JP2012125270A - Absorbent article - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an absorbent article which fits to the body of a wearer and can efficiently prevent a liquid from leaking.SOLUTION: An absorbent body 13 includes an upper layer absorbent body 13b on a skin contact surface side and a lower layer absorbent body 13a on a skin noncontact surface side, wherein the upper layer absorbent body 13b is arranged on the skin contact surface side of an excretion section opposing region C. The absorbent body 13 has a plurality of compression points 16 formed by compressing the upper and lower layer absorbent bodies 13b, 13a in a thickness direction, and when the absorbent body 13 is viewed in plan view, a plurality of longitudinal compression point arrays 17 consisting of the regularly arranged compression points 16 are formed over a width direction so as to extend in a longitudinal direction. In the absorbent article, the compression points 16 are arranged so that when the absorbent body 13 is viewed in the width direction, the compression points 16 forming a certain compression point array 17a are not positioned on the same positions as the compression points 16 forming another compression point array 17b adjacent to the compression point array 17a.

Description

  The present invention relates to an absorbent article (absorbent article for women) such as a sanitary napkin, a panty liner (corimono sheet), an incontinence pad, and the like.

  There has been known an absorbent article in which a compression portion is formed in an absorbent body so as to control the shape of the absorbent body in a mounted state. For example, the present applicant has first provided an absorbent article having an absorbent layer having a portion with a large number of layers in the central region in the width direction, and having means for stabilizing the mounting shape in the portion with the large number of layers. Proposed. The means for stabilizing the mounting shape includes, for example, a compression section provided discontinuously. This absorbent article is difficult to sway, has excellent shape stability when worn, and has good fit to the body.

  Apart from this absorbent article, the present applicant has proposed an absorbent article having an absorbent layer having a multilayer part formed by laminating an absorbent sheet containing a superabsorbent polymer. This multilayer part is arrange | positioned at the back region behind the excretion part area | region and this excretion part area | region contact | abutted by a wearer's bodily fluid excretion part, respectively. The multilayer portion disposed in the rear region includes a plurality of laterally long bent portions formed by slits or embosses extending in the width direction, and the bent portions are intermittently arranged in the longitudinal direction. According to this absorbent article, there is an advantageous effect that the fit of a rear region having a large change in body shape is improved and the leak-proof property is excellent.

JP 2006-141721 A JP 2010-142367 A

  According to each of the above absorbent articles, it is possible to prevent liquid leakage. However, there is a growing demand for prevention of liquid leakage and improvement of wearing feeling.

  Therefore, the subject of this invention is providing the absorbent article which various characteristics improved rather than the prior art mentioned above.

The present invention is a vertically long absorbent article in which a liquid-permeable surface sheet is provided on the skin contact surface side, a back sheet is provided on the non-skin contact surface side, and a liquid-retaining absorbent is disposed between both sheets,
The absorber comprises an upper layer absorber on the skin contact surface side and a lower layer absorber on the non-skin contact surface side, and the upper layer absorber is disposed on the skin contact surface side of the excretory part facing region,
The absorber has a plurality of compression points formed by compressing the upper layer absorber and the lower layer absorber in the thickness direction, and when the absorber is viewed in plan view, the absorber has a vertically long shape composed of the compression points regularly arranged. A plurality of rows are formed over the width direction so that the compression point row extends in the longitudinal direction,
When viewed in the width direction of the absorbent body, each compression point constituting one compression point row is not located at the same position in the longitudinal direction as each compression point constituting another compression point row adjacent to the compression point row. Thus, an absorbent article in which each compression point is arranged is provided.

  According to the absorbent article of the present invention, in the wearing state, the portion facing the excretory part of the wearer is deformed in a convex shape toward the wearer's body and fits the wearer's body, so that liquid leakage occurs. Effectively prevented. Moreover, since the site | part which deform | transformed convexly is stabilized by formation of a compression point, a liquid leak is also prevented effectively by that. Furthermore, by forming a large number of compression points, the absorbent body becomes flexible, and the wearing feeling of the absorbent article is improved.

