JP5766254B2 - Absorbent articles - Google Patents

Description

  The present invention relates to an absorbent article such as a sanitary napkin.

  Conventionally, various devices have been made for absorbent articles such as sanitary napkins in order to achieve a good wearing feeling while more reliably preventing leakage of body fluids. As such a device, for example, Patent Document 1 discloses an absorbent article including two adjacent macro embossings (squeezing grooves) formed by compressing a liquid-permeable surface sheet and an absorbent body. Has been. And it is comprised so that an embossing formation site | part and a non-formation site | part may be alternately arrange | positioned at least any one among these two pressing grooves. According to this configuration, it is said that the body fluid leakage preventing function by embossing can be improved while increasing the wearing feeling.

JP 2006-326299 A (FIG. 1)

  However, the absorbent article described above has the following problems. The degree to which the absorber is compressed is different between the embossing formation site and the non-formation site that are alternately arranged. That is, the density of the non-formation site is lower than the density of the embossing formation site. Here, since the body fluid of the wearer of the absorbent article flows in a direction where the density of the absorbent body is higher, the embossing is continuously performed on the other side from the lower density side such as the non-formed part of one compressed groove. Body fluid flows toward the applied squeezing groove. In addition, as a result, because it is continuously configured to have the same density in the compressed groove where the body fluid flows, the body fluid diffuses in the compressed groove, and the body fluid leaks to the outside, There has been a problem that the surface sheet that has been crimped and fixed by embossing may be peeled off.

  This invention is made | formed in view of the said subject, and aims at providing the absorbent article which prevents a leak, improving a feeling of mounting | wearing.

  In order to solve the above-described problems, an absorbent article according to an embodiment of the present invention includes a liquid-permeable top sheet, a liquid-impermeable back sheet, and an absorption disposed between the top sheet and the back sheet. An absorbent article in which a compressed groove in which the topsheet and the absorbent body are compressed in the thickness direction of the product is formed along the longitudinal direction of the product, wherein the compressed groove is a pair of first 1 squeezing groove and a pair of second squeezing grooves located outside the first squeezing groove in the width direction of the product orthogonal to the longitudinal direction, the first squeezing groove and the second squeezing groove , Each having a high density region and a low density region alternately arranged along the longitudinal direction, the low density region included in the first pressing groove and the high density region included in the second pressing groove , Being arranged adjacent to each other in the width direction And butterflies.

  The absorbent article in the embodiment of the present invention can prevent leakage while improving the wearing feeling.

It is the top view seen from the skin contact surface side of the absorbent article in embodiment of this invention. It is a schematic cross section of the AA cross section and BB cross section which are shown in FIG. It is the top view which expanded the pressing groove of the absorbent article shown in FIG. It is the top view which expanded the pressing groove of the absorptive article in the 1st modification. It is the top view which expanded the pressing groove of the absorptive article in the 2nd modification. It is the top view which expanded the pressing groove of the absorbent article in the 3rd modification.

  An absorbent article in an embodiment of the present invention (hereinafter referred to as an embodiment) will be described with reference to the drawings. The absorbent article 1 in the embodiment of the present invention is, for example, a sanitary napkin.

  An absorbent article 1 according to an embodiment of the present invention will be described with reference to FIGS. 1 to 3. FIG. 1 is a plan view of an absorbent article 1 according to an embodiment of the present invention. 2 is a cross-sectional view taken along the line AA shown in FIG. 1 (FIG. 2A) and a cross-sectional view taken along the line BB (FIG. 2B). FIG. 3 is an enlarged view of the pressing groove 50 in the plan view shown in FIG.

  In the following description, the absorbent article 1 in the embodiment of the present invention is a daytime sanitary napkin. Therefore, in the absorbent article 1 shown in FIG. 1, the lengths of the front area FA located on the front side of the wearer in the longitudinal direction L and the rear area BA located on the rear side of the wearer are substantially the same. In addition, the area | region between a pair of wing parts mentioned later is center area | region CA containing the area | region where a wearer's excretion opening | mouth contacts. A front side of the central area CA is a front side area FA, and a rear side of the central area CA is a rear side area BA.

  In the embodiment of the present invention, a daytime sanitary napkin is described as an example, but the absorbent article of the embodiment of the present invention can also be applied to a night sanitary napkin. The sanitary napkin for night use is configured such that the rear area BA located on the back side of the wearer is longer than the front area FA located on the front side of the wearer in the longitudinal direction L.

  The absorbent article 1 includes a top sheet 10 that comes into contact with the wearer's skin, a liquid-impermeable back sheet 20 that does not transmit liquid, and an absorber 30. The absorber 30 is disposed between the top sheet 10 and the back sheet 20. The absorbent body 30 is disposed at the central portion in the longitudinal direction L and the width direction W of the absorbent article 1.

  The absorbent article 1 includes wing portions 43 and 44 provided on the outer side of the absorbent body 30 in the width direction W orthogonal to the longitudinal direction L in a plan view shown in FIG. Further, the absorbent article 1 includes side sheets 41 and 42 provided outside the absorbent body 30 in the width direction W.

  The top sheet 10 is a liquid-permeable sheet that transmits liquid such as body fluid. The top sheet 10 covers at least the surface of the absorber 30. The top sheet 10 is not particularly limited as long as it is a sheet-like material having a structure that allows liquid to permeate, such as a nonwoven fabric, a woven fabric, a perforated plastic sheet, and a mesh sheet. Either natural fibers or chemical fibers can be used as the woven or non-woven material.

