阅读说明：本技术 吸收性物品 (Absorbent article ) 是由 桥野夕贵 山下纯子 坂口智 于 2018-12-17 设计创作，主要内容包括：提供能够进一步确保穿用过程中的臀部侧的体液的吸收面积的吸收性物品。吸收性物品(10)具有：前后方向(L)；宽度方向(W),其与前后方向正交；前腰围区域(S1)；后腰围区域(S2)；下裆区域(S3),其配置于前腰围区域与后腰围区域之间；以及吸收芯(51),其至少设于下裆区域。用于对折吸收性物品的折叠线(FL)在下裆区域中沿着宽度方向延伸。高刚度区域(HR)在比折叠线靠后侧的位置设于包含宽度方向的中心的区域。高刚度区域由具有比折叠线(FL)与高刚度区域(HR)之间的区域的刚度高的刚度的区域规定。高刚度区域(HR)的前后方向的长度比从折叠线到高刚度区域的前端缘的长度(L1)长。(An absorbent article (10) is provided with a front-back direction (L), a width direction (W) orthogonal to the front-back direction, a front waist region (S1), a rear waist region (S2), a crotch region (S3) disposed between the front waist region and the rear waist region, and an absorbent core (51) provided at least in the crotch region, a fold line (F L) for folding the absorbent article in half extends in the width direction in the crotch region, a high stiffness region (HR) is provided in a region including the center in the width direction at a position on the rear side of the fold line, the high stiffness region is defined by a region having a higher stiffness than the region between the fold line (F L) and the high stiffness region (HR), and the length of the high stiffness region (HR) in the front-back direction is longer than the length (L1) from the fold line to the front end edge of the high stiffness region.)

1. An absorbent article having:

a front-back direction;

a width direction orthogonal to the front-rear direction;

a front waistline region;

a rear waist region;

a crotch region disposed between the front waistline region and the rear waistline region; and

an absorbent core disposed in at least the crotch region,

wherein the content of the first and second substances,

a folding line for folding the absorbent article in half extends in the width direction in the crotch region,

the high rigidity region is provided in a region including the center in the width direction at a position on the rear side of the folding line,

the high rigidity region is defined by a region having a rigidity higher than that of a region between the fold line and the high rigidity region,

the high rigidity region has a length in the front-rear direction that is longer than a length from the fold line to a front end edge of the high rigidity region.

2. The absorbent article of claim 1,

the front end edge of the high-rigidity area is located at a position 5-15 mm closer to the rear side than the folding line.

3. The absorbent article according to claim 1 or 2, wherein,

the absorbent core has a narrowing region that narrows inward in the width direction in the crotch region,

the high rigidity region is provided on the inner side in the width direction than the outer side edge of the absorbent core.

4. The absorbent article according to any one of claims 1 to 3, wherein,

the width-directional length of the high stiffness region is shorter than the width-directional maximum length of the absorbent core.

5. The absorbent article according to any one of claims 1 to 4, wherein,

the absorbent core has a narrowing region that narrows inward in the width direction in the crotch region,

the narrowed region extends in the front-rear direction relative to the fold line,

the high rigidity region is provided in a region overlapping with the narrowing region when viewed from the width direction.

6. The absorbent article according to any one of claims 1 to 5, wherein,

the high stiffness region is constituted by an embossed region in which at least the absorbent core is compressed in the thickness direction.

7. The absorbent article of claim 6,

the embossed region is defined by a region including a plurality of dot-shaped embossings recessed from the skin surface side toward the non-skin surface side.

8. The absorbent article according to any one of claims 1 to 7, wherein,

the absorbent core has a pair of grooves formed on both sides with respect to the center in the width direction of the absorbent article,

the pair of grooves extend in the front-rear direction with respect to the folding line.

9. The absorbent article of claim 8,

at least part of the high rigidity region is located on the rear side of the rear end edges of the pair of grooves.

10. The absorbent article according to claim 8 or 9,

the high rigidity region extends from a region overlapping the pair of grooves when viewed in the width direction to a position rearward of rear end edges of the pair of grooves.

11. The absorbent article according to any one of claims 8 to 10, wherein,

the high rigidity region is provided in a region between the pair of grooves in the width direction.

12. The absorbent article according to any one of claims 8 to 11, wherein,

the high rigidity region is adjacent to the pair of grooves in the width direction.

Technical Field

The present invention relates to an absorbent article such as a disposable diaper.

Background

An absorbent article such as a disposable diaper described in patent document 1 includes: a front waist region (ventral portion) disposed at the front waist of the wearer; a rear waist region (back side portion) disposed at the rear waist of the wearer; and a crotch region disposed in the crotch of the wearer. An absorbent core that absorbs body fluid of a wearer extends over a range from a front waistline region to a rear waistline region.

In the absorbent article described in cited document 1, the absorbent core includes a pair of non-fiber-stacked portions extending in the front-rear direction of the absorbent article. The pair of non-fiber-stacking portions are located at positions symmetrical with respect to a center line passing through the center in the width direction of the absorbent article and extending in the front-rear direction. The non-fiber-stacking portion extends in the front-rear direction in a range from the front waistline region to the rear waistline region. The non-fiber-stacking portion is formed of through-holes in which the core forming material constituting the absorbent core is completely absent.