FIG. 1 is a plan view showing an embodiment of the absorbent article of the present invention. 2 is a cross-sectional view taken along line II-II in FIG. Fig.3 (a) is a schematic diagram which shows the arrangement | positioning state of the compression point in the absorbent article shown in FIG. 1, FIG.3 (b) is a schematic diagram which shows the arrangement | positioning state of the compression point in the conventional absorbent article. is there. FIG. 4 is a plan view (corresponding to FIG. 1) showing another embodiment of the absorbent article of the present invention.

  The present invention will be described below based on preferred embodiments with reference to the drawings. The top view of one Embodiment of the absorbent article of this invention is shown by FIG. 2 is a cross-sectional view taken along line II-II in FIG.

  The absorbent article shown in FIGS. 1 and 2 is a sanitary napkin 10. The napkin 10 has a substantially vertically long shape, and when it is worn, the excretory part facing area C, which is a part facing the excretion part of the wearer, and the forward area A and the excretion part facing area C extending forward and backward respectively. And a rear region B. The napkin 10 has as its main constituent members a top sheet 11 located on the side close to the wearer's skin and a back sheet 12 located on the side far from the wearer's skin. An absorber 13 is disposed between the top sheet 11 and the back sheet 12.

  The top sheet 11 is liquid permeable. As the surface sheet, a liquid permeable sheet conventionally used for this type of absorbent article can be used without particular limitation. The liquid permeable sheet is not limited as long as it can permeate the excreted liquid into the absorbent body, but a sheet having a feeling close to underwear is particularly preferable. Examples of such a liquid-permeable sheet include a nonwoven fabric and a perforated film in which a number of perforations are provided in the film. In particular, it is preferable to use an air-through nonwoven fabric as a material that gives a feeling close to underwear.

  The back sheet 12 is liquid-impermeable or liquid-impermeable. Examples of the liquid-impermeable sheet include films made of various thermoplastic resins. This film may have water vapor permeability. As the liquid-impermeable sheet, a sheet (for example, SM, SMS, SMMS, etc.) in which the spunbond nonwoven fabric (S) and the meltblown nonwoven fabric (M) are combined can be used.

  As the absorbent body 13, for example, a fluff pulp pile or a mixed pile of fluff pulp and a superabsorbent polymer can be used. These piles may be wrapped with a liquid permeable sheet such as tissue paper or nonwoven fabric.

  The napkin 10 has a pair of wings 14 and 14 that extend laterally from the left and right sides in the excretory part facing region C. The wing part 14 is formed as an extended portion of the back sheet 12 and / or the top sheet 11, or is formed from a member different from the back sheet 12 and the top sheet 11. An adhesive layer (not shown) is provided on the back surface of the wing portion 14. The pressure-sensitive adhesive layer is used to fix the napkin 10 to the shorts when the napkin 10 is attached to the wearer's shorts.

  In the case of a napkin as in this embodiment, the specific position of the excretory part facing region C is a region facing the user's vaginal opening. In a so-called daytime napkin, the napkin is divided into three equal parts in the longitudinal direction. In the case of a night napkin, this is the rear side of the front region obtained by dividing the napkin into two equal parts in the longitudinal direction. When the napkin 10 has the wing portions 14 and 14 to be fixed by being attached to the crotch portion of the shorts, the wing portions 14 and 14 are disposed in the excretion portion facing area C regardless of the daytime or nighttime napkin. This is a region that is being used, but is not limited to this region.

  The napkin 10 is provided with a pair of leak-proof cuffs 15 extending in the longitudinal direction of the napkin 10 on both left and right side portions on the surface sheet 11 side. The leak-proof cuff 15 includes a wall portion 15a that rises upward, and an overhang portion 15b that projects in the horizontal direction from the upper end of the wall portion 15a. Therefore, the cross section in the width direction of the leak-proof cuff 15 has a substantially T-shape. The base portion of the wall portion 15 a is located between the absorber 13 and the back sheet 12. The overhanging portion 15b has a substantially flat upper surface, and the overhanging portion 15b comes into contact with the skin of the wearer when the napkin 10 is attached. A plurality of elastic yarns 15c extending in the same direction as the direction in which the leak-proof cuff 15 extends are arranged in the overhanging portion 15b. The elastic yarn 15c is fixed to the overhanging portion 15b in an extended state. The elastic yarn 15c erects the wall portion 15a by the contraction and stabilizes the planar shape of the overhanging portion 15b, thereby ensuring the contact of the overhanging portion 15b with the skin.

