JP4127494B2 - Absorbent articles - Google Patents

Description

【０１７６】
表１に示すように、実施例１および参考例１ないし４では、比較例１に比べて、表面シートに拡散した人工経血の幅寸法及び長さ寸法が小さく、また前記吸収性物品の人工経血に対する吸収スピードが速いことがわかった。
【０１７７】
実施例１および参考例１ないし４では、いずれも表面シートとして、撥水性繊維と親水性繊維とが所定の割合で混合されたエアースルー不繊布からなる表面シートＡあるいは表面シートＢを用いている。一方、比較例１では、親水性繊維のみからなるエアースルー不繊布の表面シートＣを使用しているが、この実験から、表面シートとして、撥水性繊維と親水性繊維とが所定の割合で混合された表面シートを用いると、表面シートへの排泄液の拡散を適切に抑制できるとともに、前記排泄液の表面シートを透過するスピードを速めることができるとわかった。
【０１７８】
また実施例１および参考例１ないし３、および比較例１はいずれも中央吸収領域の表面シート３３に液透過孔１５が設けられているのに対し、参考例４には、前記液透過孔１５が設けられていないが、参考例４の評価結果から液透過孔１５を設けなくても、前記表面シート３３を親水性繊維と撥水性繊維とを混合して形成することで、比較例１に比べて、表面シートへの排泄液の拡散を適切に抑制できるとともに、前記排泄液の表面シートを透過するスピードを速めることができるとわかった。
【０１７９】
【発明の効果】
以上のように本発明では、表面シート上に与えられた排泄液を、迅速に引き込んで透過させることができるとともに、表面シートでの液の拡散を防止でき、横漏れを有効に防止できる。
【０１８０】
また、本発明の吸収性物品は、膣口から排出される排泄液が拡散することなくスポット的に吸収されるため、排泄液が吸収性物品の表面で拡散して、これが股間部での膣口以外の部分に再付着するような現象を防止でき、排泄液が身体に再付着することに起因する不快感が生じ難くなる。
【０１８１】
したがって、例えば、圧着部で挟まれた中央吸収領域が突状に形成されてその部分が膣口などに密着するタイプに適用した場合に、膣口に密着している前記中央吸収領域において排泄液がスポット的に吸収され、密着部の周囲に排泄液が拡散しにくくなり、密着型の利点を生かすことができるようになる。
【図面の簡単な説明】
【図１】本発明の吸収性物品の第１の実施の形態の生理用ナプキンを示す斜視図、
【図２】図１に示す生理用ナプキンの平面図、
【図３】図１と図２に示す生理用ナプキンの横方向中心線での断面図、
【図４】（Ａ）は図３に示す断面図の中央吸収領域の拡大図、（Ｂ）は補助吸収領域の拡大図、
【図５】（Ａ）は表面シートを構成する繊維構造の基本構造を模式図的に示した部分拡大斜視図、（Ｂ）は、（Ａ）をさらに拡大した部分拡大斜視図、
【図６】（Ａ）（Ｂ）は厚み方向に親水性の勾配をもたせた本発明の実施の形態の表面シートの一例を示す断面図、
【図７】生理用ナプキンが身体に着用されたときの変形状態を示す断面図、
【図８】液透過孔の開孔状態を示す拡大平面図、
【図９】第２の実施の形態の生理用ナプキンを示す断面図、
【図１０】第３の実施の形態の生理用ナプキンを示す断面図、
【図１１】第４の実施の形態の生理用ナプキンを示す断面図、
【図１２】第５の実施の形態の生理用ナプキンを示す断面図、
【図１３】実施例１の吸収性物品の層構造を説明するための断面図、
【図１４】実施例２、３、５及び比較例１の吸収性物品の層構造を説明するための断面図、
【図１５】実施例４の吸収性物品の層構造を説明するための断面図、
【図１６】実施例４の吸収性物品の液透過孔とエンボスの形成パターンを示す部分平面図、
【図１７】吸収試験方法の説明図、
【符号の説明】
１、１Ａ、１Ｂ、１Ｃ、１Ｄ生理用ナプキン
２、３０ 裏面シート
３ 下層吸収体
４ 上層吸収体
５、３２ 液案内層
６、６Ａ、６Ｂ、３３ 表面シート
９、９０、１９０ 圧着部
１１ 中央吸収領域
１５ 液透過孔
２０ 親水性繊維
２１ 撥水性繊維
２２ 空隙
３５ 第１の液案内層
３６ 第２の液案内層
３７ エンボス[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an absorbent article for absorbing menstrual blood or vaginal discharge, urine absorption, or urine absorption excreted by a pet, and in particular, can pass excretory fluid given to a surface sheet and suppress its diffusion. It is related with the absorbent article suitable for absorption of the said menstrual blood, a cage, etc.
[0002]
[Prior art and its problems]
The general structure of absorbent articles such as sanitary napkins that absorb menstrual blood excreted from female genitals, panty liners that absorb cages, etc., is that the surface of the absorbent layer is covered with a liquid-permeable surface sheet. It has been broken. The said absorption layer is formed with the nonwoven fabric formed with hydrophilic natural fibers, such as a pulp, or what mixed the superabsorbent polymer (SAP) in the said nonwoven fabric. In addition, the surface sheet is made of a nonwoven fabric formed of hydrophilic chemical fibers subjected to hydrophilic treatment or a nonwoven fabric formed of hydrophilic regenerated cellulose fibers such as rayon and the chemical fibers subjected to hydrophilic treatment. . Or the thing containing hydrophilic natural fibers, such as cotton, exists.
