JP7244353B2 - absorbent article - Google Patents

Description

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

2. Description of the Related Art Absorbent articles such as sanitary napkins, which are used inside underwear, have an absorbent body for absorbing liquids such as menstrual blood. The absorbent body has an absorbent core that absorbs and diffuses the liquid, and a core wrap sheet that covers the absorbent core. For example, Patent Literature 1 discloses an absorbent article in which a central region of the absorbent core facing the wearer's excretion region is provided with a protrusion for enhancing fit to the excretion region.

JP 2014-104093 A

Absorbent articles such as sanitary napkins are required to have a high fit in various postures of the wearer, such as sleeping and sitting. For example, when the center of gravity shifts backward while lying on one's stomach or in a sitting position, a gap is likely to occur between the front part of the absorbent article and the front part of the wearer's excretion area, and the excreted liquid material can be absorbed from the front. Leakage is a concern.

An object of the present invention is to provide an absorbent article capable of preventing leakage from the front part.

An absorbent article according to one embodiment of the present invention is a body having a liquid-permeable topsheet, a backsheet, and an absorbent body having an absorbent core and disposed between the topsheet and the backsheet. and has a longitudinal direction corresponding to the fore-and-aft direction of the wearer and a lateral direction orthogonal to the longitudinal direction.
The absorbent core is
a front core portion and a rear core portion located at both ends in the vertical direction;
and an intermediate core portion positioned between the front core portion and the rear core portion and having a width narrower than that of the front core portion and the rear core portion.
The intermediate core portion is
a high basis weight portion located in the laterally central portion and protruding toward the backsheet;
a low basis weight portion having a basis weight lower than the high basis weight portion and located on the lateral side of the high basis weight portion;
In the laterally central portion, the basis weight of the front core portion is higher than the basis weight of the rear core portion.

As described above, according to the absorbent article of the present invention, it is possible to prevent leakage from the front portion.

It is a perspective view showing an absorbent article of one embodiment of the present invention. Fig. 2 is a plan view showing the absorbent article; 3 is a cross-sectional view taken along line III-III in FIG. 2; FIG. FIG. 4 is a diagram showing the absorbent core of the absorbent article, and is a rear view as seen from the lower surface side. 5A and 5B are cross-sectional views schematically showing the structure of an intermediate core portion of the absorbent core, FIG. 5A showing the state when the absorbent core is not worn, and FIG. FIG. 5 is a cross-sectional view taken along line VI-VI of FIG. 4; FIG. 4 is a plan view showing the absorbent article, showing the positional relationship between the wing portions of the absorbent article and the absorbent core.

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

[Overall configuration of napkin]
The absorbent article 1 shown in FIGS. 1 and 2 includes a main body M, a pair of wing portions W, a pair of three-dimensional guards G, a pair of rear flap portions F, and a compression groove portion E. The absorbent article 1 is configured as a sanitary napkin and is hereinafter referred to as napkin 1 .
The napkin 1 has a longitudinal direction X corresponding to the front-rear direction of the wearer and a lateral direction Y corresponding to the left-right direction of the wearer and orthogonal to the longitudinal direction X. As shown in FIG. Furthermore, the napkin 1 has a thickness direction Z orthogonal to both the longitudinal direction X and the lateral direction Y. As shown in FIG. In this specification, regarding the thickness direction Z, the side close to the wearer's skin when worn is sometimes referred to as the upper side, and the side closer to the clothing is referred to as the lower side.
The napkin 1 may be used while sleeping, and may have a length of 30 cm or more along the longitudinal direction X, for example.

The main body M extends along the longitudinal direction X and is secured to the inner surface of the wearer's undergarment when worn. The main body M has an absorber 11, which will be described later, and has a function of absorbing liquids such as menstrual blood of the wearer (hereinafter also referred to as "liquid").

The three-dimensional guard G is provided on the lateral Y peripheral edge of the main body M and arranged to extend in the longitudinal direction X. As shown in FIG. The three-dimensional guard G stands up in the thickness direction Z when worn, and can prevent liquid leakage in the lateral direction Y. In addition, "standing in the thickness direction" means standing toward the wearer.

The compressed groove portion E is formed by being compressed downward in the thickness direction Z from a surface sheet 12, which will be described later, and configured to surround the peripheral portion of the main body M, for example.
The wing portion W is configured to largely protrude outward in the horizontal direction Y from the main body M. As shown in FIG.
The rear flap portion F is configured to bulge outward in the lateral direction Y at the rear portion of the main body M. As shown in FIG.
In addition, the napkin 1 may not have at least one of the wing portion W, the three-dimensional guard G, the compressed groove portion E, and the rear flap portion F.

As shown in FIG. 3, the napkin 1 includes an absorbent body 11, a topsheet 12, a backsheet 13, and a pair of sidesheets 14. As shown in FIG. In the main body M, the napkin 1 has a configuration in which a backsheet 13, an absorbent body 11, and a topsheet 12 are laminated in the thickness direction Z. As shown in FIG. These structures are appropriately joined and integrated by, for example, joining with an adhesive, heat sealing, etc., and embossing with the compressed groove portion E, or the like.

The absorbent body 11 extends along the longitudinal direction X and is arranged between the topsheet 12 and the backsheet 13 . The absorber 11 absorbs the liquid from the surface sheet 12 and diffuses it inside to retain the liquid.
The absorbent body 11 has an absorbent core 16 and a core wrap sheet 17 .
The absorbent core 16 may be formed of, for example, a fiber assembly composed of hydrophilic fibers such as pulp fibers, or may have a structure in which the fiber assembly holds a water-absorbent polymer. .
The core wrap sheet 17 covers the absorbent core 16 and has a function of retaining the shape of the absorbent core 16, for example. The core wrap sheet 17 is formed of, for example, tissue paper-like thin and soft paper, liquid-permeable nonwoven fabric, or the like.

The surface sheet 12 is configured as a liquid-permeable sheet material, and is arranged above the absorbent body 11 in the thickness direction Z. As shown in FIG. Between the topsheet 12 and the absorber 11, there are various factors such as improvement of liquid permeability from the topsheet 12 to the absorber 11, prevention of liquid absorbed by the absorber 11 from returning to the topsheet 12, and the like. From this point of view, a second sheet (sublayer sheet) may be arranged.

The backsheet 13 is arranged below the absorber 11 in the thickness direction Z. As shown in FIG. The backsheet 13 is joined to the topsheet 12 and the sidesheets 14, for example, at the peripheral edges thereof by means of an adhesive, heat sealing, or the like. The backsheet 13 may be joined to the absorbent body 11 with an adhesive or the like.

