TWM270791U - Sanitary napkins - Google Patents

Description

M270791 ⑴ 8. Description of the new type [Technical field to which the new type belongs] This creation relates to a type of sanitary napkin that is difficult for menstrual blood to stay on the surface and can be quickly guided to the absorbent layer. [Prior art] Most general sanitary napkins are provided with a liquid-absorbing layer and a liquid-permeable surface sheet covering the skin-side surface of the liquid-absorbing layer. The surface sheet is formed of a resin film having a large number of liquid-permeation openings or a liquid-permeable nonwoven fabric. The viscosity of menstrual blood flowing to the skin side surface of the sanitary napkin is relatively high, and there may be a large amount of menstrual blood flowing to the surface sheet of the sanitary napkin in a short time due to the wearer's personal factors or health status. . For example, when the surface sheet is formed of a resin film with a liquid perforation hole, by increasing the opening area of each liquid perforation hole and increasing the opening area ratio of the liquid perforation hole, a large amount of liquid Menstrual blood migrates to the fluid-absorbing layer. However, if the opening area of the liquid permeation hole is too large or the opening area ratio is too high, the menstrual pads that have been absorbed by the liquid absorption layer due to the pressure on the body will easily pass through the liquid. It can be seen through the hole, so it is easy to cause the wearer to feel unsanitary. Conversely, if the opening area of each liquid permeation hole is small and the opening area ratio is low, the menstrual blood can be easily prevented from flowing back to the surface of the surface sheet, and the color of the menstrual blood absorbed by the liquid absorbing layer can be easily hidden, -4 -(2) (2) M270791 However, when the liquid permeation speed of the surface sheet becomes slow or a large amount of menstrual blood with a high viscosity flows into the surface sheet within a short period of time, the menstrual blood will remain on the skin-side surface of the surface sheet and contact with To the skin and easily cause discomfort to the wearer. For this reason, the surface structure of a sanitary napkin is required to have the reverse function of the liquid permeation function, the prevention of liquid backflow, and the ability to hide the color of menstrual blood. To meet such a demand, the conventional sanitary napkin has a surface structure shown on the skin-side surface of the sanitary napkin as described below. It is described in the following Patent Document 1 that the surface material of the sanitary napkin is formed of a water-repellent film and is in this row. The aqueous film system has a large number of recessed portions which are recessed toward the liquid absorbing layer. And a part of the inclined portion of the recessed portion has a liquid transmission hole. By having such a surface material, the menstrual blood can freely move to the liquid absorbing layer, and the liquid from the liquid absorbing layer is less likely to flow back, and the menstrual blood absorbed by the liquid absorbing layer can be easily concealed. The following patent documents 2 to 4 are those in which a liquid-permeable surface sheet is provided on the skin-side surface of the liquid-absorbing layer, and the continuous filament bundles extending in the longitudinal direction are fixed with a gap therebetween. The continuous filament bundles on the skin-side surface of the surface sheet and located between the fixing portion and the fixing portion form a plurality of ring portions that bulge toward the skin side. Since the above-mentioned continuous filament bundles form a large number of ring-shaped bulges, they give the wearer a good skin feel. Moreover, even if menstrual blood flows back from the liquid-absorbing layer to the surface of the surface sheet, the surface will have continuous fibers. Tow, -5- (3) (3) M270791 makes it difficult for menstrual blood to directly contact the skin. [Patent Document 1] Japanese Patent Laid-Open No. 1-343 65 [Patent Literature 2] Japanese Patent Laid-Open No. 2002-6573 [Patent Literature 3] Japanese Patent Laid-Open No. 2002-6573 Japanese Patent No. 7 [Patent Literature 4] Japanese Patent Laid-Open No. 2002-6978 1 Publication No. [New Content] [Problems to be Solved by the Author] Those described in the above-mentioned Patent Document 1 are formed on the surface material formed of a water-repellent film, and have a large number of recesses, and guide menstrual blood to the above. The recessed portion makes it easier for menstrual blood to migrate from the recessed portion to the liquid-absorbing layer. However, the opening of the surface material is provided only in the inclined portion of the recessed portion, so the top of the recessed portion has a flat state without openings. Therefore, once menstrual blood having a relatively high viscosity flows to the surface material in a short period of time, the recessed portion will be saturated with menstrual blood, and menstrual blood will easily pass through the flat portion of the top portion and spread to the surroundings. Therefore, menstrual blood easily remains on the skin-side surface of the surface material and comes into contact with the skin. In addition, those described in Patent Documents 2 to 4 are designed to provide a raised portion made of continuous filaments in a ring shape on the surface of the surface sheet, so that the skin feels good, and even if menstrual blood remains on the surface sheet, On the skin side, the presence of continuous filaments prevents the menstrual blood from directly contacting the skin. However, the function of guiding the menstrual blood of the surface sheet to the liquid-absorbing layer depends only on the liquid-permeability function of the surface sheet. Therefore, if the opening area of the liquid-permeation hole of the surface sheet is increased, the -6- ( 4) (4) When the M270791 liquid permeation function, the problem of liquid backflow also occurs easily. In order to solve the above-mentioned conventional problems, the purpose of this creation is to provide a method that can quickly transfer the menstrual blood to the liquid absorbing layer even if a large amount of menstrual blood flows in, and prevent the liquid from flowing back and concealing the color of the menstrual blood absorbed by the liquid absorbing layer. A sanitary napkin with excellent effect and even good skin feel [Method to solve the problem] In order to achieve the above purpose, this creation is directed to a skin-side surface having a liquid-absorbing layer and covering the skin-side surface of the liquid-absorbing layer The sanitary napkin for a surface structure is characterized in that the surface structure system includes a liquid-permeable base sheet covering the skin-side surface of the liquid-absorbing layer, and a surface sheet positioned on the skin-side surface of the base sheet, At least the skin-side surface of the surface sheet is formed of a resin film; because the surface sheet bulges further from the skin-side surface of the base sheet toward the skin side, forming a large number of bulges, and on the side of the bulge 'A side opening is formed which can pass to the base sheet. The surface structure system of the physiological sanitary napkin created by the present invention is composed of a base sheet with a liquid-permeability function of a coating liquid absorber, and at least the skin-side surface covering the base sheet is a surface sheet formed of a resin film. The bulging portion formed by the surface sheet forms the side opening portion of the opening, and the above-mentioned base sheet also appears just below the bulging portion. (5) (5) M270791 Therefore, when menstrual blood with a relatively high viscosity flows in in a short period of time, the menstrual blood will pass through the side opening of the bulge, flow to the base sheet, and pass through the base sheet to be absorbed by the liquid. Absorbed. In addition, the bulge formed by the surface sheet can be deformed toward the base sheet by the weight of menstrual blood itself, so menstrual blood flows into the side openings of other bulges adjacent to the deformed bulge and reaches Base sheet. Therefore, when a large amount of menstrual blood flows, the menstrual blood can quickly flow to the liquid absorbing layer, and the menstrual blood can be prevented from spreading to the skin-side surface of the sanitary napkin. In addition, since the surface sheet forming the raised portion is formed of a resin film at least on the skin side, even if menstrual blood flows back from the liquid-absorbing layer through the base sheet, the menstrual blood line is covered by the surface sheet, so menstrual blood is not easily attached directly. To the skin. In addition, since the skin-side surface of the surface sheet is formed of a resin film, the surface sheet can cover the color of menstrual blood absorbed by the liquid-absorbing layer. Therefore, when looking at the skin-side surface of a physiological sanitary napkin during wearing, , It will feel healthier. In the above-mentioned surface sheet, in the horizontal direction and the vertical direction, a plurality of thin slits that are spaced in the horizontal direction and extend in the vertical direction are formed at intervals. In the horizontal direction, the raised portions are formed by the adjacent ones. The slit and the portion of the surface sheet between the slits are formed, and in a portion other than the raised portion, the surface sheet and the base sheet are joined to each other. In addition, the interval in the horizontal direction of the above-mentioned slits varies according to the position. The wide part enclosed by the above slits is toward the muscle. 