acetate as necessary can also be used. In a case where fluff pulp or a short fiber is accumulated, a fiber basis weight may be, for example, about <NUM> to <NUM>/m<NUM>. In a case of a filament assembly, a fiber basis weight may be, for example, about <NUM> to <NUM>/m<NUM>. In a case of a synthetic fiber, a fineness is, for example, <NUM> to <NUM> dtex, preferably <NUM> to <NUM> dtex, and more preferably <NUM> to <NUM> dtex. In a case of a filament assembly, the filament may be formed of a non-crimped fiber but is preferably formed of a crimped fiber. The degree of crimp of the crimped fiber may be, for example, about <NUM> to <NUM>, preferably <NUM> to <NUM>, and more preferably <NUM> to <NUM> per <NUM>. In addition, a uniformly crimped fiber can be used.

The absorber <NUM> may contain super absorbent polymer particles partially or entirely. The super absorbent polymer particles include "powder" in addition to "particles". As super absorbent polymer particles <NUM>, those used for this type of absorbent article can be used as they are. The particle diameters of the super absorbent polymer particles are not particularly limited. However, for example, when sieving using a standard sieve of <NUM> (JIS Z8801-<NUM>: <NUM>) (shake for five minutes) is performed, and particles falling under the sieve using this sieving are sieved using a standard sieve of <NUM> (JIS Z8801-<NUM>: <NUM>) (shake for five minutes), it is desirable that a ratio of particles remaining on the standard sieve of <NUM> is <NUM>% by weight or less, and a ratio of particles remaining on the standard sieve of <NUM> is <NUM>% by weight or more.

A material of the super absorbent polymer particles can be used without particular limitation, but those having a water absorption capacity of <NUM>/g or more are preferable. Examples of the super absorbent polymer particles include a starch-based material, a cellulose-based material, and a synthetic polymer-based material. A starch-acrylic acid (salt) graft copolymer, a saponified product of a starch-acrylonitrile copolymer, a cross-linked product of sodium carboxymethyl cellulose, an acrylic acid (salt) polymer, or the like can be used. As the shapes of the super absorbent polymer particles, a usually used particulate material shape is suitable, but other shapes can also be used.

As the super absorbent polymer particles, those having a water absorption rate of <NUM> seconds or less, particularly <NUM> seconds or less are suitably used. When the water absorption rate is too slow, so-called returning that a liquid supplied into the absorber <NUM> returns out of the absorber <NUM> tends to occur.

As the super absorbent polymer particles, those having a gel strength of <NUM> Pa or more are suitably used. This makes it possible to effectively suppress a sticky feeling after liquid absorption even in a case of using the bulky absorber <NUM>.

The basis weight of the super absorbent polymer particles can be appropriately determined depending on the absorption amount required for an application of the absorber <NUM>. Therefore, the basis weight can be <NUM> to <NUM>/m<NUM> although this cannot be applied generally. The basis weight of the polymer of less than <NUM>/m<NUM> makes it difficult to secure the absorption amount. When the basis weight exceeds <NUM>/m<NUM>, not only the effect is saturated but also the excess of the super absorbent polymer particles imparts a gritty and uncomfortable feeling.

The absorber <NUM> can be incorporated as an absorbent element <NUM> wrapped in a wrapping sheet <NUM> in order to prevent escape of the super absorbent polymer particles or to improve shape maintenance of the absorber <NUM>. As the wrapping sheet <NUM>, tissue paper, particularly crepe paper, a nonwoven fabric, a polylaminated nonwoven fabric, a sheet with small holes, and the like can be used. However, it is desirable that the wrapping sheet <NUM> is a sheet from which super absorbent polymer particles do not escape. When a nonwoven fabric is used instead of crepe paper, a hydrophilic spunbonded/melt blown/melt blown/spunbonded (SMMS) nonwoven fabric is particularly suitable, and polypropylene, polyethylene/polypropylene, or the like can be used as a material thereof. A nonwoven fabric having a fiber basis weight of <NUM> to <NUM>/m<NUM>, particularly of <NUM> to <NUM>/m<NUM> is desirable.