A body adhesive portion 18 is provided on the outer surface of the back sheet 13 in the main body M, and a wing adhesive portion 19 is provided on the outer surface of the back sheet 13 in the wing portion W. These main body adhesive portion 18 and wing adhesive portion 19 have a function as anti-slip material for fixing the napkin 1 to clothes. These adhesive portions 18 and 19 are formed, for example, by coating the backsheet 13 with an adhesive such as a hot-melt adhesive. Although not shown, the napkin 1 may further include a rear flap adhesive portion provided on the rear flap portion F.

A pair of side sheets 14 face each other in the lateral direction Y with the top sheet 12 interposed therebetween, and are arranged on the peripheral edge of the napkin 1 in the lateral direction Y. As shown in FIG. The side sheet 14 can be formed of a nonwoven fabric, a resin film, or the like. The side sheet 14 preferably has functions such as liquid impermeability, water repellency, and moisture permeability, and may have a laminated structure or a single layer structure.
In this embodiment, the side sheet 14 constitutes a three-dimensional guard G by folding the lateral Y peripheral portion outward. The side sheet 14 is joined to the top sheet 12 with an adhesive 15 at the base of the three-dimensional guard G. As shown in FIG.

[Configuration of Absorbent Core]
(overall structure)
As shown in FIG. 3, the absorbent core 16 has an upper surface 16a located above the thickness direction Z (the topsheet 12 side) and a lower surface 16b located below the thickness direction Z (the backsheet 13 side). The absorbent core 16 has an uneven structure on the lower surface 16b, and the basis weight of each part described later is adjusted. Further, the upper surface 16a is configured to be flat, for example, but can be deformed by applying pressure in the thickness direction Z from the wearer when worn. Details of the modification will be described later.

As shown in FIG. 4 , the absorbent core 16 has a front core portion 20 , an intermediate core portion 21 and a rear core portion 22 . The front core portion 20, the intermediate core portion 21, and the rear core portion 22 are arranged along the longitudinal direction X. As shown in FIG. That is, the front core portion 20 and the rear core portion 22 are positioned on both end side sides in the longitudinal direction X, and the intermediate core portion 21 is positioned between the front core portion 20 and the rear core portion 22 . The intermediate core portion 21 is a region facing the wearer's excretion region, and the front core portion 20 and the rear core portion 22 are portions facing the front and rear portions of the wearer's excretion region, respectively. The absorbent core 16 has a planar shape that is symmetrical in the horizontal direction Y. As shown in FIG.

As shown in FIG. 4 , the intermediate core portion 21 has a width dimension D<b>2 narrower than the width dimension D<b>1 of the front core portion 20 and the width dimension D<b>3 of the rear core portion 22 . That is, the absorbent core 16 has a planar shape constricted in the lateral direction Y at the intermediate core portion 21 .
The width dimension D2 of the intermediate core portion 21 is defined as the minimum width dimension in the horizontal direction Y. As shown in FIG. The width dimension D1 of the front core portion 20 and the width dimension D3 of the rear core portion 22 shall refer to the maximum width dimension in the horizontal direction Y. As shown in FIG.
Since the absorbent core 16 has the narrow intermediate core portion 21, the external force from the lateral direction Y applied to the intermediate core portion 21 is reduced when the wearer's legs are closed and the crotch width is narrowed. can be done.

The width dimension D1 of the front core portion 20 and the width dimension D3 of the rear core portion 22 may be the same or different, and in the example shown in FIG. 4, they have substantially the same dimension.
In the example shown in FIG. 4, the width dimension D2 of the intermediate core portion 21 is formed uniformly along the longitudinal direction X. As shown in FIG. In addition, the width dimension D1 of the front core portion 20 and the width dimension D3 of the rear core portion 22 are constant along the longitudinal direction X in regions other than the front taper region 20t and the rear taper region 22t, which will be described later, but are limited to this. not.
It should be noted that the term "constant width dimension" in a certain region means that the difference in width dimension within the region is within 20% when the minimum width in the horizontal direction Y of the region is 100%. . In the front core portion 20 and the rear core portion 22, it is preferable that the difference in width dimension in each region is 10% or less when the minimum width in the horizontal direction Y is 100%.
The length dimension in the longitudinal direction X of the front core portion 20 and the rear core portion 22 may be the same or different, for example, the rear core portion 22 is configured to be longer.

A boundary portion between the front core portion 20 and the intermediate core portion 21 having different width dimensions is configured such that the width gradually increases forward in the longitudinal direction X, for example. That is, the front core portion 20 includes a front tapered region 20t that is formed adjacent to the intermediate core portion 21 and whose width gradually increases forward in the longitudinal direction X. As shown in FIG.
Similarly, the boundary portion between the rear core portion 22 and the intermediate core portion 21 having different width dimensions is configured such that the width gradually increases toward the rear in the longitudinal direction X, for example. That is, the rear core portion 22 includes a rear tapered region 22t that is formed adjacent to the intermediate core portion 21 and whose width gradually increases rearward in the longitudinal direction X. As shown in FIG.
The outer edges of the front tapered region 20t and the rear tapered region 22t are not limited to straight lines, and may be curved. The shape of the rear tapered region 22t and the front tapered region 20t may be front-rear symmetrical or front-rear asymmetrical.

(Structure of intermediate core part)
The intermediate core portion 21 has a high basis weight portion 23 and a low basis weight portion 24 having a lower basis weight than the high basis weight portion 23 . 4 and FIG. 7, which will be described later, the high basis weight portion 23 is indicated by a high density dot pattern, and the low basis weight portion 24 is indicated by a low density dot pattern.
The high basis weight portion 23 is positioned at the center in the lateral direction Y and protrudes toward the backsheet 13 .
The low basis weight portion 24 is formed on the lateral Y side portion of the high basis weight portion 23 . In the example shown in FIG. 4, the low basis weight portion 24 is divided into left and right with the high basis weight portion 23 interposed therebetween.
The basis weight of the absorbent core 16 has a positive correlation with the thickness in regions other than the high-density compressed grooves. Therefore, the high basis weight portion 23 protrudes downward in the thickness direction Z from the low basis weight portion 24 and is configured to be thicker than the low basis weight portion 24 .
The basis weight of the absorbent core 16 also has a positive correlation with stiffness. That is, the high basis weight portion 23 has higher rigidity than the low basis weight portion 24 and is less likely to deform against external force. On the other hand, since the low basis weight portion 24 has a relatively low basis weight, it has a structure that is easily deformed by an external force.

