JP6361519B2 - Absorbent article top sheet - Google Patents

Description

  The present invention relates to a top sheet provided on a surface that directly contacts the skin of a wearer of an absorbent article. More specifically, the present invention relates to a top sheet obtained by joining a plurality of laminated sheet members by embossing.

  Conventionally, tape-type disposable diapers, pants-type disposable diapers, urine pads, panty liners, light incontinence pads, sanitary napkins, and the like are known as absorbent articles to be worn on the wearer's crotch. Such an absorbent article is provided with a top sheet on the surface (skin facing surface) facing the wearer's skin. Since the top sheet is a sheet member that continues to contact the wearer's skin, a material having low skin irritation is generally used. For example, the top sheet touches the skin with mechanical irritation caused by contact with the skin or friction, irritation due to environmental deterioration such as detachment of the absorbent article wearing place, and hydrophilizing agent or excrement used for the top sheet It is said that the thing with low chemical irritation | stimulation etc. by a thing is preferable.

  Conventionally, it has been known to reduce mechanical irritation caused by friction by embossing a top sheet for absorbent articles to form an uneven emboss pattern and reducing the contact area with the skin. ing. In addition, by embossing the top sheet, a gap is created between the skin and the top sheet, so that an effect of eliminating partial detachment can be expected. Furthermore, by embossing the top sheet, excrement such as urine flows along the unevenness and easily diffuses, and the diffusion effect of the top sheet improves the top sheet. As described above, in order to further improve the hypoallergenicity, the effect of eliminating unevenness, and the liquid diffusing effect of the top sheet, various ideas have been conventionally made on the embossed pattern formed on the top sheet (Patent Document 1). ~ 3).

JP 2009-000512 A Japanese Patent Laid-Open No. 2004-000466 JP 2009-160032 A

  Patent Documents 1 to 3 disclose a conventional emboss pattern in which a region surrounded by three or more joint portions is a convex portion. In the conventional emboss pattern, a joint is formed at the position of the apex of a triangular, quadrilateral or other polygonal lattice. For this reason, in the conventional emboss pattern, the convex portion surrounded by a plurality of joints has a simple shape such as a regular triangle, a regular square, a regular hexagon, or the like. Thus, by making the shape of the convex part of the embossed pattern a simple shape such as a regular square shape, when the liquid excreted by the wearer comes into contact with the top sheet, the top sheet is evenly distributed in all directions. To be distributed. Dispersing the liquid evenly in all directions has the advantage of increasing the liquid absorption efficiency.

  However, if the liquid in contact with the top sheet is dispersed over the entire periphery of the convex portion, the portion of the top sheet in contact with the liquid will be evenly wet in a wide range. As a result, there is a problem that the portion that has been wet by absorbing the liquid is difficult to dry as a whole. That is, when the liquid is evenly distributed around the convex portion, the portion wetted by the liquid is dried almost simultaneously. However, when the top sheet absorbs liquid, there is a demand that at least a part that is easy to touch the wearer's skin should be preferentially dried quickly. Then, this invention provides the top sheet which can improve the quick-drying property of the site | part which is easy to touch a wearer's skin.

  Absorbent articles are generally used for the purpose of absorbing urine excreted by the wearer, but the urinary salt concentration varies depending on the physical condition of the wearer. Since urine with high salt concentration has low surface tension, the driving force of capillary action due to the fibers of the top sheet is reduced. In addition, since the viscosity of urine with a high salt concentration increases, the speed of movement through the capillaries constituting the top sheet is further reduced. On the other hand, urine with a low salinity has a high movement speed in the capillaries constituting the top sheet.

  However, the emboss pattern applied to a general top sheet is the same pattern for the entire top sheet, and the structure does not take into account the difference in diffusion rate due to high or low urinary salt concentration. For this reason, when the salt concentration of urine increases with changes in the wearer's physical condition, the urine absorbed by the top sheet diffuses slowly. Therefore, the present invention provides a top sheet that can cope with changes in the urinary salt concentration.

  The inventor of the present invention diligently studied the means for solving the above problems, and as a result, the non-joined portion protruding in a convex shape has a large area having a large area and an area extending from the large area in one direction. A plurality of joint portions are formed around the non-joint portion so as to be constituted by a small region having a small size. In this way, when the liquid comes into contact with the top sheet, the liquid can be quickly transferred from the large area to the small area, and the top of the large area that is easy to touch the wearer's skin is given priority. It can be dried quickly. Since the liquid flows from the large area to the small area, the drying time of the small area may be delayed, but at least the quick drying property of the large area can be improved. If the drying time at the top of a large area with a large area is shortened, the wearing feeling of the absorbent component provided with the top sheet is improved. In addition, there are provided a plurality of non-joined areas where no joints are formed over the entire width of the absorbent article, and the longitudinal width of the non-joined areas (the length in the longitudinal direction of the absorbent article). We decided to make them different. A junction-free region with a wide vertical width is suitable for diffusion of urine with a high salt concentration, and a non-bonded region with a narrow vertical width is suitable for diffusion of urine with a low salt concentration. Therefore, it is possible to cope with a change in the urinary salt concentration by providing the joint non-formation regions having different vertical widths. The inventor has conceived that the problems of the conventional invention can be solved based on the above knowledge, and completed the present invention. More specifically, the present invention has the following configuration.

The 1st side surface of this invention is related with the top sheet 10 of an absorbent article. The absorbent article has a longitudinal direction and a width direction.
The top sheet 10 of the present invention includes an upper layer sheet 11, a lower layer sheet 12, a plurality of joint portions 40, and a plurality of non-joint portions 50.
The upper layer sheet 11 and the lower layer sheet 12 are laminated together. The upper layer sheet 11 is positioned on the side that directly contacts the wearer's skin, and the lower layer sheet 12 is disposed on the back side of the upper layer sheet 11 and does not directly contact the wearer's skin.
The plurality of joining portions 40 join the upper layer sheet 11 and the lower layer sheet 12.
The plurality of non-joining portions 50 are respectively surrounded by the plurality of joining portions 40.
Each of the plurality of non-joining portions 50 includes a large area 51 having a relatively large area and a small area 52 having a relatively small area extending from the large area 51 in one direction. The upper layer sheet 11 protrudes in a convex shape in the large area 51 and the small area 52.
In addition to this, the top sheet 10 is divided into a plurality of joint forming regions 70 and a plurality of joint non-forming regions 80. The joining part formation area 70 is an area in which the joining part 40 is formed in at least a part of the absorbent article in the width direction. The joining part non-formation area | region 80 is an area | region in which the junction part 40 is not formed over the whole width direction of an absorbent article between the junction part formation areas 70. FIG.
Here, the plurality of joints not forming region 80, at least a first region 81 longitudinal length (vertical width) is the first length L _1, the longitudinal length (vertical width) There a second second region 82 is the length L _2, include. Then, the second length L ₂ is shorter than the first length L _1.

