JP2021074071A - Absorbent article - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an absorbent article having a good fit and less likely to be rubbed in an inguinal region even when worn backward. An absorbent article includes a main body including a front surface sheet, a back surface sheet, and an absorbent body having an absorbent core, and a pair of wing portions protruding from the main body. The main body is divided into an intermediate region, a front region and a rear region in which a pair of wing portions are arranged on the outer side in the horizontal direction, and a pair of left and right vertical squeezing grooves extending in the vertical direction in the front region and a horizontal squeezing groove in the front region. It further has a lateral squeeze groove extending in the direction. The absorbent core has a narrow portion and a wide portion located vertically anterior to the narrow portion and wider than the narrow portion. The pair of longitudinal squeezing grooves have laterally constricted portions that are located in the anterior region so as to overlap the wide portion in plan view. At least a portion of the lateral squeeze groove is located on an imaginary line that extends laterally through the constriction. [Selection diagram] Fig. 4

Description

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

From the viewpoint of improving the fit to the wearer, an absorbent article having an absorbent core having a narrow portion located in the area facing the excretory portion is known. For example, Patent Document 1 includes an anterior end region, a posterior end region, and a central region arranged between them, and the absorbable core has a shape constricted in the central region. Is described.

Japanese Patent Publication No. 2008-541943

However, such absorbent articles may be worn backwards from their proper wearing position. In this case, the wearer's thigh is in strong contact with the portion where the absorbent core is wide in front of the absorbent article, and the absorbent article is likely to be deformed unfavorably and the fit is deteriorated accordingly. In addition, the skin of the wearer's inguinal region and the relevant portion are likely to rub against each other, which may cause skin troubles.

An object of the present invention is to provide an absorbent article having a good fit and less likely to be rubbed in the inguinal region even when worn backward.

The absorbent article according to one embodiment of the present invention includes a main body including a liquid-permeable front surface sheet, a back surface sheet, and an absorber having an absorbent core and arranged between the front surface sheet and the back surface sheet. It includes a pair of wing portions protruding from the main body, and has a vertical direction corresponding to the front-rear direction of the wearer and a horizontal direction orthogonal to the vertical direction.
The main body
It is divided into an intermediate region in which the pair of wing portions are arranged on the outer side in the horizontal direction, a front region located in the longitudinal front of the intermediate region, and a rear region located in the longitudinal rear of the intermediate region. And
A pair of left and right vertical squeezing grooves extending in the vertical direction in the front region,
In the anterior region, the pair of longitudinal squeezing grooves is further provided with a lateral squeezing groove located inward in the lateral direction and extending in the lateral direction.
The absorbent core includes a narrow portion in which at least a part is located in the intermediate region, a wide portion located in front of the narrow portion in the vertical direction and wider in the horizontal direction than the narrow portion. Has.
The pair of longitudinal squeezing grooves have the laterally inwardly constricted portion located so as to overlap the wide portion in a plan view in the anterior region.
At least a part of the lateral squeezing groove is located on an imaginary line extending laterally through the constriction.

According to the absorbent article of the present invention, the fit is good and rubbing in the inguinal region is less likely to occur.

It is a top view which shows the absorbent article which concerns on one Embodiment of this invention. It is sectional drawing which cut at the line II-II of FIG. It is a top view which shows the absorbent core of the said absorbent article. It is an enlarged view of the main part of FIG. 1, and is the enlarged view which shows the front area of the main body of the absorbent article. It is a figure which shows the measuring apparatus used for the measurement of the compression load in the lateral direction in the Example of this invention, (A) is a plan view, (B) is a side view.

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

[Overall composition of napkin]
The absorbent article 1 shown in FIG. 1 includes a main body M, a pair of wing portions W, and a pair of rear flap portions F. The absorbent article 1 is configured as a sanitary napkin and is hereinafter referred to as a napkin 1.
The napkin 1 has a vertical direction X corresponding to the front-rear direction of the wearer and a horizontal direction Y corresponding to the left-right direction of the wearer and orthogonal to the vertical direction X. Further, the napkin 1 has a thickness direction Z orthogonal to both the vertical direction X and the horizontal direction Y. In addition, in this specification, "vertical direction X front" is also simply referred to as "forward", and "vertical direction X rear" is also simply referred to as "rear". Further, in the present specification, with respect to the thickness direction Z, the side close to the wearer's skin may be referred to as the upper or skin side, and the side close to the clothing may be referred to as the lower or non-skin side when worn. The napkin 1 is preferably used at bedtime and may have a length of, for example, 30 cm or more along the vertical direction X.

The main body M extends along the vertical direction X and is fixed to the inner surface of the wearer's clothing when worn. The main body M has an absorber 4 described later, and has a function of absorbing a liquid substance (hereinafter, also referred to as “liquid”) such as menstrual blood of the wearer.

The main body M is divided into a front region M1, an intermediate region M2, and a rear region M3 along the vertical direction X.
The intermediate region M2 is a region facing the excretory portion of the wearer in the normal wearing position. The intermediate region M2 is a region between the front and rear base ends of the wing portions W in the main body M, in which a pair of wing portions W are arranged outside the lateral direction Y.
The anterior region M1 is an region located in front of the intermediate region M2 (ventral side of the wearer).
The posterior region M3 is an region located behind the intermediate region M2 (dorsal side of the wearer).
The "normal wearing position" here means a normally assumed wearing position of the napkin 1, and specifically, a wearing position such that the excretion port faces the vertical X central portion of the intermediate region M2. To do. As will be described later, the napkin 1 of the present embodiment has a good fit even when worn backward from the normal wearing position, and can prevent the wearer from rubbing against the inguinal region. it can.