[0003]
In this absorbent article, the liquid applied to the surface of the top sheet is attracted by the hydrophilicity and capillary action of the absorbent layer, passes through the top sheet, and is absorbed and held by the absorbent layer.
[0004]
However, since the surface sheet is formed of chemical fibers, regenerated cellulose fibers, or natural fibers that have been subjected to hydrophilic treatment, and the entire surface and the inside of the surface sheet are hydrophilic, the excretory fluid provided on the surface sheet Not only permeate | transmits the inside of the said surface sheet, but it is easy to spread | diffuse planarly over a wide range along a surface sheet. As a result, the surface sheet retains the excretory fluid in a wide range, and it is easy to give the skin a moist feeling, and the diffusion range of the excretory fluid on the surface is widened, so that the wearer has a visual aversion. There is a worry to give.
[0005]
JP-A-5-115504 discloses a surface material for excretory liquid absorbent articles, and this surface material is formed from the lower side, which is in contact with the absorbent core material, from the hydrophilic fiber layer, The water-repellent fiber layer is laminated in this order, or the hydrophilic fiber layer, the hydrophobic fiber layer, and the water-repellent fiber layer are laminated in this order from the lower side, and the water-repellent fiber is laminated on the skin contact surface. The layer is exposed. A plurality of liquid permeable holes are provided to communicate from the water-repellent fiber layer to the hydrophilic fiber layer, or to an absorbent core provided below the hydrophilic fiber layer.
[0006]
The invention described in the above publication is an improvement of a prior art material using a perforated film as a surface material. In other words, the use of the apertured film as a surface material is inferior in air permeability and has a small effect of suppressing liquid return to the surface side due to the large aperture, and repels the outermost surface of the surface material. By using an aqueous fiber layer, air permeability is ensured, and since the hydrophilic fiber layer is located around the liquid permeation hole, the effect of drawing in the liquid is enhanced. Further, the hydrophilic fiber layer is located around the liquid permeation hole. Therefore, the effect of preventing the excretory liquid absorbed by the absorbent core from returning to the surface side through the liquid permeation hole is enhanced.
[0007]
However, since the outermost surface of the surface material is a water-repellent fiber layer, the liquid permeation function is not significantly different from the surface material of the apertured film, and the surface material itself is present because the water-repellent fiber layer is present in the entire area. However, the liquid permeation function cannot be exhibited. Therefore, it cannot be avoided that liquid residue is generated on the surface of the water-repellent fiber layer, which adheres to the body and tends to give the body a moist feeling. In addition, since the surface material itself does not have a liquid permeation function, in order to quickly guide the excreted liquid that is repeatedly given to the absorbent core material, it is necessary to increase the aperture area and the aperture area ratio of the liquid permeation holes. Therefore, there is a drawback that excretory fluid absorbed by the absorbent core material easily returns to the surface of the surface material when body pressure acts on the surface material.
[0008]
The present invention solves the above-described conventional problems, and has a structure in which the surface sheet itself has a function of allowing liquid to permeate. Further, the diffusion of the liquid in the surface sheet can be suppressed, and excretory liquid is received within a limited range. The object is to provide an absorbent article that can be immediately absorbed.
[0009]
[Means for Solving the Problems]
  The present invention provides an absorbent article in which an intermediate layer is provided between a back sheet and a liquid-permeable top sheet.
  At least a part of the surface sheet is a liquid-permeable material in which hydrophilic fibers and water-repellent fibers are mixed.Air throughFormed with non-woven fabricIs,
  The top sheet has a first surface facing the body and a second surface facing the intermediate layer, and the water repellent fiber occupancy rate on the first surface is the water repellency on the second surface. Formed higher than the fiber occupancy,
  The water-repellent fiber is one or both of a fiber having a surface coated with a water-repellent oil and a synthetic fiber having a water-repellent oil mixed in the fiber.
[0010]
  The non-woven fabric forming the surface sheet has a three-dimensionally extending void formed therein, and this void mainly includes a portion where hydrophilic fibers are present in the periphery and a periphery mainly.Water-repellentIt has a part where the characteristic fiber exists. The liquid is mainly transmitted through the voids where the hydrophilic fibers are present, but the transmission is suppressed mainly in the voids where the water-repellent fibers are present. As a result, the liquid permeates in the thickness direction while suppressing diffusion in the surface sheet.
[0011]
When the surface sheet is formed of the nonwoven fabric, the excretory fluid can pass through the surface sheet without diffusing along the surface sheet, and the so-called spot-like absorption function is enhanced. Therefore, since the excretion fluid such as menstrual blood can be locally concentrated and permeated without diffusing in the surface sheet, the portions other than the excretion portion of the wearer's body are less likely to be contaminated with the excretion fluid, and uncomfortable Is less likely to occur, and the trouble of wiping off the excreted liquid adhering to the region other than the excretory part of the body is extremely reduced. In addition, when used as a sanitary napkin or an absorbent sheet, the anxiety that the body may become dirty with the liquid or that the liquid may leak sideways due to less diffusion of the excretory fluid visible on the surface. The wearer rarely remembers.
[0012]
  In order to form countless voids as described above,Air throughThe non-woven fabric is configured such that the fibers are joined to form a skeleton in which each fiber extends in a three-dimensional direction, and voids are formed between the fibers.The
[0013]
  For example, the hydrophilic fiber may be one or more of a synthetic fiber having a surface coated with a hydrophilic oil agent, a synthetic fiber having a hydrophilic oil agent mixed in the fiber, a natural fiber, and a regenerated cellulose fiber.It is.