As illustrated in <FIG>, the single wrapping sheet <NUM> may wrap the whole of the absorber <NUM>, or a plurality of the wrapping sheets <NUM> such as upper and lower two wrapping sheets <NUM> may wrap the whole of the absorber <NUM>. The wrapping sheet can be omitted.

As the top sheet <NUM>, a liquid pervious sheet, for example, a perforated or imperforated nonwoven fabric or a porous plastic sheet can be used. Among these materials, the nonwoven fabric is not particularly limited concerning a raw material fiber thereof. Examples thereof include a synthetic fiber such as a polyolefin-based fiber including polyethylene and polypropylene, a polyester-based fiber, or a polyamide-based fiber, a regenerated fiber such as rayon or cupra, a natural fiber such as cotton, and a mixed fiber and a composite fiber in which two or more kinds of these fibers are used. Furthermore, the nonwoven fabric may be manufactured by any processing. Examples of a processing method include known methods such as a spunlacing method, a spunbonding method, a thermal bond method, a melt blown method, a needle punching method, an air through method, and a point bond method. For example, if softness and drapeability are demanded, a spunlacing method is a preferable processing method. If bulkiness and softness are demanded, a thermal bond method is a preferable processing method.

The top sheet <NUM> extends from a front end to a back end of the product in the front-back direction and extends to a lateral side more than the absorber <NUM> in the width direction WD. For example, when a starting point of a rising gather <NUM> described later is located closer to the center in the width direction than a side edge of the absorber <NUM>, appropriate deformation can be made, for example, the width of the top sheet <NUM> is made shorter than the maximum width of the absorber <NUM> as necessary.

In order to quickly transfer a liquid that has passed through the top sheet <NUM> to the absorber, it is possible to dispose an intermediate sheet (which may include "second sheet <NUM>") having a higher liquid permeation rate than the top sheet <NUM>. The intermediate sheet is used in order to rapidly transfer a liquid to the absorber to enhance absorption performance of the absorber, and to prevent a "returning" phenomenon of the absorbed liquid from the absorber. The intermediate sheet can be omitted.

Examples of the intermediate sheet include a similar material to that of the top sheet <NUM>, a spunlaced nonwoven fabric, a spunbonded nonwoven fabric, an SMS nonwoven fabric, a pulp nonwoven fabric, a mixed sheet of pulp and rayon, a point bonded nonwoven fabric, and crepe paper. In particular, an air through nonwoven fabric is preferable because of being bulky. As the air through nonwoven fabric, a composite fiber having a core-sheath structure is preferably used. In this case, a resin used for the core may be polypropylene (PP) but is preferably polyester (PET) having high rigidity. The basis weight is preferably <NUM> to <NUM>/m<NUM>, and more preferably <NUM> to <NUM>/m<NUM>. A raw material fiber of the nonwoven fabric preferably has a fineness of <NUM> to <NUM> dtex. In order to make the nonwoven fabric bulky, as mixed fibers of all or some of raw material fibers, eccentric fibers having no core in the center, hollow fibers, eccentric and hollow fibers are also preferably used.

The intermediate sheet in the illustrated example is disposed at the center so as to be shorter than the width of the absorber <NUM>, but may be disposed over the maximum width. The intermediate sheet may be disposed over the maximum length of the diaper, but may be disposed only in an intermediate portion including an excrement position as in the illustrated example.

The liquid impervious sheet <NUM> is not particularly limited, but preferably has moisture permeability. As the liquid impervious sheet <NUM>, for example, a microporous sheet obtained by kneading an inorganic filler in a polyolefin-based resin such as polyethylene or polypropylene, molding the kneaded mixture into a sheet, and then stretching the sheet in a monoaxial or biaxial direction can be suitably used. In addition, as the liquid impervious sheet <NUM>, a sheet in which a nonwoven fabric is used as a base material and waterproofness thereof is enhanced can also be used.