The wing portion W protrudes outward from the main body M in the lateral direction Y.
The rear flap portion F bulges outward in the lateral direction Y in the rear region M3 of the main body M.
The napkin 1 does not have to have at least one of the wing portion W and the rear flap portion F.

As shown in FIG. 2, the napkin 1 includes an absorber 4, a front surface sheet 2, a back surface sheet 3, and a pair of side sheets 5. In the main body M, the napkin 1 has a structure in which the back surface sheet 3, the absorber 4, and the front surface sheet 2 are laminated in the thickness direction Z. These configurations are appropriately joined and integrated by, for example, joining with an adhesive, a heat seal, or the like, embossing with a pressing groove described later, or the like.

The absorber 4 extends along the vertical direction X and is arranged between the front surface sheet 2 and the back surface sheet 3. The absorber 4 absorbs the liquid from the surface on the surface sheet 2 side and diffuses it inside to hold the liquid.
The absorber 4 has an absorbent core 7 and a core wrap sheet 8.
The absorbent core 7 may be formed of, for example, a fiber aggregate composed of hydrophilic fibers such as pulp fibers, or may have a structure in which the fiber aggregate retains a water-absorbent polymer. ..
The core wrap sheet 8 has a function of covering the absorbent core 7 and maintaining the shape of the absorbent core 7, for example. The core wrap sheet 8 is formed of, for example, tissue paper-like thin and soft paper, a liquid-permeable non-woven fabric, or the like.

The surface sheet 2 is configured as a liquid-permeable sheet material, and is arranged above the thickness direction Z of the absorber 4. Between the surface sheet 2 and the absorber 4, the permeability of the liquid from the surface sheet 2 to the absorber 4 is improved, the liquid absorbed by the absorber 4 is prevented from returning to the surface sheet 2, and the like. From the viewpoint of, a second sheet (sublayer sheet) may be arranged.

The back sheet 3 is arranged below the thickness direction Z of the absorber 4. The back surface sheet 3 is joined to the front surface sheet 2 and the side sheet 5 by a heat seal, for example, at the periphery thereof, without the intervention of the absorber 4. The back sheet 3 may be bonded to the absorber 4 with an adhesive or the like.
The back surface sheet 3 is formed of, for example, a sheet material having functions such as poor liquid permeability, water vapor permeability, and water repellency. As the sheet material, for example, a film made of a thermoplastic resin, a laminate of the film and a non-woven fabric, or the like can be used.
Although not shown, the back sheet 3 is provided with an adhesive portion for fixing the main body M, the wing portion W, and the like to the clothes.

The pair of side sheets 5 are arranged on the lateral Y outer side of the surface sheet 2. As the material of the side sheet 5, a sheet material having a lower hydrophilicity than the surface sheet 2 is preferable, and specifically, a non-woven fabric having a lower hydrophilicity than the surface sheet 2, a film material, and a laminated structure of the non-woven fabric and the film material. The sheet can be mentioned. The side sheet 5 is joined to the surface sheet 2 by, for example, an adhesive E.

[Structure of absorbent core]
As shown in FIG. 3, the absorbent core 7 has a front wide portion (wide portion) 9, a narrow portion 10, and a rear wide portion 11. The front wide portion 9, the narrow portion 10, and the rear wide portion 11 are arranged along the vertical direction X. That is, the front wide portion 9 is located in front of the narrow portion 10, and the rear wide portion 11 is located behind the narrow portion 10. The absorbent core 7 has a planar shape that is symmetrical in the lateral direction Y.

At least a part of the narrow portion 10 is located in the intermediate region M2, and in the example shown in FIG. 3, the narrow portion 10 extends from the intermediate region M2 to a part of the front region M1 and the rear region M3. The narrow portion 10 is configured to be narrower than the front wide portion 9 and the rear wide portion 11, and has a width D2 narrower than the width D1 of the front wide portion 9 and the width D3 of the rear wide portion 11. The width D2 of the narrow portion 10 refers to the minimum width dimension in the lateral direction Y. In the example shown in FIG. 3, the narrow portion 10 is configured with a constant width D2 along the vertical direction X.
In addition, in a certain area, "the width is constant" means that the fluctuation of the width dimension in the area is within 20% when the minimum width in the lateral direction Y of the area is 100%. The fluctuation is preferably 15% or less, more preferably 10% or less.

The front wide portion 9 is located in the front region M1 and is configured to be wider in the lateral direction Y than the narrow portion 10. Similarly, the rear wide portion 11 is located in the rear region M3 and is configured to be wider in the lateral direction Y than the narrow portion 10.
The front wide portion 9 includes a front tapered portion 9t that gradually widens from the narrow portion 10 toward the front, and further includes a region having a constant width D1 in front of the front tapered portion 9t. Similarly, the rear wide portion 11 includes a rear taper portion 11t that gradually widens from the wide portion 9 toward the rear, and further includes a region having a constant width D3 behind the rear taper portion 11t.
The width D1 of the front wide portion 9 and the width D3 of the rear wide portion 11 may be the same or different, and in the example shown in FIG. 3, they have substantially the same dimensions. The width D1 of the front wide portion 9 and the width D3 of the rear wide portion 11 refer to the maximum width dimension in the lateral direction Y. Further, the lengths of the front wide portion 9 and the rear wide portion 11 in the vertical direction X may be the same or different, for example, the rear wide portion 11 is configured to be longer.