Disclosure of Invention

The present inventors have conducted extensive studies and, as a result, have found the following problems. That is, in a state where the absorbent article is worn by the wearer, the crotch region of the absorbent article, particularly, the vicinity of the center in the front-rear direction of the absorbent article, is sandwiched between the legs of the wearer, and is deformed so as to be pushed and deformed toward the center in the width direction. With this deformation, the region on the rear side of the center in the front-rear direction of the absorbent article also deforms toward the center in the width direction. However, if the region on the rear side of the center in the front-rear direction of the absorbent article is deformed so as to go toward the center in the width direction, it is difficult to secure a space (area of the absorbent core) for receiving feces on the hip side, and leakage of feces is likely to occur.

Therefore, an absorbent article capable of further securing a space for receiving feces on the hip side during wearing is desired.

An absorbent article of one form has: a front-back direction; a width direction orthogonal to the front-rear direction; a front waistline region; a rear waist region; a crotch region disposed between the front waistline region and the rear waistline region; and an absorbent core provided at least in the crotch region. A folding line for folding the absorbent article in half extends in the width direction in the crotch region. The high rigidity region is provided in a region including the center in the width direction at a position on the rear side of the fold line. The high rigidity region is defined by a region having a rigidity higher than that of a region between the fold line and the high rigidity region. The high rigidity region has a length in the front-rear direction that is longer than a length from the fold line to a front end edge of the high rigidity region.

Drawings

Fig. 1 is a schematic view of an absorbent article according to an embodiment.

Fig. 2 is an expanded plan view of an absorbent article according to an embodiment.

Fig. 3 is a sectional view of the absorbent article taken along the line a-a of fig. 2.

Fig. 4 is a top view of an absorbent core of an absorbent article.

Figure 5 is a schematic view of an absorbent core in the lower crotch region subjected to forces inward in the width direction.

Detailed Description

(1) Brief description of the embodiments

At least the following matters will be made clear from the description of the present specification and the drawings.

An absorbent article of one form has: a front-back direction; a width direction orthogonal to the front-rear direction; a front waistline region; a rear waist region; a crotch region disposed between the front waistline region and the rear waistline region; and an absorbent core provided at least in the crotch region, wherein a fold line for folding the absorbent article in two extends in the width direction in the crotch region, a high stiffness region is provided in a region including the center in the width direction at a position rearward of the fold line, the high stiffness region is defined by a region having a stiffness higher than that of a region between the fold line and the high stiffness region, and the length of the high stiffness region in the front-rear direction is longer than the length from the fold line to the front end edge of the high stiffness region.

When the absorbent article is worn by a wearer, the crotch region of the absorbent article, particularly the vicinity of the center in the front-rear direction of the absorbent article, is sandwiched between the legs of the wearer and deformed so as to be pushed out of shape toward the center in the width direction. With this deformation, the region on the rear side of the center in the front-rear direction of the absorbent article also deforms toward the center in the width direction. Due to this deformation, the wearer's leg is easily moved during wearing.

In the absorbent article of this aspect, the high stiffness region that is longer in the front-rear direction than the length from the fold line to the front end edge of the high stiffness region is provided in a region that includes the center in the width direction at a position on the rear side of the fold line. The high-rigidity region has higher rigidity than the region between the fold line and the high-rigidity region, and therefore is difficult to deform toward the inside in the width direction. Therefore, the absorbent core is less likely to deform inward in the width direction in the high stiffness region and the region rearward of the high stiffness region. This makes it easy to secure a space for receiving feces on the hip side, and leakage of feces can be suppressed.

According to a preferred aspect, the front end edge of the high rigidity region is located 5 to 15mm behind the folding line.

The position of the folding line of the crotch region is a region strongly held by the wearer's legs, and this position is easily deformed inward, so that the wearer easily moves the legs during wearing. On the other hand, the region behind the position 5-15 mm behind the folding line is a region facing the vicinity of the buttocks of the wearer, and leakage of feces can be further suppressed by securing a space for receiving feces in this region.

According to a preferred aspect, the absorbent core has a narrowed region that is narrowed inward in the width direction in the crotch region, and the high stiffness region is provided inward of the outer edge of the absorbent core in the width direction.

The region on the inner side in the width direction than the narrowed region is likely to receive a force inward in the width direction due to the force received from both legs of the wearer. Since the high stiffness region is provided at a position inward of the outer edge of the absorbent core in the width direction, the absorbent core is less likely to deform inward in the width direction in the high stiffness region. This makes it easy to secure a space for receiving feces on the hip side, and leakage of feces can be suppressed. Further, if the high stiffness region is provided at a position inward of the outer edge of the absorbent core in the width direction, the high stiffness region is less likely to directly contact the wearer's legs, and therefore, discomfort given to the wearer can be suppressed.

According to a preferred aspect, the length of the high stiffness region in the width direction is shorter than the maximum length of the absorbent core in the width direction.

Thereby, the region on the outer side in the width direction of the high stiffness region deforms smoothly in accordance with the bending of the wearer's body. In other words, the absorbent core is bent in a cup shape in the width direction. Thus, the absorbent core is shaped to contain excrement such as body fluid, and leakage of body fluid is further suppressed.