The shape of the intermediate core portion 21 when not worn (FIG. 5A) and when worn (FIG. 5B) will be described with reference to the schematic cross-sectional views of FIG.
As shown in FIG. 5A, the intermediate core portion 21 has a step formed between the high basis weight portion 23 and the low basis weight portion 24 on the lower surface 16b.
That is, the high basis weight portion 23 includes a top surface region 23b and a side surface region 23e formed continuously from the top surface region 23b on the lower surface 16b.
The top surface region 23b is a surface facing downward in the thickness direction Z, and is configured flat as a whole.
The side area 23e constitutes a side surface of the high basis weight portion 23 projecting downward in the thickness direction Z, and is a surface facing the horizontal direction Y, for example.
In the example shown in FIG. 5A, the side region 23e is configured to be perpendicular to the XY plane, and the area of the high basis weight portion 23 in plan view is configured to be the same as the area of the top surface region 23b. However, it is not limited to this, and for example, the side surface region 23e may be inclined with respect to the XY plane.
Upper surface 16a, on the other hand, includes a central region 23a that is flat compared to lower surface 16b.
In addition, "the upper surface 16a or the lower surface 16b is flat" means that the area excluding the low basis weight groove part and the compressed groove part E described later is substantially flat, and fine unevenness due to protrusion of fibers of the core material shall not be considered. Moreover, in FIG. 5, illustration of the said groove part and the compression groove part E is abbreviate|omitted.

The low basis weight portion 24 includes a first peripheral edge region 24a on the upper surface 16a and a second peripheral edge region 24b on the lower surface 16b.
The first peripheral region 24a is formed flat continuously from the central region 23a, and is positioned on the same plane as the central region 23a when the garment is not worn as shown in FIG. 5A.
The second peripheral region 24b is a region that protrudes outward in the lateral direction Y from the end of the side region 23e.

When worn as shown in FIG. 5B, the intermediate core portion 21 is in a state in which pressure is applied from the wearer downward in the thickness direction Z, that is, toward the clothing side. Since a step is formed on the lower surface 16b between the top surface region 23b, which is the high basis weight portion 23, and the second peripheral region 24b, which is the low basis weight portion 24, the second peripheral region 24b is a side region. 23e side. As a result, the upper surface 16a is bent between the central region 23a and the first peripheral region 24a, and the first peripheral region 24a is pushed down from the base connected to the central region 23a toward the ends. Therefore, the first peripheral region 24a is deformed into a slope.

That is, when worn, the low basis weight portions 24 formed on the lateral sides of the high basis weight portions 23 are pressed against the clothing by the pressure applied by the wearer. As a result, the high basis weight portion 23 protruding toward the backsheet 13 side is relatively pushed up toward the skin side, and the intermediate core portion 21 is deformed so as to swell toward the wearer at the center portion in the lateral direction. As a result, the high basis weight portion 23 is brought into close contact with the excretion area of the wearer.
Moreover, the absorbent core 16 does not have a step on the upper surface 16a side, and the first peripheral region 24a deforms into a sloping surface that continues from the central region 23a. As a result, a gap is less likely to be formed between the upper surface 16a and the excretion area, and the napkin 1 is highly fit to the excretion area and comfortable to wear.

Further, the intermediate core portion 21 is narrower than the front core portion 20 and the rear core portion 22 . Thereby, in the napkin 1, the external force from the lateral direction Y applied by both legs of the wearer is relieved. Further, by forming the intermediate core portion 21 to have a narrow width, the width of the low basis weight portion 24, which is the easily deformable region, can also be formed to be small. Therefore, unintended deformation such as compression of the low basis weight portion 24 in the lateral direction Y by the wearer's legs can be suppressed. That is, the external force from the lateral direction Y facilitates appropriate deformation of the second peripheral edge region 24b of the low basis weight portion 24 so as to be pressed toward the side region 23e. Therefore, by configuring the intermediate core portion 21 to have a narrow width, the high basis weight portion 23 can be easily deformed into a convex shape that swells upward in the thickness direction Z, and the fit to the excretion area can be further improved. .

(Basis weight relationship between the front core portion and the rear core portion)
As schematically shown in FIG. 6 , the napkin 1 is configured such that the basis weight of the front core portion 20 is higher than the basis weight of the rear core portion 22 . In addition, in FIG. 6, illustration of the low basis weight groove part and the compression groove part E which are mentioned later is abbreviate|omitted.
More specifically, the napkin 1 is configured such that the basis weight of the entire front core portion 20 is higher than the basis weight of the entire rear core portion 22 . However, it is sufficient that the basis weight of the front core portion 20 is higher than the basis weight of the rear core portion 22 at least in the lateral central portion.
As shown in FIG. 4 , the lateral center portion 20c of the front core portion 20 is the center portion of the three equal parts of the front core portion 20 in the lateral direction Y. As shown in FIG. On the other hand, the portions on both sides of the front core portion 20 in the lateral direction Y are referred to as lateral side portions 20d.
Similarly, the lateral central portion 22c of the rear core portion 22 refers to the central portion of the three equal parts of the rear core portion 22 in the horizontal direction Y. As shown in FIG. On the other hand, the portions on both sides of the rear core portion 22 in the lateral direction Y are referred to as lateral side portions 22d.
As described above, since the basis weight and the thickness have a positive correlation except for the compressed groove portion E, the thickness D4 of the lateral central portion 20c of the front core portion 20 is the same as the lateral central portion 22c of the rear core portion 22. is configured to be larger than the thickness D5.

Thus, in the napkin 1 , the front core portion 20 is thicker than the rear core portion 22 with a higher basis weight. As a result, the lateral center portion 20c of the front core portion 20 also tends to rise upward in the thickness direction Z continuously from the high basis weight portion 23, thereby enhancing the adhesion to the wearer's excretion area front portion. In addition, since a step between the high basis weight portion 23 and the lateral central portion 20c of the front core portion 20 is not formed on the upper surface 16a, the front core portion 20 is vertically stretched along the body shape of the wearer. The shape is likely to be curved in the direction X, and the adhesion to the front part of the wearer's excretion area is further enhanced.

As described above, in the napkin 1, the high basis weight portion 23 protrudes toward the back sheet 13, the intermediate core portion 21 is configured to have a narrow width, and at least the front core portion 20 is higher than the basis weight of the back core portion 22, the adhesion to the wearer is sufficiently enhanced. Furthermore, in the napkin 1, even when there is concern about liquid leakage from the front, such as when sleeping on the stomach or when the center of gravity is added to the buttocks, the front core portion 20 maintains close contact with the wearer. , leakage of liquid from the front core portion 20 is suppressed. A detailed description will be given below.