Since the absorbent core 7 has the narrow portion 10, it is possible to reduce the external force from the lateral direction Y applied to the narrow portion 10 when both legs of the wearer are closed and the crotch width is narrowed. As a result, unfavorable deformation such that the intermediate region M2 is compressed in the lateral direction Y can be suppressed, and the fit in the intermediate region M2 can be improved.
On the other hand, when the napkin 1 is worn behind the normal wearing position, the external force from both legs of the wearer is likely to be applied to the front region M1 in addition to the intermediate region M2. In this case, both legs of the wearer are likely to come into contact with the front wide portion 9, but the napkin 1 has the following configuration, so that it is possible to suppress deterioration of fit and rubbing against the inguinal region.

[Structure of vertical squeezing groove and horizontal squeezing groove]
As shown in FIG. 1, the main body M further has a pair of left and right vertical squeezing grooves 12 and a horizontal squeezing groove 13.
The vertical squeezing groove 12 and the horizontal squeezing groove 13 are linear grooves provided on the surface sheet 2 side of the main body M. The "linearity" in the squeezing groove is not limited to a linear aspect in a plan view, and includes a curved aspect and an aspect including a linear shape and a curved shape. Further, this "linear" also includes an embodiment in which the high-pressure squeezed portions are lined up slightly separated in the extending direction, and a linear groove is formed as a whole.

The longitudinal squeezing groove 12 and the lateral squeezing groove 13 are formed by squeezing the main body M from the surface sheet 2 side in the thickness direction Z.
The longitudinal squeezing groove 12 and the lateral squeezing groove 13 have a configuration in which the front surface sheet 2 and the absorber 4 are integrally recessed toward the back surface sheet 3 side (see FIG. 2). The longitudinal squeezing groove 12 and the lateral squeezing groove 13 can be formed according to a conventional method by squeezing such as heat embossing or ultrasonic sealing. In the vertical pressing groove 12 and the horizontal pressing groove 13, the surface sheet 2 and the absorber 4 are integrated by heat fusion or the like.

The longitudinal squeezing groove 12 and the lateral squeezing groove 13 are consolidated as compared with other regions. As a result, when the napkin 1 receives a force, the longitudinal squeezing groove 12 and the lateral squeezing groove 13 can elastically deform with the force and function as a starting point of deformation that promotes deformation of the surrounding region. ..

As shown in FIGS. 1 and 4, the longitudinal squeezing groove 12 extends in the longitudinal direction X in the anterior region M1. At least a part of the vertical pressing groove 12 may be located in the front region M1, and in the example shown in FIG. 1, the vertical pressing groove 12 extends in the vertical direction X over the entire main body M.
"Extending in the vertical direction X" in the vertical squeezing groove 12 is not limited to the mode in which the vertical squeezing groove 12 extends parallel to the vertical direction X, and the vector in which the vertical squeezing groove 12 is parallel to the vertical direction X as a whole. It suffices if it extends in the direction containing the component.

As shown in FIGS. 1 and 4, the longitudinal squeezing groove 12 has a constriction portion 14 constricted inward in the lateral direction Y. The constricted portion 14 is a portion in which a pair of vertical squeezing grooves 12 are close to each other in the horizontal direction Y inward, and is configured as a minimum point that is convex in the horizontal direction Y inward. That is, in the longitudinal squeezing groove 12, both the front portion and the rear portion of the constricted portion 14 so as to extend in the direction including the vector component toward the constricted portion 14 in the lateral direction Y inward. It is composed.
The constricted portion 14 is located in the front region M1 so as to overlap the front wide portion 9 in a plan view. The phrase "the constricted portion 14 overlaps with the front wide portion 9 in a plan view" means that the constricted portion 14 overlaps with at least a part of the front wide portion 9 in a plan view viewed from the thickness direction Z. In the example shown in FIG. 4, the constricted portion 14 is positioned so as to overlap the front tapered portion 9t of the front wide portion 9.

As shown in FIGS. 1 and 4, the lateral squeezing groove 13 is located inside the lateral squeezing groove 12 of the pair of longitudinal squeezing grooves 12 and extends in the lateral direction Y in the front region M1. Further, the lateral squeezing groove 13 is located on the rear side of the frontmost portion (front end portion 12a) of the pair of vertical squeezing grooves 12. In the example shown in FIG. 4, the lateral squeezing groove 13 is entirely located in the front region M1. The phrase "extending in the lateral direction Y" in the lateral squeezing groove 13 is not limited to the mode in which the lateral squeezing groove 13 extends parallel to the lateral direction Y, and the vector in which the lateral squeezing groove 13 is parallel to the lateral direction Y as a whole. It suffices if it extends in the direction containing the component. That is, as will be described in detail later, the lateral squeezing groove 13 may be formed of a curved line.
As shown in FIG. 4, at least a part of the lateral squeezing groove 13 is located on the virtual line L extending in the lateral direction Y through the constriction portion 14. When the lateral squeezing groove 13 is formed in a curved shape, a part thereof is arranged on the virtual line L, and when it is formed in a straight line extending in the lateral direction Y, the entire lateral pressing groove 13 is arranged on the virtual line L.