  Examples of natural fibers include cellulose such as pulverized pulp and cotton. Examples of the chemical fiber include regenerated cellulose such as rayon and fibril rayon, semi-synthetic cellulose such as acetate and triacetate, thermoplastic hydrophobic chemical fiber, and thermoplastic hydrophobic chemical fiber subjected to hydrophilic treatment.

  Examples of the thermoplastic hydrophobic chemical fibers include single fibers such as polyethylene (PE), polypropylene (PP), and polyethylene terephthalate (PET), fibers obtained by graft polymerization of PE and PP, and composite fibers such as a core-sheath structure. As mentioned.

  In particular, for non-woven fabrics, web forming may be performed by any of dry methods (card method, spun bond method melt blown method, air laid method, etc.), wet methods, or a combination of a plurality of them. Examples of bonding methods include thermal bonding, needle punching, chemical bonding, and the like, but are not particularly limited to these methods. Moreover, you may use the spunlace formed in the sheet form by the hydroentanglement method.

  As the perforated plastic sheet, a perforated sheet of a thermoplastic resin such as PE, PP, and PET, a porous foam material, or the like can be used. Moreover, about these, it is also preferable to make it cloudy by mixing the filler which consists of a titanium oxide, a calcium carbonate, etc. in the range of 0.5 to 10% as needed. Moreover, you may use the perforated film which opened the film which consists of the said thermoplastic resin by perforation, heat embossing, or machining. The perforated film may be used as a composite sheet with a nonwoven fabric.

The back sheet 20 has substantially the same length as that of the top sheet 10. As the back sheet 20, a polyethylene sheet, a laminated nonwoven fabric mainly composed of polypropylene, a breathable resin film, a sheet in which a breathable resin film is bonded to a nonwoven fabric such as spunbond or spunlace, and the like can be used. The back sheet 20 is preferably made of a material having flexibility that does not cause a sense of incongruity when worn. For example, a film obtained from a basis weight of 15 to 30 g / m ² mainly composed of a low density polyethylene (LDPE) resin. Can be used. The back sheet 20 is desirably liquid-impervious and moisture-permeable, and can be constituted by a microporous sheet obtained by stretching and melting an olefin resin such as polyethylene or polypropylene with an inorganic filler. .

  The absorber 30 includes hydrophilic fibers and pulp. The absorber 30 is formed of a material that can absorb body fluid such as menstrual blood. Examples include pulverized pulp, cellulose such as cotton, regenerated cellulose such as rayon and fibril rayon, semi-synthetic cellulose such as acetate and triacetate, particulate polymer, fibrous polymer, thermoplastic hydrophobic chemical fiber, and hydrophilic treatment. Thermoplastic hydrophobic chemical fibers or chemically bonded airlaid pulp can be used alone or in combination.

The method for forming these materials into the absorbent body is not particularly limited, but for example, a sheet formed by an airlaid method, a meltblown method, a spunlace method, a papermaking method or the like is used. Moreover, a cellulose foam, a synthetic resin continuous foam, etc. can also be used as an absorber. Furthermore, it is also possible to use what was formed into an absorber after pulverizing the foam or the sheeted material. Among these, pulp is mixed in the range of 50 to 100%, particulate polymer is mixed in the range of 20 to 0%, coated with tissue, and then sheeted by embossing to a sheet weight of 100 to 2000 g / m ² , 1 to 50 mm The absorber which has the bulk of this is mentioned. The embossing is for preventing the shape of the absorber from being lost, and the embossed area ratio is in the range of 10 to 100%, preferably in the range of 30 to 50%.

The absorbent body 30 may be formed by laminating hydrophilic fibers or powder by the airlaid method, an airlaid sheet obtained by forming hydrophilic fibers or powder into a sheet shape by the airlaid method, or a tissue (for example, It may be formed by placing pulverized pulp mixed with a superabsorbent polymer on a basis weight of 15 g / m ² ) and wrapping it with a tissue.

  Furthermore, other examples of the material of the thin absorbent body include an absorbent sheet and a polymer sheet, and the thickness is preferably 0.3 to 5 mm. The absorbent sheet and polymer sheet can be used without particular limitation as long as they are usually used for absorbent articles such as sanitary napkins.

  Examples of the absorbent sheet include absorbent paper, non-woven fabric, and pulp sheet in which fibers are formed into a sheet with a binder, etc., and examples of the polymer sheet include sheets formed by mixing particulate polymer with pulverized pulp and fibers. Is mentioned. In addition, as the sheet formed by mixing the particulate polymer with the fiber to form a sheet, any of those in which the particulate polymer is dispersed in a layer form and those in which the particulate polymer is dispersed in a three-dimensional form can be used.

  Materials used for the absorbent sheet and polymer sheet include cellulose fibers such as wood pulp, regenerated cellulose fibers such as rayon and cupra, hydrophilic synthetic fibers such as polyvinyl alcohol fibers and polyacrylonitrile fibers, surfactants, etc. Polyethylene, polypropylene, polyethylene terephthalate, polyethylene / polypropylene bicomponent fiber or polyethylene / polyethylene terephthalate bicomponent fiber whose fiber surface is made hydrophilic is preferred, and cellulose fiber is more preferred from the viewpoint of maintaining good hydrophilicity.