  The overhanging portion 15 b is joined to the topsheet 11 at the positions of the front end and the rear end of the napkin 10. The overhanging portion 15 b is also joined to the topsheet 11 at the intermediate fixing portion 20 that is a position in the vicinity of the boundary portion between the excretory portion facing region C and the rear end region B of the napkin 10. By these joints, the standing of the leak-proof cuff 15 becomes more stable.

  The absorbent body 13 in the napkin 10 includes an upper layer absorbent body 13b and a lower layer absorbent body 13a in the excretory part facing region C. Specifically, as shown in FIG. 2, in the excretory part facing region C, a multi-layer region composed of the lower layer absorber 13 a and the upper layer absorber 13 b is formed in the central region in the width direction of the napkin 10. The lower layer absorbent body 13 a is disposed on the non-skin contact surface side of the napkin 10. On the other hand, the upper layer absorbent body 13 b is disposed on the skin contact surface side of the napkin 10. This multilayer portion extends in the longitudinal direction of the napkin 10. The absorber 13 is formed from a small number of layers of the lower layer absorber 13a at portions other than the multilayer portion. Specifically, the small layer portion is a single layer portion, and extends forward and backward from the multilayer portion before and after the multilayer portion. In addition, the left and right sides of the multilayer part are also formed from small layer parts. This small layer part is formed of a continuous body from the lower layer absorber 13a in the multilayer part. Therefore, when the absorber 13 is viewed in plan, the contour of the lower layer absorber 13 a defines the contour of the absorber 13. The thickness of the multilayer portion is larger than that of the small layer portion.

  The lower layer absorber 13a and the upper layer absorber 13b constituting the multilayer portion of the absorber 13 may be made of the same material or different materials. The overall thickness of the multilayer part composed of the lower layer absorbent body 13a and the upper layer absorbent body 13b is preferably 5 to 12 mm under a load of 310 Pa, and is preferably 5 to 10 mm. This is preferable because it can be brought into contact with a person's body with good fit. On the other hand, the thickness of the single-layer part comprised only of the lower layer absorber 13a is 2 to 10 mm, particularly 3 to 7 mm under a load of 310 Pa, so that the liquid can be sufficiently retained and fit to the wearer's body. From the viewpoint of sex.

  Since the upper layer absorber 13b is disposed in the excretory part facing region C, it has a function of quickly absorbing a large amount of drainage (menstrual blood) and diffusing the drainage into the adjacent lower layer absorption layer 13a. The lower absorbent layer 13a has a function of preventing liquid return from the upper absorbent layer 13b to the skin by diffusing the drainage transferred from the upper layer in the longitudinal direction. From this point of view, the compression point 16 described later is formed from the non-skin contact surface side of the lower layer absorber 13a toward the upper layer absorber 13b to the upper layer absorber 13b and not penetrating the upper layer absorber 13b. It is preferable from the viewpoint of liquid transmission.

  In the napkin 10, a leak-proof groove 19 a extending in the longitudinal direction is formed in the lower layer absorbent body 13 a located on both sides of the central region C in the width direction in the excretory part facing region C that is a multilayer part of the absorbent body 13. One end of each leakage prevention groove 19 a extends to the front area A of the napkin 10 and is smoothly connected to the arc-shaped leakage prevention groove 19 b formed in the front area A. The leak-proof groove 19a does not reach the multilayer portion. The other end of the leak-proof groove 19 a is smoothly connected to one end of the leak-proof groove 19 c formed in the rear region B of the napkin 10. The other end of the leak-proof groove 19c is smoothly connected to an arc-shaped leak-proof groove 19e formed near the rear end of the napkin 10. As described above, the napkin 10 is formed with a groove having a closed shape including these leak-proof grooves. A closed groove formed of a leak-proof groove is formed around the upper-layer absorber 13b.