When the napkin 1 is worn backward from the normal wearing position, the wearer's legs (thighs) are likely to come into contact with the anterior region M1 where the wide portion 9 of the absorbent core 7 is located. When an external force in the lateral direction Y is applied to the front region M1 from the wearer's leg, in the napkin 1, the longitudinal squeezing groove 12 including the constriction portion 14 receives this external force, and the constriction portion 14 becomes lateral Y. Deformations that are close to each other are induced. Further, since the lateral squeezing groove 13 exists at a position where it overlaps with the constricted portion 14 in the vertical direction X, the lateral squeezing groove 13 also receives this external force and elastically deforms with the constricted portion 14. Specifically, the external force causes the left and right end points of the lateral squeezing groove 13 to be close to each other, and the lateral Y central portion of the lateral squeezing groove 13 is deformed so as to swell toward the skin. As a result of elastic deformation of the constricted portion 14 and the lateral squeezing groove 13 with respect to the external force from the lateral direction Y, the lateral direction Y central portion thereof is on the skin side with respect to the front region M1 including the wide portion 9. Deformation that excites is promoted. Therefore, the front region M1 is likely to be flexibly deformed along the body shape of the wearer even when an external force is applied by the legs, and the fit to the wearer is improved.
Further, in the napkin 1, when an external force from the lateral direction Y is applied to the front region M1, the energy of the external force is efficiently consumed by the above-mentioned preferable deformation. As a result, the contact pressure (drag) from the napkin 1 with respect to the wearer's inguinal region is reduced. Therefore, it is possible to suppress the rubbing of the inguinal region of the wearer and prevent the occurrence of skin troubles.
In addition to this, the napkin 1 includes an absorbent core 7 having a narrow portion 10. As a result, it becomes difficult for an external force from the lateral direction Y to be applied to the intermediate region M2, and the fit in the intermediate region M2 is improved as described above. Further, also in the intermediate region M2, the contact pressure from the napkin 1 to the wearer is reduced, and the rubbing of the inguinal region is suppressed.
From the above, the napkin 1 exhibits good fit in a wide range from the front region M1 to the intermediate region M2, and can effectively suppress the rubbing of the inguinal region of the wearer.

[Detailed configuration of vertical squeezing groove]
As shown in FIG. 1, the pair of longitudinal squeezing grooves 12 preferably extend from the anterior region M1 to the posterior region M3 and are interconnected and closed at the front end 12a and the rear end 12b. Has a shape. The "closed shape" means a continuous ring, but also includes an embodiment having a slight break of about 4 mm or less. The front end portion 12a is a portion located at the frontmost position in the longitudinal pressing groove 12, and is located in the front region M1. The rear end portion 12b is the rearmost portion of the longitudinal squeezing groove 12 and is located in the rear region M3. The front end portion 12a and the rear end portion 12b are preferably arranged on the vertical center line CL that bisects the main body M in the horizontal direction Y.

With this configuration, in the front region M1 where the front end portion 12a is located, the pair of left and right vertical squeezing grooves 12 are likely to act in conjunction with each other. As a result, when the napkin 1 is worn backward from the normal wearing position and an external force from the lateral direction Y is applied to the front region M1, the pair of longitudinal squeezing grooves 12 in the front region M1 are elastically deformed. It becomes easier to approach each other and flexibly deforms the area between them. Therefore, the front region M1 is likely to be deformed to fit the wearer's body shape, and the fit to the wearer can be improved. Further, by flexibly deforming the front region M1, the contact pressure from the napkin 1 with respect to the inguinal region is further reduced, and the rubbing of the inguinal region of the wearer can be effectively suppressed.

[Detailed configuration of lateral squeeze groove]
As shown in FIGS. 1 and 4, the lateral squeezing groove 13 preferably has a forward convex shape. That is, the lateral squeezing groove 13 has a shape protruding forward in the lateral Y central portion. As shown in FIG. 4, the frontmost portion of the lateral squeezing groove 13 is referred to as the front end portion 13a. The portions from the front end portion 13a toward the left and right end points are referred to as a left side portion 13b and a right side portion 13c, respectively. In the lateral squeezing groove 13, the left side portion 13b and the right side portion 13c extend in the direction including the vector component in the vertical direction X. The front end portion 13a is preferably arranged on the vertical center line CL of the main body M.

In the lateral pressing groove 13 having the above configuration, when an external force from the lateral direction Y is applied, the left side portion 13b and the right side portion 13c are more likely to receive the external force, and the lateral pressing groove 13 itself rises toward the skin side. It becomes flexible and easily elastically deformed. As a result, it becomes easy to promote a preferable deformation such that the central portion in the lateral direction is raised toward the skin side with respect to the entire front region M1 including the constricted portion 14. Therefore, with this configuration, the fit in the front region M1 can be further improved, and the rubbing of the inguinal region of the wearer can be suppressed more effectively.