8- (6) (6) M270791 Skin side bulge And forming the raised portion, and the narrow portion smaller than the width of the wide portion surrounded by the narrow slit is located closer to the surface of the base sheet than the top of the raised portion. As described above, since the fine slits are added to the surface sheet, it is possible to easily form the raised portions and the side openings. In particular, as described above, since the wide and narrow portions drawn by the slits are formed on the surface sheet, in the structure of the raised portion formed by the wide portion, the portion other than the raised portion is formed. In some cases, the base sheet is covered by the narrow section, or a lower ridge is formed on the narrow section. Therefore, the contact with the skin on the surface will be soft, and the entire area of the base sheet can be completely covered by the surface sheet. Therefore, menstrual blood can be prevented from flowing back to the liquid-absorbing layer, and the surface sheet can be used to mask the liquid-absorbing layer. Color of absorbed menstrual blood. In the above, the width portion and the width portion are alternately formed in the horizontal direction. For example, in this creation, the portion surrounded by the thin slits of the surface sheet may be subjected to a pressure or pressure / heating step to the skin side to deform it to form a raised portion. Or, when the surface sheet is expanded in the horizontal direction and contracted in the longitudinal direction, the surface sheet will be joined to the base sheet in a plurality of places, and the portion surrounded by the crevices and crevices It will bulge towards the skin side and form a bulge. In addition, the above-mentioned surface sheets in this work are a plurality of strip-shaped sheets that are separated from each other and extend continuously in the longitudinal direction. Each of the strip-shaped sheets is -9- (7) (7) M270791 at a distance in the longitudinal direction. The bonding portion is bonded to the base sheet, and a portion of the band-shaped sheet between the bonding portions adjacent to each other is raised from the base sheet toward the skin side to form the raised portion. At this time, the strip-shaped sheets are arranged in a horizontal direction at intervals, and between the adjacent strip-shaped sheets, a coating resin film covering the surface of the base sheet is provided. In addition, the coating resin film may be one having liquid-pervious holes or one having no liquid-pervious holes. However, the liquid-permeability of the coated resin film is preferably lower than that of the base sheet. In the above creation, the base sheet is covered with a resin film in the portion without the raised portion, so the backflow of menstrual blood from the liquid-absorbing layer to the surface of the base sheet can be prevented, and the liquid absorbed by the liquid-absorbing layer is prevented. The color of menstrual blood can also be masked by the surface sheet and the coated resin film. In the above, the raised portion may be formed by orienting the band-shaped sheet toward the skin side and deforming it by applying pressure or a pressurization / heating step. Alternatively, the base sheet is contracted in the longitudinal direction, and the space between the surface sheet and the joint portion of the base sheet is approached in the longitudinal direction, so that the surface sheet is raised from the base sheet to form the raised portion. Furthermore, when the sanitary napkin for the present invention is deformed in a concave shape on the skin side surface, the surface sheet is raised from the base sheet to form the raised portion. In other words, when the physiological sanitary napkin is deformed in accordance with the shape of the body, or when the physiological sanitary napkin is configured to stretch elastically in the longitudinal direction -10- (8) (8) M270791 shrinkage-proof leak-proof wall, When the skin side surface is bent and deformed by using this elastic contraction force, the surface sheet will stand up to form the raised portion. The deformation height can also be used to increase the raised height of the raised portion. The resin film on the surface sheet has openings, and the side openings are formed by expanding the openings or breaking the resin film around the openings. In this configuration, the system By using a person with a hole as the surface sheet, it is not necessary to particularly have a slit to form the above-mentioned lateral opening. Further, in the present invention, it is preferable that the base sheet is formed of a highly liquid-pervious sheet having a liquid-permeation function better than that of the surface sheet. Since the base sheet has excellent liquid permeability, the menstrual blood passing through the above-mentioned lateral openings can quickly move to the liquid-absorbing layer through the base sheet. In addition, since the surface sheet has a lower liquid permeability than the base sheet, the surface sheet can be used to prevent menstrual blood from adhering to the skin. In this case, it is preferable that the above-mentioned base sheet, at least the skin-side surface, is formed of a resin film having a large number of liquid permeation holes. If the base sheet is formed of a resin film, since a liquid perforation hole having a large opening area and a high area ratio can be formed, the menstrual blood flowing to the base sheet can pass through the liquid perforation hole more quickly. And absorbed by the liquid absorption layer. At this time, the resin film appearing on the skin side surface of the surface sheet will form a liquid-permeation hole, and the opening of the liquid-permeation hole of the surface sheet may be smaller than the above-mentioned ratio of -11-(9) (9) M270791. Opening area ratio of liquid permeation holes in the base sheet. However, the raised portion formed by the surface sheet may have a configuration that does not have a large number of liquid-permeation holes. [Effects of creation] In this creation, the surface structure system is composed of a liquid-permeable base sheet and at least the skin-side surface is made of a resin sheet. Since the surface sheet has a raised portion, menstrual blood can It passes through the side opening of the bulge to reach the base sheet and passes through the base sheet, and is easily absorbed by the liquid absorbing layer. In addition, since this work has a thin sheet of resin or a surface sheet containing a resin film, the menstrual blood exuded from the liquid-absorbing layer does not easily touch the skin of the wearer, and the menstrual blood absorbed by the liquid-absorbing layer The color can also be masked by the surface sheet. In addition, since there are a large number of the raised portions, the skin feel can be softened. [Embodiment] Fig. 1 is a perspective view showing a sanitary napkin according to the first embodiment of the present invention with the skin side surface facing upwards, and Fig. 2 is a π-II line for applying the physiology of Fig. 1 An enlarged half-section view of a sanitary napkin cut, FIG. 3 is an enlarged half-section view of a modified example, FIG. 4A is an enlarged exploded three-dimensional solution showing the structure of a surface structure, and FIG. 4B is an opening portion of a bulge Illustration of the shape. -12- (10) (10) M270791 As shown in Figure 1, the sanitary napkin 1 of the embodiment of this creation is a length dimension in the longitudinal direction (γ direction), which is longer than that in the horizontal direction (X direction). The longitudinal rectangle with a long width dimension has a symmetrical shape with a center line of 0 to 0 across the longitudinal direction. The external shape of the sanitary napkin 1 is convexly curved toward the front edge portion 1 a facing the wearer's abdomen and the rear edge portion 1 b facing the buttocks. The sanitary napkin 1 has side flap portions 2 and 2 protruding toward the left and right sides, and has a forward side edge portion that is curved toward the left and right sides at a position further forward than the side flap portions 2 and 2. 1 c, 1 c, and the rear side edge portions 1 d, 1 d which are convexly curved toward the left and right sides are located behind the side wings 2 and 2. As shown in the cross-sectional view of FIG. 2, the structure of the sanitary napkin 1 is a liquid-impermeable back sheet 3 having a clothing-side surface of the coating liquid-absorbing layer 4 and a coating liquid-absorbing layer 4. The surface structure 20 of the skin side surface. The surface structure 20 is composed of a base sheet 21 covering the skin-side surface of the liquid-absorbing layer 4 and a surface sheet 22 located on the skin-side surface of the base sheet 21. The peripheral edge of the liquid absorbing layer 4 is indicated by a dashed line in FIG. 1, and the liquid absorbing layer 4 is present in most of the sanitary napkin 1 except for the side wings 2 described above. The left and right sides of the sanitary napkin 1 are liquid-impermeable side sheets 5 and 5. The left and right sides of the base sheet 21 are sandwiched by the back sheet 3 and the side sheet 5. In this state, the back sheet 3, the base sheet 21, and the side sheet 5 are adhered to each other. The facing edge portions 5 a of the respective side sheets 5 are located above and below the left and right side portions of the liquid absorbing layer -13- (11) (11) M270791 'and are opposed by the facing edge portions 5a and the facing The portion surrounded by the edge portion 5 a becomes the liquid absorption region 6. The side wing portions 2 and 2 are formed by overlapping the back sheet 3 and the side sheets 5 and 5 with each other. On the opposite side of the liquid-absorbing region 6, the surface of the back sheet 4 has pressure-sensitive adhesive layers 7, 7, and a pressure-sensitive adhesive layer 8 is also provided on the skin-side surface of each flank portion 2. The back sheet 4 is formed of a resin film such as a liquid-impermeable polyethylene resin. The liquid absorbing layer 4 is formed of a mixture of pulverized pulp and a superabsorbent polymer (SAP), or an air-flow type pulp in which the pulp stacked by the air-flow method is fixed with an adhesive. The above-mentioned side sheet 5 is liquid-impermeable, and is a melting type formed of polyethylene (pE) resin fibers, polypropylene (PP) resin fibers, polyethylene terephthalate (PET) resin fibers, and the like. Nonwovens, spunbond nonwovens, spunbond nonwovens / melt nonwovens / spunbond nonwovens are superimposed on each other. As shown in Fig. 1, the liquid absorption region 6 has a compression groove formed by the liquid absorption layer 4 and the base sheet 21 and the surface sheet 22 being compressed together. The compression groove is composed of a pair of longitudinal compression grooves 11, 1 1 extending in the longitudinal direction, and a pair of longitudinal compression grooves 11, 1 1 connecting the two longitudinal compression grooves, and a convex lateral transverse compression groove 12, which is formed forward, and connected. The two longitudinal compression grooves 11 and 1 1 are formed by forming a convex rear transverse compression groove 13 toward the rear. The central absorbing region 14 surrounded by the longitudinal compression grooves 11 and 11, the front transverse compression grooves 12 and the rear transverse compression grooves 13 includes a plurality of raised portions 2 formed by the surface sheet 22. 