  As described above, in the present invention, the non-joined portion 50 surrounded by the plurality of joined portions 40 is configured to include only a large area 51 having a large area and a small area 52 having a small area. By doing in this way, it becomes possible to make the liquid which contacted the top sheet 10 transfer to the small area | region 52 from the large area | region 51 quickly, and can improve the quick-drying property of the large area | region 51 which is easy to touch a wearer's skin. it can. In addition, in the present invention, at least two or more joint non-formation regions 80 where no joint 40 is formed over the entire width direction are provided, and the vertical widths of the respective joint non-formation regions 80 are made different. In the joint non-formation region 80 having a wide vertical width, the inside of the capillary can be smoothly guided even in the case of urine in a state where the salinity concentration and viscosity are high and the moving motive force is small. For this reason, the junction width non-formation region 80 having a wide vertical width is suitable for diffusion of urine having a high salt concentration. On the other hand, the joint non-forming region 80 having a narrow vertical width can be effectively diffused in the width direction even with a small amount of liquid. Moreover, the junction-free region 80 having a narrow vertical width is suitable for urine diffusion with a low salt concentration. Thereby, the top sheet 10 of the present invention can appropriately diffuse urine regardless of whether the urinary salt concentration is high or low. Accordingly, the top sheet 1 has a structure corresponding to a change in the salinity of excreted urine.

  In the topsheet 10 of the present invention, the height at which the large region 51 is raised is preferably higher than the height at which the small region 52 is raised.

  As described above, the height of the convex large region 51 is made higher than that of the convex small region 52, so that the liquid that has contacted the top sheet 10 can be quickly transferred from the large region 51 to the small region 52. Can be made. Further, since the large region 51 is higher than the small region 52, the skin of the wearer can easily come into contact with the large region 51 having a large area and a high height. On the other hand, the wearer's skin is less likely to contact the small area 52 having a small area and a low height. Therefore, the wearer's skin can easily come into contact with the large area 51 having quick drying properties, and can be prevented from touching the small area 52 that is difficult to dry. Furthermore, by making the small region 52 lower than the large region 51, the large region 51 is supported by the small region 52, and the cushioning property of the large region 51 is enhanced. For this reason, even when the wearer's body pressure is applied to the top sheet 10, the large area 51 is not easily crushed, and even when it is crushed once, it is easy to recover to the original shape.

  In the topsheet 10 of the present invention, each of the plurality of joint portions 40 includes a first line portion 41, a second line portion 42, and a third line portion 43 that are connected to each other, and branch from the connection portions 44 in different directions. It is preferable that it is a shape. The first line portion 41 is curved or bent so as to swell in a certain direction, and the second line portion 42 is curved or bent so as to swell in a direction opposite to the first line portion 41. Is preferred. That is, the first line portion 41 and the second line portion 42 form a gentle S shape (curved line shape) or Z shape (bend line shape).

  As in the above configuration, each joint 40 has a shape in which three line portions branch in three directions, and the non-joint portion 50 is formed by regularly arranging the joints 40 having such a shape. Can do. Further, by bending or bending the first line portion 41 and the second line portion 42 of the three line portions so as to bulge in opposite directions, the large region 51 and the non-joint portion 50 described above are formed. A small region 52 can be formed. Thus, in the present invention, it is preferable that the joint portion 40 has a “λ shape”. Moreover, in this invention, since the some junction part 40 can be made into all (lambda) shape and can arrange | position all in the same direction, the appearance of the top sheet 10 also becomes good.

In the top sheet 10 of the present invention, it is preferable that three λ-shaped joints 40 are located around one non-joint part 50. At this time, these three joints 40 are referred to as a first joint 40a, a second joint 40b, and a third joint 40c, respectively.
In this case, it is preferable that a certain non-joint part 50 is defined by the following elements (i) to (vi).
(I) The 1st line part 41 and the 2nd line part 42 of the 1st junction part 40a
(Ii) The second line portion 42 and the third line portion 43 of the second joint portion 40b.
(Iii) The third line portion 43 and the first line portion 41 of the third joint portion 40c.
(Iv) The first gap 61 between the first line portion 41 of the first joint portion 40a and the third line portion 43 of the second joint portion 40b.
(V) The second gap 62 between the second line portion 42 of the second joint portion 40b and the first line portion 41 of the third joint portion 40c.
(Vi) The third gap 63 between the third line portion 43 of the third joint portion 40c and the second line portion 42 of the first joint portion 40a.

  By defining the periphery of the non-joining part 50 as described above, the non-joining part 50 including the large area 51 and the small area 52 can be appropriately formed.

The second aspect of the present invention relates to an absorbent article 100 having a top sheet 10.
The absorbent article 100 of the present invention includes a liquid-permeable top sheet 10, a liquid-impermeable back sheet 20, and an absorbent body 30 disposed therebetween.
The top sheet 10 is the same as that according to the first aspect described above.
That is, the top sheet 10 includes an upper layer sheet 11, a lower layer sheet 12, a plurality of joint portions 40 that join the upper layer sheet 11 and the lower layer sheet 12, and a plurality of non-joint portions 50 surrounded by the plurality of joint portions 40. , Have. The non-joint part 50 is composed of a large area 51 having a relatively large area and a small area 52 having a relatively small area extending from the large area 51 in one direction. The upper layer sheet 11 protrudes in a convex shape in the large area 51 and the small area 52.
Further, the top sheet 10 is divided into a plurality of joint forming regions 70 and a plurality of joint non-forming regions 80. The plurality of joints not forming region 80, at least a first region 81 longitudinal length (vertical width) is the first length L _1, the longitudinal length (vertical width) second the second region 82 is the length _{L 2,} include. Second length L ₂ is shorter than the first length L _1.

  ADVANTAGE OF THE INVENTION According to this invention, the top sheet which improved the quick-drying property of the site | part which is easy to touch a wearer's skin can be provided. Even when the top sheet of the present invention is wet when touched by liquids such as urine, the portion that is easy to touch the skin of the wearer dries quickly, so the smooth feel is maintained for a long time and the texture is excellent It will be a thing.