  The particulate polymer used for the polymer sheet is preferably one that can absorb and retain a liquid 20 times or more of its own weight and can be gelled. Examples thereof include starch, crosslinked carboxymethylated cellulose, polyacrylic acid, Examples thereof include salts thereof and polyacrylate graft polymers.

The absorber 30 in the embodiment of the present invention is configured by wrapping a pulp obtained by laminating cotton-like pulp, synthetic pulp, or the like at a basis weight of about 100 to 300 g / m ² with protective paper (not shown). The protective paper is for maintaining the shape of the pulp, and for example, crepe paper or tissue paper can be used.

  The absorber 30 has a shape extending in the front-rear direction, and is approximately one size smaller than the back sheet 20. The length of the absorbent body 30 in the width direction W corresponds to the crotch interval of an adult woman and is approximately 50 mm. The absorber 30 is bonded to the back sheet 20 with an adhesive such as hot melt.

  The side sheets 41 and 42 are disposed on both sides of the top sheet 10. The side sheets 41 and 42 can be selected from the same material as the top sheet 10. However, in order to prevent menstrual blood from flowing over the side sheets 41 and 42 to the outside of the absorbent article 1, it is preferable to have hydrophobicity or water repellency. The side sheets 41 and 42 cover part of the side edges of the absorber 30 and the wing portions 43 and 44.

  In the absorbent article 1, the periphery of the top sheet 10, the back sheet 20, the side sheets 41 and 42, and the back sheet 20 is joined to enclose the absorbent body 30. As a method for joining the top sheet 10 and the back sheet 20, any one or a plurality of heat embossing, ultrasonic wave, or hot melt adhesive can be combined.

  In the back sheet 20, an adhesive (not shown) is applied to the surface in contact with the undergarment in a plurality of regions. The pressure-sensitive adhesive is intermittently disposed along the longitudinal direction L on the back side of the absorber. The adhesive is also provided on the surface in contact with the undergarment in the wing part 43 and the wing part 44. In a state before use, the adhesive is in contact with a release sheet (not shown). The release sheet prevents the adhesive from deteriorating before use. And a peeling sheet peels by a wearer at the time of use.

  In addition, in the absorbent article which does not have a peeling sheet, you may be comprised so that it may prevent that an adhesive deteriorates before use with the packaging sheet which wraps an absorbent article separately. When the adhesive and the packaging sheet are in contact with each other, it is desirable that the surface of the packaging sheet be treated so that the adhesive can be peeled without reducing the adhesive strength of the adhesive.

  The absorbent article 1 is formed with a compressed groove 50 in which the topsheet 10 and the absorbent body 30 are compressed in the thickness direction. The compressed groove 50 is a groove formed by processing the skin contact side of the topsheet 10 of the absorbent article 1 and the non-skin contact side (clothing contact surface side) of the absorbent body 30. It is.

  The pressing groove 50 is provided around the central area CA including the center of the area where the excretion opening arranged facing the wearer's excretion opening in the area where the absorber 30 is arranged.

  In addition, the center of the area | region where an excretion opening | mouth contacts corresponds with the center of the longitudinal direction L and the width direction W of center area | region CA where a wearer's excretion opening contacts. For example, in an absorbent article having a wing portion, the center in the longitudinal direction L of the wing portion is the center in the longitudinal direction L of the central region. Moreover, in the absorbent article which does not have a wing part, the position where the length dimension of the width direction W of an absorber is the shortest becomes the center of the longitudinal direction L of a center area | region. In addition, the area | region which an excretion port contacts is contained in the area | region contact | abutted with a wearer's crotch part, and is located between a wearer's both legs.

  The shape of the compressed groove 50 is, for example, a circle or ellipse in which a certain region is surrounded by a curve, a polygon or circle in which a certain region is surrounded by a plurality of broken lines, or a straight line extending along the longitudinal direction L or the width direction W. It is a curve.

  The pressing groove 50 includes a first longitudinal pressing groove 51, a second longitudinal pressing groove 52, a first width pressing groove 53, and a second width pressing groove 54.

  First, the shapes of the first longitudinal pressing groove 51, the second longitudinal pressing groove 52, the first width pressing groove 53, and the second width pressing groove 54 in plan view will be described.

  The first longitudinal squeezing groove 51 and the second longitudinal squeezing groove 52 are respectively squeezing grooves 50 extending in the longitudinal direction L, and the first longitudinal squeezing groove 51 and the second longitudinal squeezing groove 52 are non-parallel. is there.

  The first longitudinal pressing grooves 51 include a part or all of the central region CA in the longitudinal direction L, and a pair of first longitudinal pressing grooves 51 are arranged with a gap in the width direction W. The space | interval of the width direction W of a pair of 1st longitudinal pressing groove 51 is about 30 mm, for example. The front end 51FE and the rear end 51BE of the first longitudinal squeezing groove 51 are inside in the longitudinal direction in the central area CA, for example, on the end in the longitudinal direction L of the wing portions 43 and 44 on the width direction W line. Are provided so as to face each other. The first longitudinal pressing groove 51 may be provided with a curved portion having a convex shape toward the inner side in the width direction, or may be a straight shape orthogonal to the width direction W.

  In addition, when a curved part is provided in the 1st longitudinal pressing groove 51, for example, the curved part has an arc shape extending inward in the width direction from the both longitudinal ends of the first longitudinal pressing groove 51 toward the longitudinal center. It is. However, the shape of the curved portion of the first longitudinal pressing groove 51 may not be an arc shape.