3. -14- (12) M270791 FIG. 4A is an enlarged view showing the structure of the surface structure 20 formed by the surface sheet 22 and the base sheet forming the bulge 23. Both the base sheet 21 and the surface sheet 22 of the sanitary napkin 1 of the first embodiment are formed of a resin film. The resin film forming the base sheet 21 may be a PE resin film, a PP resin film, etc., and an inorganic filler such as titanium oxide, barium sulfide, or calcium carbonate is added and whitened. The above-mentioned base sheet 21 has a large number of liquid perforation holes 2 1 a arranged regularly, so that the liquid permeation function is enhanced. The opening area (actual opening area) of each of the liquid-permeation holes 21a is larger than 0. 2 to 30 m m2, and preferably 1 to 30 m m2. In addition, the area ratio of the opening of the liquid perforation hole 2 1 a is about 5 to 40% in the central absorption region 14, and in addition, in order to allow menstrual blood to pass through the liquid perforation hole 2 1 a, the liquid permeation hole 2 1 a is rapidly moved toward the liquid. The absorption layer 4 moves, and the base sheet 21 is preferably one having a surface coated with a surfactant, or coated with a surfactant on the inside of the film, and then subjected to a hydrophilic treatment. The surface sheet 22 is a low-density polyethylene (LDPE) resin film, a linear low-density polyethylene (LLDPE) resin film, a high-density polyethylene (HDPE) resin film, a PP resin film, or a mixture of the above resins. The resin sheet does not have a liquid permeation hole when forming the texture before the ridges 23 and 3, and cannot perform the liquid permeation function. In the embodiment shown in FIG. 1, in addition to being surrounded by the longitudinal compression groove Π, 11 and the front transverse compression groove 12 and the rear transverse compression groove -15- (13) (13) M270791 1 3 Parts other than the central absorption region 14 do not have the raised portion 23, so in the region without the raised portion 23, it is preferable to form a liquid permeation hole in the surface sheet 22. However, the opening area of the liquid permeation hole is smaller than the opening area of the liquid perforation hole 21a of the base sheet 21, and the opening area ratio is also low. As shown in Figure 4A, in order to allow the bulge 23 to easily deform freely due to the weight of the menstrual blood itself, the thickness of the resin film is preferably in the range of 10 to 150 / zm, and preferably 15 to 80. // m. The resin film forming the surface sheet 22 is mixed with the inorganic filler and whitened. In addition, in order to allow the menstrual blood to quickly move toward the base sheet 21, the surface of the surface sheet 22 is preferably subjected to a water-repellent treatment, and in order to allow the menstrual blood to move toward the base sheet 21, the hydrophilicity can be reversed. deal with. The raised portion 23 of the surface sheet 22 can be formed according to the steps shown in FIGS. 6A and 6B. As described above, in the first embodiment, although the resin film serving as the surface sheet 22 does not have a liquid-permeability function, as shown in FIG. 6A, the resin film is linearly arranged at intervals in the longitudinal (Y) direction. The slits 24 and the slits 25 which are also arranged linearly at a pitch in the longitudinal direction. Each of the fine slits 24 and the fine slits 25 are the same length in the longitudinal direction and are parallel to each other 1 °, and in the longitudinal direction, are formed with the same phase and the same pitch.  . The horizontal direction (X direction) of the slits 24 and 25 is W1. The lengths in the longitudinal direction (Y direction) of the slits 26 and 27 are the same as those of the slits 24 and 25 described above. Slit 2 6 and Slit 2 7 series -16- (14) (14) M270791 are parallel to each other, and are aligned in the vertical direction with the same phase and the same pitch. The interval in the X direction between the slits 26 and 27 is W1 as described above. However, the arrangement of the slits 26 and 27 with respect to the arrangement of the slits 24 and 25 in the longitudinal direction (Y direction) differs by a half cycle. The interval in the horizontal direction (X direction) between the thin slits 25 and 26 and the interval in the horizontal direction (X direction) between the thin slits 2 7 and 24 are both w 2, and the interval W 2 is far greater than the above. The interval W1 is small. As shown in Figure A of Figure 6, the group of a pair of fine slits 2 4 and 25 and the group of one * pair of fine slits 26 and 27 are arranged in an alternating direction in the horizontal direction (X direction). Therefore, the portion enclosed by the slits 24 and 25 is the first width portion 31 of the width dimension W 1, and the portion enclosed by the slits 26 and 27 is The second wide portion 3 2 of the width dimension W 1 and the portion enclosed by the narrow slits 25 and 26 are the first wide width portion 3 3 of the width dimension W2 and the narrow slit 27 The portion enclosed by the slits 24 is the first wide portion 34 of the width dimension W2. Fig. 6B shows the forming die 40 for forming the surface sheet 22 having a plurality of slits as described above. The forming die 40 includes a facing die 41 and a punch 43. In addition, a plurality of forming protrusions 42 are formed in the die 41. Each of the formed convex portions 42 has the same shape and size, the upper surface 42a is bent in the γ direction, and the two side surfaces 4 2 b and 4 2 b are vertical planes. Each of the forming convex portions 42 is aligned so as to face the first wide portion 31 and the second wide portion 32 of each of the surface sheets 22. In addition, the first narrow portion 3 3 and the second narrow portion 34 between the forming convex portions 42 and the forming convex portions 42 adjacent to each other in the X direction face each other -17- (15) M270791 Between the die 4 3 and the above-mentioned forming protrusions 42 juxtaposed in the vertical direction, there is a fitting with a minimum gap between the surface sheet die 41 and the die 43 which will form a plurality of fine slits. Use the die 41 and the die to press the surface sheet 22, or at a temperature below the softening point of the surface resin film, and in the state where the shape 43 is heated, the sheet can be as shown in Figure 4A. A plurality of raised portions 23 are formed on 22. In this embodiment, all the raised portions 23 are the same. However, the width portion 31 of the narrow slits 24 and 25 of the narrow slits 31 is represented by the symbol 23 A for the raised portions formed by being pressed by the force. The quilt 26 and the second wide portion 32 of the quilt are represented by the symbol 2 3 B as a raised portion formed by being pressed by 42. The groups of the fine slits 24 and 25 are separated from each other by a half period in the direction of the fine slits 26 and 27. Therefore, the ridges 2 3 A are separated by a half pitch in the Y direction. In addition, the ridges 23B are arranged alternately in the horizontal direction (X direction). In FIG. 4A, in order to explain the raised portion, the raised portion 23A is curved by the thin slit 24 and the thin first wide portion 31 corresponding to the forming convex portion 42. Bulge shape. In the following, the multiple convex portions 32 and the pressing portion 44 formed by being separated by the slits 25 are formed. 