  The absorbent body 13 includes a plurality of compression point sequences 17 including a plurality of compression points 16 formed by compressing the absorbent body 13 from the excretory part facing area C in the front-rear direction of the facing area C in plan view. A line is formed. The compression point 16 is formed by compressing the upper layer absorber 13b and the lower layer absorber 13a in the thickness direction in the excretory part facing region C. On the other hand, in the front part A and the rear part B extending forward and backward from the excretory part facing area C, only the lower layer absorbent 13a is compressed in the thickness direction to form a compression point 16. The compression point sequence 17 extends in the longitudinal direction of the absorber 13. The compression point sequence 17 is formed in a straight line from the front part A to the rear part B, straddling the excretion part facing region C. In the napkin 10 shown in FIGS. 1 and 2, two compression point sequences 17 a and 17 b are formed over the width direction of the napkin 10. The two compression point sequences 17 a and 17 b are formed at positions symmetrical with respect to the longitudinal center line (not shown) of the absorber 13.

  In one compression point row 17a of the two compression point rows 17, the distance between the compression points 16 adjacent in the front and rear is the same. Also in the other compression point row 17b, the distance between the adjacent compression points 16 in the front and rear is the same. The distance between the compression points adjacent to each other in one compression point sequence 17a and the distance between the compression points adjacent to each other in the other compression point sequence 17b may be the same or different. In the napkin 10 shown in FIG. 1, the distance between the compression points adjacent in the front and rear directions in both the compression point sequences 17a and 17b is the same.

  As shown in FIG. 2, each compression point 16 is a surface closer to the skin (skin contact surface side) from a surface far from the skin (non-skin contact surface side) among the surfaces of the absorber 13. The absorbent body 13 is pressed into a point shape together with the back sheet 12 and compressed. The compression point 16 is formed so as not to penetrate the upper layer absorbent body 13. Therefore, when the absorber 13 is viewed from the surface on the side far from the skin, a hole that does not penetrate is formed at a position corresponding to the compression point 16. By compressing from the non-skin contact surface side of the absorbent body 13 to form the compression point 16, the absorbent body 13 is raised at the center in the width direction against the compression from both sides when the napkin 10 is attached. Since it becomes easy to deform into a smooth mountain-like curved shape in a cross-sectional view in the width direction, the fit of the napkin 10 is improved. Further, by pressing the back sheet 12 together with the absorber 13 to form the compression point 16, it is possible to enhance the sense of unity between the back sheet 12 and the absorber 13 and to prevent the back sheet 12 from floating. However, the compression sheet 16 may be formed by pressing only the lower layer absorber 13b and the upper layer absorber 13a without pressing the back sheet 12. In forming the compression point 16, for example, a push pin is used, and the absorbent body 13 may be pushed from the surface far from the skin with the push pin. When pushing, the push pin may be heated to a predetermined temperature.

  In the compression point 16 formed by using the pushing pin, the depth of the pushing portion is 20 to 95%, particularly 50 to 95%, of the thickness of the multilayer structure of the absorber 13 (under a load of 310 Pa), It is preferable from the point of reliable compression of the absorber 13.

  In the napkin 10, by forming the compression point row so that the plurality of compression points 16 are arranged in a straight line, the absorbent body 13 is convex toward the wearer's body when the napkin 10 is worn. It becomes easy to deform. As a result, the napkin 10 is easily fitted to the wearer's body. In particular, the compression point 16 is formed by compressing the absorber 13 from the surface far from the skin (non-skin contact surface side) toward the surface near the skin. As described, deformation of the absorbent body 13 toward the wearer's body side occurs smoothly.