  The first width pressing groove 53 is provided so as to connect the first longitudinal pressing grooves 51 between the pair of first longitudinal pressing grooves 51. Specifically, the first width pressing grooves 53 are arranged so as to connect the front end portions 51FE of the pair of first longitudinal pressing grooves 51, and the rear end portions 51BE of the pair of first longitudinal pressing grooves 51 are connected to each other. The 1st width pressing groove 53 is arrange | positioned so that it may connect. The first longitudinal pressing groove 51 and the first width pressing groove 53 are continuously arranged and are annular in plan view. The center area CA is an area surrounded by the first longitudinal pressing groove 51 and the first width pressing groove 53.

  The second longitudinal pressing groove 52 is disposed in a pair on the outer side in the width direction from the first longitudinal pressing groove 51 with an interval in the width direction W. The second longitudinal pressing groove 52 extends along the longitudinal direction L to the front area FA and the rear area BA of the absorbent article. In addition, if the longitudinal direction length of the 2nd longitudinal pressing groove 52 is comprised so that the longitudinal direction length of the 1st longitudinal pressing groove 51 may be included, the longitudinal direction both ends of the 2nd longitudinal pressing groove 52 are, for example. The central area CA may be provided.

  The second longitudinal pressing groove 52 extends curvedly in the longitudinal direction L. Specifically, the second longitudinal pressing groove 52 is provided with a curved portion 55 having a convex shape toward one or more widthwise outer sides.

  That is, when the 2nd longitudinal pressing groove 52 is curving and extending in the longitudinal direction L, the width direction length of the 1st longitudinal pressing groove 51 and the 2nd longitudinal pressing groove 52 is the 2nd longitudinal pressing groove 52 long. Compared with the case where the shape is a straight line in the direction L, it is partially longer. Therefore, in the absorbent article 1 of the embodiment of the present invention, since the body fluid of the wearer can be made longer in the width direction until it reaches the second longitudinal compressed groove 52 from the first longitudinal compressed groove 51, the body fluid is first 2 It is difficult to reach the longitudinal pressing groove 52.

  Moreover, when the 2nd longitudinal pressing groove 52 is curving and extending in the longitudinal direction L, the longitudinal direction length of the 2nd longitudinal pressing groove 52 makes the 2nd longitudinal pressing groove 52 a linear shape in the longitudinal direction L. Longer than the case. Therefore, in the absorbent article 1 according to the embodiment of the present invention, even when the body fluid reaches the second longitudinal pressing groove 52, the second longitudinal pressing groove 52 has a long length in the longitudinal direction. Difficult to diffuse along the longitudinal direction of the longitudinal pressing groove 52.

  In this case, the distance in the width direction W between the outer side in the width direction of the first longitudinal pressing groove 51 and the outer side in the width direction of the second longitudinal pressing groove 52 is, for example, 6 mm.

  Moreover, the 2nd longitudinal pressing groove | channel 52 is locally close to the 1st longitudinal pressing groove 51 in the width direction W, and a constriction is formed in the longitudinal direction both ends of the curved part 55. FIG. In the example of FIG. 1, two curved portions 55 are provided in the second longitudinal pressing groove 52, and three places are constricted at the longitudinal end portion of the curved portion 55. In the example of FIG. 1, one of the constricted portions is provided on a center line CACL passing through the center in the longitudinal direction of the central area CA and along the width direction W. The absorbent article according to the embodiment of the present invention is a daytime napkin, and the length in the longitudinal direction L of the front region and the length in the longitudinal direction L of the rear region are the same. Is the center of the absorbent body in the longitudinal direction and the center of the absorbent article 1 in the longitudinal direction. In addition, a force is added to the inner side in the width direction at the time of wearing with respect to the constricted portion, and the fit feeling and wearing feeling of the wearer can be improved.

  The second width pressing groove 54 is provided so as to connect the pair of second longitudinal pressing grooves 52 between the pair of second longitudinal pressing grooves 52. Specifically, in the front region FA of the absorbent article, the second width pressing groove 54 is disposed so as to connect the front end portions of the pair of second longitudinal pressing grooves 52, and in the rear region BA of the absorbent article. The 2nd width | variety pressing groove 54 is arrange | positioned so that the rear side edge part of a pair of 2nd longitudinal pressing groove 52 may be connected. The second longitudinal squeezing groove 52 and the second width squeezing groove 54 are continuously arranged and are annular in plan view. The second longitudinal pressing groove 52 and the second width pressing groove 54 are arranged so as to surround the first longitudinal pressing groove 51 and the first width pressing groove 53.

  The 1st longitudinal pressing groove 51 and the 2nd longitudinal pressing groove 52 may be formed so that it may incline with respect to the straight line along the longitudinal direction L, the straight line along the longitudinal direction L, and the 1st longitudinal pressing groove The angle (acute angle side) formed by 51 or the 2nd longitudinal pressing groove 52 shall be 45 degrees or less. On the other hand, the 1st width pressing groove 53 and the 2nd width pressing groove 54 may be formed so that it may incline with respect to the straight line along the width direction W, the straight line along the width direction W, and the 1st width. The angle (acute angle side) formed by the pressing groove 53 or the second width pressing groove 54 is less than 45 degrees.