When the wearer is lying face down, the front core portion 20 is pushed downward in the thickness direction Z by the wearer. As a result, the front core portion 20 is compressed in the thickness direction Z, and a forward pulling force acts on the napkin 1 .
As described above, in the napkin 1 , the high basis weight portion 23 and the wearer's excretion area are likely to come into close contact with each other, so forward movement of the napkin 1 is suppressed in the high basis weight portion 23 .
In addition, since the intermediate core portion 21 is configured to have a narrow width, the upwardly convex deformation of the high basis weight portion 23 is promoted as described above, and the effect of suppressing forward movement can be enhanced.
Furthermore, in the napkin 1 , the basis weight of the front core portion 20 is larger than that of the rear core portion 22 at least in the lateral central portion. This makes it easier for the rear core portion 22 with a low basis weight to move relative to the force that pulls the napkin 1 forward. This movement of the rear core portion 22 consumes the energy of the forward pulling force and relieves the pulling force. Therefore, forward movement of the front core portion 20 is further suppressed, so that the front core portion 20 maintains a preferable shape curved in the longitudinal direction X along the front portion of the wearer's excretion region. This suppresses the formation of a gap between the front core portion 20 and the wearer, and suppresses the leakage of liquid from the front.

In addition, when the napkin 1 is weighted toward the buttocks in the sitting position or the movement from the sitting position to the sleeping position on the back (hereinafter referred to as the movement of the center of gravity backward), a force pulling the napkin 1 backward is applied. works.
In the napkin 1, even when the high basis weight portion 23 is pulled toward the rear, the front core portion 20 having a higher basis weight than the rear core portion 22 maintains a shape that rises upward together with the high basis weight portion 23. easy. As a result, even if the high basis weight portion 23 moves rearward, the convex shape of the front core portion 20 is in close contact with the excretion area of the wearer. Therefore, the fit of the excretion area and its front is maintained, and liquid leakage from the front is suppressed.

(Basis weight relationship between front core portion and low basis weight portion)
In the napkin 1 , the basis weight of the laterally central portion 20 c of the front core portion 20 is higher than the basis weight of the low basis weight portion 24 .

This makes it easier for the low basis weight portion 24 to deform due to the external force exerted by both legs from the outside in the horizontal direction Y. As shown in FIG. Therefore, the high grammage portion 23 is easily deformed so as to swell relatively, the adhesion between the high grammage portion 23 and the wearer's excretion region is enhanced, and the napkin 1 is less likely to move in the front-rear direction.
That is, when sleeping on the stomach, the force that pulls the napkin 1 forward can be suppressed at the high basis weight portion 23, and the forward movement of the front core portion 20 can be suppressed more reliably.
In addition, when the center of gravity moves rearward, the low basis weight portion 24 receives a force that pulls it rearward, but since the low basis weight portion 24 is easily deformed, the energy of the pulling force is consumed in the low basis weight portion 24, and this force is generated. is buffered in the low basis weight portion 24 . As a result, the front core portion 20 is prevented from being pulled rearward toward the low basis weight portion 24, and the front core portion 20 is prevented from moving rearward.
Therefore, with the above configuration, movement of the front core portion 20 is suppressed, and leakage of liquid due to deformation of the front core portion 20 is suppressed.

(Planar shape of high basis weight part)
As shown in FIG. 4 , the high basis weight portion 23 extends along the longitudinal direction X, and the shape of the front and rear end portions of the high basis weight portion 23 can alleviate the propagation of tensile force to the front core portion 20 . The planar shape of the high basis weight portion 23 refers to the shape on the XY plane, and is used herein synonymously with the planar shape of the top surface region 23b.

The high basis weight portion 23 includes a front end portion 23c whose width in the horizontal direction Y gradually decreases toward the front in the vertical direction X. As shown in FIG. That is, in the front portion of the intermediate core portion 21, the width of the high basis weight portion 23 gradually narrows toward the front core portion 20, and the width of the low basis weight portion 24 gradually widens.

During the movement of the center of gravity rearward, the wearer applies a force to pull the napkin 1 rearward as described above. In particular, the pull force is applied to the high basis weight portion 23, which has a high degree of adhesion to the wearer. easy to be In this case, the width of the front end portion 23 c near the front core portion 20 gradually decreases toward the front, so that the tensile force is less likely to be transmitted to the front core portion 20 . Therefore, rearward movement of the front core portion 20 due to the pulling force is further suppressed, and the fit of the front core portion 20 is maintained.

Further, in the high basis weight portion 23, the rear end portion 23d positioned rearward in the longitudinal direction X may also have a configuration in which the width gradually decreases rearward in the longitudinal direction X. As shown in FIG.

In FIG. 4, the front end portion 23c and the rear end portion 23d have an arc shape or an elliptical arc shape. As a result, the width at the tip of the front end portion 23c and the rear end portion 23d becomes 0, so that the propagation of the tensile force to the front core portion 20 is further suppressed. Therefore, the fit of the front core portion 20 is maintained.

The shape of the front end portion 23c and the rear end portion 23d of the high basis weight portion 23 is not limited to the above shape.
For example, the front end portion 23c and the rear end portion 23d may have a triangular shape with an acute tip. As a result, the front end portion 23c and the rear end portion 23d also have a shape in which the width gradually decreases toward the tip, and the width at the tip of the front end portion 23c and the rear end portion 23d becomes zero. Therefore, the same effects as those of the front end portion 23c and the rear end portion 23d of FIG. 4 can be obtained.
Alternatively, the front end portion 23c and the rear end portion 23d may have a trapezoidal shape including a side along the horizontal direction Y at the tip, or may have a rectangular shape with rounded corners. With these, the front end portion 23c and the rear end portion 23d also have a shape in which the width gradually decreases toward the tip, and the effect of suppressing the propagation of the tensile force to the front core portion 20 can be enhanced.
Note that the front end portion 23c and the rear end portion 23d may not have a shape in which the width gradually decreases toward the tip, and may be formed in a rectangular shape having substantially the same width as a whole.

[Structure of main body adhesive part]
As shown in FIGS. 2 and 3, a plurality of main body adhesive portions 18 extending in the longitudinal direction X are provided on the outer surface of the backsheet 13 of the main body M. As shown in FIGS. The main body M is fixed to the clothes by the main body adhesive portion 18 .
As shown in FIG. 2, the plurality of main body adhesive portions 18 are not provided on the center line L that bisects the main body M in the horizontal direction Y and extends in the vertical direction X. placed on each side. In the napkin 1, for example, two or more even-numbered body adhesive portions 18 are arranged line-symmetrically with respect to the center line L. As shown in FIG. Each main body adhesive portion 18 is configured in a belt-like pattern extending in the vertical direction X, for example.