The lateral squeeze groove 13 is more preferably composed of a curved line. That is, the lateral squeezing groove 13 in this case has a shape that is convexly curved forward.
In this configuration, since the left side portion 13b and the right side portion 13c each have a curved shape, a sufficient length of these portions can be secured, and an external force from the lateral direction Y can be sufficiently received. As a result, the energy of the external force can be consumed more efficiently, and the contact pressure on the inguinal region of the wearer can be further reduced.
Further, since the left side portion 13b and the right side portion 13c have a curved shape, the lateral Y central portion of the front region M1 can be curved in a gentle convex shape. Thereby, the fit in the front region M1 can be further improved.

[Composition of central squeeze groove]
As shown in FIG. 1, the main body M may further have at least one central squeeze groove 15 located in the lateral Y central portion of the intermediate region M2 and extending in the vertical direction X. The central portion of the intermediate region M2 in the lateral direction Y is the central region when the intermediate region M2 is divided into three equal parts in the lateral direction Y. The phrase "extending in the vertical direction X" in the central pressing groove 15 is not limited to the mode in which the central pressing groove 15 extends parallel to the vertical direction X, and the central pressing groove 15 includes a vector component parallel to the vertical direction X as a whole. It suffices to extend in the direction.

The central pressing groove 15 is a linear groove provided on the surface sheet 2 side of the main body M, and is formed by pressing from the surface sheet 2 side of the main body M in the thickness direction Z. As shown in FIG. 2, the central pressing groove 15 has a configuration in which the front surface sheet 2 and the absorber 4 are integrally recessed toward the back surface sheet 3 side. The central pressing groove 15 can be formed according to a conventional method by pressing processing such as heat embossing processing or ultrasonic sealing processing. In the central pressing groove 15, the surface sheet 2 and the absorber 4 are integrated by heat fusion or the like.
As described above, the central squeezing groove 15 is compacted as compared with the surrounding region, and functions as a starting point of deformation that promotes deformation of the surrounding region when a force is applied.

In the intermediate region M2, the influence of the force from the wearer's leg is reduced by the action of the narrow portion 10, but even when the force is large, the central squeezing groove 15 utilizes the force to intermediate. It is possible to promote a preferable deformation of the region M2.
Specifically, the central squeezing groove 15 can also provide a starting point of deformation in the lateral Y central portion of the intermediate region M2, and the force from the lateral Y can be used to create the regions on both sides of the central squeezing groove 15 in the lateral direction Y. It can be deformed flexibly. As a result, the intermediate region M2 is easily deformed so as to swell toward the skin side, and it is easy to fit along the body shape.
Further, in the napkin 1, the energy of the force is efficiently consumed by the preferable deformation of the intermediate region M2, so that the contact pressure from the intermediate region M2 with respect to the inguinal region of the wearer is reduced.
Therefore, with this configuration, the fit of the intermediate region M2 in addition to the front region M1 is further improved, and the rubbing of the inguinal region is effectively suppressed over a wide range of the front region M1 and the intermediate region M2.

The central pressing groove 15 is formed in a fragment shape extending in the vertical direction X, and is formed shorter than the length of the intermediate region M2 in the vertical direction X. The length of the central pressing groove 15 in the longitudinal direction X is preferably 5 mm or more, more preferably 7 mm or more, and preferably 30 mm or less, more preferably 25 mm or less, from the viewpoint of flexibly deforming the intermediate region M2. ..

As shown in FIG. 1, the main body M preferably has a plurality of central squeezing grooves 15. As a result, a plurality of deformation starting points can be provided in the lateral Y central portion of the intermediate region M2, and the intermediate region M2 can be deformed more flexibly.

The main body M may have, for example, four central squeezing grooves 15. In the example shown in FIG. 1, two central squeezing grooves 15 are arranged in the central portion of the intermediate region M2 in the vertical direction X, and one central squeezing groove 15 is arranged in front of and behind the central squeezing groove 15. The two central squeezing grooves 15 in the vertical direction X central portion are arranged, for example, on the left side portion and the right side portion sandwiching the vertical center line CL of the main body M, respectively, and the front and rear central squeezing grooves 15 are, for example, the vertical center line. Each is placed on the CL.
As a result, the central squeezing groove 15 is arranged so as to surround the central portion of the intermediate region M2, and can be deformed so as to raise the central portion of the intermediate region M2 with respect to the force from the lateral direction Y. Therefore, with this configuration, the intermediate region M2 is more easily deformed along the body shape, and the fit in the intermediate region M2 is further improved.

[Composition of low basis weight groove of absorbent core]
As shown in FIG. 3, the absorptive core 7 further includes a low basis weight vertical groove portion 16 extending in the vertical direction X and a low basis weight lateral groove portion 17 extending in the horizontal direction Y. In the example shown in FIG. 3, the absorbent core 7 has a plurality of vertical groove portions 16 and a plurality of horizontal groove portions 17, and is divided into blocks by these. In these grooves, "extending in the vertical direction X" or "extending in the horizontal direction Y" may mean extending in the vertical direction X or the horizontal direction Y as a whole, and at least a part thereof is curved or meandering. It shall include.
As shown in FIG. 2, these grooves include, for example, grooves formed downward from the upper surface of the absorbent core 7 in the thickness direction Z. These grooves are constructed with a lower basis weight than the surrounding area.
The "low basis weight" of the groove is a concept including a form in which the material of the absorbent core 7 is present and a form in which the material of the absorbent core 7 is not present. In the form in which the material of the absorbent core 7 is present in each of the vertical groove portion 16 and the horizontal groove portion 17, since the block-shaped portions of the absorbent core 7 located on both sides thereof are connected via each groove portion, the absorbent core 7 is connected. It is more preferable because it can impart flexibility while suppressing deformation and destruction of the above.