2 2 is clamped in shape 4 3, and the die 22 of the sheet 22 is shown at the normal temperature as a die. The surface shape and size of the 1g shaped convex portion 42 2 7 are sandwiched by the above-mentioned shaped convex portion. It is because the edge of the surface sheet at the shape of the surface 4 2 a which is separated by the slit 25 in the structure of Y and the bulge 2 3 BS 23A and the bulge 23A is called the separation -18- (16) (16) M270791. Edge. One of the separation edge portions 24b formed by the surface sheet 21 being separated from each other by the slits 24 is the edge of the first wide portion 31, but the separation edge portion 24b is from the other separation edge portion 24a. Widely separated upward, so a wide opening is formed on the side of the ridge 2 3 A. The side opening 35a of the mouth is the same. The dividing edge portion 25b of one side separated from each other by the slits 25 is the edge of the first wide portion 31, and the separating edge portion 25b is formed from the other side. The separation edge portion 25a is largely separated upward, and a side opening portion 3 5 b with a large opening is formed on the side of the raised portion 23 A. In addition, a bottom opening portion 36 is formed directly below the first wide portion 31 which forms the raised portion 23 A, and a separation opening portion 36 is formed between the separation edge portion 24a and the separation edge portion 25a. Inside, the base sheet below it will be exposed. In Fig. 4B, the side openings 3 5 a and 3 5 b are shown by a person projecting in the X direction. In addition, in Fig. 4B, the bottom opening portion 36 is indicated by hatching. Similarly, in the raised portion 23B, one of the separation edge portions 26b separated by the slit 26 is largely separated upward from the other separation edge portion 26a, so that a side opening 37a 'is formed and is slit. The separation edge portion 27b separated by 27 is largely separated upward from the separation edge portion 27a to form a lateral opening portion 37b. In addition, directly below the second wide portion 32 forming the raised portion 23ΊB, between the separation edge portion 26a and the separation edge portion 27a, there is a bottom opening portion 3 8-19 which exposes the base sheet 21. -(17) (17) M270791 As shown in Figure 4A, each of the ridges 2 3 a has the first wide end 31 in the Y direction at both ends, that is, from the base sheet 2 1 The erected base portion has front and rear opening portions 39a that open in the Y direction. Similarly, each of the raised portions 2 3 B also has both ends in the Y direction of the second wide portion 32, that is, the base portion erected from the base sheet 21 has front and rear opening portions that open in the Y direction. 3 9 b. The opening areas of the respective front and rear openings 3 9 a ′ 3 9 b are smaller than the opening areas of the respective lateral openings 35 a, 35 b, 37 a, and 37 b. The first narrow portion 33 located between the narrow slits 25 and 26 does not swell upwards like the raised portions 23, but is located slightly lower than the top of the raised portions 23, and The surface of the base sheet 21 is covered. Similarly, the second narrow width portion 34 sandwiched by the narrow slits 27 and 24 does not substantially swell upward like the raised portions 23, but covers the surface of the base sheet 21. In the present surface structure 20, the base sheet 21 and the surface sheet 22 are connected to each other at portions other than the raised portions 23 (23 A, 23 B). Next, the physiological hygiene of the first embodiment described above is performed. Cotton's menstrual blood absorption function will be explained. As shown in FIG. 2, the present sanitary napkin 1 is “the skin-side surface of the liquid-absorbing layer 4 is covered with a base sheet 21 having high liquid permeability”, and even on the skin-side surface, it overlaps itself The surface sheet 22 whose liquid absorption function is inferior to that of the base sheet 21 (in the first embodiment, does not exert a liquid-permeability function), and in the central absorption region 14, also because of the above surface -20- (18) (18) The M270791 sheet 22 forms a plurality of ring-shaped raised portions 23 (23A, 23B). When the menstrual blood flows to the central absorption region 14, the menstrual blood passes through the lateral openings 3 5 a and 3 5 b which are large openings on the X side toward the X side, and flows to the exposed 2 3 A The base sheet 21 in the bottom opening 36 just below the bottom. Similarly, menstrual blood also passes through the side openings 37a, 37b which are large openings in the bulge 23B in the X direction to reach the base sheet 21 of the bottom opening 38 exposed directly below the bulge 23B. Because the base sheet 21 has a large opening area, the liquid perforation holes 21a are formed at a high opening area ratio. Therefore, menstrual blood flowing to the bottom openings 3 6 and 38 can quickly pass through the liquid of the base sheet 21. The holes 2 1 a are absorbed by the liquid absorption layer 4 below them. Fig. 4A shows a state pattern in which menstrual blood 45 with a high viscosity flows to the central absorption region 14. Menstrual blood with higher viscosity 4 5 — Once flowing to the central absorption area, forming the first wide portion 31 of the bulge, it will deform concavely toward the base sheet 21 due to the weight of the menstrual blood 4 5 itself. After that, menstrual blood 45 will flow into the lateral opening 3 7 a ′ of the bulge 32B located next to the deformed bulge 23A and directly reach the base sheet 38 of the bottom opening 3 8 directly below the bulge 2 3 B. 2 1 ′ and is absorbed by the liquid absorption layer 4 through the liquid transmission hole 2 1 a. Therefore, even if a large amount of menstrual blood flows in in a short period of time, the menstrual blood passes through the side openings 3 5 a, 3 5 b '3 7 a, 3 7 b and reaches the bottom openings 3 6, 3 8 and is exposed through the The base sheets 2 1 of the bottom openings 36, 38 can be quickly absorbed by the liquid absorbing layer 4. In addition, even if pressure is applied to a sanitary napkin, menstrual blood that has been absorbed by the liquid absorbing layer 4 passes through the liquid permeation holes 2 1 a of the base sheet 21 and oozes out through -21-(19) (19) M270791. The skin-side surface of the base sheet 21 has a first wide portion 3 1 forming a raised portion 23A, a second wide portion 23B forming a raised portion 23B, and the raised portion 2 on the surface of the base sheet 21. The first narrow part 3 3 between 3 A and 2 3 B and the narrow part 3 4 of bamboo 2 can prevent the menstrual blood of the base sheet 21 from directly contacting the skin. In addition, since the outermost surface of the sanitary napkin 1 on the skin side has the whitened surface sheet 22, the color of menstrual blood absorbed by the liquid-absorbing layer 4 can be masked by the surface sheet 22. The color of menstrual blood cannot be visually observed during use, so a hygienic appearance can be maintained. The sanitary napkin 1 that performs this function is more effective when the wearer has the following actions. When the wearer wearing the sanitary napkin 1 is in a sitting position, the amount of menstrual blood excretion is small because the vaginal opening is compressed. At this time, the first wide portion 31 constituting the raised portion 2 3 A and the second wide portion 32 constituting the raised portion 23B are deformed by the pressure of the inter-strand portion, so that the base sheet 21 overlaps. Therefore, even if the menstrual blood absorbed by the liquid absorbing layer 4 permeates through the liquid perforation holes 21A of the base sheet due to pressure, it can be blocked by the above-mentioned wide portions 3 1, 3 2 and the menstrual blood cannot easily contact the wearer's Skin, so it can have a more comfortable wearing touch. When the wearer suddenly stands from the sitting position described above, the pressure at the vaginal opening is not seen, and a large amount of menstrual blood quickly flows to the skin-side surface of the sanitary napkin 1. At this time, since the pressure on the sanitary napkin 1 is also reduced, as shown in FIG. 4A, each of the raised portions 2 3 will be from the base-22- (20) (20) M270791 sheet 2 1 Stand up to the skin side, and let the menstrual blood flow into the side openings 3 5 a, 3 5 b of the bulge 2 3 A and the side openings 3 7 a, 3 7 b of the bulge 2 3 B, and expose to the bottom through The base sheet 21 of the opening portion 36 and the bottom opening portion 38 is quickly absorbed by the liquid absorbing layer 4. In the embodiment shown in FIG. 4A, since the raised portion 23 A has front and rear opening portions 3 9 a 'so it flows in the longitudinal direction' and flows into the menstrual blood between the raised portion 2 3 A and the raised portion 2 3 A '. The base sheet 21 will pass through the front and rear openings 3 9 a. The same applies to the front and rear openings 39 b formed in the raised portion 2 3 B and the raised portion 2 3 B. Therefore, the menstrual blood can be prevented from spreading in the vertical and horizontal directions, and can be quickly absorbed by the liquid absorbing layer 4. Fig. 5A is a perspective view of a modification of the first embodiment. The surface structure 2 OA of the sanitary napkin 1 A shown in FIG. 5A has a surface sheet 22 A formed of the same resin film as the first embodiment, and the surface sheet 22A also has a large number Of the liquid through the hole 2 2 a. The opening area of each liquid permeation hole 22a is 0. 2 ~ 10. The opening area ratio of 0mm2 'is about 1 to 25%, and the liquid permeation function of the surface sheet 22A itself is lower than that of the base sheet 21. The so-called liquid permeation function in this specification refers to the artificial operation of the permeation sheet of the base sheet 21 when the same amount of menstrual blood flows to the skin-side surfaces of the base sheet 21 and the surface sheet 22A at the same speed under the same conditions The flow of menstrual blood (per unit area, and the permeation amount of artificial menstrual blood per unit area) is larger than the surface sheet 22A. Furthermore, when the base sheet 21 and the surface sheet 22A are both the same thickness -23- (21) (21) M270791 degrees and the same resin film, and under the same conditions such as hydrophilic treatment, the opening of the liquid permeation hole The one with a larger pore area and the higher pore area ratio has better liquid permeability. However, the liquid permeation function is not absolutely proportional to the opening area and area ratio of the liquid permeation hole, but also because of the hydrophilicity or water repellency of the resin film, the thickness of the resin film, or the liquid permeation hole 2 1 a, 2 2 The shape of a varies. When the base sheet 21 and the surface sheet 22A are not the same resin film or the same thickness, and the shapes of the liquid perforation holes 2 1 a, 2 2 a are not the same, it is best to use the liquid permeability function determined by the artificial menstrual blood described above. It is set so that the base sheet 21 is smaller than the surface sheet. Preferably, the flow of artificial menstrual blood through the base sheet 22 is 1 to the flow of the surface sheet 2 2 A.  5 times or more 'is more