  In addition, according to the present invention, it is possible to provide a top sheet that can cope with a change in urinary salt concentration.

FIG. 1 is a plan view of the absorbent article as seen from the top sheet side. FIG. 2 is an enlarged view of an emboss pattern formed on the top sheet. FIG. 3 shows extracted elements constituting the emboss pattern of the top sheet. FIG. 4 is an explanatory diagram of a method for designing a joint formed on the top sheet. FIG. 5 shows a cross-sectional view of the top sheet. FIG. 6 shows an example of a top sheet manufacturing method.

  Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. The present invention is not limited to the embodiments described below, but includes those appropriately modified by those skilled in the art from the following embodiments.

In the present specification, the “longitudinal direction” is basically the direction (Y-axis direction) connecting the front body and the back body of the absorbent article, and the “width direction” is planar in the longitudinal direction. The direction is orthogonal (X-axis direction).
In the present specification, “A to B” means “A or more and B or less”.

  Drawing 1 is a top view which looked at absorptive article 100 concerning one embodiment of the present invention from the skin opposing surface side. The absorbent article 100 according to the present invention can be used for, for example, disposable diapers, urine pads, panty liners, light incontinence pads, sanitary napkins. FIG. 1 schematically shows the internal structure of the absorbent article 100. As shown in FIG. 1, the absorbent article 100 includes a top sheet 10, a back sheet 20, and an absorbent body 30. The top sheet 10 is a sheet that is disposed on the skin facing surface side of the absorber 30 and directly contacts the wearer's skin. Further, the back sheet 20 is disposed on the skin non-facing surface side of the absorber 30. As shown in FIG. 1, the top sheet 10 and the back sheet 20 may be joined to each other around the absorber 30. In this way, the absorber 30 is enclosed between the top sheet 10 and the back sheet 20.

  The top sheet 10 is a member that is in direct contact with the skin of the wearer's crotch and allows liquid such as urine to pass through the absorber 30. For this reason, the top sheet 10 is composed of a liquid-permeable material having high flexibility. The liquid-permeable material means, for example, a material that permeates water in a time of less than 1 minute when 5 ml of room temperature water is placed thereon under a standard atmospheric pressure. Examples of the liquid permeable material constituting the top sheet 10 are a woven fabric, a non-woven fabric, or a porous film. Further, for example, a fiber made of a thermoplastic resin such as polypropylene, polyethylene, polyester, or nylon, which has been subjected to a hydrophilization treatment and further made into a non-woven fabric may be used.

  The back sheet 20 is a member for preventing the liquid that has passed through the top sheet 10 and absorbed by the absorber 30 from leaking outside. For this reason, the backsheet 20 is comprised with a liquid-impermeable material. The liquid-impermeable material means, for example, a material that does not permeate the water even after 1 minute or more when 5 ml of room temperature water is placed thereon under a standard atmospheric pressure. An example of the liquid-impermeable material constituting the backsheet 20 is a liquid-impermeable film made of polyethylene resin. In particular, it is preferable to use a microporous polyethylene film in which a plurality of fine pores of 0.1 to 4 μm are formed.

  The absorber 30 is a member for absorbing liquid such as urine and holding the absorbed liquid. The absorber 30 is disposed between the liquid-permeable top sheet 10 and the liquid-impermeable back sheet 20. The absorber 30 is made of an absorbent material having a function of absorbing liquid such as urine. A well-known material can be employ | adopted for the absorptive material which comprises the absorber 30. FIG. As an absorptive material, for example, one kind of pulverized pulp (fluff pulp), a superabsorbent polymer, or a hydrophilic sheet may be used alone, or two or more kinds may be used in combination. The absorbent material is usually used in the form of a single layer or a plurality of layers.

  The absorbent article 100 has a longitudinal direction and a width direction. In the drawings of the present application, the longitudinal direction of the absorbent article 100 is indicated by the Y-axis direction, and the width direction of the absorbent article 100 is indicated by the X-axis direction.

  As shown in FIG. 1, the top sheet 10 is formed by laminating and bonding a plurality of sheet members. The number of sheet members constituting the top sheet 10 may be two or more, and may be 2 to 5, for example. In the embodiment shown in FIG. 1, the top sheet 10 is configured by bonding two sheet members, an upper layer sheet 11 and a lower layer sheet 12. The upper layer sheet 11 is located on the skin facing surface side, and the lower layer sheet 12 is located on the skin non-facing surface side. For this reason, the sheet member in direct contact with the wearer's skin is the upper layer sheet 11.

  Each of the upper layer sheet 11 and the lower layer sheet 12 can be formed of a liquid permeable material such as a woven fabric, a nonwoven fabric, or a porous film. In particular, the upper layer sheet 11 and the lower layer sheet 12 are preferably non-woven fabrics. As a nonwoven fabric, what consists of a well-known fiber can be used. Examples of the nonwoven fabric include various nonwoven fabrics such as air-through nonwoven fabric, heat bond nonwoven fabric, spunbond nonwoven fabric, melt blown nonwoven fabric, spunlace nonwoven fabric, and needle punch nonwoven fabric. Moreover, when joining the upper layer sheet | seat 11 and the lower layer sheet | seat 12 by heat sealing | fusion, it is preferable that a heat sealing | fusion fiber is contained in a nonwoven fabric. As the heat-sealing fiber, a core-sheath structure such as PET / PE or PP / PE is preferable. The nonwoven fabric is preferably subjected to a hydrophilic treatment using a surfactant or the like.

  As shown in FIG. 1, the upper layer sheet 11 and the lower layer sheet 12 are joined to each other by embossing. With embossing, for example, two thermoplastic sheet members are sandwiched between an embossing roll having a convex emboss projection of a predetermined pattern on the outer peripheral surface and a plain roll having a smooth surface while heating. It is the processing method joined by. By performing embossing, a plurality of concave joints 40 are formed on the top sheet 10 at the positions where the embossing protrusions of the embossing roll are in contact, and the upper layer sheet 11 and the lower layer sheet 12 are fused at each joint 40. In general, the upper layer sheet 11 and the lower layer sheet 12 are joined by embossing, so that the thickness of the upper layer sheet 11 is reduced at the joint 40. For this reason, in the non-joining part 50 in which the joining part 40 is not formed, the upper layer sheet 11 is relatively raised. Thus, the top sheet 10 is formed by heat-sealing a plurality of sheet members by embossing.

  Next, the emboss pattern formed on the top sheet 10 will be described in detail. FIG. 2 is an enlarged view of the emboss pattern, in which the inside of the dotted line frame shown in FIG. 1 is enlarged. FIG. 3 is a further enlarged view showing the elements constituting one non-joined portion 50 extracted from the embossed pattern.