  Moreover, the longitudinal pressing groove and the width pressing groove may be continuous as in the embodiment of the present invention, or may be arranged separately. Specifically, the first width pressing groove 53 may be disposed away from the first longitudinal pressing groove 51 and on the outer side in the longitudinal direction from the first longitudinal pressing groove 51, or the first longitudinal pressing groove 51. And spaced apart from the first longitudinal pressing groove 51. Further, the second width pressing groove 54 may be spaced apart from the second longitudinal pressing groove 52, and may be disposed on the outer side in the longitudinal direction than the second longitudinal pressing groove 52, or separated from the second longitudinal pressing groove 52. In addition, the second longitudinal pressing groove 52 may be disposed on the inner side in the width direction.

  Specifically, the width of the pressing groove 50 is preferably 1.5 mm or more and 5 mm or less. The width | variety of the 1st longitudinal pressing groove 51 and the 2nd longitudinal pressing groove 52 is 2 mm, for example.

  Next, the form of compression in the 1st longitudinal pressing groove 51, the 2nd longitudinal pressing groove 52, the 1st width pressing groove 53, and the 2nd width pressing groove 54 is demonstrated.

  The first longitudinal pressing groove 51 has a high density region 56 and a low density region 57. As shown in FIGS. 1 and 3, the high density regions 56 and the low density regions 57 are alternately arranged along the longitudinal direction L in the first longitudinal pressing grooves 51. FIG. 2A is a schematic cross-sectional view of the AA cross section of FIG. 1, and the AA cross section is a cross section at the center line CACL. As shown in FIGS. 1 and 2A, the pressing groove of the first longitudinal pressing groove 51 on the AA cross section is a low density region 57. On the other hand, FIG.2 (b) is a schematic cross section of the BB cross section of FIG. 1, and as shown in FIG.1 and FIG.2 (b), the compression of the 1st longitudinal pressing groove 51 on a BB cross section is shown. The groove is a high density region 56.

  The high density region 56 is a region where the density of the absorber 30 is higher than that of the low density region 57, which is compressed with a stronger force than the low density region 57. On the other hand, the low density area 57 is an area where the density of the absorber 30 is lower than that of the high density area 56, which is compressed with a weaker force than the high density area 56. The high-density area 56 and the low-density area 57 are, for example, a set of point-like compressed parts. A plurality of dotted compression parts are arranged side by side at intervals, and are configured to form a certain region as a whole. In addition, the low density area | region 57 may be an area | region without the point-like pressing part which is not compressed or is not substantially compressed. In addition, in order to suppress effectively the spreading | diffusion of the wearer's bodily fluid in the 1st longitudinal pressing groove 51 inside, the one where the difference of the density of the high density area | region 56 and the low density area | region 57 is large is preferable.

  The second longitudinal pressing groove 52 has a high density region 58 and a low density region 59. As shown in FIGS. 1 and 3, the high density regions 58 and the low density regions 59 are alternately arranged along the longitudinal direction L in the second longitudinal compressed grooves 52. As shown in FIGS. 1 and 2A, the pressing groove of the second longitudinal pressing groove 52 on the AA cross section is a high-density region 58. On the other hand, as shown in FIG.1 and FIG.2 (b), the pressing groove of the 2nd longitudinal pressing groove 52 on a BB cross section is the low density area | region 59. FIG.

  The high density region 58 is a region where the density of the absorber 30 is higher than that of the low density region 59, which is compressed with a stronger force than the low density region 59. On the other hand, the low density region 59 is a region where the density of the absorber 30 is lower than that of the high density region 58, which is compressed with a weaker force than the high density region 58. The high-density area 58 and the low-density area 59 are, for example, a set of point-like compressed parts. A plurality of dotted compression parts are arranged side by side at intervals, and are configured to form a certain region as a whole. In addition, the low density area | region 57 may be an area | region without the point-like pressing part which is not compressed or is not substantially compressed. In addition, in order to suppress effectively the spreading | diffusion of the wearer's bodily fluid in the 2nd longitudinal pressing groove 52 inside, the one where the difference of the density of the high density area | region 58 and the low density area | region 59 is large is preferable.

  Next, it arrange | positions in the longitudinal direction L of the high density area | region 56 and the low density area | region 57 which are contained in the 1st longitudinal pressing groove 51, and the high density area | region 58 and the low density area | region 59 which are contained in the 2nd longitudinal pressing groove 52. The position will be described.

  The low-density region 57 included in the first longitudinal pressing groove 51 and the high-density region 58 included in the second longitudinal pressing groove 52 are arranged to face each other on the width direction W line. That is, the low density region 57 included in the first longitudinal pressing groove 51 and the high density region 58 included in the second longitudinal pressing groove 52 are adjacent to each other on the width direction W line, and the high density included in the first longitudinal pressing groove 51. It arrange | positions along a longitudinal direction so that the area | region 56 may adjoin the low density area | region 59 contained in the 2nd longitudinal pressing groove 52. FIG.