preferably 2 times or more. The above artificial menstrual blood line is 1. In 4 liters of ion-exchanged water, 300 g of glycerin, 30 g of carboxymethylcellulose · sodium, and 40 g of sodium chloride are added, and if necessary, red pigment can be added. In the surface structure 20A shown in FIG. 5A, the surface sheet 22A is provided with raised portions 2 3 D formed at a certain interval in the longitudinal direction (Y direction), and also in the same direction in the longitudinal direction. The raised portion 23E formed by the pitch. The bulge 23D is the same shape as the bulge 2 3 A shown in FIG. 4A, and the shape of the bulge 2 3E is the same as that of the bulge 2 3B shown in FIG. 4A. This difference is that, compared with the ridges 23A and 23B shown in FIG. 4A, the front and rear openings 39a and 39b are provided. Although the ridges 23D and 23E shown in FIG. 5A do not have the front and rear openings 3 9 a, 3 9 b, but on the surface where the ridges 2 3 D and 2 3 E are formed are thin -24- (22) M270791 sheet 22A, which has a large number of liquid transmission holes 22a. The surface sheet 22A of the raised portions 23D and 23E of the surface structure 20A shown in FIG. 5 has liquid 3 menstrual blood which is unlikely to remain in the raised portions 2 3 D and 2 3 E. In each of the above embodiments, the surface sheet portions 2 3 A, 2 3 B, 2 3 D, 2 3 E have side openings 3 7a, 3 7b, so menstrual blood can pass through the side openings to the base sheet 2 1. Therefore, if the base sheet has a structure that has the effect of flowing to the liquid absorbing layer 4, it has excellent liquid permeability and can effectively prevent the liquid from dripping. In order to enhance the prevention of the liquid return of the base sheet 21, FIG. 5B (No. 5 The cross-sectional expansion of the BB line in FIG. A: Each liquid transmission hole 2 1 a is designed as a tapered hole that gradually becomes smaller as it accumulates toward the liquid, and a valve 2 1 b protruding at the lower end is formed. Or, It is also possible to improve the effect of applying a water repellent treatment to the base sheet 2 1 by setting the minimum area ratio of the liquid perforation hole 2 1 a in the optimal range. In addition, the liquid permeation station with the valve 2 1 b ascended Here, the color of the menstrual blood absorbed by the liquid absorbing layer 4 is evaluated as follows. The so-called prevention of the liquid of the base sheet 21 is as follows. Let the pulp having a square shape (100x100mm) and 100g / m2 attract A sample of 5 grams of artificial menstrual blood was placed on the sheet sample, and filter paper was placed on the sheet sample. Because the ridge I via hole 22a was formed, the ridge portions 35a, 35b of 2 2, 2 A were quickly and partly delivered. It can prevent the liquid from returning to the surface structure. FIG,) as shown, the layer 4 t, ^ towards the opening surface area of the liquid absorbing layer having an opening 4 of a range, or by preventing backflow of liquid ^ holes 2 1 a, f may be mentioned masking effect. The effect of reflow can be based on the weight per unit area. Place a thin layer on it and then place it on the bottom surface. -25- (23) (23) M270791 A square with a shape of 100x100mm and a weight of 5kg, apply about 4. At a pressure of 9 kPa, at this time, the less the amount of artificial menstrual blood transferred to the filter paper (the diffusion area of artificial menstrual blood on the filter paper), the better the effect of preventing the liquid from flowing back. In the embodiment shown in Fig. 5A, the combination of the surface sheet 22A and the base sheet 21 having the above-mentioned significant effect of preventing liquid reflux can be described as follows. (1) Neither the liquid passage hole 22a of the surface sheet 22A nor the liquid passage hole 2 1 a of the base sheet 21 has a valve 2 1 b. At this time, in order to make the liquid permeation function of the base sheet 21 higher than the liquid permeation function of the surface sheet 22A, it is preferable to set the opening area and opening area ratio of the liquid perforation holes 2a, 22a. This is a use form which is suitable for a female 'wearing the sanitary napkin, which is difficult to apply pressure to the skin-side surface of the sanitary napkin when there is a lot of work while standing. (2) The liquid transmission hole 22a of the surface sheet 22A and the liquid transmission hole 2 1 a of the base sheet 21 both have a valve 2 1 b. At this time, in order to make the liquid permeation function of the base sheet 2 1 higher than the liquid permeation function of the surface sheet 22A, it is better to set the opening area and opening area ratio of the liquid perforation holes 21a, 22a, and prevent the surface sheet 22A The effect of liquid reflux is better than that of the base sheet 21. This is a use form suitable for a woman 'who wears the sanitary napkin to work when she sits down and is likely to apply pressure to the skin-side surface of the sanitary napkin. (3) The liquid transmission hole 22a of the surface sheet 22A does not have the valve 21a, and the liquid transmission hole 2 1a of the base sheet 21 has a combination of a valve 2 1b. At this time -26- (24) (24) M270791 'For the base sheet 2 1 to have better liquid permeability than surface sheet 2 2 A', it is better to set the liquid permeation holes 2 1 a, 2 2 a Opening area and opening area ratio. In addition, the surface sheet 2 2 A and the base sheet 21 may have the same effect of preventing liquid backflow, or the surface sheet 22A may be more effective in preventing liquid backflow than the base sheet 21. This is suitable for women who wear the sanitary napkin. The work of standing and sitting is performed alternately, etc., and it is required to comply with the function form in the middle of (1) and (2) above. In each of the above embodiments, the width dimension in the X direction of the width portions 31, 32 of the surface sheets 22, 22A forming the raised portions 23 is 0. 5 to 10 mm, preferably 1 to 5 mm. In addition, the length dimension of the raised portion 23 in the longitudinal direction (Y direction) is 3 to 20 mm, and preferably 8 to 15 mm. When the size is within the above range, the vaginal opening does not feel uncomfortable, and even if the raised portion collapses due to body pressure, it can easily return to a convex shape. The interval between the ridges 23 parallel to each other in the horizontal direction is 0 to 10 mm, preferably 0 to 5 mm. The opening area of each of the side openings 3 5 a, 3 5 b, 3 7 a, and 3 7 b is 3 to 100 mm 2, preferably 10 to 50 mm 2. If it is below the range, 'menstrual blood will not be easily guided to the inside of the bulge portion 23', and if it exceeds the range, it will penetrate into the surface of the base sheet 21, and the menstrual blood will easily adhere to the skin. The number of the raised portions 23 is preferably 50 to 800 per 100 cm2, and more preferably 100 to 500. If it is below the range ’-27- (25) (25) M270791, the raised part has a low function of preventing menstrual blood from spreading to the surroundings’, so menstrual blood is likely to spread on the surface of the sanitary napkin. If it exceeds the above range, the number of the lateral openings 35a, 35b, 37a, 37b is too large, and the menstrual blood that penetrates the surface of the base sheet 21 becomes easy to adhere to the skin. In the above-mentioned embodiment, although the respective raised portions 23 are the same size, the sizes of the raised portions may be different depending on the location, or the raised portions having different areas viewed from above may be mixed with each other. presence. In addition, the surface 的 of the raised portion located at the longitudinal centerline 0_0 may be large, but as the distance from the longitudinal centerline 0-0 increases, the area of the raised portion gradually decreases. Fig. 3 shows a surface structure 20B of a sanitary napkin 1B as a modification of the first embodiment. In this surface structure 20B, the raised portions 23F and 23G are similar to the raised portions 2 3 A and the raised portions 2 3 B, and are arranged at a half pitch in the longitudinal direction (Y direction). The surface sheet 22 (or 22 A) forming the ridges 23F and 23G is inclined in the lateral direction (X direction). The bulge 2 3 F '2 3 G shown in FIG. 3 is oriented toward the longitudinal centerline 0-0, and the side openings 3 5 b and 3 7 b are large openings and are oriented toward physiological hygiene. The edge of cotton has side openings 3 5 a and 3 7 a with small openings. Therefore, menstrual blood does not easily spread to the left and right edges of the sanitary napkin on the skin-side surface of the sanitary napkin 1B. Figs. 7A and B are perspective views of the surface structure 120 of the sanitary napkin according to the second embodiment of the present invention and the manufacturing steps thereof. -28- (26) (26) M270791 In the second embodiment, as shown in Fig. 7A, the surface sheet 22 (or 22A) forming the slits 24, 25, 26, 27 is used. The method for forming the slits of the surface sheet 22 is the same as that of the first embodiment shown in Fig. 6A. In the second embodiment, the surface sheet 22 forming the slits 24, 25, 26, 27 has a pulling force Fx in the lateral direction (X direction). Due to the pulling force Fx, the surface sheet 22 is separated in the slits 24, 25, 26, 27 and expands in the X direction. Finally, a contraction force in the longitudinal direction (Y direction) is generated on the surface sheet 22 fy. Once the contraction force fy in the longitudinal direction starts to act, and the surface sheet 22 contracts in the longitudinal direction, the first wide portion 31 sandwiched by the slits 24 and 25 will bulge and deform upward to form a raised portion 123A. Similarly, the second narrow portion 33 and the second narrow portion 34 surrounded by the narrow slits 26 and 27 will face the lateral direction (X direction) when the surface sheet is pulled in the lateral direction. The narrow portions 