  In particular, as shown in FIG. 3 (a), in the napkin 10, at least in the multilayer portion of the absorber 13, that is, in the central region in the width direction in the excretory part facing region C, when viewed in the width direction of the absorber 13, Each compression point 16 is arranged so that each compression point constituting one compression point row 17a is not located at the same position as each compression point constituting another compression point row 17b adjacent to the compression point row 17a. is there. By arranging the compression point 16 in this way, a surface can be formed by the three compression points 16a, 16b, and 16c, and absorption is performed in the central region in the width direction of the excretory part facing region C that is a multilayer portion of the absorbent body 13. There is an advantage that the surface is easily stabilized. The stability of the absorption surface greatly contributes to prevention of liquid leakage. At the same time, as described above, when the napkin 10 is mounted, the absorbent body 13 is raised at the center in the width direction against the compression from both sides, and is smoothly curved in a cross-sectional view in the width direction. It becomes easy to deform into a shape. On the other hand, in the conventional napkin (see Patent Document 1) shown in FIG. 3 (b), when viewed in the width direction of the absorbent body 13, each compression point 16a ′ constituting one compression point row 17a ′, Since the compression point row 17a ′ is located at the same position as each compression point row 17b ′ that constitutes the other compression point row 17b ′, it is difficult to form a surface by the three compression points, and a stable absorption surface is obtained. Hard to form.

  Further, by arranging the compression points as described above, in the rear region B of the napkin 10, the small layer portion of the absorbent body 13 becomes flexible, and the starting point when the small layer portion deforms is fine. It is formed. Due to these reasons, the napkin 10 also has an advantageous effect that the fit property in the rear region B is improved.

  Further, even if the distance D between the front and rear compression points 16 in each compression point sequence is the same in FIGS. 3A and 3B, the compression in the compression point sequence 17a in FIG. The distance D1 between the point 16a and the compression point 16b between the compression point sequence 17b adjacent to the compression point sequence 17a is larger than the distance D2 in the conventional napkin shown in FIG. Due to this, the napkin 10 shown in FIG. 3 (a) has a compression point 16 higher than that of the conventional napkin even when the number of compression points is the same as that of the conventional napkin shown in FIG. 3 (b). Without becoming too dense, the flexibility of the multilayer portion of the absorbent body 13 is improved. Therefore, the fitting property of the napkin 10 is improved.

  In addition, as shown in FIG. 3 (a), in the napkin 10, the position of the compression point 16 is shifted in the width direction between the adjacent compression point rows 17a and 17b. In a state of being deformed convexly toward the skin, the cross-sectional shape in the width direction becomes a smooth mountain shape, and the fit of the napkin 10 to the wearer's body is improved. On the other hand, in the conventional napkin shown in FIG. 3B, the deformation of the absorber is likely to occur in each of the two compression point sequences 17a ′ and 17b ′. It becomes easy to form the angular part 13a in the cross section. The presence of the angular portion 13a negatively affects the fit of the napkin to the wearer's body.

  In order to make the above-mentioned various advantageous effects more remarkable, at least in the multilayer portion of the absorbent body 13, as shown in FIG. 3A, one compression point 16 a in one compression point row 17 a and Each compression point of the compression point sequence 17a is formed such that an isosceles triangle is formed by virtually connecting the two compression points 16b and 16c in the other compression point sequence 17b closest to the compression point 16a. It is preferable to arrange the compression points of the compression point row 17b alternately (that is, alternately) when the napkin 10 is viewed in the width direction. In this case, the two hypotenuses in the isosceles triangle are preferably formed by connecting the compression points 16a in one compression point sequence 17a and the compression points 16b and 16c in the other compression point sequence 17b. The base in the isosceles triangle is preferably formed by connecting the compression points 16b and 16c in the compression point sequence 17b.

  Further, since the various advantageous effects described above are made more prominent, at least in the excretory part facing region C of the absorber 13, as shown in FIG. For the distance D1 between the one compression point 16a in the row 17a and the one compression point 16b in the other compression point row 17b closest to the compression point 16a, the one compression point row 17a is adjacent to the front and rear. It is preferable to arrange the compression points so that the distance D between the points is 0.6 to 1 times, particularly 0.8 to 1 times. The distance D1 and the distance D are defined as the distance between the centers of the compression points.