  As shown in FIGS. 2 and 3, the emboss pattern of the top sheet 10 includes a plurality of joint portions 40 that join the upper layer sheet 11 and the lower layer sheet 12, and a plurality of non-joint portions surrounded by the plurality of joint portions 40. 50. The plurality of joint portions 40 are regularly arranged at intervals. Specifically, a plurality of joints 40 having the same shape, size, and orientation are arranged in a line at regular intervals in the longitudinal direction, and the rows of the joints 40 are wide. A plurality of rows are formed in the direction. Moreover, in the row | line | column of the adjacent junction part 40, each junction part 40 is arranged in the longitudinal direction alternately, and it is what is called a zigzag arrangement. Moreover, each joining part 40 is arranged on the straight line along the longitudinal direction and the width direction. At the joint 40, the upper layer sheet 11 and the lower layer sheet 12 are heat-sealed. For this reason, the upper layer sheet 11 is recessed in the joint 40. On the other hand, the non-joining portion 50 is a region surrounded by the plurality of joining portions 40, that is, a region where the upper layer sheet 11 and the lower layer sheet 12 are not joined. For this reason, the non-joining part 50 protrudes in a convex shape toward the direction in which the upper layer sheet 11 contacts the wearer's skin as compared with the joining part 40. As shown in FIGS. 1 to 3, in the top sheet 10 of the present invention, the shape of the joint portion 40 and the non-joint portion 50 is a novel shape that has not existed before.

  As shown in FIGS. 2 and 3, the non-joining portion 50 has a shape in which a part thereof extends in one direction. For example, the shape of the non-joint part 50 can also be expressed as a light bulb shape, a keyhole shape, a gourd shape, or a pearless shape. Specifically, the non-joint portion 50 is composed of a large area 51 having a relatively large area and a small area 52 having a relatively small area extending from the large area 51 only in one direction. . There is no boundary between the large area 51 and the small area 52, and both are connected together. That is, the joint portion 40 is not formed between the large region 51 and the small region 52. As shown in the figure, the large area 51 and the small area 52 have different shapes. For example, the large area 51 is a substantially circular area. The small region 52 is a remaining region obtained by removing the large circular region 51 from the non-joint portion 50. In the example shown in the figure, the small area 52 can be considered as an approximately rectangular area. For this reason, in the preferable form shown in the figure, it can be said that the non-joining part 50 is exhibiting the shape which combined the circular large area | region 51 and the square small area | region 52 integrally.

  It is difficult to accurately measure the areas of the large region 51 and the small region 52. However, as shown in FIG. 3, in the non-joint portion 50, when a large circular area 51 is first defined and a small rectangular area 52 is defined in the remaining portion, the width (X Obviously, the width of the large region 51 is wider than the width of the small region. Similarly, in the non-joint portion 50, when the large circular area 51 is first defined and the rectangular small area 52 is defined in the remaining portion, the length of both of them (the length in the Y-axis direction) In comparison, the length of the large area 51 is longer than the length of the small area. Thus, the large area 51 having a large area may be an area having a larger width and length than the small area 52. Similarly, the small area 52 having a small area may be an area having a smaller width and length than the large area 51. The width and length of the small region 52 are preferably less than or equal to half (1/2) of the width and length of the large region 51, respectively.

  Further, as shown in FIG. 2, a plurality of non-joining portions 50 having substantially the same shape are regularly formed in the emboss pattern of the top sheet 10. Further, in each non-joint portion 50, the direction in which the small region 52 extends from the large region 51 is the same direction. For this reason, a uniform and regular pattern appears on the surface of the top sheet 10, which is beautiful for the purpose of viewing.

  The non-joint portion 50 having the special shape described above is formed by a plurality of joint portions 40 having a special shape. As shown in FIGS. 1 to 3, in the present invention, it is preferable that the joint portion 40 has a shape in which three line portions 41 to 43 are branched in three different directions. In the example shown in FIGS. 1 to 3, each joint 40 has a shape like “λ”. Further, the emboss pattern of the top sheet 10 can be formed by the joint portion 40 having the same shape (λ shape).

  With reference to FIG. 3, the shape and arrangement | positioning of the junction part 40 are demonstrated in detail. As shown in FIG. 3, the joint portion 40 has a shape in which the first wire portion 41, the second wire portion 42, and the third wire portion 43 are branched from the connecting portions 44 in different directions. . In other words, the base ends (one ends) of the first line portion 41, the second line portion 42, and the third line portion 43 are connected at the connecting portion 44, and the first line portion 41, the second line portion 42, and The tip (the other end) of the third line portion 43 is directed in a different direction. In addition, at least the first line portion 41 and the second line portion 42 are preferably curved in an arc shape or bent at one or more refraction points. In the example shown in FIG. 3, the first line portion 41 and the second line portion 42 are curved in an arc shape. In addition, as shown in FIG. 3, it is preferable that the arc-shaped first line portion 41 and the second line portion 42 have opposite directions in the direction in which the arc swells (the direction in which the arc is warped). That is, the first line portion 41 and the second line portion 42 are connected to form a gentle S-shape. Moreover, the 3rd line part 43 may be circular arc shape similarly to the 1st line part 41 and the 2nd line part 42, and can also be made into linear form. Moreover, it is preferable that the direction where the 1st line part 41 and the 2nd line part 42 are extended, and the direction where the 3rd line part 43 is extended are substantially orthogonal. For example, in the example shown in FIGS. 1 to 3, the first line portion 41 and the second line portion 42 extend approximately in the longitudinal direction (Y-axis direction), whereas the third line portion 43 is , Approximately extending in the width direction (X-axis direction). The extending direction of the first line portion 41 and the second line portion 42 is approximately the opposite direction. For example, the first line portion 41 extends in the positive direction of the Y axis (upward in the drawing), whereas the second line portion 42 extends in the negative direction of the Y axis (downward in the drawing). . In this sense, the direction in which the first line portion 41 and the second line portion 42 extend and the direction in which the third line portion 43 extends are approximately orthogonal. Note that the first line portion 41 and the second line portion 42 may extend in the width direction (X-axis direction), and the third line portion 43 may extend in the longitudinal direction (Y-axis direction).