Since the vertical groove portion 16 and the horizontal groove portion 17 are formed thinner than the surrounding block-shaped portions, they are likely to be the starting points of deformation. That is, since the absorbent core 7 has the vertical groove portion 16 and the horizontal groove portion 17, the main body M is easily deformed flexibly. Therefore, the deformation action of each squeezing groove with respect to the above-mentioned force can be more effectively exerted, and the fit can be improved. Further, by increasing the flexibility of the absorbent core 7, the contact pressure on the inguinal region of the wearer can be reduced, and the rubbing of the inguinal region can be prevented more effectively.

[Additional explanation of this embodiment]
Hereinafter, the description of this embodiment will be supplemented.

(Additional explanation of absorbent core)
As shown in FIGS. 2 and 3, the absorbent core 7 has a high basis weight portion 18 which is located at least in the center portion of the lateral Y in the intermediate region M2 and has a basis weight higher than that of the surroundings. In FIG. 3, the high basis weight portion 18 is shown by a dot pattern. The high basis weight portion 18 projects, for example, upward in the thickness direction Z. The high basis weight portion 18 can enhance the absorbency of the absorbent core 7 in the intermediate region M2 and further enhance the fit in the intermediate region M2.

As shown in FIG. 3, the high basis weight portion 18 may extend from the intermediate region M2 to the front region M1 and the rear region M3, for example, extending over the vertical X total length of the narrow portion 10 of the absorbent core 7. You may. As a result, the absorbency of the narrow portion 10 can be enhanced and a sufficient fit can be ensured.

Further, as shown in FIG. 2, the central pressing groove 15 may be formed on the high basis weight portion 18. As a result, flexible deformation of the high basis weight portion 18 having a large basis weight can be promoted, and the fit in the intermediate region M2 can be further improved.

(Width of each part of the absorbent core)
The widths D1 and D3 of the front wide portion 9 and the rear wide portion 11 are preferably 60 mm or more and 100 mm or less, and more preferably 70 mm or more and 90 mm or less.
The width D2 of the narrow portion 10 is preferably 40 mm or more and 75 mm or less, and more preferably 50 mm or more and 70 mm or less, from the viewpoint of obtaining the above-mentioned force buffering action while ensuring sufficient absorbability.

(Additional explanation of vertical groove and horizontal groove)
In the example shown in FIG. 3, five vertical groove portions 16 are arranged in the front wide portion 9 and the rear wide portion 11 at intervals in the lateral direction Y. The arrangement of these vertical groove portions 16 is not limited, but for example, one vertical groove portion 16 is arranged on the vertical center line CL, and two pairs of vertical groove portions 16 are arranged on both sides in the lateral direction Y.
In the narrow portion 10, one vertical groove portion 16 is arranged on the vertical center line CL, and a pair of vertical groove portions 16 are arranged on both sides in the lateral direction Y thereof. The two vertical groove portions 16 on both sides of the narrow portion 10 may extend so as to surround the outer periphery of the high basis weight portion 18. As a result, it is possible to prevent the high basis weight portion 18 from breaking and maintain a good shape, and it is possible to promote the flexible deformation of the narrow portion 10.
As shown in FIG. 3, these flutes 16 may extend over the vertical X overall length of the front wide portion 9, the narrow portion 10, and the rear wide portion 11, or extend to a part of each of these portions. You may.

In the example shown in FIG. 3, the lateral groove portions 17 are arranged in the entire absorbent core 7 at intervals in the vertical direction X. As shown in FIG. 3, the lateral groove portion 17 may extend over the entire lateral Y width of the absorbent core 7, or may extend partially.

The width of the vertical groove portion 16 and the horizontal groove portion 17 in the direction orthogonal to the extending direction is 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 depth of the vertical groove portion 16 and the horizontal groove portion 17 is preferably 0.5 mm or more, and preferably 10 mm or less.

(Construction of other squeezing grooves)
As shown in FIG. 1, the main body M may further have one or more lateral squeezing grooves extending laterally Y in the rear region M3. Hereinafter, the lateral squeezing groove 13 in the front region M1 will be referred to as a first lateral squeezing groove 13. The lateral squeezing groove located inside the longitudinal squeezing groove 12 in the longitudinal direction X and the lateral direction Y in the rear region M3 is referred to as a second lateral squeezing groove 19. The lateral squeezing groove located behind (outside) the longitudinal squeezing groove 12 in the rear region M3 is referred to as the third lateral squeezing groove 20.
The main body M may have other squeezing grooves (not shown), and may have one or a plurality of pairs of auxiliary squeezing grooves extending in the vertical direction X in the intermediate region M2, for example.