It is desirable that the liquid impervious sheet <NUM> extends within the same range as or a wider range than the absorber <NUM> in the front-back direction LD and the width direction WD. However, for example, when another water blocking means is present, an end portion of the absorber <NUM> does not have to be covered in the front-back direction LD and the width direction WD as necessary.

The exterior nonwoven fabric <NUM> covers the entire back surface side of the liquid impervious sheet <NUM> and imparts a cloth-like appearance to a product outer surface. The exterior nonwoven fabric <NUM> is not particularly limited. Examples thereof as a material fiber include a synthetic fiber such as a polyolefin-based fiber including polyethylene and polypropylene, a polyester-based fiber, or a polyamide-based fiber, a regenerated fiber such as rayon or cupra, and a natural fiber such as cotton. Examples of a processing method include a spunlacing method, a spunbonding method, a thermal bond method, an air through method, and a needle punching method. However, a long-fiber nonwoven fabric such as a spunbonded nonwoven fabric, an SMS nonwoven fabric, or an SMMS nonwoven fabric is suitable from a viewpoint of achieving both texture and strength. A nonwoven fabric can be used in a single sheet or in a laminate of a plurality of sheets. In the latter case, the nonwoven fabrics are preferably bonded to each other with a hot melt adhesive or the like. In a case where a nonwoven fabric is used, it is desirable that the nonwoven fabric has a fiber basis weight of <NUM> to <NUM>/m<NUM>, particularly <NUM> to <NUM>/m<NUM>.

In order to block excrement that moves laterally on the top sheet <NUM> and to prevent so-called side leakage, rising gathers <NUM> rising on a skin side of a wearer are preferably disposed on both sides of a surface in the width direction WD. Of course, the rising gathers <NUM> can be omitted.

When the rising gather <NUM> is adopted, a structure thereof is not particularly limited, and any known structure can be adopted. The rising gather <NUM> in the illustrated example includes a gather sheet <NUM> substantially continuous in the width direction WD, and an elongated gather elastic member <NUM> fixed to the gather sheet <NUM> in a stretched state in the front-back direction LD. A water repellent nonwoven fabric can be used as the gather sheet <NUM>, and a rubber thread or the like can be used as the gather elastic member <NUM>. As illustrated in <FIG> and <FIG>, a plurality of elastic members may be disposed, or one elastic member may be disposed.

An internal surface of the gather sheet <NUM> has a bonding start edge in the width direction WD on a side portion of the top sheet <NUM>. A portion from the bonding start edge to the outside in the width direction is bonded to an internal surface of each side flap portion SF, that is, in the illustrated example, bonded to a side portion of the liquid impervious sheet <NUM> and a side portion of the exterior nonwoven fabric <NUM> located in an outside thereof in the width direction with a hot melt adhesive or the like.

In a periphery of a leg, a portion from the bonding start edge of the rising gather <NUM> to the inside in the width direction is fixed to the top sheet <NUM> at both end portions in a product front-back direction. However, a portion therebetween is a non-fixed free portion, and the free portion rises by a contraction force of the elastic member <NUM> and comes into close contact with a body surface.

To each side flap portion SF, a side elastic member <NUM> formed of an elongated elastic member such as a rubber thread is fixed in a stretched state in the front-back direction LD, and a periphery of a leg of each side flap portion SF is configured as a plane gather. The leg periphery elastic member <NUM> can be disposed between the gather sheet <NUM> and the liquid impervious sheet <NUM> outside the vicinity of the bonding start edge in the width direction in the bonded portion of the gather sheet <NUM> as in the illustrated example, and can also be disposed between the liquid impervious sheet <NUM> and the exterior nonwoven fabric <NUM> in the side flap portion SF. A plurality of the leg periphery elastic members <NUM> may be disposed on each side as in the illustrated example, or only one leg periphery elastic member <NUM> may be disposed on each side.