  The body fluid of the wearer preferentially accumulates in the portion of the absorbent body 30 that is more strongly compressed and formed with a higher density. Therefore, after a wearer's bodily fluid is first discharged | emitted by the center part of the absorbent article 1, it reaches | attains the 1st longitudinal pressing groove 51 located in the width direction inner side of the absorbent article 1, and a predetermined amount of bodily fluid remains. . When the body fluid further increases, the body fluid flows from the low-density region 57 in the first longitudinal pressing groove 51 to the outer side in the width direction of the absorbent article 1 and reaches the second longitudinal pressing groove 52. At this time, the absorbent article 1 according to the embodiment of the present invention is disposed such that the low-density region 57 in the first longitudinal compressed groove 51 and the high-density region 58 in the second longitudinal compressed groove 52 are adjacent in the width direction W. Is done. Thereby, compared with the case where the low density region 57 in the first longitudinal pressing groove 51 and the low density region 57 in the second longitudinal pressing groove 52 are arranged so as to be adjacent in the width direction W, the body fluid is not diffused, The body fluid can be drawn into the second longitudinal pressing groove 52 more smoothly.

  Further, even when the body fluid reaches the second longitudinal compressed groove 52, the high-density regions 58 and the low-density regions 59 are alternately arranged along the longitudinal direction L. The body fluid is difficult to diffuse along. That is, the bodily fluid that has flowed from the first longitudinal compressed groove 51 into the high density region 58 of the second longitudinal compressed groove 52 penetrates in the high density region 58 and moves toward the low density region 59 where the density of the absorber 30 is relatively low. Difficult to diffuse. Therefore, peeling between the top sheet 10 and the absorbent body 30 caused by expansion of the permeation portion of the absorbent body 30 along the longitudinal direction L of the second longitudinal compressed groove 52 can be prevented.

  As shown in FIG. 2, the thickness T <b> 1 in the high density region 58 included in the second longitudinal pressing groove 52 is thinner than the thickness T <b> 3 in the low density region 59. Thereby, even when the body fluid reaches the second longitudinal compressed groove 52 from the inner side in the width direction, the thickness of the low density region 59 is thicker than the thickness of the high density region 58 into which the body fluid flows. Difficult to diffuse from region 58 to low density region 59. Therefore, peeling between the top sheet 10 and the absorbent body 30 caused by expansion of the permeation portion of the absorbent body 30 along the longitudinal direction L of the second longitudinal compressed groove 52 can be prevented.

  Dimensions in the thickness direction T of the compressed grooves 50 (in the form in which the compressed grooves are formed on both the skin contact surface side and the clothing contact surface side, the dimensions from the skin contact surface side and the clothing contact surface of the absorbent body The total depth from the side) is preferably 0.1 mm or more and 20 mm or less, but may be shallower than the thickness of the absorbent article. In addition, the depth of the groove on the skin contact surface side may be 20 to 50% with respect to the thickness of the absorbent article, but 30 to 60 considering the fluidity of the liquid and the deformability with the groove as a fold point. % Is preferred.

  Moreover, if the thickness of the high-density area | region and low-density area | region in the 1st longitudinal pressing groove 51 or the 2nd longitudinal pressing groove 52 of the clothing contact surface side of an absorber is 5-20% with respect to the thickness of an absorbent article, respectively. It is only necessary that the average depth of the low density region is smaller than that of the high density region. When the depth of the pressing groove on the clothing contact surface side is smaller than 5%, the deformability and flexibility of the pressing groove are deteriorated. Moreover, when it becomes larger than 20%, the squeezing groove itself becomes too deep and becomes fragile.

  Specifically, the depth of the compressed groove 50 in the absorbent article having a thickness of 7 mm is such that the high-density region 56 in the first longitudinal compressed groove 51 is 0.8 mm and the low-density region is 0.2 mm, and the second longitudinal compressed The high density region 56 in the groove 52 is preferably 0.8 mm, and the low density region is preferably 0.2 to 0.5 mm.

Examples of the shape of the dot-shaped compressed portion included in the compressed groove 50 on the clothing contact surface side include a dot shape, a lattice shape, and an elliptical shape. If it is a groove, processing is easy. The size of the pressing part is preferably 0.5 mm ² to 100 mm ² , and the pitch of the pressing part is preferably 0.5 mm to 3 mm.

  Examples of the processing method of the compressed groove 50 include the following methods. Passing between the embossing rolls facing in the up-down direction, the pressing grooves are formed by pressing the embossing rolls in the up-down direction. On the contact surface of the upper embossing roll with the skin contact surface side of the absorbent article, a substantially elliptical groove having a continuous depth of one step is disposed. A groove having a step depth is disposed on the contact surface of the lower embossing roll with the clothing contact surface side of the absorbent article.

  In addition, the processing method of the pressing groove 50 is not limited to this, and the upper and lower sides of the roll are reversed, the pattern shape of two levels of depth is changed, or the temperature and the distance between the rolls that are embossing conditions are appropriately adjusted. Also good.

  As above-mentioned, the said pressing groove 50 with which the absorbent article in embodiment of this invention is provided is a pair of 1st longitudinal pressing groove 51, and the said 1st longitudinal pressing in the width direction W of the product orthogonal to the said longitudinal direction L. It has a pair of 2nd longitudinal pressing groove 52 located outside groove 51, and the 1st longitudinal pressing groove 51 and the 2nd longitudinal pressing groove 52 were alternately arranged along the longitudinal direction, respectively. The high density regions 56 and 58 and the low density regions 57 and 59, the low density region 57 included in the first longitudinal pressing groove 51 and the high density region 58 included in the second longitudinal pressing groove 52 are: They are arranged adjacent to each other in the width direction W.