3 3 and 3 4 are deformed to perform the function of connecting the ridges 123A and the ridges 123B. In a state where the above-mentioned surface sheet 22 is given the above-mentioned pulling force Fx, the portions other than the raised portions 123A and 123B are joined to the base sheet 21. Therefore, on both sides of the raised portion 1 2 3 A, the side openings 1 3 5 a and 1 3 5 b of the base sheet 21 will open, and on both sides of the raised portion 1 23B, The side openings 13 7a, 13 7 b through the base sheet 21 are formed. The surface structure 1 2 0 is formed only by applying a horizontal pulling force Fx to the surface sheet 22 that is inserted into the slit. So its manufacturing steps -29- (27) (27) M270791 are extremely simple. In addition, the menstrual blood flowing to the surface structure 120 can flow into the side openings 135a, 135b, 137a, and 137b, and can quickly move to the liquid-absorbing layer 4 through the base sheet 21. When the surface sheet 22 is given a pulling force Fx in the lateral direction, the surface sheet 22 may be gradually stretched in the X direction by a roller or the like when the surface sheet 22 is fed out in the Y direction. Alternatively, the base sheet 21 and the surface sheet 22 shown in FIG. 7A are laminated on the liquid absorbing layer 4, and then as shown in FIG. 1, the longitudinal compression grooves Π 5 1 1 are formed so that The pulling force Fx pulled in the lateral direction acts on the surface sheet 22 to form raised portions 123 A, 123B. At this time, in the area enclosed by the longitudinal compression groove 11 and the longitudinal compression groove 11, if the bulkiness of a part of the sanitary napkin is made higher in advance, the longitudinal compression groove 1 1, 1 1 can be used. Formation, and the surface sheet 22 can easily act on the pulling force Fx in the lateral direction. Fig. 8 is a perspective view showing the manufacturing steps of the surface structure according to the third embodiment of the present invention. In the third embodiment, as shown in Fig. 8A, a plurality of slits 28 continuously extending in the longitudinal direction of the surface sheet 22 (or 22A) are formed. The slits 28 are parallel to each other and spaced a certain distance W3 in the lateral direction. The slits 28 may be formed in a horizontal direction at different intervals from each other. In Fig. 8B, a forming die 140 molded into the surface sheet 22 shown in Fig. 8A is shown. The forming die 140 is provided with a forming die 1 4 1 and a punching die 1 4 3 which are arranged to face each other. In addition, the die 1 4 1 has a plurality of forming protrusions 1 42. Each of the formed convex portions 142 has the same shape, and is continuous in the direction of -30- (28) (28) M270791 (X direction), and is formed at a certain interval in the longitudinal direction (Y direction). The upper surface 1 42a of each of the forming convex portions 1 42 is formed by being bent in the Υ direction. In addition, between the forming protrusions 1 42 and the forming protrusions 1 42 juxtaposed in the longitudinal direction, a punch 1 43 is provided with a pressing portion 1 4 4 fitted with a minimum clearance, and the pressing portion 1 4 The 4 series is formed continuously in the horizontal direction (X direction). The above-mentioned surface sheet 22 shown in FIG. 8A is sandwiched between the die 141 and the die 143, and the normal sheet 141 and the die 143 are used to press the surface sheet 22 at normal temperature, or the surface sheet is formed. The resin film of 22 is at a temperature below the softening point of the resin film, and in a heated state, the die 141 and the die 143 are pressed. Because of this step, the portion of the surface sheet 22 surrounded by the slits 28 and 28 will be raised to form a raised portion. A surface structure is formed by joining the raised portion of the surface sheet 22 and the middle portion of the raised portion (the portion pressed by the pressing portion) to the surface of the base sheet 21. This surface structure has bulges having a shape as shown in Fig. 4A, which are arranged at a certain pitch in the vertical direction and are arranged side by side in the horizontal direction. Figs. 9A and 9B show the surface structure 220 of the sanitary napkin used in the fourth embodiment of the present invention, and its manufacturing steps. In the fourth embodiment, as shown in FIG. 9A, a plurality of strip-shaped sheets 1 2 2 are used to cut the surface sheet 22 (or 22A) in a predetermined width dimension W4. Send the strip sheet 122 and the base sheet 21 in the Y direction. -31-(29) (29) M270791 At this time, the feeding speed V 1 of the strip sheet 1 22 can be set to be higher than that of the base sheet 21. Speed V2 is fast. Then, as shown in Fig. 9, the band-shaped sheet 1 22 and the base sheet 21 are bonded to each other by using the bonding portions 22 1 spaced apart from each other in the longitudinal direction. Because of the difference in the above-mentioned conveying speed, the strip-shaped sheet 122 bulges upwardly between the joining portion 221 and the joining portion 221 at a pitch in the longitudinal direction, thereby forming raised portions 223 A and 223 B. In the example shown in Fig. 4B, the ridges 223 A and 223 B are oriented in the longitudinal direction and are formed with a arranging period spaced at half intervals from each other. In addition, in the embodiment shown in FIG. 9, the strip-shaped sheet 1 22 does not protrude with a substantial interval in the horizontal direction. Since the ridges 2 2 3 A and 2 2 3 B are provided, the sheet is formed at the base. On the skin-side surface of 21, there are raised portions 2 2 3 A and 2 2 3 B having substantially no pitch. Therefore, the band-like sheet 1 2 2 can cover menstrual blood flowing back from the liquid-absorbing layer 4 to the surface of the base sheet 21, so that the menstrual blood can be prevented from adhering to the skin and the menstrual blood absorbed by the liquid-absorbing layer 4 can be exerted Masking effect. The manufacturing steps of the surface structure 220 shown in FIG. 9B can also be implemented by the following method. As the base sheet 21, a person having stretchability in the longitudinal direction (Y direction) is used. For example, when the base sheet 21 is corrugated, non-woven fabrics such as a breathable nonwoven fabric having liquid permeability and elasticity may be partially adhered to the clothing side surface of the base sheet 21. In a state where the elastic base sheet 21 is stretched in the longitudinal direction, the band-shaped sheet 1 2 2 is bonded to the skin-32- (30) M270791 side surface at a distance in the longitudinal direction to form After the above-mentioned joint portion 22 1 °, the pulling force of the base sheet 21 is released, and the base sheet 21 is expanded and contracted in the longitudinal direction to form the raised portions 223A and 223B as shown in FIG. 9B. In addition, from the first embodiment to the third embodiment described above and the modifications thereof, even in the embodiments described later, similarly, the base sheet 21 can be contracted by using the pulling force given to the base sheet 21. 'Come to form a bulge. Figures 10, A, B, and C are partial perspective views of other embodiments of the surface structure manufactured by using the manufacturing steps shown in Figure 9; The surface structure 2 20A, and the base sheet 321 are formed of a liquid-permeable non-woven fabric. The non-woven fabric is a non-crossover type non-woven fabric formed by using hydrophilic fibers such as pulp or rayon as the main body, or a hot-air-blown composite heat-synthetic composite synthetic fiber with hot air, and an air-permeable non-woven fabric, Alternatively, a plurality of liquid-permeating holes and the like are formed on a spunbond nonwoven fabric formed of a synthetic resin fiber subjected to hydrophilic treatment. Alternatively, as in the above-mentioned embodiments, the base sheet 2 1 of the resin film having a large number of liquid permeation holes can also be used to manufacture the band-shaped sheet 1 2 2 in the longitudinal direction by using the same manufacturing steps as shown in FIG. 9. Partially bonded to the base sheet 3 2 1 in the direction at a distance 'to form a bonding part 2 2 3 A, and between the bonding part 2 2 1 and the bonding part 2 2 1, the band-shaped sheet 1 2 2 faces upward The bulge can form bulges 2 2 3 a, 223B. -33- (31) (31) M270791 In the surface structure 220A shown in FIG. 10A, although the ridges 223 A and 223 B are arranged at intervals in the horizontal direction, the ridges 22 3 A A gap between 22 3 B is provided with a coating resin film 124, and the coating resin film 124 is attached to the skin-side surface of the base sheet 321. The coating resin film 124 is substantially liquid-impermeable like the surface sheet 22, or has a liquid-permeation hole 22a with a small opening area like the surface sheet 22A, and the liquid-permeation function is inferior to that of the base sheet 321. By. In any case, the coated resin film 1 24 contains an inorganic filler and is whitened. When menstrual blood flows to the surface structure 22 0A, the menstrual blood flows into the interior of the ridges 223 A and 22 3 B and passes through the base sheet 321 and is absorbed by the liquid-absorbing layer. And because the surface of the base sheet 321 is covered with the raised portions 22 3 A, 223 B and the coating resin film 124, the menstrual blood absorbed by the liquid absorbing layer 4 is not easily attached to the skin, and can be covered by the raised portion 223 A , 223 B and the color of menstrual blood of the resin film 124. Fig. 10B shows a surface structure 220B as a modification of the fifth embodiment. In this surface structure 220B, the base sheet 321 is formed of an assembly of strip-shaped films, and each strip-shaped film has a liquid-permeation hole. In addition, the band-shaped sheet 1 22 is partially bonded to the skin-side surface of the base sheet 3 2 1 to form raised portions 223 A and 223 B.