  Moreover, as FIG. 3 shows, the 1st line part 41, the 2nd line part 42, and the 3rd line part 43 may each differ in length. In the example shown in FIG. 3, the first line portion 41 is longer than the second line portion 42, and the second line portion 42 is longer than the third line portion 43 (first line portion 41> second Line part 42> third line part 43). Moreover, when each line part 41-43 is all formed in circular arc shape, the curvature (or curvature radius) of each line part 41-43 may differ and may be the same. In the example shown in the figure, the curvatures of the line portions 41 to 43 are all the same value.

As shown in FIG. 3, three joints 40 are located around one non-joint part 50. Three joints 40 located around one non-joint part 50 are defined as a first joint part 40a, a second joint part 40b, and a third joint part 40c, respectively. In this case, a certain non-joint part 50 is defined by the following elements (i) to (vi).
(I) The 1st line part 41 and the 2nd line part 42 of the 1st junction part 40a
(Ii) The second line portion 42 and the third line portion 43 of the second joint portion 40b.
(Iii) The third line portion 43 and the first line portion 41 of the third joint portion 40c.
(Iv) The first gap 61 between the first line portion 41 of the first joint portion 40a and the third line portion 43 of the second joint portion 40b.
(V) The second gap 62 between the second line portion 42 of the second joint portion 40b and the first line portion 41 of the third joint portion 40c.
(Vi) The third gap 63 between the third line portion 43 of the third joint portion 40c and the second line portion 42 of the first joint portion 40a.

  That is, as shown in FIG. 3, first, the tip of the first line portion 41 of the first joint portion 40a and the tip of the third line portion 43 of the second joint portion 40b are abutted (closer). As such, the joint 40 is formed. In the meantime, the first gap 61 is formed. Further, the joint 40 is formed so that the tip of the second line portion 42 of the second joint 40b and the tip of the first line 41 of the third joint 40c abut each other. In the meantime, the second gap 62 is formed. Further, the joint 40 is formed so that the tip of the third line 43 of the third joint 40c and the tip of the second line 42 of the first joint 40a abut each other (become close to each other). In the meantime, a third gap 63 is formed. The first gap 61, the second gap 62, and the third gap 63 may be a distance of about 0.1 mm to 20 mm. According to such a rule, a plurality of joints 40 are arranged to form a regular emboss pattern.

  As shown in FIG. 3, a large circular area 51 and a small rectangular area 52 are formed in the non-joint portion 50 whose periphery is defined by the elements (i) to (vi). The circumference of the large circular area 51 is surrounded by the first line portion 41 of the first joint portion 40a, the second line portion 42 and the third line portion 43 of the second joint portion 40b, the first gap 61, and the second gap 62. Defined. Here, the 1st line part 41 of the 1st junction part 40a and the 2nd line part 42 and the 3rd line part 43 of the 2nd junction part 40b swell toward the outside of non-joint part 50 (large field 51). Is so curved. For this reason, the large region 51 is substantially circular, and its area increases. On the other hand, the periphery of the rectangular small region 52 is defined by the second line portion 42 of the first joint portion 40a, the first line portion 41 and the third line portion 43 of the third joint portion 40c, and the third gap 63. . Here, the 2nd line part 42 of the 1st junction part 40a, and the 1st line part 41 and the 3rd line part 43 of the 3rd junction part 40c swell toward the inner side of non-joint part 50 (small field 52). Is so curved. For this reason, the area of the small region 52 becomes small.

  Further, as shown in FIGS. 2 and 3, the plurality of non-joining portions 50 are independent regions separated by the joining portions 40, and can be said not to be connected to other non-joining portions 50. . However, strictly speaking, it can also be understood that the non-joining portions 50 are connected to each other through the gaps 61 to 63. However, as shown in FIG. 3, the gaps 61 to 63 are regions in which the tips of the line portions of the three joint portions 40 are in contact with each other. Therefore, when the upper layer sheet 11 and the lower layer sheet 12 are actually joined, The gaps 61 to 63 are also recessed in the same degree as the joint 40. At least the gaps 61 to 63 do not protrude in a convex shape. Specifically, each of the gaps 61 to 63 positioned around one non-joint part 50 is defined by the first line part 41, the second line part 42, and the third line part 43 of the three joint parts 40. This is the area where the tips meet. For this reason, as a result of the formation of the three joint portions 40, the gaps 61 to 63 are crushed together with the three joint portions 40, or the bulge is suppressed. Therefore, the adjacent convex non-joining parts 50 are not connected through the gaps 61 to 63, and each convex non-joining part 50 is substantially independent. Moreover, as FIG.2 and FIG.3 shows, the 3rd line part 43 of each junction part 40 is divided so that the non-joining parts 50 adjacent to a longitudinal direction (Y direction) may not be connected. In this respect, the third line portion 43 of the joint portion 40 has an important meaning.

  Next, an example of an emboss pattern design method will be described with reference to FIG. As shown in FIG. 4, first, as a premise, a lattice-like pattern is assumed in which a plurality of virtual perfect circles having a certain width are arranged in contact with each other so that their width portions overlap each other. In other words, the lattice pattern is a pattern in which a certain virtual circle is in contact with another virtual circle at intervals of 90 degrees. The plurality of virtual perfect circles are all formed with the same radius (r). The radius (r) of the virtual circle is preferably in the range of 1.0 mm to 11.0 mm, more preferably 2.0 mm to 5.0 mm. Note that the width of the virtual perfect circle matches the width of the joint 40.

In this case, first, the first line portion 41 of the joint portion 40 is formed in an arc shape that curves along the circumference of a certain virtual perfect circle. The length _{A 1} of the first line portion 41 is calculated by _{[Expression] A 1 = 2πr × (θ} 1/360). Here, “r” is the radius of the virtual perfect circle. “Θ ₁ ” is an angle formed by each straight line (that is, a fan-shaped angle) when the front end and the base end of the first line portion 41 are connected to the center of the virtual perfect circle by a straight line. For example, θ ₁ may be 60 to 100 degrees, 70 to 90 degrees, or 75 to 85 degrees.

  Further, the second line portion 42 and the third line portion 43 of the joint portion 40 are formed along the circumference of a virtual perfect circle different from the first line portion 41 described above. That is, the second line part 42 and the third line part 43 are located on the circumference of a virtual perfect circle adjacent to the virtual perfect circle where the first line part 41 is formed. For this reason, the connection part 44 of each line part 41-43 is located in the boundary of two adjacent virtual perfect circles. The second line part 42 and the third line part 43 are located on the circumference of the same virtual perfect circle. Therefore, the second line portion 42 and the third line portion 43 form a single arc shape as a unit. For this reason, it can be said that each joint 40 has a shape in which two arcs of an arc formed by the first line portion 41 and an arc formed by the second line portion 42 and the third line portion 43 are combined.