The second lateral squeezing groove 19 has, for example, a rearwardly convex shape and is formed in a curved shape. The second lateral squeezing groove 19 is located inside the longitudinal squeezing groove 12 surrounded by an annular structure, and for example, two squeezing grooves 19 are provided apart from each other in the vertical direction X. The rearmost rear end of each second lateral squeeze groove 19 is arranged, for example, on the vertical centerline CL. Such a second lateral squeezing groove 19 promotes deformation such that the lateral Y central portion of the posterior region M3 is raised toward the skin side, and the fit to the buttocks of the wearer in the posterior region M3 can be improved. ..

The third lateral squeezing groove 20 has, for example, a rearwardly convex shape and is formed in a curved shape. The third lateral squeezing groove 20 is located outside the annular structure of the longitudinal squeezing groove 12. The rearmost rear end of the third lateral squeezing groove 20 is arranged at a position separated from the vertical center line CL in the lateral direction, for example. Further, one of the left and right end points of the third lateral pressing groove 20 may be formed in a spiral shape. With such a third lateral squeezing groove 20, it is possible to suppress the standing of the region near the rear end portion of the rear region M3 on the skin side, and it is possible to improve the fit of the wearer in the substantially flat rear of the buttocks.

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, examples of sanitary napkins have been shown as absorbent articles, but the present invention is not limited thereto. 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.

Hereinafter, the present invention will be described in more detail with reference to Examples, but the present invention is not limited thereto.

[Preparation of absorbent articles for evaluation]
(Example)
As the absorbent article of Example 1, sanitary napkins (napkins) having the configurations shown in FIGS. 1 to 4 were prepared.
First, an absorbent core was wound around a core wrap sheet to prepare an absorbent body. As shown in FIG. 3, the absorbent core has a narrow portion and a wide portion located on both front and rear ends thereof, and a block structure is formed by the vertical groove portion and the horizontal groove portion.
This absorber was placed between a liquid-permeable front sheet and a back sheet made of a polyethylene resin film to prepare a laminated body. The surface sheet was fixed on the absorber by applying an adhesive on the absorber in a spiral pattern.
Further, the pressing process was performed from the surface sheet side of this laminated body. The pressing process was performed, for example, by integrally heating and pressurizing this laminate between an embossed roll having a convex portion on the outer peripheral surface and a flat roll having a flat outer peripheral surface. As a result, a squeezing groove having a pattern corresponding to the planar shape of the convex portion was formed, and the napkin according to the example was produced.
The napkin of the first embodiment has a total length of 400 mm, the vertical length and the horizontal length of the narrow portion in the absorbent core are 130 mm and 65 mm, respectively, the maximum horizontal width of the wide portion is 80 mm, and the vertical portion of the tapered portion. The directional length was 11 mm.

As shown in Table 1, the napkin according to the embodiment has a vertical squeezing groove having a constricted portion located so as to overlap the wide portion in a plan view in the front region, and at least a part of the napkin passes through the constricted portion in the lateral direction. It was equipped with a lateral squeeze groove located on an extending virtual line.

(Comparative Example 1)
As Comparative Example 1, as shown in Table 1, a longitudinal squeezing groove having a constriction in the front region and a lateral squeezing groove in which at least a part of the squeezing groove is located on an imaginary line extending laterally through the constriction. A napkin having the same configuration as that of the example was prepared except that it was not provided. As shown in Table 1, the napkin according to Comparative Example 1 had an absorbent core having a narrow portion, similarly to the napkin according to Example 1.

(Comparative Example 2)
As Comparative Example 2, as shown in Table 1, a napkin having the same configuration as that of the Example except that it does not have a narrow portion and has an absorbent core having a constant width over the entire length of the vertical direction X is used. Made. As shown in Table 1, the napkin according to Comparative Example 2 has a longitudinal squeezing groove having a constriction in the front region and a lateral squeezing groove in which at least a part of the napkin is located on an imaginary line extending laterally through the constriction. And was equipped with.

(Comparative Example 3)
As Comparative Example 3, as shown in Table 1, it does not have a narrow portion, has an absorbent core having a constant width over the entire length of the vertical direction X, and at least a part of the core passes through the constricted portion. A napkin having the same configuration as that of the example was prepared except that the napkin was not provided with the lateral squeezing groove located on the virtual line extending in the lateral direction. As shown in Table 1, the napkin according to Comparative Example 3 was provided with a longitudinal squeezing groove having a constriction in the anterior region.

(Comparative Example 4)
As Comparative Example 4, as shown in Table 1, the vertical direction has no narrow portion, has an absorbent core having a constant width over the entire length of the vertical direction X, and has a constricted portion in the front region. A napkin having the same configuration as that of the embodiment was produced except that the napkin was not provided with a squeeze groove and a lateral squeeze groove located on a virtual line extending laterally through a constriction portion at least in part.

[Measurement of compressive load in the lateral direction]
For the napkins of Examples and Comparative Examples 1 to 4, the compressive load in the lateral (width) direction was measured by the following method. The lateral compression load evaluates the flexibility of the absorbent article and the magnitude of the contact load applied to the skin with respect to the lateral compression from the wearer's thigh.