[0014]
That is, the “hydrophilic fiber” in the present specification is a hydrophobic chemical fiber (synthetic fiber) coated with a hydrophilic oil agent, mixed with kneading or the like, or natural fiber, or Regenerated cellulose fiber is meant. In addition, the water-repellent fiber means a hydrophobic chemical fiber (synthetic fiber) or other fiber coated with a water-repellent oil agent, or a mixture of the synthetic fiber mixed with the water-repellent oil agent. To do.
[0015]
For example, the mass ratio of the hydrophilic fiber to the water-repellent fiber is preferably in the range of 95: 5 to 50:50. If the mass ratio is in the range, the topsheet has liquid permeability, and The liquid can be prevented from diffusing.
[0016]
In addition, when the fineness of the hydrophilic fiber and the water-repellent fiber is in the range of 1.1 dtex to 6.6 dtex, the surroundings are hydrophilic and attract the liquid, and the surroundings suppress the liquid transmission. However, innumerable water-repellent voids can be formed in three dimensions.
[0017]
The basis weight of the surface sheet formed of the nonwoven fabric is 15 g / m.²~ 120g / m²It is preferable to be within the range.
[0019]
  The present inventionIn the structure, there are more voids where the hydrophilic fibers are located on the second surface than on the first surface of the surface sheet, and the surface sheet moves from the first surface to the second surface. A gradient that increases the degree of hydrophilicity can be formed, and liquid transmission in the thickness direction, that is, liquid permeability can be improved.
[0031]
DETAILED DESCRIPTION OF THE INVENTION
  FIG. 1 is a perspective view showing a sanitary napkin 1 as a first embodiment of the absorbent article of the present invention with the surface side that is the skin contact surface side facing up, FIG. 2 is a plan view thereof, and FIG. 1 is a cross-sectional view of the sanitary napkin 1 taken along the lateral center line Ox-Ox as viewed from the direction of arrows III-III, and FIG. 4A is an enlarged cross-sectional view of a part of the cross-sectional view. 4 (B) is an enlarged sectional view further enlarging a part of FIG. 4 (A), and FIG. 5 (A) is a surface sheet.Basic structureFIG. 5B is a partially enlarged perspective view in which a part of the fiber structure constituting the structure is enlarged and schematically shown, FIG. 5B is a partially enlarged perspective view in which FIG. 5A is further enlarged, and FIG. (B) added a hydrophilic gradient to the topsheet.Top sheet of embodiment of the present inventionFIG. 7 is a sectional view showing a deformed state when the sanitary napkin 1 is worn, and FIG. 8 is an enlarged plan view showing an example of a liquid permeable hole formed in the top sheet.
[0032]
The planar shape of the sanitary napkin 1 shown in FIG. 1 is vertically long, the right edge 1a and the left edge 1b extending in the vertical direction are linear, and both the front edge 1c and the rear edge 1d are arc shapes. . As shown in FIG. 2, the sanitary napkin 1 has a bilaterally symmetric shape through a vertical center line Oy-Oy that bisects in the horizontal direction, and through a horizontal center line Ox-Ox that bisects in the vertical direction. The front half and the rear half are symmetrical.
[0033]
As shown in the cross-sectional view of FIG. 3, the sanitary napkin 1 has a liquid-impermeable back sheet 2 positioned on the back side, and a liquid-permeable top sheet 6 on the surface side facing the wearer's skin. Appears. Between the back sheet 2 and the top sheet 6, as an intermediate layer, an absorption layer composed of a lower layer absorber 3 and an upper layer absorber 4, and a liquid guide layer 5 formed in a three-dimensional skeleton structure with hydrophilic fibers. Is provided.
[0034]
The sanitary napkin 1 is formed with a crimping portion 9 surrounding a region having a predetermined area. As shown in FIG. 2, the crimping portion 9 has a constant width dimension Wa and extends continuously in a band shape. The crimping portion 9 is spaced a predetermined distance back and forth from the right and left crimping portions 9a and 9b and the lateral centerline Ox-Ox extending in the vertical direction at a position spaced by a predetermined distance from the vertical centerline Oy-Oy. It has a front crimping part 9c and a rear crimping part 9d formed in the lateral direction at the position. The right crimping portion 9a, the left crimping portion 9b, the front crimping portion 9c, and the rear crimping portion 9d are continuous with each other. In the curve, the front crimping part 9c and the rear crimping part 9d are convex curves in the front-rear direction.
[0035]
And the said crimping | compression-bonding part 9 is a left-right symmetric shape via the vertical direction center line Oy-Oy, and is a symmetrical shape back and forth via the horizontal direction center line Ox-Ox.
[0036]
As shown in FIG. 2, the lower layer absorber 3 is separated from the curved right-side edge 3a and left-side edge 3b whose convex side is directed to the longitudinal center line Oy-Oy, and the lateral center line Ox-Ox. It has a wide area having a curved front edge portion 3c and rear edge portion 3d with the convex side directed in the direction. The upper layer absorbent body 4 has a curved shape in the same direction as the right edge 3a and the left edge 3b, and has the right edge 4a and the left edge 4b, and the same direction as the front edge 3c and the rear edge 3d. It has a front edge portion 4c and a rear edge portion 4d which are curved shapes, and the shapes thereof are substantially similar to the planar shape of the crimping portion 9.
[0037]
The upper layer absorbent body 4 has a larger area than the area surrounded by the contour line 9 </ b> B on the outer periphery of the crimping part 9 and a smaller area than the lower layer absorbent body 3. In this embodiment, the contour shape of the lower layer absorber 3 and the contour shape of the upper layer absorber 4 are symmetrical with respect to the longitudinal center line Oy-Oy, and also via the lateral center line Ox-Ox. Symmetrical shape in front and back.