In the dorsal side portion B, the connecting tape <NUM> to be detachably connected to an outer surface of the ventral side portion F as a connecting means is disposed. When the diaper is worn, the connecting tapes <NUM> are extended from both sides of a waist to an outer surface of the ventral side portion F, and the connecting portions 13A of the connecting tapes <NUM> are connected to appropriate positions of the outer surface of the ventral side portion F.

The structure of the connecting tape <NUM> is not particularly limited, but includes a tape main unit section protruding from a tape attachment portion 13C and a connecting portion 13A disposed at an intermediate portion in the width direction, and a tip side of the connecting portion 13A is a tab part. The shape of the connecting tape <NUM> is not particularly limited, either. However, the tape attachment portion 13C may have a portion having the longest and constant size in the front-back direction, and the tape main unit section may have a tapered shape in which the tape main unit section becomes thinner toward a tip.

As the connecting portion 13A, a hook member (male member) of a mechanical fastener (hook and loop fastener) or an adhesive layer may be disposed. The hook member has many engaging projections on a connecting surface thereof. Examples of the shapes of the engaging projections include (A) tick shape, (B) J shape, (C) mushroom shape, (D) T shape, and (E) double J shape (a shape in which the J-shaped ones are connected to each other back to back), but any shape may be used.

As the sheet base material forming from the tape attachment portion 13C to the tape main unit section, a nonwoven fabric, a plastic film, a polylaminated nonwoven fabric, paper, or a composite material thereof can be used. However, a spunbonded nonwoven fabric, an air through nonwoven fabric, or a spunlaced nonwoven fabric having a fineness of <NUM> to <NUM> dtex, a basis weight of <NUM> to <NUM>/m<NUM>, and a thickness of <NUM> or less is preferable.

A target portion is preferably disposed at a connecting part for the connecting tape <NUM> in the ventral side portion F. As in the illustrated example, the target portion can be disposed by attaching a target sheet <NUM> for facilitating connection to an outer surface of the ventral side portion F. In a case where the connecting portion 13A is formed of a hook member, as the target sheet <NUM>, it is possible to use one in which many loop threads making engaging projections of the hook member entangled therewith are disposed on a surface of a sheet base material formed of a plastic film or a nonwoven fabric. In a case where the connecting portion 13A is formed of an adhesive layer, as the target sheet <NUM>, it is possible to use one obtained by subjecting a surface of a sheet base material formed of a plastic film having a smooth surface with high pressure sensitive adhesiveness to a peeling treatment. When the connecting part for the connecting tape <NUM> in the ventral side portion F is formed of a nonwoven fabric, for example, when the exterior nonwoven fabric <NUM> is disposed as in the illustrated example, the target sheet <NUM> can be omitted, and the hook member can be entangled with fibers of the exterior nonwoven fabric <NUM> to be connected. In this case, in addition to disposing the target sheet <NUM> as a mark between the exterior nonwoven fabric <NUM> and the liquid impervious sheet <NUM>, a mark may be printed on an outer surface of the exterior nonwoven fabric <NUM> or the liquid impervious sheet <NUM>.

Next, an embodiment of the present invention will be described.

In the embodiment, an absorbent mainly containing glycerin is provided on an intermediate sheet that transfers a body fluid that has passed through a top sheet to an absorber.

As illustrated in Examples described later, when an absorbent mainly containing glycerin is provided on an intermediate sheet that is disposed between a top sheet and an absorber and transfers a body fluid that has passed through the top sheet to an absorber, the body fluid (for example, loose stool) is quickly absorbed into the absorber.

As a representative example, as illustrated in <FIG> schematically illustrating only a main part, an absorbent Q mainly containing glycerin is provided on the intermediate sheet that transfers a body fluid that has passed through the top sheet <NUM> to the absorber <NUM>.

The intermediate sheet according to the present invention may include, in addition to the second sheet <NUM> located on the top sheet <NUM> side indicated by reference character <NUM> in <FIG>, the wrapping sheet <NUM> wrapping the absorber <NUM>.