As a measuring device, as shown in FIG. 5, a TENSILON RTC-1210S (measuring device T) manufactured by Orientec Co., Ltd. and a jig J were used. The jig J has a pair of arcs J11 and J12 that apply a width compression load to the sample S, and a pulley J2 that pulls a string J3 attached to the arc J11.
In the sample S, tissue paper was attached to the entire surface of the adhesive portion of the back sheet of the napkin body, and the wing portion and the rear flap portion were placed between the arcs J11 and J12 in a state of being folded back toward the back sheet side. At this time, the width of the sample S was adjusted to be the same as the width of the core wrap sheet.
As shown in FIG. 5A, the sample S has a fixed string J4 so that the measurement position is at the same horizontal position as the apex of the pair of arcs J11 and J12 of the jig J and is in contact with the arc J12 on the pulley J2 side. Placed below. At this time, the distance between the left and right arcs J11 and J12 was adjusted to 100 mm.
The measurement position of the sample S was set at two positions, that is, a position that bisects the intermediate region (the region facing the excretion portion) in the vertical direction and a position that is shifted rearward by 42 mm from this position. Hereinafter, the former measurement position will be referred to as a "normal measurement position", and the latter measurement position will be referred to as a "measurement position when shifted backward".
At the time of measurement, as shown in FIG. 5B, the string J3 attached to the arc J11 is pulled by the measuring device T and the pulley J2 to compress the sample S until it has a width of 30 mm, and when it is compressed to a width of 50 mm, it is compressed. Was measured as the width compression load. The measurement conditions were a tensile speed of 50 mm / min and a height of the fixing string J4 from the sample S mounting surface of 22 mm.
Table 1 shows the measurement results.

From the results of Examples and Comparative Examples 1 and 2, it was confirmed that the compressive load at the normal measurement position can be reduced by having the absorbent core having a narrow portion.
On the other hand, from the results of Examples and Comparative Example 1, a longitudinal squeezing groove having a constricted portion in the front region and a lateral squeezing groove having at least a part of it located on an imaginary line extending laterally through the constricted portion. It was confirmed that the compression load at the measurement position when shifting backward can be reduced by providing the above. Further, from the results of Example 1 and Comparative Example 2, it was confirmed that the compressive load at the time of rearward shifting can be further reduced by having the absorbent core having a narrow portion in addition to these squeezing grooves.
From the results of Examples, Comparative Examples 2 and 3, it was confirmed that the compressive load at any measurement position can be reduced by the lateral squeezing groove located on the virtual line extending laterally through the constricted portion.
From the results of Examples, Comparative Examples 3 and 4, it was confirmed that the compression load at the measurement position at the time of rearward shifting can be significantly reduced by providing the longitudinal squeezing groove having a constricted portion in the front region.
From the above, an absorbent core having a narrow portion, a longitudinal squeezing groove having a constriction in the anterior region, and a lateral squeezing groove in which at least a part is located on an imaginary line extending laterally through the constriction. It was confirmed that the absorbent article provided with any of the above can reduce the compressive load in the lateral direction not only in the normal mounting position but also in the mounting position shifted to the rear. Therefore, such an absorbent article can enhance the fit to the wearer, reduce the contact pressure on the inguinal region, and suppress rubbing.

1 ... Napkin (absorbent article)
2 ... Front sheet 3 ... Back sheet 4 ... Absorber 9 ... Front wide part (wide part)
10 ... Narrow part 12 ... Vertical squeezing groove 13 ... Horizontal squeezing groove 14 ... Constricted part M ... Main body M1 ... Front area M2 ... Intermediate area M3 ... Rear area W ... Wing part

Claims (6)

A main body including a liquid-permeable front surface sheet, a back surface sheet, an absorber having an absorbent core and arranged between the front surface sheet and the back surface sheet, and a pair of wing portions protruding from the main body. An absorbent article having a vertical direction corresponding to the front-back direction of the wearer and a horizontal direction orthogonal to the vertical direction.
The main body
It is divided into an intermediate region in which the pair of wing portions are arranged on the outer side in the horizontal direction, a front region located in the longitudinal front of the intermediate region, and a rear region located in the longitudinal rear of the intermediate region. And
A pair of left and right vertical squeezing grooves extending in the vertical direction in the front region,
In the anterior region, the pair of longitudinal squeezing grooves is further provided with a lateral squeezing groove located inside the lateral direction and extending in the lateral direction.
The absorbent core includes a narrow portion in which at least a part is located in the intermediate region, a wide portion located in front of the narrow portion in the vertical direction and wider in the horizontal direction than the narrow portion. Have,
The pair of longitudinal squeezing grooves have a constriction that is constricted inward in the lateral direction and is located so as to overlap the wide portion in a plan view in the front region.
An absorbent article located on an imaginary line extending laterally through the constriction so that at least a portion of the lateral squeeze groove is located. The absorbent article according to claim 1, wherein the pair of longitudinal squeezing grooves extend from the anterior region to the posterior region and are interconnected at the front and rear ends and have a closed shape. .. The absorbent article according to claim 1 or 2, wherein the lateral squeezing groove has a convex shape in the forward direction. The absorbent article according to claim 3, wherein the lateral squeeze groove is formed of a curved line. The absorbent article according to any one of claims 1 to 4, wherein the main body is located in the lateral central portion of the intermediate region and further has at least one central squeeze groove extending in the vertical direction. The absorbent core
The low basis weight flutes extending in the vertical direction and the
The absorbent article according to any one of claims 1 to 5, further comprising a lateral groove portion having a low basis weight extending in the lateral direction.

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