[0038]
In the crimping section 9, the lower layer absorbent body 3 and the upper layer absorbent body 4 are pressed in a concave shape in the entire range of the right crimp section 9a, the left crimp section 9b, the front crimp section 9c, and the rear crimp section 9d. And the range of the predetermined area enclosed by the outline 9A inside this crimping | compression-bonding part 9 is the center absorption area | region 11, and this center absorption area | region 11 has protruded toward the wearer's skin. When the sanitary napkin 1 is attached, the central absorption region 11 can be brought into close contact with a female vaginal opening. However, the crimping portion 9 has only a right crimping portion 9a and a left crimping portion 9b that extend in the vertical direction, and does not have a front crimping portion 9c and a rear crimping portion 9d, and the right crimping portion 9a and the left crimping portion 9d. The region sandwiched between the portions 9b may be the central absorption region 11.
[0039]
The topsheet 6 is formed of a non-woven fabric, has a function of transmitting liquid through voids formed in the fibers, and has a structure capable of suppressing planar liquid diffusion on and in the topsheet 6.
[0040]
  As shown in FIG.IsA sheet-like fiber structure having a first surface 25 directed to the skin side and a second surface 26 directed to the liquid guide layer 5 that is an intermediate layer, and includes hydrophilic fibers 20 and water-repellent fibers 21. It is included. In FIG. 5, the hydrophilic fiber 20 is white and the water-repellent fiber 21 is hatched, but this is for easy understanding of the type of the fiber. Both of the water repellent fibers 21 have a white appearance.
[0041]
As shown in FIG. 5A, the hydrophilic fiber 20 and the water-repellent fiber 21 each have a fiber length of about 30 to 70 mm, and a web in which the hydrophilic fiber 20 and the water-repellent fiber 21 are mixed is used. It is a nonwoven fabric that has been formed and joined together.
[0042]
The hydrophilic fiber 20 and the water-repellent fiber 21 extend in a three-dimensional direction, cross each other and partially entangle, and the fibers are bonded to each other, and each fiber forms a three-dimensional skeleton structure. A gap 22 is formed between the fibers, and this gap continues like a maze in the tertiary direction, and the gap 22 extends from the first surface 25 to the second surface 26 of the topsheet 6. A fluid permeation path is formed in communication.
[0043]
The hydrophilic fiber 20 may be a chemical fiber, for example, a hydrophobic and thermoplastic synthetic material formed by selecting one resin from synthetic resins such as polyethylene (PE), polypropylene (PP), and polyethylene terephthalate (PET). Fiber or core is polyethylene terephthalate (PET) or polypropylene (PP) and sheath is polyethylene (PE) core-sheath type composite synthetic fiber, or one side is polyethylene terephthalate (PET) or polypropylene (PP) A composite synthetic fiber having a side-by-side structure in which the other side is polyethylene (PE) is used. By mixing 0.4% by mass or more of an inorganic filler such as titanium oxide in these fibers, the fibers can be whitened. By using the whitened fiber, menstrual blood or the like that has been transmitted through the top sheet 6 and absorbed by the upper absorbent body 4 can be concealed from the surface side so as not to stand out. Moreover, the slip of the surface sheet 6 can be improved by containing titanium oxide, and the texture of the surface sheet 6 is improved.
[0044]
And the thing which apply | coated the hydrophilic oil agent to the surface of the said synthetic fiber, or the thing in which the hydrophilic oil agent was kneaded in the fiber is used as the said hydrophilic fiber 20. FIG.
[0045]
The hydrophilic oil agent can be applied by spraying the surface of the synthetic fiber with a spray or the like before forming the web, or can be applied by immersing the synthetic fiber immediately after spinning in the hydrophilic oil agent. Moreover, the hydrophilic oil agent can be kneaded into the fiber resin by mixing the hydrophilic oil agent into the raw material resin material, melting it, and spinning it. The hydrophilic oil agent is, for example, a surfactant, and for example, a nonionic active agent, an anionic active agent, a cationic active agent, or an amphoteric active agent can be used.
[0046]
The coating amount or mixing amount of the hydrophilic oil agent with respect to the synthetic fiber is 0.2% by mass of the hydrophilic oil agent when the hydrophilic fiber obtained by applying or mixing the hydrophilic oil agent to the synthetic fiber is 100% by mass. It is preferable to be within the range of -1.0% by mass.
[0047]
Further, as the hydrophilic fiber 20, regenerated cellulose fibers represented by cotton, pulp, and rayon, which are hydrophilic natural fibers, can be used.
[0048]
The water-repellent fiber 21 is a synthetic fiber of the same type as the hydrophilic fiber 20 in which titanium oxide is mixed at the same rate as the hydrophilic fiber 20, and a water-repellent oil agent is applied to the surface thereof. Alternatively, a fiber in which a water repellent oil is kneaded into the fiber is used.
[0049]
The application method and mixing method of the water-repellent oil agent with respect to the synthetic fiber and the preferred mass% of the water-repellent oil agent are the same as those for applying or mixing the hydrophilic oil agent to the hydrophilic fiber 20.
[0050]
Examples of the water repellent oil include silicone (Si) oligomers typified by chain-like polydimethylsilicone, acrylate polymers of alcohols containing perfluoroalkyl groups, and fluorine (F) typified by phosphates. System oligomers. Silicone-based water-repellent oils and fats are preferred in that the fixability of the oil to the synthetic fiber is better.