In addition to providing the absorbent Q on the second sheet <NUM>, the absorbent Q can be provided on the top sheet <NUM>.

In this case, it is desirable that the absorbent Q is provided on a non-skin side surface (lower surface in <FIG>) of the top sheet <NUM> as illustrated in <FIG> instead of providing the absorbent Q on a skin side surface of the top sheet <NUM>.

The skin side surface (upper surface in <FIG>) of the top sheet <NUM> is preferably hydrophobic in order to enhance diffusibility of a liquid component of a body fluid. However, if a hydrophilic absorbent mainly containing glycerin is provided, the hydrophobicity of the top sheet <NUM> is hindered. Therefore, this form is not so preferable.

On the other hand, if the absorbent Q is provided on the non-skin side surface (lower surface in <FIG>) of the top sheet <NUM>, it is considered that the absorbent Q provided on the non-skin side surface of the top sheet <NUM> is delivered to the intermediate sheet side at a stage where a body fluid tries to pass through the top sheet <NUM>, and therefore an effect of improving an absorption rate is enhanced.

Since the top sheet <NUM> is formed of a nonwoven fabric having a large number of apertures, a body fluid is easily absorbed. As a result, an effect of improving an absorption rate by the absorbent Q is enhanced.

The aperture of the nonwoven fabric can have an appropriate shape such as a circle or an ellipse. It is desirable that the aperture size (equivalent diameter in a case of an ellipse) is <NUM> to <NUM>. The apertures are arranged in, for example, a zigzag shape or a lattice shape. It is desirable that an opening ratio is <NUM> to <NUM>%. When the aperture size and the opening ratio are small, permeability of a body fluid tends to be insufficient. When the aperture size and the opening ratio are excessively large, returning that a body fluid once absorbed by an absorbent element returns to a surface of the top sheet may occur.

As described above, the intermediate sheet according to the present invention can include, in addition to the second sheet <NUM> located on the top sheet <NUM> side, the wrapping sheet <NUM> wrapping the absorber <NUM>. That is, the absorbent Q can be provided on the skin side surface of the wrapping sheet <NUM>.

Under this aspect, as illustrated in <FIG>, the absorbent Q can be further provided on the top sheet <NUM>, preferably on the non-skin side surface thereof.

When the absorbent Q is provided on each of a plurality of sheets, it is desirable to form a gradient, for example, as follows to the application amount of the absorbent Q. This aspect is preferable because the gradient of the application amount relates to a transfer rate of a body fluid by the absorbent Q.

For example, in a case of the intermediate sheet, the application amount is preferably <NUM>/m<NUM> or more, more preferably <NUM>/m<NUM> or more, preferably <NUM>/m<NUM> or less, more preferably <NUM>/m<NUM> or less, and specifically preferably <NUM>/m<NUM> or more and <NUM>/m<NUM> or less.

The absorbent according to the present invention may contain <NUM>% by mass or more, preferably <NUM>% by mass or more of glycerin as a composition component, and may contain one or more additives selected from the group consisting of an emulsifier, a phosphate, a glycerin fatty acid ester, a paraffin, and a surfactant as an additive.

As the surfactant, an ether type nonionic surfactant and a nonionic surfactant containing an EO/PO type are preferable.

In providing the absorbent, when the top sheet and the intermediate sheet are bonded to each other in a stripe shape or a spiral shape by a hot melt adhesive, application in a stripe shape extending in the front-back direction at intervals in the width direction of the absorbent article is preferable. When the top sheet and the intermediate sheet are bonded to each other by thermal embossing, spray coating may be performed to the entire surface of a target region in addition to a stripe shape or a spiral shape.

On the other hand, when the absorbent is provided on the non-skin side surface of the top sheet <NUM>, for example, the absorbent may be applied only to the intermediate sheet, and a part of the absorbent may be transferred to the non-skin side surface of the top sheet <NUM> using a compressive force received at the time of wrapping or storing the absorbent article or a compressive force at the time of use of a wearer to be applied.