According to a preferred aspect, the absorbent core has a narrowed region that is narrowed inward in the width direction in the crotch region, the narrowed region extending in the front-rear direction with respect to the folding line, and the high stiffness region is provided in a region that overlaps with the narrowed region when viewed in the width direction.

The absorbent core narrows over the range of movement of the wearer's legs, so that the wearer can easily move the legs. On the other hand, in the region on the rear side of the folding line, the high rigidity region is provided in a region overlapping with the narrowing region when viewed from the width direction. Thus, the absorbent core is less likely to be deformed in the width direction as it deviates from the movable range of the legs of the wearer toward the rear side. This can further secure the area of the absorbent core as it goes rearward.

According to a preferred aspect, the high stiffness region is constituted by an embossed region in which at least the absorbent core is compressed in the thickness direction.

The embossed region can be formed by embossing to press the absorbent core, and therefore, the high stiffness region can be formed without increasing the manufacturing cost of the absorbent article. In addition, since the embossed region is a region of the absorbent core that is difficult to deform, it is easy to secure the area of the absorbent core.

According to a preferred aspect, the embossed region is defined by a region including a plurality of dot-shaped embossings recessed from the skin surface side toward the non-skin surface side.

Since the embosses formed in the embossed regions are recessed from the skin surface side toward the non-skin surface side, the high-rigidity regions are likely to be curved convexly toward the non-skin surface side. Therefore, the high stiffness region can ensure the area of the absorbent core and also can be gently deformed convexly toward the non-skin surface side in accordance with the bending of the wearer's body. Thus, the absorbent core is easily shaped to contain excrement such as body fluid, and leakage of body fluid is further suppressed.

According to a preferred aspect, the absorbent core has a pair of grooves formed on both sides with respect to the center in the width direction of the absorbent article, and the pair of grooves extend in the front-rear direction with respect to the folding line.

The absorbent core is deformed so as to close the pair of grooves by being sandwiched between the legs of the wearer, and thus the vicinity of the folding line in the crotch region of the absorbent core is easily deformed so as to be crushed toward the center in the width direction. Thereby, the wearer can easily move the legs during wearing.

According to a preferred aspect, at least part of the high rigidity region is located on the rear side of the rear end edges of the pair of grooves.

Since the high stiffness region is located on the rear side of the pair of grooves that facilitate the inward deformation of the absorbent core in the width direction, both the ease of movement of the legs of the wearer in the crotch region and the securing of the area of the absorbent core on the hip side can be achieved.

According to a preferred aspect, the high rigidity region extends from a region overlapping the pair of grooves when viewed in the width direction to a position rearward of rear end edges of the pair of grooves.

The region in the lower crotch region where the folding line is formed becomes the portion most apt to be deformed in the width direction due to the pair of grooves. The high-rigidity region overlaps the pair of grooves when viewed in the width direction, and is a portion that is less likely to be deformed in the width direction than the region where the fold line is formed. Further, the portion of the high stiffness region extending to the position further to the rear side than the rear end edges of the pair of grooves is a portion that is more difficult to be deformed in the width direction because the pair of grooves is not provided. In this way, the absorbent core becomes difficult to shape in the width direction as it goes from the position of the folding line in the crotch region toward the rear. This can further secure the area of the absorbent core as it goes rearward.

According to a preferred aspect, the high rigidity region is provided in a region between the pair of grooves in the width direction.

According to this aspect, by providing the high stiffness region between the pair of grooves which become the starting points of the deformation of the absorbent core, the entire high stiffness region can be flattened, and the area can be further ensured.

According to a preferred aspect, the high rigidity region is adjacent to the pair of grooves in the width direction.

According to this aspect, since the high stiffness region is adjacent to the pair of grooves, the entire region between the pair of grooves can be flattened, and the area of the absorbent core can be further ensured.

(2) Structure of absorbent article

Hereinafter, an absorbent article according to an embodiment will be described with reference to the drawings. In the following description of the drawings, the same or similar reference numerals are given to the same or similar parts. The drawings are schematic, and it should be noted that the scale of each dimension and the like are different from those in reality. Therefore, specific dimensions and the like should be determined with reference to the following description. In addition, the drawings may include portions having different dimensional relationships and ratios from each other.

Fig. 1 is a schematic view of an absorbent article according to an embodiment. Fig. 2 is an expanded plan view of an absorbent article according to an embodiment. Fig. 2 shows an extended state in which the absorbent article is extended to a state in which no wrinkles are formed in an extended state in which the side locking portions described later are extended. Fig. 3 is a sectional view of the absorbent article taken along the line a-a of fig. 2. Fig. 4 is a top view of an absorbent core of an absorbent article.

The absorbent article 10 has a front-back direction L and a width direction W that are orthogonal to each other in the unfolded state, the front-back direction L is defined by a direction extending toward the front (ventral) side of the body and toward the back (dorsal) side of the body, in other words, the front-back direction L is a direction extending in the front-back direction in the unfolded absorbent article 10, and the absorbent article 10 has a thickness direction T that is orthogonal to both the front-back direction L and the width direction W.