[0051]
As shown in FIG. 5, a non-woven fabric manufactured by an air-through method is preferably used as the top sheet 6 having a three-dimensional skeleton formed of fibers. In this air-through method, the hydrophilic fiber 20 is coated or kneaded with a hydrophobic synthetic fiber, and the water-repellent fiber is coated or kneaded with a hydrophobic synthetic fiber. 21 is mixed to form a web by the card method. Then, the web is passed through hot air at 130 ° C. to 140 ° C. at a speed of 100 to 200 m / min, and the surfaces of the hydrophilic fibers 20, the hydrophilic fibers 20 and the water-repellent fibers 21, or the water-repellent fibers 21. Adhere by heat fusion.
[0052]
The mass ratio of the hydrophilic fibers 20 and the water-repellent fibers 21 (mass of hydrophilic fibers: mass of water-repellent fibers) is preferably in the range of 95: 5 to 50:50. That is, it is preferable that the hydrophilic fiber 20 occupies a mass ratio of at least half of the fibers constituting the surface sheet 6. When the hydrophilic fiber 20 has a mass ratio of less than 50%, the water-repellent fiber 21 in the gap 22. As a result, the region in which the liquid crystal layer is dominant is increased, and the liquid is less likely to penetrate into the gap 22. Therefore, the excretory fluid tends to stay on the surface of the top sheet 6, and menstrual blood or the like remaining on the surface of the top sheet 6 tends to adhere to the skin, thereby causing discomfort.
[0053]
Further, when the mass ratio of the water-repellent fibers 21 is less than 5%, a region where the hydrophilic fibers 20 are predominantly located in the voids inside the surface sheet 5 is increased, and the liquid is tertiary in the surface sheet 6. It becomes easy to diffuse in the original direction, and the liquid easily diffuses in the surface of the top sheet 6. In order to improve the permeability in the thickness direction of the liquid and suppress the diffusion of the liquid in the sheet surface direction, the mass ratio is more preferably 90:10 to 60:40, most preferably 85: 15-75: 25.
[0054]
The fineness of the hydrophilic fiber 20 and the water-repellent fiber 21 is preferably in the range of 1.1 dtex to 6.6 dtex. When the fineness of the fibers 20 and 21 is larger than the above range, the gap between the fibers becomes too large, the capillary action is reduced, and the liquid is less likely to be transmitted through the gap 22, and the liquid permeability of the top sheet 6 is increased. Decreases. On the other hand, if the fineness is smaller than the above range, the gap is too narrow and the liquid does not easily penetrate into the gap. On the other hand, if the fineness is smaller than the above range, the strength of the three-dimensional skeleton structure of the topsheet 6 is lowered, and the void 22 is easily crushed when an external pressure is applied to the topsheet 6.
[0055]
The basis weight of the surface sheet 6 is 15 g / m.²~ 120g / m²It is preferable to be within the range. In addition, also when the surface sheet 6 is formed with the laminated body of a some nonwoven fabric, it is preferable that the total fabric weight is in the said range. If it is less than the above, the surface strength cannot be sufficiently obtained, and there is a possibility that tearing may occur in a wet state, and the amount of fibers is too small, and the excretory fluid that has permeated the top sheet 6 is returned to the body pressure. There is a risk of doing. When the above range is exceeded, the surface sheet 6 may become stiff and may cause a sense of incongruity during wearing, and it takes time for the excretion liquid to reach the liquid guide layer 5 provided under the surface sheet 6, Since the liquid permeability is hindered, the excretory liquid tends to stay on the surface of the top sheet 6, which is not preferable. The basis weight is 15 g / m.²~ 90g / m²Is more preferably within the range of 20 g / m.²~ 80g / m²Is within the range.
[0056]
The density of the surface sheet 6 is 0.12 g / cm.³The following is preferable. Since the excretion fluid such as menstrual blood at the time of menstruation has a relatively high viscosity, if the density is within the above range, a void 22 that easily penetrates the menstrual blood is formed.
[0057]
The water-repellent fiber 21 used for the surface sheet 6 has a water resistance of 5 to 60 mmH when measured by the following test method.₂The range of O is preferable, More preferably, it is 15-45 mmH.₂O, more preferably 20 to 40 mmH₂O range.
[0058]
This water resistance is determined by “(1,1) Method A (low water pressure method)” in “(1) Water resistance test” in “4. Test types” of JIS L-1092 (1992). a) The hydrostatic pressure method ”, and actually measured by“ Yasuda Seiki Seisakusho Co., Ltd. woven fabric water pressure resistance tester (No. 409-H) ”. In this measurement, a hydrostatic pressure is applied to one side of the test piece using distilled water or ion-exchanged water, and the hydrostatic pressure when water comes out from three places on the back side of the test piece is measured.
[0059]
As a test piece for measuring the water resistance, the same type of fiber is opened with a spreader, and the spread fiber is passed twice through a roller card machine, and the basis weight is 29 ± 1 g / m.²The web was formed and heated at 140 ° C. for 10 seconds to fuse the fibers to form an air-through nonwoven fabric having a thickness range of 2 to 3 mm. And this test piece was cut | disconnected to the magnitude | size of 5x5 cm, and the said water pressure resistance was measured.