Since the body adhesive portion 18 is not provided on the center line L of the napkin 1, the region of the napkin 1 on the center line L is not restricted by clothing and can be easily deformed upward. As a result, when the napkin 1 receives an external force from the outside in the lateral direction Y and the thickness direction Z, the high basis weight part 23 and the front core part 20 have a preferable convex shape that rises upward centering on the center line L becomes easier to obtain. Therefore, even when a pulling force is applied in the front-rear direction to move the center of gravity backward and when lying on the stomach, the laterally central portion of the high basis weight portion 23 and the front core portion 20 can easily maintain the above convex shape and adhesion. It is possible to more effectively prevent leakage of liquid from.

[Structure of Groove]
As shown in FIG. 4 , the absorbent core 16 is divided into blocks by low basis weight lateral grooves 26 , vertical grooves 27 and annular grooves 28 . These grooves are open to the lower surface 16b of the absorbent core 16, have grooves formed upward in the thickness direction Z, and have a basis weight lower than the surroundings.
These grooves allow the absorbent core 16 to be controlled into a shape that easily conforms to the wearer's body when worn. The configuration and action of each groove will be described below.

(lateral groove)
As shown in FIG. 4 , the absorbent core 16 has a lateral groove portion 26 a of low basis weight extending in the lateral direction Y provided in the front core portion 20 . Since there is a correlation between the basis weight and the rigidity, the lateral groove portion 26a is a portion that deforms more easily than regions other than the groove portion.
In the example shown in FIG. 4 , the lateral groove portion 26 a is formed over the entire width of the front core portion 20 in the lateral direction Y, but it may be formed in a part of the front core portion 20 .

Since the lateral groove portion 26a has low rigidity and is easily deformed, it easily becomes a starting point of deformation. As a result, the front core portion 20 is easily deformed so as to be curved in the longitudinal direction X starting from the lateral groove portion 26a, and the napkin 1 is easily deformed into a shape along the curved shape of the wearer's front portion of the excretion region. Therefore, the fit of the front core portion 20 is improved, and movement against tensile force in the front-rear direction can be suppressed. As a result, the front core portion 20 maintains a favorable shape even when lying on one's stomach or moving the center of gravity backward, and liquid leakage from the front can be prevented.
Further, in the lateral groove portion 26a, there is little core material that contributes to the diffusion of the liquid. Therefore, the horizontal groove portion 26a can prevent the liquid from spreading in the vertical direction X, and can more effectively prevent the liquid from leaking from the front.

In the example shown in FIG. 4 , one lateral groove portion 26 a is provided in the front core portion 20 , but the present invention is not limited to this, and a plurality of lateral groove portions 26 a may be provided in the front core portion 20 , for example.
Since the front core portion 20 has a plurality of lateral groove portions 26a, the front core portion 20 is easily deformed into a shape that conforms to the curved shape of the wearer's front portion of the excretion region. Therefore, the fit of the front core portion 20 is improved, movement and undesirable deformation due to tensile force in the front-rear direction can be suppressed, and liquid leakage from the front can be more effectively prevented.

Furthermore, the absorbent core 16 may have lateral grooves formed in other portions in addition to the lateral grooves 26 a formed in the front core portion 20 . These lateral grooves are collectively referred to as "lateral grooves 26". The lateral grooves 26 can provide flexibility to the absorbent core 16 and improve fit to the wearer's body. The configuration of the lateral grooves 26 other than the lateral grooves 26a will be described later.

(longitudinal groove)
The absorbent core 16 has a longitudinal groove portion 27c of low basis weight extending in the longitudinal direction X provided in the transverse central portion 20c of the front core portion 20 . As described above, since there is a correlation between the basis weight and the rigidity, the vertical groove portion 27c is a portion that is more easily deformed than the regions other than the groove portion.
In the example shown in FIG. 4, one vertical groove portion 27c is provided in the horizontal central portion 20c, but a plurality of vertical groove portions 27c may be provided. Further, the vertical groove portion 27c is formed over the entire length of the front core portion 20 in the longitudinal direction X, but may be formed in a part of the front core portion 20. As shown in FIG.

The longitudinal groove portion 27c allows the shape of the front core portion 20 to be flexibly deformed, and facilitates deformation into a convex shape such that the horizontal center portion 20c rises continuously from the high basis weight portion 23, for example. Thereby, it becomes easy to deform|transform by the shape which closely_contact|adheres to the front part of a wearer's excretory region, and it can suppress the movement by the pulling force in the front-back direction. Therefore, liquid leakage from the front can be prevented more effectively.

The absorbent core 16 may have other vertical grooves in addition to the vertical grooves 27c. The longitudinal grooves formed in the absorbent core 16 are collectively referred to as "vertical grooves 27". These longitudinal grooves 27 can provide flexibility to the absorbent core 16 and improve fit to the wearer's body. The configuration of the vertical groove portion 27 other than the vertical groove portion 27c will be described later.

(Annular groove)
Furthermore, the absorbent core 16 may have an annular groove 28 formed along the outer edge of the high basis weight portion 23 so as to annularly surround the high basis weight portion 23 . By providing the annular groove portion 28, when pressure is applied downward in the thickness direction Z from the wearer, the annular groove portion 28 can become a starting point for bending, and the deformation of the low basis weight portion 24 downward in the thickness direction Z becomes easier. .

[Configuration of wing]
As shown in FIGS. 2 and 7, the wing portions W extend outwardly from the main body M in the lateral direction Y. As shown in FIGS.
As shown in FIG. 7, in the napkin 1, the entire base portion Wa of the wing portion W is arranged so as to overlap the low basis weight portion 24 in the longitudinal direction X. As shown in FIG.
A base portion Wa of the wing portion W is a boundary portion between the wing portion W and the main body M. As shown in FIG. The wing portions W are bent from the vicinity of the base portion Wa so as to face the main body M across the clothes when worn, and are fixed to the outer surface of the wearer's clothes.
That is, in the napkin 1, the length in the vertical direction X of the base Wa of the wing portion W is equal to or less than the length in the vertical direction X of the low basis weight portion 24 (intermediate core portion 21), and the entire base Wa is low basis. It is configured to face the volume portion 24 .