The absorbent article 10 has a front waistline region S1, a rear waistline region S2, and a crotch region S3. The front waist region S1 is a region opposing the front waist of the wearer. The back waist region S2 is a region opposing the back waist of the wearer. The crotch region S3 is a region located in the crotch of the wearer and disposed between the front waistline region S1 and the rear waistline region S2.

In the present embodiment, the absorbent article 10 may have a front waistline member 20, a back waistline member 30, and an absorbent main body 40. The front waistline member 20 is disposed in the front waistline region S1. The rear waistline member 30 is disposed in the rear waistline region S2. The front waistline member 20 and the back waistline member 30 may be formed of a sheet such as a nonwoven fabric, for example.

The front waistline member 20 may have, for example, a non-skin side sheet overlapped in two layers and a cover sheet 70 overlapped in two layers. The non-skin-side sheet and the cover sheet 70 are formed of an integral sheet. Specifically, the cover sheet 70 is configured by folding back the non-skin side sheet at the front end edge of the front waistline region S1. Alternatively, the non-skin-side sheet and the cover sheet 70 may be constituted by separate sheets.

In the form shown in fig. 2, a 1 st elastic member 71 extending in the width direction W is provided in the vicinity of a rear end edge 70e of the cover sheet 70. The cover sheet 70 may be joined to the absorbent main body 40 at a position on the front side of the 1 st elastic member 71 by a joining member 74 such as a hot melt adhesive.

It is possible that the folding line F L that bisects the front and back of the absorbent article 10 passes through the crotch region s3 and the folding line F L extends in the width direction W, that is, in the state shown in fig. 1, the absorbent article 10 is folded in two with the folding line F L extending in the width direction W as a base point.

The side locking portions 60 may be provided at the ends in the width direction W of the front waistline region S1 and at the ends in the width direction W of the rear waistline region S2. The side locking portions 60 are defined by portions that lock the ends in the width direction W of the front waistline region S1 and the ends in the width direction W of the rear waistline region S2 to each other.

In the absorbent article 10, a waist opening 62 through which the waist of the wearer passes and a pair of leg openings 66 into which the legs of the wearer are inserted are formed in a state in which the end in the width direction W of the front waistline region S1 and the end in the width direction W of the rear waistline region S2 are locked by the side locking portions 60, a waist opening edge 64 forming the waist opening 62 may be defined by the front end edge of the front waistline member 20 and the rear end edge of the rear waistline member 30, and a leg opening edge 68 forming the leg opening 66 may be defined by the side edges 40l of the absorbent body 40 extending in the front-rear direction L, the side edge 20l of the front waistline member 20 on the rear side, and the side edge 30l of the rear waistline member 30 on the front side.

Here, fig. 2 shows a state in which the absorbent article 10 is unfolded by releasing the engagement of the side engagement portion 60, the side engagement portion 60 may extend in the front-rear direction L in each of the front waistline member 20 and the rear waistline member 30, in this case, the boundary between the front waistline region S1 and the crotch region S3 may be defined by the rear end edge of the side engagement portion 60 provided in the front waistline member 20, and similarly, the boundary between the rear waistline region S2 and the crotch region S3 may be defined by the front end edge of the side engagement portion 60 provided in the rear waistline member 30.

The rear waist region S2 may be provided with 1 or more elastic members 32 that are stretchable in the width direction W. Alternatively, the elastic members 32 of the rear waist region S2 may be formed of a stretchable sheet stretchable in the width direction W.

In addition, 1 or more of the 2 nd elastic members 22 which are stretchable in the width direction W may be provided in the front waistline region S1. The 2 nd elastic member 22 is composed of an elastic thread. The 2 nd elastic member 22 may be provided on the non-skin surface side of the absorbent body 40 in the front waistline region S1. Further, the front waistline region S1 may be provided with a stretch panel 90 which is stretchable in the width direction W. The stretch panel 90 may be provided in a region not overlapping with the 2 nd elastic member 22 in the thickness direction T.

The absorbent main body 40 is disposed across the front waistline member 20 and the back waistline member 30. That is, the absorbent body 40 extends in the front waistline region S1, the rear waistline region S2, and the crotch region S3.

The absorbent main body 40 may be configured independently of the front waistline member 20 and the back waistline member 30. In this case, the absorbent main body 40 may be joined to the front waistline member 20 and the back waistline member 30 in the front waistline region S1 and the back waistline region S2, respectively.

The absorbent main body 40 includes at least an absorber 50. The absorbent body 40 may have a skin sheet 41 positioned on the skin surface side of the absorbent body 50 and a non-skin sheet 42 positioned on the non-skin surface side of the absorbent body 50. The skin sheet 41 may cover the absorbent body 50 on the skin surface side of the absorbent body 50. The non-skin sheet 42 may cover the absorbent body 50 on the non-skin surface side of the absorbent body 50.

The skin-facing sheet 41 may be formed of a liquid-permeable sheet such as a nonwoven fabric or an apertured plastic film. The skin sheet 41 may be formed of 1 sheet. Alternatively, the skin-facing sheet 41 may be formed of a laminate sheet in which a plurality of sheets are laminated.

The non-skin-facing sheet 42 may include a liquid-impermeable sheet. The liquid-impermeable sheet may be formed of a liquid-impermeable film such as a plastic film. The non-skin-facing sheet 42 may be formed of 1 sheet. Alternatively, the non-skin-facing sheet 42 may be a laminate sheet in which a plurality of sheets are laminated. In this case, at least 1 of the plurality of sheets may have liquid impermeability.