[0060]
First, according to the test, when the water resistance was measured using only the hydrophilic fibers used in the surface sheets A and B of Examples described later, the measured value was 0 mmH.₂O. Moreover, when the said water resistance was measured using only the hydrophobic fiber which is the same as the said hydrophilic fiber currently used for the surface sheet A of an Example, and has not apply | coated the hydrophilic oil agent, the measured value is 5 mmH.₂O. When the water-resistant pressure was measured using only the water-repellent fiber used in the surface sheet A of a later example with a fiber coated with a silicone-based water-repellent oil agent, the measured value was 28 mmH.₂O. In the case of using only other water-repellent fibers coated with a fluorine-based water-repellent oil agent, 20 mmH₂40 mmH in the case of using only other water-repellent fibers coated with a silicone-based water-repellent oil agent.₂O.
[0061]
If the water resistance of the water-repellent fibers used for the top sheet 6 is less than the above preferred range, the function of preventing the liquid from diffusing in the surface of the top sheet 6 is reduced. The permeability of liquids with relatively high viscosity is not preferred.
[0062]
Moreover, as the said surface sheet 6, the ratio of the hydrophilic fiber 20 and the water repellent fiber 21 differs in the 1st surface 25 side and the 2nd surface 26 side, and the water repellent fiber 21 in the 1st surface 25 side. Those having a higher ratio than the ratio of the water-repellent fibers 21 on the second surface 26 side are also preferably used. If comprised in this way, the hydrophilicity in the space | gap 22 becomes higher in the 2nd surface 26 side rather than the 1st surface 25 side, and forms the gradient of hydrophilicity from the 1st surface 25 to the 2nd surface. Can do. As a result, the liquid applied to the first surface 25 is likely to be drawn toward the second surface 26 through the gap 22, and the liquid can easily pass through the top sheet 6 in the thickness direction.
[0063]
  6 (A) and 6 (B) have a gradient in hydrophilicity in this way.Embodiment of the present inventionAn example of the surface sheet is shown in a sectional view. The top sheet 6A shown in FIG. 6A is formed of a single nonwoven fabric, and the content ratio of the water-repellent fibers in the half layer 6D located on the first surface 25 side is on the second surface 26 side. The content ratio of the water-repellent fibers in the half layer 6E located is higher. The topsheet 6 has a ratio of the water-repellent fibers 21 within the above preferred range, which is higher than that of the lower layer, on the lower layer fiber web in which the ratio of the hydrophilic fibers 20 is increased within the range of the preferred mass ratio. It can be formed by stacking fiber webs and fusing the fibers with heat by the air-through method in that state.
[0064]
A top sheet 6B shown in FIG. 6B is obtained by superimposing a second nonwoven fabric 6F manufactured by the air-through method on the first nonwoven fabric 6G manufactured by the air-through method. In each of the nonwoven fabrics, the ratio of the hydrophilic fibers 20 and the water-repellent fibers 21 is set to the above-mentioned preferable range, and the content ratio of the water-repellent fibers 21 contained in the second nonwoven fabric 6F is changed to the first nonwoven fabric 6G. This is higher than the content ratio of the water-repellent fibers 21 contained. In this case, the first nonwoven fabric 6G and the second nonwoven fabric 6F may be simply stacked without being joined, or the first nonwoven fabric 6G and the second nonwoven fabric 6F are It may be partially bonded by heat at the lamination interface.
[0065]
  Moreover, the nonwoven fabric which forms the surface sheet 6IsFormed by the air-through methodAndA structure in which the fibers form a three-dimensional skeleton and voids 22 are formed insideIt is.
[0066]
For example, a mixture of the water-repellent fiber 21 and the hydrophilic synthetic fiber 20, a mixture of the water-repellent fiber 21 and the hydrophilic synthetic fiber 20 and a natural fiber or regenerated cellulose fiber, or After the web is formed by dry forming such as a card type or airlaid method using the water-repellent fiber 21 mixed with natural fiber or regenerated cellulose fiber, the fibers are joined or entangled by point bond, chemical bond or needle punch It may be made.
[0067]
Next, inside the central absorption region 11, the liquid guide layer 5 in contact with the surface sheet 6 has a structure in which hydrophilic chemical fibers are joined together to form a three-dimensional skeleton and have voids. Nonwoven fabric is used. By using the liquid guide layer 5 having voids, the liquid that has permeated from the top sheet 6 to the liquid guide layer 5 can be permeated by its own weight and given to the upper layer absorber 4. In addition, the guide layer 5 functions as a cushion layer, and when the body pressure is applied, the gap 22 of the surface sheet 6 is not easily crushed, so that the surface sheet 6 can always exhibit a liquid permeable function. Become.
[0068]
Examples of the liquid guide layer 5 having the above structure include an air-through nonwoven fabric having a liquid permeation function formed of hydrophilic chemical fibers, and an air laid nonwoven fabric having a liquid retention function and a liquid retention function.
[0069]
The air-through nonwoven fabric forming the liquid guiding layer 5 is an eccentric sheath / core composite synthetic fiber (for example, a fineness of 4.4 dtex and a fiber length of 50 mm) having a core portion of polypropylene (PP) and a sheath portion of polyethylene (PE). ) Is heat treated with hot air at 135 ° C. for 1 minute, and the fiber is coated with a hydrophilic oil agent.
[0070]
The airlaid nonwoven fabric used as the liquid guiding layer 5 is a mixture of the hydrophilic natural fiber or regenerated cellulose fiber and a hydrophilic thermoplastic resin fiber, which is floated in the air, and the fiber is placed on the screen. After collecting and laminating, it is manufactured by heat treatment, melting the surface of the thermoplastic resin fiber, and thermally welding the thermoplastic resin fiber and the hydrophilic fiber. Alternatively, the fibers may be bonded with a binder instead of the heat fusion. For example, wood pulp, rayon, acetate rayon, natural cellulose fibers other than pulp, mercerized pulp, cross-linked pulp, etc. are used as hydrophilic fibers, and the core part is polypropylene (PP) and the sheath part is polyethylene. (PE) core-sheath fibers (for example, the fineness is 1.7 dtex and the fiber length is 13 mm) are used.