  In the compression point rows 17a and 17b, the distance D between the compression points adjacent to each other is the fit of the napkin 10 to the wearer's body (ease of deformation into a convex shape) and the flexibility of the absorber 13. From a viewpoint, it is preferable to set it as 5-20 mm, especially 7-15 mm. In addition, the distance W between the compression point rows 17a and 17b adjacent on the left and right is from the viewpoint of the fit of the napkin 10 to the wearer's body (ease of deformation into a convex shape, shape at the time of convex deformation). It is preferable to set it as 5-15 mm, especially 8-12 mm.

  As shown in FIG. 1, the compression point sequence 17 is formed in the excretory part facing region C of the napkin 10 and the front part A and the rear part B extending in the front-rear direction. The total length of the compression point row 17 is 90% or more of the total length of the absorbent body 13, and particularly 95% or more, so that the fit of the napkin 10 to the wearer's body (ease of deformation into a convex shape), And it is preferable from the viewpoint of the flexibility of the absorber 13. In this case, the absorbent body 13 is preferably substantially the same size as the region excluding the region where the top sheet 11 and the back sheet 12 are sealed and integrated at the peripheral edge of the napkin 10. The total length of the absorbent body 13 is preferably 70% or more, more preferably 80% or more, and still more preferably 90% or more of the longitudinal length of the napkin 10 excluding the peripheral sealed region. Moreover, since the outline of the lower layer absorber 13 a defines the outline of the absorber 13 as described above, it is preferable that the lower layer absorber 13 a is approximately the same size as the napkin 10.

  FIG. 4 shows a sanitary napkin 10 as an absorbent article according to another embodiment of the present invention. This napkin 10 is different from the napkin shown in FIGS. 1 to 3A described above in the arrangement state of the compression points in the rear region B. The other configuration is the same as that of the napkin shown in FIGS. 1 to 3A described above, and a description thereof is omitted here. In the napkin 10 shown in FIG. 4, three rear compression point sequences 21 are formed in the rear portion B. The distance between the back compression point sequences 21 is wider than the distance between the compression point sequences 17 formed in the excretory part facing region C. Of the three rear compression point sequences 21, the rear compression point sequence 21b located at the center is located on the vertical center line (not shown) of the napkin 10. Of the three rear compression point sequences 21, the two rear compression point sequences 21 a and 21 c located on the left and right sides are positioned symmetrically with respect to the vertical center line (not shown) of the napkin 10. In each rear compression point sequence 21, the distance between the compression points 16 adjacent in the front and rear directions is the same. Further, the distance between the compression points 16 adjacent in the front and rear in the rear compression point sequence 21 and the distance between the compression points 16 adjacent in the front and rear in the compression point sequence 17 formed in the excretory part facing area C may be the same. Or it may be different.

  According to the napkin 10 of the embodiment shown in FIG. 4, the compression points 16 are more widely distributed in the rear region B of the napkin 10 than the napkin shown in FIGS. The entire rear area B is softened. Therefore, the fit to the wearer's buttocks of the rear region B is further improved. In particular, the rear compression point row 21 is formed on the rear end side of the intermediate fixing portion 20 in the leak-proof cuff 15, so that the fit property in the rear region B is improved and the liquid in the rear region B is improved. Side leakage is effectively prevented by the leak-proof cuff 15.

  As mentioned above, although this invention was demonstrated based on the preferable embodiment, this invention is not restrict | limited to the said embodiment. For example, in each of the embodiments described above, the two compression point sequences 17 are formed in the central region in the width direction of the excretory part facing region C. However, instead of this, three or more compression point sequences may be formed. Good.

  Moreover, in each said embodiment, although the compression point 16 is formed in the excretion part opposing area C, the front part A, and the back part B, it replaces with this and the compression point 16 is only in the excretion part opposing area C. It may be formed. However, it is preferable to form the compression points 16 not only in the excretory part facing area C but also in the front part A and the rear part B.