The absorbent 50 may comprise an absorbent core 51 and a core wrap 52 covering the absorbent core. The absorbent core 51 may for example comprise comminuted pulp or superabsorbent polymer (SAP) or mixtures thereof. The core wrap 52 may be formed of, for example, tissue paper or nonwoven fabric.

The absorbent core 51 is disposed at least in the crotch region S3. preferably, the absorbent core 51 may extend in the front-to-rear direction L over a range from the front waistline region S1 to the rear waistline region S2.

The absorbent core 51 may have a narrowed region CA. CA that is narrowed inward in the width direction W at least in the crotch region S3 may extend in the front-rear direction L with respect to the folding line F L the narrowest portion L a in the width direction W of the absorbent core 51 may be provided in the crotch region S3. further, the narrowest portion of the absorbent core 51 may also extend in the front-rear direction L. in this case, the folding line FW may pass through the narrowed region CA of the absorbent core 51.

The absorbent main body 40 may have side sheets 43 covering both side portions of the skin-facing sheet 41 in the width direction W. The side sheet 43 may be formed of a sheet such as a nonwoven fabric or an apertured plastic film.

The absorbent main body 40 may have a pair of leakage preventing cuffs 46, the pair of leakage preventing cuffs 46 extend in the front-rear direction L between the front waistline region S1 and the rear waistline region S2 and are disposed on both sides with respect to the center in the width direction W of the absorbent article 10, and the pair of leakage preventing cuffs 46 are defined by a standing portion (portion of range B in fig. 2) that can stand up toward the skin of the wearer.

The rib openings 46 may be formed of the side sheet 43 and the 3 rd elastic member 47 provided on the side sheet 43. The 3 rd elastic member 47 is configured to be stretchable in the front-rear direction. The 3 rd elastic member 47 may contain 1 or more elastic threads. As a specific example, an inner portion in the width direction W of the side sheet 43 is folded back to the outside, and the 3 rd elastic member 47 is disposed at the folded-back portion of the side sheet 43. The inner edges of the side sheets 43 in the width direction W are not joined to the skin surface sheet 41, and constitute free ends that can rise from the skin surface sheet 41.

The rear side of the rear end edges of the pair of leakage preventing rib openings 46 has rib opening joint portions 46j that are not joined so as to rise toward the skin surface side. In the illustrated example, the rib junction 46j is defined by the junction between the side sheet 43 and the skin surface sheet 41. The side sheet 43 and the skin surface sheet 41 may be bonded by an adhesive such as a hot melt adhesive. Further, although not shown, the front sides of the front end edges of the pair of leakage preventing cuffs 46 may have cuff joining portions joined so as not to rise toward the skin surface side.

The leakage preventing rib port 46 has a rising fulcrum 46a and a rising apex 46b, the rising fulcrum 46a and the rising apex 46b extend in the front-rear direction L in a range from the front waistline region S1 to the rear waistline region S2, the rising fulcrum 46a is a point which does not rise and corresponds to a root of the leakage preventing rib port 46, in the present embodiment, the rising fulcrum 46a corresponds to a line on the inner side in the width direction W of a joining portion of the side sheet 43 and the skin surface sheet 41, and the rising apex 46b corresponds to an apex of the leakage preventing rib port 46 when the leakage preventing rib port 46 rises, that is, the rising apex 46b is a free end of the leakage preventing rib port 46.

The absorbent main body 40 may have a pair of gathers 48 in regions outside the pair of leg cuffs 46 in the width direction W, and the pair of gathers 48 may extend in the front-rear direction L in a range from the front waistline region S1 to the back waistline region S2.

The pair of gathers 48 may be constituted by the 4 th elastic member 49 attached to the sheet constituting the absorbent main body 40, the 4 th elastic member 49 may be, for example, 1 or a plurality of elastic strings, and instead, the 4 th elastic member 49 may be, for example, an elastic sheet having elasticity, the 4 th elastic member 49 is joined to the sheet constituting the absorbent main body 40 in a state of being stretched from a natural state, and thereby, the 4 th elastic member 49 acts to contract the absorbent main body 40 in the front-rear direction L, and the gathers can be formed.

(3) Absorbent core structure

Next, the structure of the absorbent core 51 will be described in detail. Fig. 4 is a plan view of the absorbent core 51 of the absorbent article 10.

The absorbent core 51 may have a pair of rear side slits 56 on both sides across the center in the width direction W in the rear waist region S2. In addition, the absorbent core 51 may have a central slit 59 between the pair of rear side slits 56. The absorbent core 51 may have a pair of side slits 58 located at both outer edges in the width direction W of the absorbent core 51. Here, the gap is a region where the absorbent material constituting the absorbent core 51 is substantially zero.

The absorbent core 51 may have a pair of grooves 54 formed on both sides with respect to the center in the width direction W of the absorbent article 10. Here, the "groove" of the absorbent core 51 is a concept including both a concave portion formed in the absorbent material constituting the absorbent core 51 and a region where the absorbent material has a weight per unit area of zero.