[0071]
The fiber density of the liquid guide layer 5 is lower than that of the upper layer absorbent body 4 and the top sheet 6, and is 0.005 to 0.1 g / cm.³Those in the range are used. If the density is less than the above range, voids between the fibers are too small, leading to poor menstrual blood flow from the top sheet 6 to the upper absorbent body 4. When the above range is exceeded, the voids become too large, the strength of the skeleton extending in the three-dimensional direction of the fibers decreases, and the bulk easily collapses due to pressure with the body.
[0072]
As shown in FIG. 3, the liquid guide layer 5 is formed by folding two or more air-through nonwoven fabrics. In this embodiment, the nonwoven fabric is folded at two broken lines and used in a three-layered manner, and the total thickness of the liquid guiding layer 5 is in the range of 1.5 mm to 6 mm. .
[0073]
The planar shape of the liquid guide layer 5 is a rectangle, the width dimension between the side edges 5a and 5b extending in the vertical direction is W1, and the length between the front edge 5c and the rear edge 5d extending in the horizontal direction. The dimension is indicated by L1. As shown in FIG. 2, the area of the liquid guide layer 5 is sufficiently smaller than the area surrounded by the contour line 9 </ b> A inside the crimping portion 9, and the side edge 5 a, side edge 5 b, front edge Both 5c and the rear edge 5d are separated inward from the crimping part 9 and are not hung on the crimping part 9.
[0074]
As shown in FIGS. 1 and 4A, in the central absorption region 11, a large number of liquid passage holes 15 are regularly arranged in the top sheet 6. As shown in FIG. 4A, the liquid permeation hole 15 is formed so as to penetrate from the top sheet 6 to the liquid guide layer 5.
[0075]
The liquid permeable hole 15 is formed by meshing a roll with a needle and a roll provided with a hole, and passing a laminate of a surface sheet 6 and a liquid guide layer 5 between the rolls. can do. Or you may supply the surface sheet 6 between the said rolls, and may form a hole only in the surface sheet 6. FIG. Alternatively, the liquid permeation hole 15 allows the surface sheet 6 to pass between a roll with a needle and a roll having a smooth surface, and at this time, the rotational speed of either one of the rolls is increased, whereby the surface sheet It can also be formed by causing friction between 6 and the roll.
[0076]
In addition, by performing a hole opening process using a heated needle in a state where the surface sheet 6 and the liquid guide layer 5 are overlapped, the thermoplastic fibers and the liquid guide contained in the surface sheet 6 around the liquid permeation hole 15. The thermoplastic fibers contained in the layer 5 are fused, whereby the top sheet 6 and the liquid guide layer 5 are joined. If it does in this way, it will become unnecessary to apply an adhesive to the interface of surface sheet 6 and liquid guide layer 5, and when a liquid permeates from surface sheet 6 to liquid guide layer 5, a permeation area by an adhesive There will be no decrease in However, when using the surface sheet 6 in which the liquid permeable holes 15 are opened, the surface sheet 6 and the liquid guide layer 5 can be bonded with an adhesive or joined by hot embossing.
[0077]
As shown in FIGS. 4A and 8, the liquid permeation hole 15 preferably has an opening diameter Hd of 0.5 to 3.0 mm on the surface thereof, more preferably 0.8 to 1.. 5 mm. In addition, the vertical arrangement pitch Hy of the liquid permeation holes 15 is preferably 2 to 5 mm, and the horizontal arrangement pitch Hx is preferably 1 to 4 mm. For example, Hy is longer than Hx, and the arrangement of the liquid permeation holes 15 is As shown in FIG. 8, the liquid permeation holes 15 are formed so as to be alternately located in the X direction and the Y direction. Furthermore, the area occupancy ratio of the liquid permeable holes 15 in the region where the plurality of liquid permeable holes 15 are arranged can be selected within a range of 3 to 15%.
[0078]
The lower layer absorber 3 and the upper layer absorber 4 forming the intermediate layer are overlapped with each other, and the upper and lower surfaces of the stacked absorber are sanded with a hydrophilic tissue. Then, the tissue covering the upper surface of the upper layer absorbent body 4 and the liquid guide layer 5 are bonded together by a hot melt adhesive applied in a net shape, comb shape or spiral shape. Further, the boundary surface between the tissue covering the lower surface of the lower layer absorbent 3 and the back sheet 2 is also bonded with a hot melt adhesive.
[0079]
A region where the lower layer absorber 3 and the upper layer absorber 4 are present on the outer peripheral side of the contour line 9B outside the crimping portion 9 is an auxiliary absorption region 12. In the auxiliary absorption region 12, a bulky portion 12a in which the lower layer absorber 3, the upper layer absorber 4, and the surface sheet 6 are overlapped is formed immediately on the outer peripheral side of the contour line 9B. A thin region 12b in which the lower layer absorber 3 is covered with the top sheet 6 is provided. And on the outer peripheral side beyond the auxiliary absorption region 12, the back sheet 2 and the top sheet 6 are bonded by a hot melt adhesive without interposing the lower layer absorber 3 and the upper layer absorber 4. .