The raised portions 22 3 A and 223 B are arranged at intervals in the horizontal direction (X direction). Preferably, the base sheet 3 2 1 A is formed by laminating one or two band-shaped sheets directly below the bulge 2 2 3 A -34-(32) (32) M270791, 223B. Between the ridges 223A and 223B, two or more sheets are laminated, that is, the number of layups is more than directly below the ridges 223A and 223B. In this way, the base sheet 321 A can be formed directly below the raised portions 22 3 A, 223 B, and the liquid is easily transmitted, and between the raised portions 22 3 A, 22 3 B, the liquid permeability is poor. Make up. In this surface structure 220B, the menstrual blood flowing therethrough migrates to the inside of the ridges 223 A, 223 B, and passes through the liquid permeation holes of the strip-shaped thin sheets with a small number of laminations, and flows to the liquid absorbing layer 4. And because the skin-side surface of the base sheet 3 2 1 A is covered by the raised portions 223 A, 223 B, the portion covered by the raised portions 223 A, 223 B has poor liquid permeability, so Since the menstrual blood absorbed by the liquid-absorbing layer 4 cannot easily penetrate to the outermost surface, it is difficult to contact the skin. In addition, the color of menstrual blood absorbed by the liquid absorbing layer 4 may be masked. Fig. 10C is a partial perspective view of a surface structure 220C according to a modification of the fifth embodiment. The base sheet 421 of the surface structure 220C has a skin-side surface made of a resin film 422 having a large number of liquid-permeation holes, and a garment-side surface formed by superimposing a synthetic resin fiber that has been subjected to hydrophilic treatment. Non-woven 423. The band-like sheet 122 is partially bonded to the base sheet 421 to form raised portions 223A, 223B. The base sheet 421 is formed at a position directly below the raised portions 22 3 A, 223 B, and a recessed portion 424 is formed. The ridges 22 3 A, 22 3 B are arranged at intervals in the horizontal direction (X direction), and between the ridges -35- (33) (33) M270791 223 A, 223 B, the base sheet 4 2 1 does not form a recess. When menstrual blood flows to the surface structure 220C, menstrual blood flows into the bulges 223A, 223B from the side openings that open on the sides of the bulges 2 23 A, 22 3 B, and the menstrual blood reaches the recesses 424 After the inside, it will be absorbed by the liquid absorption layer 4 through the liquid transmission hole of the base sheet 4 2 1. Because the recessed portion 424 can store liquid, even if a large amount of menstrual blood flows into it in a short time, the menstrual blood can be temporarily stored in The recessed portion 424 prevents the menstrual blood from spreading in the horizontal direction. In addition, since the belt-shaped sheet 122 forming the raised portions 223A and 223B is provided above the recessed portion 4 2 4, menstrual blood in the recessed portion 424 is not easily attached to the skin. Furthermore, in each of the above-mentioned embodiments, each of the raised portions can be raised by making the sanitary napkin into a curved shape, or the height of the raised portion can be increased. When a sanitary napkin is placed in the chin, since the skin-side surface of the sanitary napkin is deformed like a depression, a raised portion may be formed at the deformed @ portion, or the height of the raised portion may be increased. Alternatively, a leak-proof wall capable of exerting elastic contraction force in the direction of ^ is provided on the skin-side surface of the physiological sanitary napkin, and the recess is deformed by the elastic contraction force of the skin-side surface @ # Or increase the height of the bulge. In other words, the deformed part of the physiological sanitary napkin has a larger bulge height, so the menstrual blood can be prevented from spreading in this part, and the effect of preventing menstrual blood leakage can be improved. Figure Π is a perspective view of the surface structure 5 2 ^ -36- (34) (34) M270791 of the sixth embodiment of the present creation. The surface structure 520 is used as a surface sheet 22A having a liquid transmission hole 22a shown in Fig. 5A or B. The sheet 22A does not have a slit on the surface, and is fed to the forming die 40 shown in FIG. 6B, and is pressed by the forming die 41 and the punch 43 at normal temperature. Alternatively, it may be superheated and pressed at a temperature below the softening point of the resin film. Although the raised portions 5 2 3 A and 5 2 3 B can be formed on the surface sheet 2 2 A by using the forming protrusions 4 2 of the die 41, the liquid transmission holes 22a of the surface sheet 2 2 A are present at this time. It is stretched, or because the liquid perforation hole 22a has been stretched, the surface sheet 22A will be broken around it, and the bulging portion 5 2 3 A will form a side opening 5 that opens in two directions in the X direction. 3 5 a, and a side opening 5 3 7 a is formed in the raised portion 5 2 3 B. In this embodiment, the areas of the openings of the side openings 5 3 5 a and 5 3 7 are approximately smaller than those in the above embodiments. Therefore, menstrual blood that migrates to the inside of the ridges 5 2 3 A and 5 2 3 B does not easily flow out and stick to the skin, and can pass through the liquid permeation holes 2 1 a of the base sheet 21 located below the ridges 523A and 523B. , And easily absorbed by the liquid absorption layer 4. This creation is not limited to the above-mentioned embodiments, and may have various changes. Figures 12A, B, and C are perspective views of other embodiments. The surface structure 5 2 0 A shown in FIG. 12A is formed by pressing a surface sheet 22A having a large number of liquid permeation holes 22a with a forming die, thereby forming a cuboid-shaped raised portion 5 2 3 C, 5 2 3 D 'At this time' The above-mentioned liquid perforation hole 22a is unfolded, or the tree around the liquid perforation hole 22a -37- (35) (35) M270791 The lipid film will break to form a side opening 5 3 5 a, 5 3 7 a. The ridges 5 2 3 C and 5 2 3 D are arranged side by side in the horizontal direction (X direction). Furthermore, in the embodiment shown in Fig. 4 or Fig. 5, each raised portion may have a cube shape as shown in Fig. 12A. In the surface structure body 52 0B shown in FIG. 12B, a dome-shaped raised portion 5 2 3 E is formed by pressing a surface sheet 22A having a large number of liquid transmission holes 22a with a forming die. The liquid permeation hole 22a is expanded, or the resin film around the liquid permeation hole 22a is cracked, and a plurality of lateral openings 5 3 6 are formed around the dot-shaped base. As shown in Figs. 12A and 12B, the shape of the raised portion can be arbitrarily changed. In addition, since these surface structures 52 OA and 520B are covered with the base sheet 21 other than the raised portion, menstrual blood leaked from the base sheet 21 is not easily attached to the skin and is absorbed by the liquid-absorbing layer 4 The color of the absorbed menstrual blood may be masked by the surface sheet 22A. The surface structure 620 shown in FIG. 12C is a modified example of the embodiment shown in FIGS. 8, 9 and 10A, B, and C. In this surface structure 620, the edges of both sides of the strip-shaped sheet 1 22A forming the raised portions 223C, 223C are not straight, and the serrated portions 123 are formed. In this creation, in each of the above embodiments, the base sheet and the surface sheet may be formed of only a resin film, or the base sheet and the surface sheet may be formed of a resin film facing the skin-side surface and the garment-side surface. It is formed by laminated hydrophilic nonwoven fabric. [Brief description of the drawings] -38- (36) M270791 The first figure is a perspective view showing the garment-side surface of the sanitary cotton of the first embodiment of the present invention facing upward. Fig. 2 is a half cross-sectional view of the sanitary napkin shown in Fig. 1 cut by the line Π-11. Fig. 3 is a sectional view showing a modified example of the aforementioned sanitary napkin. Fig. 4A is an