According to this embodiment, the narrowed region CA of the absorbent core 51 and the pair of grooves 54, the folding line F L of the crotch region S3 and the region on the front side of the folding line F L are sandwiched between the wearer' S legs and deformed so as to be pushed away toward the center in the width direction W, that is, the absorbent core 51 is easily deformed inward in the width direction W so that the grooves 54 are closed (see fig. 5).

Here, as described above, the narrowest portion L a where the length in the width direction W of the absorbent core 51 is the shortest in the narrowed region CA may extend in the front-rear direction L, and it is preferable that the narrowest portion L a of the absorbent core 51 extends to a position rearward of the folding line F L, whereby a region of the absorbent core 51 that is likely to go out of shape in the width direction becomes longer.

The absorbent core 51 may have a rear widened portion 54r in which the interval between the pair of grooves 54 increases toward the rear, and the front end edge 54S of the rear widened portion 54r may be located in a region overlapping the narrowed region CA at a position on the front side of the folding line F L, and more preferably, the front end edge 54S of the rear widened portion 54r may be located in a region overlapping the narrowest portion L a of the narrowed region CA at a position on the front side of the folding line F L, and here, the front end edge 54S of the rear widened portion 54r is defined by a point of the crotch region S3 at which the interval between the pair of grooves 54 increases toward the rear from the region where the interval between the pair of grooves 54 is the narrowest.

Since the front end edge 54s of the rearward widening portion 54r is located in the region overlapping the narrowed region CA, the absorbent core 51 can be easily deformed inward in the width direction W by the pair of grooves 54 in the rear portion of the narrowed region CA, and the width between the pair of grooves 54 can be widened toward the rear side, i.e., toward the hip portion of the wearer. Thus, the absorbent core 51 is less likely to be deformed inward in the width direction in the rear portion of the narrowed region CA, i.e., in the region where a large amount of body fluid is deposited, and therefore the area of the absorbent core 51 in this region can be secured.

The length between the boundary lines (hip transverse grooves) between the buttocks and the legs of the wearer is increased from the crotch of the wearer toward the back side, and the front end edge 54s of the rear widening portion 54r is positioned on the front side of the folding line F L, so that the width between the pair of grooves 54 can be increased in accordance with the increase in length between the boundary lines (hip transverse grooves) between the buttocks and the legs of the wearer.

Further, it is preferable that the rear side edges of the pair of grooves 54 are located within the range of the narrowed region CA in the front-rear direction L, that is, the rear side edges of the pair of grooves 54 are located within the range of the narrowed region CA, and the pair of grooves 54 do not extend to the rear side of the narrowed region CA, and therefore, in the region rearward of the movable range of the legs of the wearer, the absorbent core 51 is less likely to be deformed inward in the width direction, and the area of the absorbent core 51 is more likely to be secured.

In the illustrated example, the rear side edges of the pair of grooves 54 are located rearward of the narrowest portion L a of the absorbent core 51, that is, the rear side edges of the pair of grooves 54 are located in a region where the width of the absorbent core 51 is enlarged, and therefore, the region where the absorbent core 51 is less likely to move inward in the width direction gradually enlarges toward the rear, and therefore, the area of the absorbent core 51 is more likely to be secured toward the rear from the folding line.

The interval between the pair of grooves 54 in the crotch region S3 may be 1/4 or more of the maximum width in the width direction W of the absorbent core 51. This ensures the gap between the pair of grooves 54. This also allows the crotch region S3 to maintain the minimum area of the absorbent core 51 between the pair of grooves 54.

The pair of grooves 54 do not reach the outer edges in the width direction W of the absorbent core 51, and more preferably, the outer edges in the width direction W of the pair of grooves 54 are located inward in the width direction W from the narrowest portion L a of the absorbent core 51, whereby the absorbent core 51 can be prevented from being divided by the pair of grooves 54, and the absorbent cores 51 adjacent to each other via the grooves 54 can be prevented from being deformed and overlapped with each other, and therefore, the absorbent core 51 can easily take a cup shape that easily holds bodily fluids and a curved shape that corresponds to the shape of the body in the width direction W.

Preferably, a pair of imaginary lines I L extending the pair of grooves 54 rearward in the direction in which the pair of grooves 54 extend, i.e., the direction in which the rear widening portion 54r extends, pass outside the rib joint 46j in the width direction W, and the imaginary line I L is a line at which wrinkles are easily formed, and the wrinkles become starting points of inward running of the absorbent core 51 in the width direction W, i.e., wrinkles of the absorbent core 51 are easily formed on the imaginary line I L, and the imaginary line I L passes outside the rib joint 46j in the width direction W, so that the wrinkles of the absorbent core 51 are hardly formed in a region between the rib joint 46j, and therefore, in the region of the rear end portion of the pair of leakage preventing ribs 46, the absorbent core 51 is hardly run inside in the width direction in the entire region between the pair of leakage preventing ribs 46, and the area of the absorbent core is easily secured.

Preferably, the absorbent core 51 has a front widening portion 54f in which the interval between the pair of grooves 54 widens toward the front. Since the distance between the pair of grooves 54 serving as the deformation starting points of the absorbent core 51 is also increased on the ventral side, the area of the absorbent core can be easily secured on the ventral side, and leakage of bodily fluid can be further suppressed.