By arranging the base portion Wa of the wing portion W so as to overlap the low basis weight portion 24, the low basis weight portion 24 is deformed when the wing portion W is wrapped around the outer surface of the garment, and the front core portion 20 is positioned on the front core portion 20. Less susceptible to entrainment. That is, since the low basis weight portion 24 is deformed so as to be pressed against the clothing side when the wing portion W is rolled up, the high basis weight portion 23 is deformed so as to swell relatively, easily forming a preferable convex shape. On the other hand, since the front core portion 20 is not affected by the entanglement, the front core portion 20 is easily maintained in a shape that conforms to the curve of the front portion of the wearer's excretion region, and the fit can be maintained. Therefore, liquid leakage from the front can be more effectively suppressed.

[Additional description of this embodiment]
The description of this embodiment will be supplemented below.

(Width of each part of the absorbent core)
The width dimensions D1 and D3 of the front core portion 20 and the rear core portion 22 are preferably 60 mm or more, more preferably 70 mm or more, and preferably 100 mm or less, more preferably 90 mm or less.
The width dimension D2 of the narrowest portion of the intermediate core portion 21 is preferably 40 mm or more, more preferably 50 mm or more, and preferably 75 mm or less, more preferably 70 mm or less.

(Basis weight of absorbent core)
The basis weight of the absorbent core 16 excluding the lateral grooves 26, the longitudinal grooves ²⁷ and the annular grooves 28 is preferably 100 g/m2 or more, more preferably 150 g/ ^m2 or more, and preferably 1000 g/ ^m2 or less. More preferably, it is 900 g/m ² or less.
Further, the basis weight of the high basis weight portion 23 is preferably 400 g/m ² or more, more preferably 500 g/m ² or more, and preferably 1000 g/m ² or less, more preferably 900 g/m ² or less. .
The basis weight of the low basis weight portion 24 is preferably 80 g/m ² or more, more preferably 130 g/m ² or more, and preferably 500 g/m ² or less, more preferably 400 g/m ² or less.
The basis weight of the entire front core portion 20 is preferably 120 g/m ² or more, more preferably 170 g/m ² or more, and preferably 700 g/m ² or less, more preferably 600 g/m ² or less.
The basis weight of the entire rear core portion 22 is preferably 110 g/m ² or more, more preferably 160 g/m ² or more, and preferably 650 g/m ² or less, more preferably 550 g/m ² or less.
The basis weight of the transverse central portion 20c of the front core portion 20 is preferably 150 g/m ² or more, more preferably 200 g/m ² or more, and preferably 750 g/m ² or less, more preferably 650 g/m ² . It is below.
The basis weight of the lateral central portion 22c of the rear core portion 22 is preferably 140 g/m ² or more, more preferably 190 g/m ² or more, and preferably 700 g/m ² or less, more preferably 600 g/m ^{2 .} It is below.
The basis weight of the lateral sides 20d of the front core portion 20 is preferably 100 g/ ^m2 or more, more preferably 150 g/m2 or ^more , and preferably 650 g/ ^m2 or less, more preferably 550 g/ ^m2 . It is below.
The basis weight of the lateral sides 22d of the rear core portion 22 is preferably 90 g/ ^m2 or more, more preferably 140 g/ ^m2 or more, and preferably 600 g/ ^m2 or less, more preferably 500 g/ ^m2. It is below.

(Method for measuring basis weight of absorbent core)
Each portion of the absorbent core 16 to be measured is cut using a Feather single-edged razor to obtain nine small pieces. These pieces are respectively a high basis weight section 23 and two low basis weight sections 24 in the intermediate core section 21, a lateral central section 20c and two lateral side sections 20d in the front core section 20, and a rear core section 22. corresponds to the lateral central portion 22c and the two lateral side portions 22d of the .
The area of the obtained small piece is determined as follows. First, the entire absorbent core before cutting is copied on an OHP sheet, and the cut portions corresponding to the small pieces are divided into sections. The image transcribed on this OHC sheet is scanned with a scanner for personal computers (CanoScanMP Navigator EX manufactured by Canon). The scanned image is analyzed using image analysis software (nexus New Qube manufactured by Nexus Co., Ltd.) to calculate the area of each cut portion (small piece).
The weight of each small piece is measured using an electronic balance (A&D electronic balance GR-300, accuracy: 4 digits below the decimal point). The basis weight of the small piece is calculated by dividing the obtained weight by the area of the small piece of each part. The basis weight of each part is the average of the basis weights of the five small pieces.
The basis weight of the entire front core portion 20 is calculated by dividing the total weight of the lateral center portion 20c and the two lateral side portions 20d by the total area of these three small pieces. Similarly, the basis weight of the entire rear core portion 22 is calculated by dividing the total weight of the lateral center portion 22c and the two lateral side portions 22d by the total area of these three small pieces. .

(Thickness dimension of absorbent core)
The dimension in the thickness direction Z of each part of the absorbent core 16 can be set in consideration of the basis weight.
The thickness of the high basis weight portion 23 is preferably 3 mm or more, more preferably 5 mm or more, and preferably 15 mm or less, more preferably 13 mm or less.
The thickness of the low basis weight portion 24 is preferably 2 mm or more, more preferably 3 mm or more, and preferably 12 mm or less, more preferably 10 mm or less.
The thickness D4 of the lateral central portion 20c of the front core portion 20 is preferably 2 mm or more, more preferably 4 mm or more, and preferably 14 mm or less, more preferably 11 mm or less.
The thickness D5 of the lateral central portion 22c of the rear core portion 22 is preferably 2 mm or more, more preferably 4 mm or more, and preferably 13 mm or less, more preferably 10 mm or less.

(Structure of Lateral Groove, Vertical Groove and Annular Groove)
The absorbent core 16 may be formed with lateral grooves 26 extending in the lateral direction Y in addition to the lateral grooves 26a located in the lateral central portion 20c of the front core portion 20 . In the following description, the lateral groove portion 26a located in the front core portion 20 is also referred to as the front lateral groove portion 26a.
As shown in FIG. 4 , a first boundary lateral groove portion 26 b is provided at the boundary portion between the front core portion 20 and the intermediate core portion 21 . Thereby, it is possible to suppress the deformation of the low basis weight portion 24 from propagating to the front core portion 20, and the preferable shape of the front core portion 20 is maintained.
The intermediate core portion 21 is provided with a plurality of intermediate lateral groove portions 26c. As a result, flexibility is imparted to the intermediate core portion 21, and deformation of the high basis weight portion 23 into a preferable convex shape that swells upward is promoted. Four intermediate lateral groove portions 26c are provided in the example of FIG. 4, but the present invention is not limited to this.
A second boundary lateral groove portion 26 d is provided at the boundary portion between the intermediate core portion 21 and the rear core portion 22 . Thereby, it is possible to suppress the deformation of the low basis weight portion 24 from propagating to the rear core portion 22 .
The rear core portion 22 is provided with a plurality of rear lateral groove portions 26e. This makes it easier for the rear core portion 22 to bend in the vertical direction X along the wearer's buttocks, and the fit to the buttocks is also improved. Although five rear lateral grooves 26e are provided in the example of FIG. 4, the number of rear lateral grooves 26e is not limited to this.