  Thereby, even if it is a case where a wearer's bodily fluid flows in the width direction outer side from the 1st longitudinal compression groove 51, and reaches | attains the 2nd longitudinal compression groove 52, it is preventing the spreading | diffusion inside the 2nd longitudinal compression groove 52 inside. it can. Therefore, peeling between the top sheet 10 and the absorbent body 30 due to diffusion inside the second longitudinal pressing groove 52 can be prevented, and leakage of body fluid to the outside can be prevented.

  Next, a first modification of the embodiment of the present invention will be described with reference to FIG.

  FIG. 4 is an enlarged plan view of the compressed groove 50 of the absorbent article 1 in the first modification. The other structure with which the absorbent article 1 in a 1st modification is provided should just be the same as the structure with which the absorbent article 1 of embodiment of this invention is provided.

  As shown in FIG. 4, in the absorbent article 1 of the first modified example, the low density region 59 included in the second longitudinal pressing groove 52 includes the low density region 57 and the high density region 56 in the first longitudinal pressing groove 51. It exists on the extended line which extended the edge | side S which contact | connects to the width direction outer side. Specifically, as shown in FIG. 4, the shape of the low density region 57 of the first longitudinal compressed groove 51 is such that an arrow U1 indicating an extension line extending the side S in the first longitudinal compressed groove 51 outward in the width direction. It is comprised so that the low density area | region 59 contained in the 2nd longitudinal pressing groove 52 may be pointed out.

  Thereby, when a wearer's bodily fluid flows toward the width direction outer side from the low density area | region 57 in the 1st longitudinal pressing groove 51, a bodily fluid is 2nd longitudinal pressing groove along the edge | side S in the 1st longitudinal pressing groove 51. It flows toward 52 low density regions 59.

  Therefore, since the body fluid does not flow into the high-density region 58 that is a portion where the pressure-bonding force between the topsheet 10 and the absorbent body 30 is high in the second longitudinal pressing groove 52, it is possible to suppress a decrease in the pressure-bonding force in the high-density region 58. As a result, peeling between the top sheet 10 and the absorber 30 can be made difficult to occur.

  Next, a second modification of the embodiment of the present invention will be described with reference to FIG.

  FIG. 5 is an enlarged plan view of the compressed groove 50 of the absorbent article 1 in the second modification. The other structure with which the absorbent article 1 in a 2nd modification is provided should just be the same as the structure with which the absorbent article 1 of embodiment of this invention is provided.

  As shown in FIG. 5, in the absorbent article 1 of the second modification, the high-density region 56 included in the first longitudinal pressing groove 51 has a convex shape outward in the width direction. Specifically, as shown in FIG. 5, the longitudinal length L1 on the inner side in the width direction of the high-density region 56 in the absorbent article 1 of the second modified example is the longitudinal direction on the outer side in the width direction of the high-density region 56. It is longer than the length L2 and includes L2 in the longitudinal direction L.

  Thereby, a wearer's bodily fluid flows to the width direction outer side along the convex shape from the width direction inner side to the width direction outer side of the high-density area | region 56. FIG. That is, the body fluid flows in the direction of the arrow U2 shown in FIG. And since the high density area | region 56 contained in the 1st longitudinal pressing groove 51 and the low density area | region 59 contained in the 2nd longitudinal pressing groove 52 are arrange | positioned so that it may adjoin in the said width direction, a bodily fluid is an arrow. It flows toward the low-density area | region 59 contained in the 2nd longitudinal pressing groove 52 along U2.

  Therefore, according to the absorbent article 1 of the second modified example, it is difficult for the body fluid to flow into the high-density region 58 that is a portion where the pressing force between the topsheet 10 and the absorbent body 30 is high in the second longitudinal compressed groove 52. Can do. As a result, since the pressure-bonding force in the high-density region 58 does not decrease, the topsheet 10 and the absorber 40 can be made difficult to peel off.

  Next, a third modification of the embodiment of the present invention will be described with reference to FIG.

  FIG. 6 is an enlarged plan view of the compressed groove 50 of the absorbent article 1 in the third modification. The other structure with which the absorbent article 1 in a 3rd modification is provided should just be the same as the structure with which the absorbent article 1 of embodiment of this invention is provided.

  As shown in FIG. 6, the width direction length W <b> 1 of the second longitudinal pressing groove 52 is longer than the longest width direction length W <b> 2 of the first longitudinal pressing groove 51. For example, the width direction length W7 of the second longitudinal pressing groove 52 is 3 mm, and the width direction length W4 of the first longitudinal pressing groove 51 is 2 mm.

  In the absorbent article 1, the body fluid of the wearer is more likely to leak out in the width direction than in the longitudinal direction. Therefore, as described above, by making the width direction length W1 longer than W2, in the width direction W rather than the longitudinal direction L, the absorbent article 1 of the wearer's bodily fluid in the second longitudinal compressed groove 52 inside The effect of suppressing diffusion can be increased. Specifically, even when the body fluid reaches the second longitudinal pressing groove 52, the area where the topsheet 10 and the absorbent body 30 are pressure-bonded is increased, and the body fluid flows into the second longitudinal pressing groove 52 The possible amount can be increased. Therefore, it can be set as the structure with which peeling with the surface sheet 10 and the absorber 30 does not arise easily.