The front side edges of the pair of grooves 54 may be positioned in the crotch region S3 and may not reach the front waistline region S1. Preferably, the front side edges of the pair of grooves 54 are located in the narrowed area CA of the absorbent core 51.

The absorbent core 51 may have the high stiffness region HR. the high stiffness region HR is provided in a region including the center in the width direction W at a position on the rear side of the fold line F L the high stiffness region HR is defined by a region having a higher stiffness than the region between the fold line F L and the high stiffness region HR may preferably be constituted by an embossed region in which the absorbent core 51 is compressed in the thickness direction.

It is preferable that the length of the front-rear direction L of the high stiffness region HR is longer than the length L from the folding line F L to the front end edge of the high stiffness region HR. in a state where the absorbent article 10 is worn by the wearer, the crotch region S3 of the absorbent article, particularly, the vicinity of the center of the front-rear direction L of the absorbent article 10 is sandwiched between the legs of the wearer, and is deformed so as to be pushed out toward the center of the width direction W. with this deformation, the region on the rear side than the center of the front-rear direction L of the absorbent article 10 is also deformed toward the center of the width direction W. with this deformation, the legs of the wearer are easily moved during wearing (see also fig. 5). according to this aspect, the high stiffness region HR is provided in the front-rear direction L in a region including the center of the width direction W at a position on the rear side than the length L from the folding line F L to the front end edge of the high stiffness region HR 8292. the high stiffness region HR has a region HR 4, and therefore, it is difficult to be pushed out of the region toward the inside of the width direction of the absorbent core 51, and it is difficult to be deformed toward the rear side of the region to be able to be pushed out toward the high stiffness region HR 51.

Preferably, the front end edge of the high stiffness region HR is located 5 to 15mm behind the folding line F L, the folding line F L of the crotch region S3 is a region strongly sandwiched by the legs of the wearer, and this position is easily deformed inward, so that the wearer can easily move the legs during wearing, and on the other hand, the region 5 to 15mm behind the folding line F L is a region facing the vicinity of the buttocks of the wearer, and leakage of body fluid can be further suppressed by securing the area of the absorbent core 51 in this region.

The high stiffness region HR may be provided at least partially, preferably entirely, in a region overlapping the narrowing region CA when viewed in the width direction W, and the absorbent core 51 narrows in a range in which the legs of the wearer can move, so that the wearer can easily move the legs, while the high stiffness region HR is provided in a region on the rear side of the folding line F L in a region overlapping the narrowing region CA when viewed in the width direction W, and therefore, the absorbent core 51 is less likely to be deformed in the width direction W as it deviates from the movable range of the legs of the wearer, and therefore, the area of the absorbent core 51 can be further secured as it faces the rear, the rear of the absorbent core 51 is a portion facing the buttocks of the wearer, and therefore, in the width direction W, the rear of the absorbent core 51 is preferably wider than the front portion in order to cover the buttocks, and the rear of the absorbent core 51 is sometimes attached with feces, and the feces cannot be absorbed by the absorbent core 51.

Preferably, at least part of the high stiffness region HR is located on the rear side of the rear end edges of the pair of grooves 54. Since the high stiffness region HR is located more rearward than the pair of grooves 54 that facilitate the inward deformation of the absorbent core 51 in the width direction W, both the ease of movement of the legs of the wearer in the crotch and the securing of the area of the absorbent core 51 on the hip side can be achieved.

Further, it is more preferable that the high rigidity region HR extends from a region overlapping the pair of grooves 54 when viewed from the width direction W to a position further to the rear side than the rear end edges of the pair of grooves 54, that is, at least a part of the high rigidity region HR may overlap the pair of grooves 54 when viewed from the width direction W, a region where the folding line F L is formed in the crotch region S3 becomes a portion most likely to be deformed in the width direction W due to the pair of grooves 54, a region where the high rigidity region HR overlaps the pair of grooves 54 when viewed from the width direction W becomes a portion less likely to be deformed in the width direction W than a region where the folding line F L is formed due to the high rigidity region HR, and a portion where the high rigidity region HR extends to a position further to the rear side than the rear end edges of the pair of grooves 54 becomes a portion more likely to be deformed in the width direction W due to the absence of the pair of grooves 54, so that the absorbent core 51 gradually becomes more difficult to be deformed in the width direction W as it goes from the position of the folding line F L of the crotch region S3 toward the rear side, and thereby the absorbent core 51 can be formed more widely.

The length of the high stiffness region HR in the width direction W is shorter than the maximum length of the absorbent core 51 in the width direction W. Thus, the region on the outer side in the width direction of the high stiffness region HR deforms smoothly in accordance with the bending of the wearer's body. In other words, the absorbent core 51 is curved in a cup shape in the width direction. Thus, the absorbent core 51 has a shape that accommodates excrement such as body fluid, and leakage of body fluid is further suppressed.

The high stiffness region HR is preferably provided inward of the outer edge of the absorbent core 51 in the width direction W, more preferably inward of the outer edge of the narrowest portion L a of the absorbent core 51, and a region inward of the narrowed region CA in the width direction W is likely to receive a force inward in the width direction W due to a force received from both legs of the wearer.