Length _{A 2} of the second line portion 42 is calculated by _{[Expression] A 2 = 2πr × (θ} 2/360). “Θ ₂ ” is an angle formed by each straight line (that is, a fan-shaped angle) when the distal end and the base end of the second line portion 42 are respectively connected to the center of the virtual perfect circle by a straight line. For example, theta ₂ is 45 to 85 degrees, may be 50 to 80 degrees, or 55 degrees to 70 degrees. The length _{A 3} of the third line portion 43 is calculated by _{[Expression] A 3 = 2πr × (θ} 3/360). “Θ ₃ ” is an angle formed by each straight line (that is, a fan-shaped angle) when the distal end and the base end of the third line portion 43 are respectively connected to the center of the virtual perfect circle by a straight line. For example, θ ₂ may be 5 degrees to 45 degrees, 10 degrees to 40 degrees, or 20 degrees to 35 degrees. Also, as shown in FIG. 4, the sum of θ ₂ and θ ₃ is preferably 90 degrees (± 5 degrees).

  In this way, the joint 40 having a special shape can be designed relatively easily. Moreover, since the arrangement of the joint portions 40 is based on a virtual perfect circle pattern arranged in a lattice pattern, the joint portions 40 can be regularly arranged. In addition, it is preferable to give R process to the front-end | tip of each line part 41-43, and to make it a smooth curve. In addition, since an acute angle is formed at the connection portion between the first line portion 41 and the third line portion 43, it is preferable that the connection portion is also subjected to R processing to form a curve.

FIG. 5 schematically shows a cross section of the top sheet 10. 5B is a cross-sectional view taken along the line YY shown in FIG. 5A, and FIG. 5C is a cross-sectional view taken along the line XX shown in FIG. As shown in FIG. 5B and FIG. 5C, the non-joining portion 50 surrounded by the plurality of joining portions 40 includes only one large region 51 and one small region 52, respectively. In addition, the upper layer sheet 11 protrudes in a convex shape in the large region 51 and the small region 52. The height at which the upper sheet 11 rises in the large area 51 is higher than the height at which the upper sheet 11 rises in the small area 52. For example, the height _{H 1} of the small region 52 is 100%, the height _{H 2} of the large area 51 is 120% to 300%, 130% to 250%, or to be 140% to 200% preferable.

  Further, as shown in FIGS. 5B and 5C, the large region 51 and the small region 52 of the non-joining portion 50 are formed in a dome shape that holds a space therein. That is, in the large region 51 and the small region 52, the upper layer sheet 11 protrudes away from the lower layer sheet 12 in a convex shape. For this reason, a space is formed between the upper layer sheet 11 and the lower layer sheet 12. This space is not filled with the fibers constituting the upper layer sheet 11 and the lower layer sheet 12.

  In order to form the large region 51 and the small region 52 in a dome shape, the upper layer sheet 11 is not skinned in a portion corresponding to the large region 51 and the small region 52 before the upper layer sheet 11 and the lower layer sheet 12 are overlapped. The upper layer sheet 11 may be raised in a convex shape by pressing from the opposite surface side (back surface side). Or in the site | part corresponded to the large area | region 51 and the small area | region 52, the upper layer sheet | seat 11 can also be sucked from the skin opposing surface side (surface side), and the upper layer sheet | seat 11 can also be raised in convex shape. And after that, the upper layer sheet 11 and the lower layer sheet 12 are overlapped, and both sheets are joined at each joint portion 40, so that a space between the upper layer sheet 11 and the lower layer sheet 12 is obtained in the large region 51 and the small region 52. Is formed. In this way, as shown in FIG. 5, in the large region 51 and the small region 52, the upper layer sheet 11 can be dissociated from the lower layer sheet 12 to form a state in which a space is held inside. In the present embodiment, the large region 51 is raised higher than the small region 52, and accordingly, the space formed in the large region 51 is larger than the space formed in the small region 52. It is getting wider. For example, when the large region 51 and the small region 52 are formed, the large region 51 is raised relatively high by adjusting the height at which the upper layer sheet 11 is pressed from the skin non-facing surface side, so that the small region 52 is relatively Adjustments such as raising it low are possible. Or. The large area 51 can be raised relatively high and the small area 52 can be raised relatively low by adjusting the suction force for sucking the upper layer sheet 11 from the skin facing surface side.

  As described above, the heights of the large area 51 and the small area 52 are made different from each other, and a space is formed in both areas, so that when the liquid comes into contact with the top sheet 10, the liquid is removed from the large area 51. It is possible to quickly shift to the small area 52. That is, the liquid flows down from the large area 51 having a high height to the small area 52 having a low height. Further, the liquid is sucked to the small area 52 having a narrow space rather than the large area 51 having a large space. For this reason, even when it is wet when touched by the liquid, the top of the large area 51 is quickly dried. Since the large area 51 has a large area and a high height, it is easy to touch the wearer's skin. Therefore, by shortening the drying time at the top of the large area 51, the time during which the liquid is in contact with the wearer's skin can be shortened, and discomfort can be prevented. On the other hand, in the small area 52, the liquid transferred from the large area 51 is temporarily stored. For this reason, it can be said that it takes time until the small area 52 is completely dried as compared with the large area 51. However, since the small area 52 has a small area and a low height, it is difficult to touch the skin of the wearer. For this reason, even if it takes time for the small region 52 to dry, it can be said that it is difficult to give the wearer discomfort. Further, by forming a space in the small area 52, the drying time of the small area 52 can be shortened. Further, the top sheet 10 of the present invention is provided with only one small region 52 for one large region 51. For this reason, the liquid in contact with the large area 51 moves only in one direction toward the small area 52 extending from the large area 51. That is, in the top sheet 10 of the present invention, there is no case where the liquid is dispersed in all directions around the large region 51 and the number of portions for temporarily storing the liquid becomes excessive. If there are a large number (two or more) of sites where the liquid is stored around the large region 51, there is a demerit that the wearer's skin is more likely to touch the liquid storage site. In addition, the number of liquid reservoirs that touch the wearer's skin may increase. This causes discomfort to the wearer. On the other hand, as in the present invention, the number of the liquid storage portions can be minimized by setting the small region 52 for storing the liquid to only one location with respect to one large region 51. Therefore, according to the present invention, it is possible to appropriately control the liquid temporary storage site so as not to cause discomfort to the wearer.