  In addition, the fabric weight and density of an absorber can be measured with the following measuring methods, for example. In the absorbent article packaged by the packaging body, the packaging body is opened, the folded absorbent article is developed, and the thickness and area of the portion where the basis weight and density are measured are measured. Subsequently, the part which measures a fabric weight and a density is cut out from an absorbent article, and the weight of the cut-out part is measured. Next, parts other than the absorber, such as the top sheet and the back sheet, are removed from the cut out part, and the weight of the absorber is measured. The basis weight is calculated based on the weight of the absorbent body and the area of the portion where the basis weight and density are measured. The density is calculated based on the basis weight and thickness.

  The thickness can be measured by the following measurement method. Specifically, after the sample absorbent article was impregnated with liquid nitrogen and frozen, it was cut with a razor, returned to room temperature, and then 50 times larger using an electron microscope (for example, KEYENCE VE7500). Measure with magnification. Here, the reason why the absorbent article of the sample is frozen is to prevent the thickness from fluctuating due to compression during cutting. Moreover, the hardness of an absorbent article etc. can be measured using the Gurley method prescribed | regulated to JIS-1096, for example.

  Next, a part of manufacturing method of the absorbent article 1 in the present embodiment will be described. In addition, about the method which is not demonstrated, the existing method can be used. The manufacturing method of an absorbent article performs a surface sheet production | generation process as a 1st step.

  Next, as a second step, a surface sheet joining step is performed. Specifically, the top sheet 10 and the side sheets 41 and 42 are bonded by, for example, heat welding.

  As a third step, an absorber molding process is performed. Specifically, the absorber 30 is formed by molding pulp as a material of the absorber with a molding drum. In addition, a reverse order may be sufficient as the order of the manufacturing process of the surface sheet 10 of a 1st step and a 2nd step, and the absorber molding process of a 3rd step.

  In the fourth step, a joining process is performed. Specifically, the joining process which joins the absorber formed in the 3rd step, and the surface sheet 10 and side sheets 41 and 42 joined in the 2nd step is performed.

  In the fifth step, a pressing process is performed. Specifically, the absorber 30 and the top sheet 10 are compressed in the thickness direction to form the compressed grooves 50.

  In the sixth step, a back sheet joining step is performed. Specifically, the absorber, the top sheet 10 and the like in which the compressed grooves are formed are joined to the back sheet 20. After joining the back surface sheet 20, the process of apply | coating an adhesive is provided. The absorbent article in this Embodiment can be manufactured according to said process.

  Although the contents of the present invention have been disclosed through the embodiments of the present invention as described above, it should not be understood that the descriptions and drawings constituting a part of this disclosure limit the present invention. From this disclosure, various alternative embodiments, examples, and operational techniques will be apparent to those skilled in the art.

  For example, the pressing groove only needs to have at least a first longitudinal pressing groove and a second longitudinal pressing groove, and may not include the first width pressing groove and / or the second width pressing groove.

  The absorbent article is not limited to a sanitary napkin, and may be an absorbent pad or a panty liner. Further, for example, in the absorbent article, a gather may be formed at the outer end in the width direction of the absorbent body.

CA ... Central area FA ... Front area BA ... Rear area L ... Longitudinal direction T ... Thickness direction W ... Width direction 1 ... Absorbent article 10 ... Top sheet 20 ... Back sheet 30 ... Absorber 41, 42 ... Side sheet 43, 44 ... Wing part 50 ... Pressing groove 51 ... First longitudinal pressing groove 52 ... Second longitudinal pressing groove 53 ... First width pressing groove 54 ... Second width pressing groove 55 ... Curve part 56 ... High density area 57 ... Low density area 58 ... high density area 59 ... low density area

Claims (6)

A liquid-permeable top sheet, a liquid-impermeable back sheet, and an absorbent body disposed between the top sheet and the back sheet, the longitudinal direction of the product and the width direction of the product orthogonal to the longitudinal direction; An absorbent article having
The top sheet extending in the longitudinal direction and the absorbent body are provided with compressed grooves compressed in the thickness direction of the product,
The compressed grooves are a pair of first compressed grooves, and a pair of first compressed grooves that are non-parallel to the first compressed grooves and the longitudinal direction, and are disposed on both outer sides in the width direction of the product than the first compressed grooves. 2 squeezing grooves,
The first squeezing groove and the second squeezing groove each have a high- pressure squeezed portion and a low- pressure squeezed portion that are alternately arranged along the longitudinal direction.
The low- pressure squeezing part included in the first pressing groove and the high-pressure squeezing part included in the second pressing groove are arranged so as to be adjacent in the width direction ,
The low-pressure squeezing part included in the second squeezing groove is an absorbent article that exists on an extended line that extends to the outside in the width direction at a side where the low-pressure squeezing part and the high-pressure squeezing part in the first pressing groove contact . The thickness of the high compression portion included in the second compressed groove, the absorbent article thinner claim 1 than the thickness of the high compression portion included in the first compressed groove. The absorbent article according to claim 1, wherein a thickness of the high- pressure portion included in the second pressing groove is thinner than a thickness of the low- pressure portion included in the second pressing groove.   The absorbent article according to any one of claims 1 to 3, wherein the second compressed groove extends while being curved in the longitudinal direction. The absorptive article according to any one of claims 1 to 4 with which a high pressing part contained in said 1st pressing groove has a convex shape outside said width direction. The absorbent article according to any one of claims 1 to 5 , wherein the length in the width direction of the second pressing groove is longer than the length in the width direction of the first pressing groove.

Images