The arrangement intervals of the lateral grooves 26 are not limited to equal intervals, and may be different. Moreover, although each lateral groove 26 is formed over the entire width of the absorbent core 16 in the horizontal direction Y, it may be formed only partly in the horizontal direction Y. As shown in FIG. Moreover, the groove width of each lateral groove portion 26 may be the same or may be different.

The absorptive core 16 may be formed with vertical grooves 27 extending in the vertical direction X in addition to the vertical grooves 27c positioned in the lateral central portion 20c of the front core portion 20. As shown in FIG. For example, the vertical groove portion 27 in the lateral center portion 20c of the front core portion 20 is defined as a first vertical groove portion 27c, and the vertical groove portions 27 formed on both sides in the horizontal direction Y are defined as a second vertical groove portion 27d and a third vertical groove portion 27e. do.
In the front core portion 20 shown in FIG. 4, the second vertical groove portion 27d is formed at the boundary between the horizontal central portion 20c and the horizontal side portion 20d, and the third vertical groove portion 27e is formed at the horizontal side portion 20d. It is Not limited to this, for example, the second vertical groove portion 27d may be formed in the horizontal central portion 20c or may be formed in the horizontal side portion 20d. The first vertical groove portion 27c, the second vertical groove portion 27d, and the third vertical groove portion 27e are arranged at equal intervals in the lateral direction Y, but may not be arranged at equal intervals.
Furthermore, the groove widths of the first vertical groove portion 27c, the second vertical groove portion 27d and the third vertical groove portion 27e may be different or may be the same.

Moreover, the vertical groove portion 27 may be formed not only in the front core portion 20 but also in the intermediate core portion 21 and the rear core portion 22 . In the example shown in FIG. 4, the first longitudinal groove portion 27c extends over the entire length of the absorbent core 16 in the longitudinal direction X. In the example shown in FIG. The second vertical groove portion 27d and the third vertical groove portion 27e extend over the entire length in the vertical direction X of the rear core portion 22 and the front core portion 20, respectively. The configuration of these longitudinal grooves 27 is not limited, and they may be formed in a part of each part in the longitudinal direction X, and the groove width may not be constant. For example, as shown in FIG. 4, among the vertical grooves 27 arranged in the rear core portion 22, the vertical groove 27c located in the center in the horizontal direction Y is deeper than the vertical groove 27e located on the outermost side in the horizontal direction Y. Thick width is preferred. In this case, when an external force is applied to the rear core portion 22 in the horizontal direction Y, the central side of the rear core portion 22 in the horizontal direction Y tends to bend toward both sides in the horizontal direction Y with the thick vertical groove portion 27c as a starting point. , the rear core portion 22 is deformed into a shape along the gluteal cleft, and the feeling of wearing is likely to be improved. In the rear core portion 22, it is preferable that there are three or more thick vertical groove portions 27, because the above-described effects are more likely to be exhibited. The groove width of the thick vertical grooves 27 (27c, 27d) should be 1.1 times or more and 10 times or less, particularly 1.2 times or more and 5 times or less of the groove width of the narrow vertical grooves 27 (27e). is preferable from the viewpoint of effectively exhibiting the effects described above.

The groove widths of the vertical groove portion 27, the horizontal groove portion 26, and the annular groove portion 28 are preferably 0.5 mm or more, more preferably 1 mm or more, and preferably 10 mm or less, more preferably 5 mm or less. The depths of the vertical groove portion 27, the horizontal groove portion 26, and the annular groove portion 28 are, for example, 0.5 mm or more and 10 mm or less.

Further, as shown in FIG. 3 , in the napkin 1 , the vertical groove portion 27 arranged closest to the center line L in the lateral direction Y in the rear core portion 22 does not overlap the main body adhesive portion 18 in plan view. More specifically, in the napkin 1 of FIG. 3, the longitudinal groove 27 is arranged between the pair of left and right main body adhesive portions 18 in plan view. Therefore, the longitudinal groove portion 27 is easily bent to both sides in the horizontal direction Y, and the rear core portion 22 is easily deformed into a shape along the buttocks. At this time, as described above, if the vertical grooves 27 (27c, 27d) are thick, the shape of the vertical grooves 27 is more likely to conform to the buttocks.

In addition to those described above, the configurations such as the shape and arrangement of the lateral groove portion 26, the vertical groove portion 27 and the annular groove portion 28 are not limited to the configuration shown in FIG. It can be appropriately set based on functions and the like. Further, in the napkin 1, the absorbent core 16 may not have at least one of the lateral grooves 26, the vertical grooves 27 and the annular grooves 28.

The “low basis weight” of each of the grooves 26 to 28 is a concept including not only the mode in which the material of the absorbent core 16 is present, but also the mode in which the material of the absorbent core 16 is not present. In the mode in which the material of the absorbent core 16 is present in each of the grooves 26 to 28, the block-shaped portions of the absorbent core 16 located on both sides thereof are connected via each of the grooves 26 to 28. Therefore, the absorbent core 16 However, it is more preferable because it is less likely to be twisted, broken, torn, etc. by movement and can impart flexibility.