  In addition, as shown in FIG. 5, the large region 51 and the small region 52 are each formed in a dome shape that holds a space, so that the large region 51 and the small region 52 have approximately the same repulsive force against pressing. be able to. On the other hand, for example, if the inside of one of the large region 51 and the small region 52 is filled with fibers, a large difference is generated in the repulsive force between these two regions, and the region where the repulsive force is large. And small parts are finely dispersed on the top sheet 10. For this reason, there is a concern that the entire top sheet 10 has a tactile sensation and the touch is impaired. Therefore, as in the present embodiment, by forming a space in both the large region 51 and the small region 52 and making the repulsive force in both regions the same or a moderate difference, the tactile sensation of the entire topsheet 10 is Expected to be more flexible.

  Subsequently, referring to FIG. 1 again, the joint formation region 70 and the joint non-formation region 80 of the top sheet 10 of the present invention will be described. As shown in FIG. 1, the topsheet 10 of the present invention is divided into a plurality of joint forming regions 70 and a plurality of joint non-forming regions 80. The joint formation region 70 is a region in which the joint 40 described above is formed at least partially along the width direction (X-axis direction) of the absorbent article. That is, in the joint formation area 70, when a virtual straight line is drawn along the width direction, the joint 40 is positioned on the straight line. In the present embodiment, since the joint portions 40 are arranged in a substantially staggered pattern, the portion where the joint portions 40 are regularly formed corresponds to the joint portion formation region 70. On the other hand, the plurality of non-joint-forming regions 80 are formed between the joint-forming regions 70, respectively. The joining part non-formation area | region 80 is an area | region in which the junction part 40 mentioned above is not formed over the whole width direction (X-axis direction) of an absorbent article. In other words, in the joint non-forming region 80, even if a virtual straight line is drawn along the width direction, the joint 40 is not positioned at all on the straight line. In this embodiment, in order to form the joint non-forming region 80, the shape of the λ-shaped joint 40 is partially broken so that there is no joint 40 over the entire width direction. Yes.

In the embodiment shown in FIG. 1, the joint non-forming regions 80 are provided at three locations. The three joint non-formation regions 80 are a first region 81, a second region 82, and a third region 83, respectively. Here, in FIG. 1, the vertical widths (lengths in the longitudinal direction of the absorbent article) of the first region 81, the second region 82, and the third region 83 are denoted by reference signs S ₁ , S ₂ , and S ₃ , respectively. It is shown. Here, the vertical widths S ₁ , S ₂ , and S ₃ of the first to third regions 81, 82, and 83 are different from each other. Specifically, the longitudinal width S ₁ of the first region 81 is widest, the longitudinal width S ₂ of the second region 82 have become then wide, the narrowest vertical width S ₃ of the third region 83 (S ₁ > S ₂ > S ₃ ). Thus, it is preferable that the plurality of non-joint-forming regions 80 are formed with at least two types of vertical widths, particularly with three or more types of vertical widths. In the joint non-formation region 80 having a wide vertical width, the inside of the capillary can be smoothly guided even in the case of urine in a state where the salinity concentration and viscosity are high and the moving motive force is small. For this reason, the junction width non-formation region 80 having a wide vertical width is suitable for diffusion of urine having a high salt concentration. On the other hand, the joint non-forming region 80 having a narrow vertical width can be effectively diffused in the width direction even with a small amount of liquid. Moreover, the junction-free region 80 having a narrow vertical width is suitable for urine diffusion with a low salt concentration. Therefore, in order to be able to cope with a change in the salinity concentration of urine, it is preferable to provide a joint non-formation region 80 having different vertical widths.

For example, the vertical width _{S 1} of the widest first region 81, 6 mm to 10 mm, it is particularly preferable to the 8 mm. Further, the vertical width S2 of the _second widest region 82 is 4 mm to 8 mm, particularly 6 mm.
It is preferable that The vertical width _{S 3} of the widest third region 83, 2 mm to 6 mm, particularly preferably a 4 mm. _However, the relation of _{S 1> S 2> S 3} .

Further, in FIG. 1, the vertical width of the joint-forming region 70 (the longitudinal length of the absorbent article) is indicated with S _0. The junction formation regions 70 exist at a plurality of locations, and their vertical widths may be different, but here, for convenience, a symbol indicating the vertical widths of the plurality of junction formation regions 70 is S ₀ . It is unified. The vertical width S ₀ of the junction formation region 70 may be at least twice the vertical width S ₁ of the widest first region 81 of the plurality of junction non-formation regions 80 (81 to 83) (S ₀ ≧ 2 · S ₁ ). In particular, the vertical width S ₀ of the junction formation region 70 is preferably at least three times the vertical width S ₁ of the first region 81, and more preferably five times or seven times. If the vertical width of the joint formation region 70 is narrow, it becomes difficult to obtain the effect of improving softness and air permeability due to embossing applied to the joint formation region 70. Therefore, the vertical width of the joint formation region 70 is It is preferable to ensure a certain extent. Specifically, the vertical width S ₀ of the joint formation region 70 is preferably 40 mm or more or 60 mm, and the upper limit value may be, for example, 100 mm or 150 mm.

In the present embodiment, in the longitudinal direction (X-axis direction), the joint non-formation region 80 is set so that the vertical width is in the order of S ₁ -S ₂ -S ₃ (S ₁ > S ₂ > S ₃ ). (81-83) are lined up. In this way, by arranging the plurality of joint non-forming regions 80 so that the vertical width is gradually narrowed in the longitudinal direction, it is possible to effectively cope with individual differences in the urinary salt concentration. However, the arrangement of the joint non-formation regions 80 can be arranged in, for example, the order of S ₂ -S ₁ -S ₃ or the order or S ₁ -S ₃ -S _{2 in} the longitudinal direction.

In the present embodiment, only three joint non-formation regions 80 having different vertical widths are formed. However, the number of the joint non-forming regions 80 can be appropriately adjusted according to the size of the absorbent article. For example, the number of the joint non-forming regions 80 can be 5 to 10 locations. In this case, the vertical widths of all of the plurality of non-joint areas 80 may be different, or the non-joint areas 80 having the same vertical width may be provided at a plurality of locations. For example, when the number of the joint non-forming regions 80 is six, the vertical width is S ₁ −S ₂ −S ₃ −S ₁ −S ₂ −S ₃ (S _{1 in} the longitudinal direction (X-axis direction)). > S ₂ > S ₃ ) can be regularly and repeatedly arranged.