  Further, in the excretion part facing area C, the absorber 13 is composed of the upper layer absorbent body 13b and the lower layer absorbent body 13a, but instead, the absorbent body 13 is replaced with the upper layer absorbent body 13b in the excretion part facing area C. You may comprise from the intermediate | middle absorber arrange | positioned between the lower layer absorber 13a and both absorbers. However, in the excretory part facing area C, the absorber 13 is preferably composed of an upper layer absorber 13b and a lower layer absorber 13a.

  In the above-described embodiment, the cross-sectional shape of the leak-proof cuff 15 is substantially T-shaped, but other shapes such as a substantially Z-shaped structure may be used instead. Moreover, in the said embodiment, although a pair of wing part 14 was formed in the excretion part opposing area | region C, it is not necessary to form a wing part.

  The present invention can be applied not only to sanitary napkins, but also to other absorbent articles such as panty liners (origami sheets) and incontinence pads.

  Hereinafter, the present invention will be described in more detail with reference to examples. However, the scope of the present invention is not limited to such examples.

[Example 1 and Comparative Example 1]
The sanitary napkin shown in FIGS. 1 and 2 was produced. The absorber in the center region in the width direction in the napkin excretion region-facing region was such that the lower layer absorber was a pile of fluff pulp and a superabsorbent polymer, and the basis weight was 260 g / m ² . The upper layer absorbent body was composed of a pile of fluff pulp and superabsorbent polymer, and its basis weight was 440 g / m ² . The total thickness of the lower layer absorber and the upper layer absorber was 9 mm under a load of 310 Pa. The upper layer absorbent body had a longitudinal dimension of 300 mm and a width dimension of 80 mm. The total length of the napkin was 340 mm. An air-through nonwoven fabric having a basis weight of 25 g / m ² was used as the top sheet. As the back sheet, a polyethylene film having a basis weight of 30 g / m ² was used.

  In the central region in the width direction in the napkin excretion portion-facing region, a plurality of compression points were formed in the multilayer portion of the lower layer absorber and the upper layer absorber. The compression point was formed by pushing a pushing pin from the lower absorbent body side. The push pin was made of metal with a diameter of 2 mm. The push pin was used without heating.

  Two compression point sequences composed of a plurality of compression points were formed. The distance between the compression points adjacent to each other in each compression point sequence was 12 mm in both Example 1 and Comparative Example 1. Each compression point sequence was formed at a position 5 mm away from the vertical center line of the napkin. In Example 1, each compression point was formed so that the other compression point sequence was shifted by a half pitch with respect to one compression point sequence. In Comparative Example 1, when viewed in the width direction of the napkin, each compression point was formed such that each compression point in the other compression point sequence was located at the same position as each compression point in one compression point sequence. .

  The napkins of Example 1 and Comparative Example 1 thus formed were subjected to the following evaluations 1 to 3.

[Evaluation 1]
In this evaluation, the rigidity value was measured when the napkin was bent along the longitudinal center line from the back sheet side to the top sheet side. A handle ohmmeter was used for the measurement. The slit width of the handle ohmmeter was 40 mm. The excretory part facing area was cut out from the napkin by 60 mm in the longitudinal direction and placed on the slit of the handle ohmmeter. At this time, the cut out napkin was placed so that the vertical center line of the napkin and the direction of the blade of the handle ohmmeter coincided with each other. And the load when the blade of a handle ohmmeter was pushed down 8 mm from a horizontal state was measured, and the value was used as a rigidity value. The measurement was performed 8 times and the average value was obtained. The results are shown in Table 1 below.

  As is apparent from the results shown in Table 1, it can be seen that the stiffness values are the same in Example 1 and Comparative Example 1. This means that the flexibility of the napkin as a whole is comparable between Example 1 and Comparative Example 1. However, it can be seen that the standard deviation is smaller in Example 1. This means that the absorption surface of Example 1 is formed more stably than Comparative Example 1.

[Evaluation 2]
Also in this evaluation, similarly to the evaluation 1, the rigidity value was measured when the napkin was bent along the longitudinal center line from the back sheet side to the top sheet side. However, in this evaluation, the slit width of the handle ohmmeter was narrowed to 20 mm, and the rigidity of only the multilayer portion of the absorber was measured. The measurement was performed 8 times. The results are shown in Table 2 below.