(Configuration of core wrap sheet)
As shown in FIG. 3 , the core wrap sheet 17 is wrapped in the lateral direction Y of the absorbent core 16 so as to cover the front and back surfaces of the absorbent core 16 . The width dimension along the lateral direction Y of the core wrap sheet 17 is, for example, configured to be constant along the longitudinal direction X, but is not limited to this, so that it has a smaller or larger width dimension in the longitudinal direction X intermediate portion. may be configured.
As shown in FIG. 5, the core wrap sheet 17 includes a core covering portion 17c that covers each portion of the absorbent core 16, and an extension portion 17s that extends outward in the lateral direction Y of the low basis weight portion 24. have.
The extending portion 17 s is configured to partition the spatial region S forming the constricted shape of the intermediate core portion 21 . That is, the core material constituting the absorbent core 16 does not exist inside the extending portion 17s. However, although the main body of the core material does not exist in the spatial region S, fibers protruding outward from the peripheral edge of the absorbent core 16 and part of the core material separated from the absorbent core 16 partially exist. may
The extending portion 17s of the absorbent body 11 has a basis weight lower than that of the low basis weight portion 24, and is configured to be more easily deformable. As shown in FIG. 5, when worn, the extended portion 17s of the core wrap sheet 17 receives pressure downward in the thickness direction Z (clothing side) from the wearer. Since the core wrap sheet 17 has a rigidity sufficiently lower than that of the absorbent core 16, the extension 17s is kept in a pressed state along the clothes by the pressure. That is, since the extending portion 17s of the core wrap sheet 17 is pressed downward in the thickness direction Z, the low basis weight portion 24 located inside the core wrap sheet 17 is also pushed downward in the thickness direction Z. maintained.
In this way, since the extended portion 17s of the core wrap sheet 17 exists further outside the low basis weight portion 24 in the horizontal direction Y, the low basis weight portion 24 returns to the shape before wearing due to its own elastic force. can be prevented. As a result, the high basis weight portion 23 is maintained in a relatively raised state in the thickness direction Z upwards. Therefore, the adhesion between the high basis weight portion 23 and the excretion area is maintained, and even when a pulling force is applied to the napkin 1 in the front-rear direction, the movement of the entire napkin 1 can be suppressed, and leakage from the front can be prevented. can be prevented more effectively.

(Configuration of three-dimensional guard)
As shown in FIGS. 2 and 3, the three-dimensional guard G has a folded region 141, a fixed end 142, and an elastic member 143. As shown in FIGS. The three-dimensional guard G is composed of the side sheets 14 in this embodiment, but may be composed of a sheet material other than the side sheets 14 .
The folded region 141 is a portion of the side seat 14 that is folded outward in the lateral direction Y. As shown in FIG.
The fixed end portion 142 is the inner end portion of the three-dimensional guard G in the horizontal direction Y, and is the base portion of the three-dimensional guard G that is joined to the skin-facing surface of the topsheet 12 . Fixed ends 142 are joined to topsheet 12 using adhesive 15 in this embodiment.
The elastic member 143 is arranged in the folded region 141 and includes a plurality of thread-like elastic members that are stretchable in the longitudinal direction X. As shown in FIG. The elastic member 143 is attached while being stretched in the longitudinal direction X to the side seat 14 stretched in the XY plane. As a result, when worn, the elastic member 143 contracts in the vertical direction X, and the main body M curves so that the skin-facing surface is gently dented, and the folded region 141 can stand up in the thickness direction Z. As shown in FIG. The skin-side surface of the upright folded region 141 serves as a surface that can come into contact with the wearer's skin, and liquid leakage in the lateral direction Y is prevented.
As shown in FIG. 2, in this embodiment, the three-dimensional guard G is arranged over the entire length of the main body M in the vertical direction X, and at least a portion thereof is configured to be able to stand up.
The three-dimensional guard G has an upright area G1 and a non-upright area G2.
The upright region G1 is configured to be upright in the thickness direction Z. As shown in FIG. The standing region G1 extends from the intermediate core portion 21 to the front core portion 20 at the front portion, and extends from the intermediate core portion 21 to the rear core portion 22 at the rear portion.
The non-upright regions G2 are formed behind and in front of the upright regions G1, respectively. The non-upright region G2 is joined to the outer surface of the side sheet 14 in the thickness direction Z when the side sheet 14 is folded back, for example. As a result, the folded region 141 is configured not to stand up in the non-upright region G2.
The elastic member 143 is actually arranged over the entire three-dimensional guard G including the non-upright region G2, but it is sufficient if it is arranged at least in the upright region G1. In FIG. 2, illustration of the elastic member 143 in the non-upright region G2 is omitted.
By extending the upright region G1 of the three-dimensional guard G to a part of the front core portion 20, the elastic force of the elastic member 143 acts on the front core portion 20, and the front core portion 20 extends vertically along the wearer's body. It becomes easier to adopt a shape that curves in the direction X. As a result, the fit of the front core portion 20 is enhanced, and liquid leakage from the front can be effectively prevented.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and it goes without saying that various modifications can be made without departing from the gist of the present invention.

In the above embodiments, sanitary napkins have been exemplified as absorbent articles, but the present invention is not limited to this. The absorbent article of the present invention may be, for example, a urine absorbing pad, a vaginal discharge sheet, a disposable diaper, or the like.

1... Napkin (absorbent article)
DESCRIPTION OF SYMBOLS 11... Absorber 12... Top sheet 13... Back sheet 16... Absorbent core 20... Front core part 20c... Lateral center part 20d... Lateral side part 21... Intermediate core part 22... Rear core part 23... High basis weight part 24... Low basis weight part

Claims (7)

Equipped with a main body having a liquid-permeable topsheet, a backsheet, and an absorbent body having an absorbent core and disposed between the topsheet and the backsheet, the vertical shape corresponding to the front-rear direction of the wearer. an absorbent article having a direction and a lateral direction orthogonal to the longitudinal direction,
The absorbent core is
a front core portion and a rear core portion located at both ends in the vertical direction;
an intermediate core portion positioned between the front core portion and the rear core portion and having a narrower width than the front core portion and the rear core portion;
The intermediate core portion is
a high basis weight portion located in the laterally central portion and protruding toward the backsheet;
a low basis weight portion having a basis weight lower than the high basis weight portion and located on the lateral side of the high basis weight portion;
In the laterally central portion, the basis weight of the front core portion is higher than the basis weight of the rear core portion. The absorbent article according to claim 1, wherein the basis weight of the laterally central portion of the front core portion is higher than the basis weight of the low basis weight portion. The absorbent article according to claim 1 or 2, wherein the front end portion of the high basis weight portion is configured such that the width in the lateral direction gradually decreases forward in the longitudinal direction. The absorbent article further comprises a plurality of body adhesive portions extending in the longitudinal direction provided on the outer surface of the backsheet of the body,
2. The plurality of main body adhesive portions are not provided on a center line that bisects the main body in the horizontal direction and extends in the vertical direction, and are arranged on both sides of the center line in the horizontal direction. 4. The absorbent article according to any one of Items 1 to 3. 5. The absorbent article according to any one of claims 1 to 4, wherein the absorbent core further comprises lateral groove portions of low basis weight extending in the lateral direction provided in the front core portion. 6. The absorbent core of any one of claims 1 to 5, wherein the absorbent core further comprises a longitudinally extending low basis weight longitudinal groove provided in the laterally central portion of the front core portion. Goods. The absorbent article further comprises a wing portion extending outward in the lateral direction from the main body,
7. The absorbent article according to any one of claims 1 to 6, wherein the entire base portion of the wing portion is arranged to overlap the low basis weight portion in the longitudinal direction.

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