Further, in the present embodiment, the vertical widths of the three joint non-forming regions 80 are different from each other. However, at least one of the vertical widths of the plurality of non-bonding region 80 may be different. For example, when the joint non-forming regions 80 are formed at three locations, the longitudinal width is S ₁ -S ₂ -S ₂ (S ₁ > S ₂ ) as viewed in the longitudinal direction, and only one location is used. A junction non-formation region 80 having a wide vertical width (S ₁ ) may be provided, and the other two vertical widths (S ₂ ) may be made equal. Further, for example, when the number of the joint non-forming regions 80 is six, the vertical width is S ₁ −S ₂ −S ₂ −S ₁ −S ₂ −S ₂ (S ₁₎ as viewed in the longitudinal direction. > S ₂ ).

FIG. 6 shows a cross-sectional shape along the line BB shown in FIG. That is, FIG. 6 shows a cross-sectional view in the longitudinal direction of the joint non-formation region 80. As shown in FIG. 6, since the joining portion 40 is not formed in the joining portion non-forming region 80, the upper layer sheet 11 and the lower layer sheet 12 are separated from each other. Further, in FIG. 6, the raised height of the upper layer sheet 11 at the junction non-forming region 80 is indicated with H _3. Further, in FIG. 6, of the non-bonded portion 50 surrounded around the joint 40, the raised height of the upper layer sheet 11 in the small regions 52 as described above is indicated with H _2. In this case, protrusion height H ₃ of the upper layer sheet 11 at the junction non-forming region 80 is either equal to the raised height H ₂ of the upper layer sheet 11 in the small region 52, lower than the protrusion height H ₂ Is preferred (H ₃ ≦ H ₂ ). For example, the raised height H ₃ is preferably 30% to 100%, 40% to 90%, or 50% to 80% with respect to the raised height H ₂ . As described above, the height H ₂ of the joint non-forming region 80 is set equal to or preferably lower than the height H ₃ of the small region 52, so that the entire width direction of the top sheet 10 is increased. It becomes easy to diffuse excrement such as urine and loose stool in the width direction through the joint non-formation region 80 formed linearly.

  As mentioned above, in this specification, in order to express the content of this invention, embodiment of this invention was described, referring drawings. However, the present invention is not limited to the above-described embodiments, but includes modifications and improvements obvious to those skilled in the art based on the matters described in the present specification.

  The present invention relates to a top sheet for absorbent articles such as disposable diapers. For this reason, this invention can be utilized suitably in manufacturing industries, such as a disposable diaper.

DESCRIPTION OF SYMBOLS 10 ... Top sheet 11 ... Upper layer sheet 12 ... Lower layer sheet 20 ... Back sheet 30 ... Absorber 40 ... Joining part 41 ... 1st line part 42 ... 2nd line part 43 ... 3rd line part 44 ... Connection part 50 ... Non-joining Part 51 ... Large area 52 ... Small area 61 ... First gap 62 ... Second gap 63 ... Third gap 70 ... Joined part forming area 80 ... Joined part non-formed area 100 ... Absorbent article

Claims (5)

A top sheet (10) of an absorbent article having a longitudinal direction and a width direction,
An upper sheet (11),
A lower sheet (12),
A plurality of joint portions (40) for joining the upper layer sheet (11) and the lower layer sheet (12);
A plurality of non-joining parts (50) surrounded by a plurality of said joining parts (40),
The non-joining part (50)
A large area (51) with a relatively large area;
A relatively small area (52) extending in one direction from the large area (51),
The upper layer sheet (11) is raised in a convex shape in the large area (51) and the small area (52),
The top sheet (10)
A plurality of joint formation regions (70) in which the joints (40) are formed in at least part of the width direction;
Between the joint formation regions (70), the joint portion (40) is divided into a plurality of joint non-formation regions (80) where the joint (40) is not formed over the entire width direction,
The plurality of joint non-formation regions (80) include at least
A first region (81) whose length in the longitudinal direction is a first length (L ₁ );
A second region (82) whose longitudinal length is a second length (L ₂ );
The second sheet (L ₂ ) is shorter than the _first sheet (L ₁ ). The top sheet according to claim 1, wherein a height at which the large region (51) is raised is higher than a height at which the small region (52) is raised. The plurality of joints (40) are respectively
The first line part (41), the second line part (42), and the third line part (43) connected to each other are branched from the connection part (44) in different directions,
The first line portion (41) is curved or bent so as to swell in a certain direction,
The top sheet according to claim 1 or 2, wherein the second line portion (42) is curved or bent so as to swell in a direction opposite to the first line portion (41). The three joints (40) are located around one non-joint part (50), and the three joint parts (40) are respectively connected to the first joint part (40a) and the first joint part (40). In the case of two joint portions (40b) and a third joint portion (40c),
The one non-joining portion (50) is:
A first line portion (41) and a second line portion (42) of the first joint portion (40a),
A second line portion (42) and a third line portion (43) of the second joint portion (40b),
A third line portion (43) and a first line portion (41) of the third joint portion (40c),
A first gap (61) between a first line portion (41) of the first joint portion (40a) and a third line portion (43) of the second joint portion (40b);
A second gap (62) between the second line portion (42) of the second joint portion (40b) and the first line portion (41) of the third joint portion (40c), and the third joint portion ( 40c) by the third gap (63) between the third line part (43) and the second line part (42) of the first joint part (40a),
The top sheet according to claim 3, wherein a perimeter is defined. It has a longitudinal direction and a width direction, and is disposed between a liquid-permeable top sheet (10), a liquid-impermeable back sheet (20), and between the top sheet (10) and the back sheet (20). An absorbent article comprising an absorbent body (30),
The top sheet (10)
An upper sheet (11),
A lower sheet (12),
A plurality of joint portions (40) for joining the upper layer sheet (11) and the lower layer sheet (12);
A plurality of non-joining parts (50) surrounded by a plurality of said joining parts (40),
The non-joining part (50)
A large area (51) with a relatively large area;
A relatively small area (52) extending in one direction from the large area (51),
The upper layer sheet (11) is raised in a convex shape in the large area (51) and the small area (52),
The top sheet (10)
A plurality of joint formation regions (70) in which the joints (40) are formed in at least part of the width direction;
Between the joint formation regions (70), the joint portion (40) is divided into a plurality of joint non-formation regions (80) where the joint (40) is not formed over the entire width direction,
The plurality of joint non-formation regions (80) include at least
A first region (81) whose length in the longitudinal direction is a first length (L ₁ );
A second region (82) whose longitudinal length is a second length (L ₂ );
The second length (L ₂ ) is shorter than the first length (L ₁ ).

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