  As is apparent from the results shown in Table 2, it can be seen that the rigidity value of Example 1 is lower than the rigidity value of Comparative Example 1. This means that Example 1 is more flexible with respect to bending than Comparative Example 1.

[Evaluation 3]
In this evaluation, the stiffness value when the napkin was bent along the width direction from the top sheet side to the back sheet side was measured using a handle ohmmeter. The slit width of the handle ohmmeter was 35 mm. The excretory part facing area was cut out from the napkin by 60 mm in the longitudinal direction and placed on the slit of the handle ohmmeter. At this time, the cut out napkin was placed so that the width direction of the napkin and the direction of the blade of the handle ohmmeter coincided with each other. And the load when the blade of a handle ohmmeter was pushed down 8 mm from a horizontal state was measured, and the value was used as a rigidity value. In Example 1, the position of the napkin was adjusted so that the blade of the handle ohmmeter abuts on each compression point in each compression point sequence, and measurement was performed at a total of 10 locations (5 locations for each compression point sequence). ). In Comparative Example 1, the position of the napkin was adjusted so that the blade of the handle ohmmeter was in contact with the compression point, and measurement was performed at five locations. Further, the position of the napkin was adjusted so that the blade of the handle ohmmeter was in contact with the intermediate point between the adjacent compression points in the front and rear, and measurement was performed at five locations. These results are shown in Table 3 below.

  As is clear from the results shown in Table 3, it can be seen that the rigidity values in Example 1 and Comparative Example 1 are comparable in the measurement on the compression point. However, in Comparative Example 1, it can be seen that the rigidity value at the intermediate point between the compression points is high. This means that Example 1 has a large number of bending points that bend with a small force along the longitudinal direction of the napkin.

10 Sanitary napkins (absorbent articles)
DESCRIPTION OF SYMBOLS 11 Top sheet 12 Back sheet 13 Absorber 14 Wing part 15 Leak-proof cuff 16 Compression point 17 Compression point row

Claims (5)

A longitudinally absorbent article in which a liquid-permeable surface sheet is disposed on the skin contact surface side, a back sheet is disposed on the non-skin contact surface side, and a liquid-retaining absorbent is disposed between both sheets,
The absorber comprises an upper layer absorber on the skin contact surface side and a lower layer absorber on the non-skin contact surface side, and the upper layer absorber is disposed on the skin contact surface side of the excretory part facing region,
The absorber has a plurality of compression points formed by compressing the upper layer absorber and the lower layer absorber in the thickness direction, and when the absorber is viewed in plan view, the absorber has a vertically long shape composed of the compression points regularly arranged. A plurality of rows are formed over the width direction so that the compression point row extends in the longitudinal direction,
When viewed in the width direction of the absorbent body, each compression point constituting one compression point row is not located at the same position in the longitudinal direction as each compression point constituting another compression point row adjacent to the compression point row. Absorbent article in which each compression point is arranged.   The absorptive article according to claim 1 in which the full length of said absorber is 70% or more of the full length of an absorptive article, and said compression point sequence has been arranged in 90% or more of the full length of said absorber.   At least in the upper layer absorber, an isosceles triangle is formed by virtually connecting one compression point in one compression point sequence and two compression points in the other compression point sequence closest to the compression point. The absorbent article according to claim 1, wherein the compression points are alternately arranged.   At least in the excretory part facing area, the distance D1 between one compression point in one compression point sequence in plan view and one compression point in the other compression point sequence closest to the compression point is one. The absorbent article as described in any one of Claim 1 thru | or 3 which has arrange | positioned each compression point so that the distance D between the compression points adjacent to the front and back in a compression point sequence may be 0.6-1 times.   5. The compression point is formed by compressing the absorber in a dot shape from the non-skin contact surface side of the lower layer absorber in the thickness direction toward the upper layer absorber. 6. Absorbent article as described in 1.

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