Under configurations of three types of disposable diapers having different forms of providing the absorbent Q as illustrated in <FIG>, <FIG>, and <FIG>, each of the configurations having the structure illustrated in <FIG>, pseudo loose stool was caused to flow down from above the top sheet having apertures, and absorption characteristics were examined. Note that a disposable diaper on which no absorbent was provided was also prepared and used as Comparative Example.

For each of a total of four types of disposable diapers, five samples were prepared, and an absorption test was performed.

In the specific absorption test, a disposable diaper was formed into an unfolded state. A tube having a diameter of <NUM> was placed on the dorsal side of the disposable diaper. A time point when <NUM> of pseudo loose stool started to be caused to flow in the diaper was defined as a start point of measurement of an absorption rate. Pseudo loose stool starts to pass through the top sheet from the tube through an opening of a flat plate. <NUM> seconds after the start of the measurement of the absorption rate, the tube is removed. The time point when it is confirmed that moisture on a surface of the top sheet has disappeared is defined as end of the measurement of the absorption rate.

<NUM> minutes after the start of inflow of pseudo loose stool, <NUM> sheets of filter paper of <NUM> × <NUM> are stacked on the dorsal side of the disposable diaper, a weight of <NUM> of <NUM> × <NUM> is placed thereon, and a weight increase due to absorption of a liquid transferred to the filter paper side <NUM> seconds later is defined as a returning amount.

Thereafter, the disposable diaper was disassembled. A measurement region having <NUM> in the width direction × <NUM> in the front-back direction where the absorber on the dorsal side existed was cut out. A weight increase due to absorption of the liquid was calculated for each of the absorber, the wrapping sheet, the intermediate sheet (second sheet), and the top sheet. In this case, since the weight of the measurement region is known, the weight increase can be calculated.

As the pseudo loose stool, known yogurt-based pseudo loose stool was used. Here, pseudo loose stool obtained by mixing a commercially available yogurt and deionized water at a mass ratio of <NUM> : <NUM> and adjusting the viscosity to <NUM> mPa·s was used.

Results of the absorption test for the four types of disposable diapers are illustrated in Table <NUM>.

From these results, it has been found that application of the absorbent according to the present invention to the intermediate sheet makes the disposable diaper quickly absorb loose stool into the absorber, and is effective for making it difficult for loose stool to remain on a surface.

Results of the absorption test obtained by changing the type of the absorbent are illustrated in Table <NUM>. The results of Example <NUM> are listed again in Table <NUM>. As a comparison of the absorbent Q different from glycerin, in Comparative Example <NUM>, an ether type nonionic surfactant is applied in the form of <FIG>. In Comparative Example <NUM>, a nonionic surfactant containing an EO/PO type is applied in the form of <FIG>.

From these results, it has been found that the absorbent according to the present invention has a higher absorption rate and is less likely to cause loose stool to remain on a surface than those used as a hydrophilic surfactant in this technical field.

The following terms in the specification have the following meanings unless otherwise specified in the specification.

Claim 1:
A disposable diaper, comprising:
a liquid-holding absorber (<NUM>);
a liquid pervious top sheet (<NUM>) on a skin-facing surface side of the absorber (<NUM>), wherein the top sheet (<NUM>) is formed of a hydrophobic nonwoven fabric on its skin side surface, and is provided with apertures at an opening ratio of <NUM> to <NUM>%, each aperture being <NUM> to <NUM> in aperture size,
an intermediate sheet disposed between the top sheet (<NUM>) and the absorber (<NUM>) for transferring a body fluid that has passed through the top sheet (<NUM>), to the absorber (<NUM>), and,
an absorbent (Q) mainly containing glycerin provided on a skin side surface of the intermediate sheet ,
wherein the absorbent (Q) is also provided on a non-skin side surface of the top sheet (<NUM>).