exploded perspective view showing the surface structure of the sanitary napkin of the first embodiment, and B is an explanatory view showing the shapes of the side openings and the bottom openings of the surface structure. Fig. 5A is an exploded perspective view showing a modified example of the surface structure of the sanitary napkin according to the first embodiment, and B is an enlarged cross-sectional view taken along the line B-B of A. Figs. 6A and B are perspective views showing an example of a method of manufacturing a surface structure according to the first embodiment of the present invention. Figs. 7A and B are perspective views showing a surface structure and a manufacturing process for explaining the second embodiment of the present invention. Figs. 8A and 8B are perspective views showing a method of manufacturing a surface structure according to a third embodiment of the present invention. Figs. 9A and 9B are perspective views showing a surface structure and a manufacturing process of the fourth embodiment of the present invention. Fig. 10A, B, and C are partial perspective views showing a surface structure and a modified example of the fifth embodiment of the present invention. Fig. 11 is a perspective view showing a surface structure according to a sixth embodiment of the present invention. -39- (37) M270791 Fig. 12 A, B, and C are perspective views showing a surface structure as a modification of each embodiment. [Description of Symbols of Main Components] 1, ： I A .......... ....... back sheet 4 liquid absorbing layer 5 .. 6 " 11 12 13

14 20 ， 20A ， 20B 2 1 ·· 2 1a

22, 22A, 22B 22a .............. 23, 23A, 23B ... Side flakes ... Liquid absorption area ... Longitudinal compression groove. ... Front horizontal compression groove ... Back rear horizontal compression groove ... Central absorption area ... Surface structure ... Base sheet ... Liquid perforation hole ... Surface sheet .... Liquid perforation holes, 23D, 23E, 23F, 23G ........ Swelled portions 24, 25, 26, 27, 2 8 ... Slit 3 1 ......... ......... 1st width 32 ......... 2nd width Part 3 3 ............. 1st narrow part-40- (38) M270791 34 ........ ...... 2nd narrow section 3 5a, 35b, 37a, 37b ......... side opening 36, 3 8 ........ ............... Bottom openings 39a, 39b .................. Front and rear openings 40 ............ Die 4 1 ............ Shaped die 4 3 ............ Punching die 4 5 ............ Menstrual blood 120. · · ...... Surface structure 122 ... ........ Strips 1 23 A, 1 23B ............... Bulge 124 .. ...... Coated resin films 13 5a, 135b, 13 7a, 1 3 7b ... ......... side openings 220, 220A ........... Surface structure 22 1 ............... Joint portions 223 A, 223B .......... Elevated portions 5 2 0, 5 2 0A, 5 20B, 620 ... ......... Surface structures 5 2 3 A, 5 2 3 B, 523C, 5 2 3 D, 523E ................ Bulge 5 3 5 a, 53 7a, 5 3 6 ... side opening

-41-

Claims (1)

(1) M270791 IX. Patent application scope 1. A sanitary napkin for sanitary napkins, which is directed to a sanitary napkin having a liquid absorption layer and a surface structure covering the skin side surface of the liquid absorption layer, which is characterized by: The surface structure system includes a liquid-permeable base sheet covering the skin-side surface of the liquid-absorbing layer, and a surface sheet positioned on the skin-side surface of the base sheet, and at least the skin-side surface of the surface sheet is made of a resin film. Formed; and because of the surface sheet, the base sheet bulges further from the skin-side surface toward the skin side to form a majority of bulges, and a side of the bulge is formed with a side that can pass to the base sheet Openings. 2. The sanitary napkin according to item 1 of the scope of patent application, wherein the surface sheet is thinly spaced in the horizontal direction and spaced apart in the horizontal direction, and is arranged in the horizontal and vertical directions. The majority are formed at intervals, and in the horizontal direction, the raised portion is formed because of the portion of the surface sheet located between the adjacent thin slits and the thin slits, and the surface sheet and the base sheet are tied to each other. The portions other than the bulges are joined to each other. 3. The sanitary napkin according to item 2 of the scope of the patent application, wherein the pitch in the transverse direction of the slit is different depending on the position, and the width portion enclosed by the slit is oriented toward The side of the skin is raised to form a raised portion, and the width is narrower than the width of the wide portion surrounded by the narrow slits, which is located closer to the base than the top of the raised portion -42-(2) (2) The position of the surface of the M270791 sheet. 4. The sanitary napkin according to item 3 of the scope of patent application, wherein the width portion and the width narrow portion are formed alternately in the horizontal direction. 0. If the scope of patent application is item 2, 3 or 4 In the above-mentioned sanitary napkin, the raised portion is formed by deforming a portion surrounded by the slits of the surface sheet toward the skin side. 6. The sanitary napkin according to item 2, 3, or 4 of the scope of the patent application, wherein the surface sheet is expanded in the horizontal direction and is contracted in the longitudinal direction. This place is joined to the base sheet, and the portion sandwiched by the fine seams and the fine seams is raised toward the skin side to form the raised portion. 7. The sanitary napkin according to item 1 of the scope of patent application, wherein the surface sheet is a plurality of strip-shaped sheets separated from each other and continuously extending in the longitudinal direction, and each strip-shaped sheet is in the longitudinal direction The joint portions at intervals are joined to the base sheet, and the portion of the band-shaped sheet between adjacent joint portions is raised from the base sheet to the skin side to form a raised portion. 8. The sanitary napkin according to item 7 of the scope of patent application, wherein the strip-shaped sheet is arranged at intervals in the horizontal direction, and between the adjacent strip-shaped sheets, the base sheet is covered. The surface is covered with a resin film. 9 · The sanitary napkin according to item 7 or 8 of the scope of patent application, wherein the belt-like sheet is deformed toward the skin side to form-43- (3) (3) M270791 The raised portion. 10. The sanitary napkin according to item 2, 3, 4, 7, or 8 of the scope of patent application, wherein the base sheet is shrunk in the longitudinal direction, and the joint between the surface sheet and the base sheet is made. If the distance between them is closer to the longitudinal direction, the surface sheet will bulge from the base sheet to form the bulge. 1 1. The sanitary napkin according to item 2, 3, 4, 7, or 8 of the scope of patent application, wherein when the sanitary napkin is deformed in a concave shape toward the skin-side surface, the surface sheet will be deformed. The base sheet is raised to form the above-mentioned raised portion. 12. The sanitary napkin according to item 1 of the scope of patent application, wherein the resin film forming the surface sheet has openings to expand the openings, or the resin film is formed around the openings. The side opening is formed by cracking. 1 3 · The sanitary napkin according to item 1, 2, 3, 4, 7, or 8 of the scope of patent application, wherein the base sheet is formed of a liquid-pervious sheet having a liquid-permeability higher than that of the surface sheet. . 14. The sanitary napkin according to item 13 of the scope of patent application, wherein at least the skin-side surface of the base sheet is formed of a resin film having a large number of liquid penetration holes. 15. The sanitary napkin according to item 14 of the scope of patent application, wherein the resin film on the skin-side surface of the surface sheet has a liquid-permeation hole, and the liquid-permeation hole of the surface sheet is The opening area ratio is smaller than the opening area ratio of the liquid transmission hole of the base sheet. -44-