More preferably, the high rigidity region HR is provided in a region between the pair of grooves 54 in the width direction W. In this case, parts of the high rigidity region HR may be located on the pair of grooves 54. By providing the high stiffness region HR between the pair of grooves 54 which become the starting points of deformation of the absorbent core 51, the absorbent core 51 is easily deformed in the width direction in the crotch region S3, and the high stiffness region HR can be flattened as a whole to further secure the area of the absorbent core 51.

More preferably, the high rigidity region HR is adjacent to the pair of grooves 54 in the width direction W. This flattens the entire region between the pair of grooves 54, and further ensures the area of the absorbent core 51.

As previously mentioned, the high stiffness region HR may be constituted by an embossed region. Since the embossed region can be formed by embossing to press the absorbent core 51, the high stiffness region HR can be formed without increasing the manufacturing cost of the absorbent article. In addition, since the embossed region is a region of the absorbent core 51 that is difficult to stretch, it is easy to secure the area of the absorbent core 51.

Preferably, the embossed region is defined by a region including a plurality of dot-shaped embosses recessed from the skin surface side toward the non-skin surface side. When the emboss formed in the embossed region is depressed from the skin surface side toward the non-skin surface side, the high stiffness region HR is likely to be curved convexly toward the non-skin surface side. Therefore, the high stiffness region HR can ensure the area of the absorbent core 51 and also can be gently deformed convexly toward the non-skin surface side in accordance with the bending of the wearer's body. This makes the absorbent core 51 easy to take a shape that accommodates excrement such as body fluid, and further suppresses leakage of body fluid.

In the present embodiment, the numerical value relating to the "length" of each portion of the absorbent article 10 is measured in the extended state in which the wrinkles (except the folding line F L) of the absorbent article 10 that are developed by extending the absorbent article to the release-side locking portion 60 are eliminated.

The rigidity of each portion of the absorbent core 51 can be measured by a measurement method of the gurley stiffness specified in JIS L-1096 (2010), for example, a test piece having a width of 25mm and a length of 38mm is first collected from the absorbent core 51 to be measured, a glass tape is attached to one end portion of the test piece, that is, a portion held by a chuck of a Galley softness tester, then, a lower end of the chuck of the Galley softness tester is aligned with a movable arm scale corresponding to the size of the test piece, then, one side of the test piece to which the glass tape is attached is held by the chuck, at this time, the length of a portion of the test piece in contact with the weight of the Galley softness tester is set to 5 to 6mm, then, the weight and the attachment position of the auxiliary weight are selected so that the scale of the Galley softness tester is set between 3 to 6, the auxiliary weight is attached, then, when the test piece is positioned on the left side of the pendulum, the movable arm is pressed to operate, when the test piece is positioned on the right side of the pendulum, the movable arm is pressed to open and closed, and then, the movable arm is rotated to measure the test piece for both left and the movable arm.

The stiffness of the test piece can be calculated from the following numerical expression.

Stiffness (mN) ═ 25.4 × Wa +50.8 × Wb +101.6 × Wc) × (L× 25.4.4)²×3.375×10^-5×(RGr+RGl)/(2×d)

Where Wa is the weight (g) of the weight attached to the uppermost attachment position, Wb is the weight (g) of the weight attached to the central attachment position, Wc is the weight (g) of the weight attached to the lowermost attachment position, L is the movable arm scale (inch). D is the width (mm) of the test piece, RGr is the value of the scale at the moment when the rotating rod of the pendulum separates from the test piece when the pendulum rotates to the right, RGl is the value of the scale at the moment when the rotating rod of the pendulum separates from the test piece when the pendulum rotates to the left, and the stiffness of each portion of the absorbent core 51 is defined from the obtained stiffness according to the above measurement.

As described above, the present invention is explained in detail by using the above embodiments, and it is obvious to those skilled in the art that the present invention is not limited to the embodiments explained in the present specification. The present invention can be implemented as modifications and variations without departing from the spirit and scope of the present invention defined by the claims. Therefore, the description of the present specification is for illustrative purposes and is not intended to limit the present invention in any way.

For example, in the above embodiment, the absorbent main body 40 is configured independently of the front waistline member 20 and the back waistline member 30. Alternatively, the absorbent main body 40 may be integrally formed with the front waistline member 20 and the back waistline member 30.

In the above embodiment, the absorbent article 10 is a so-called pants-type absorbent article having the side locking portions 60. Alternatively, the absorbent article 10 may be a belt-type absorbent article. In this case, the absorbent article 10 may have a fastening tape that detachably fixes the front waistline region S1 and the rear waistline region S2 to each other without the side locking portion 60.

According to the above embodiment, an absorbent article capable of further securing a space for receiving feces on the hip side during wearing can be provided.

The entire contents of japanese patent application No. 2017-254984 filed on 12/28 2017 are incorporated herein by reference.

Industrial applicability

According to this aspect, an absorbent article capable of further ensuring the absorption area of body fluid on the hip side during wearing can be provided.

Description of the reference numerals

10. An absorbent article 40, an absorbent body 50, an absorber 51, an absorbent core 54, a groove, CA, a narrowing region, HR, a high stiffness region, S1, a front waistline region, S2, a rear waistline region, S3, a crotch region, F L, a folding line, L, the front-rear direction, W, the width direction, T, the thickness direction.