[0080]
As shown in FIGS. 1 and 2, the bulky portion 12a of the auxiliary absorption region 12 is formed so as to surround the entire circumference of the outer periphery of the crimping portion 9, and the thin region 12b is formed of the bulky portion 12a. It is formed so as to surround the entire outer periphery. In this embodiment, the liquid permeation hole 15 is formed only in the central absorption region 11, and the liquid permeation hole 15 is not formed in the auxiliary absorption region 12. However, it does not prevent the auxiliary absorption region 12 from forming the liquid permeable hole.
[0081]
The upper layer absorbent body 4 is a laminate of pulp such as pulverized pulp, mercerized pulp, and cross-linked pulp, and has a basis weight of, for example, 230 g / m.²Formed of things. The lower layer absorber 3 contains 1.5 to 2.0% by mass of a superabsorbent polymer with respect to the pulp, and has a basis weight and thickness of 80% or less of the upper layer absorber 4, for example, basis weight. 160g / m²Is used. Further, the lower layer absorber 3 is formed with embosses of a lattice pattern 16 as shown in FIG.
[0082]
The density of the upper layer absorber 4 and the lower layer absorber 3 is 0.1 to 0.6 g / cm.³The range of is preferable. If it is less than the above range, the rigidity becomes too low to maintain the form of the sanitary napkin 1, and there is a possibility that wrinkles and drowning may occur when worn on the body. Moreover, when it exceeds the above range, it becomes rigid and tends to give a sense of discomfort to the body.
[0083]
The pressure-bonding portion 9 is formed by embossing using a heating roller, and in a state where the lower layer absorbent body 3, the upper layer absorbent body 4, and the surface sheet 6 are overlaid on the outer surface of the lower layer absorbent body 3, A flat roll is applied, a heating roll having a convex portion of an embossed pattern is applied to the surface side of the top sheet 6, and the lower layer absorbent body 3, the upper layer absorbent body 4 and the top sheet 6 are pressed against the convex portion. And heated. As a result, in the crimping part 9, as shown in FIG. 2, the thermoplastic fiber contained in each layer is melted at the part where the width dimension δ is 0.2 to 1.5 mm, so that the film-like melting part 9 </ b> D is formed. It is formed. A high-density portion 9E that is higher in density than the region other than the pressure-bonding portion 9 is formed between the melting portions 9D. The pitch P of the melting part 9D is, for example, 1 to 5 mm. Moreover, the width dimension Wa of the crimping | compression-bonding part 9 is about 2-4 mm.
[0084]
The back sheet 2 is a liquid-impermeable and air-permeable sheet, and is a polyethylene (PE) film or a polypropylene (PP) film in which fine air holes are formed. For example, the plastic sheet is CaCo₃, BaSo₄By mixing the inorganic filler and the like and stretching, fine air holes are appropriately dispersed in the film and the air permeability can be improved. The thickness is about 15 to 50 μm. Or the material which laminated the thermoplastic resin to the nonwoven fabric may be sufficient.
[0085]
As shown in FIG. 3, a pressure-sensitive adhesive layer 7 is coated on the outer surface of the back sheet 2 in a strip shape so as to continuously extend in the vertical direction with a predetermined width dimension. In the state before use, the pressure-sensitive adhesive layer 7 is covered and protected by a release sheet (not shown).
[0086]
In the sanitary napkin 1 of the above-described embodiment, the width dimension at the lateral center line Ox-Ox is about 80 mm, and the length dimension at the longitudinal center line Oy-Oy is about 210 mm. And the center absorption area | region 11 enclosed by the said crimping | compression-bonding part 9 needs to have an area which can closely_contact | adhere to a woman's vaginal opening, the width dimension W2 is the range of 25 mm-50 mm, and the vertical dimension L2 is It is the range of 50-110 mm. Moreover, in the long type suitable for wearing at bedtime etc., it is preferable that the said center absorption area | region 11 is extended to the back area | region of the anus, In this case, the upper limit of the vertical dimension of the center absorption area | region 11 is It is about 280 mm.
[0087]
When using this sanitary napkin 1, the release sheet protecting the pressure-sensitive adhesive layer 7 is first peeled off and bonded to the inside of the crotch portion 28 of the underwear via the pressure-sensitive adhesive layer 7. use.
[0088]
While the underwear and the sanitary napkin 1 are worn on the body, the crotch portion 28 and the sanitary napkin 1 receive the tightening force of the thigh from both sides. In the sanitary napkin 1, the right crimping portion 9 a and the left crimping portion 9 b extending in the vertical direction at equal distances in the lateral direction from the vertical center line Oy-Oy are formed. In the napkin 1, the right and left crimping portions 9a and 9b function as hinges, and the sanitary napkin 1 is bent as shown in FIG.
[0089]
The liquid guide layer 5 provided in the central absorption region 11 is not hung on the crimping portion 9, and the lower layer absorber 3 and the upper layer absorber 4 are only present in the crimping portion 9. Therefore, the rigidity difference and thickness difference between the crimping part 9 and the area other than the crimping part 9 can be increased, and the sanitary napkin 1 is easily bent at the positions of the right crimping part 9a and the left crimping part 9b.
[0090]
Then, the tightening force from the thigh acts on the central absorption region 11 from the right and left crimping portions 9a and 9b, and the surface of the central absorption region 11 is curved in a protruding manner toward the body. The surface of the topsheet 6 located at 11 can be brought into close contact with the female vagina. The central absorption region 11 includes the lower layer absorber 3, the upper layer absorber 4, and the liquid guide layer 5, and is bulky. Moreover, since the liquid guide layer 5 is a low-density material, it feels close to the vaginal opening. Is soft.
[0091]
Excretion fluid with relatively high viscosity such as menstrual blood excreted from the vaginal opening is given to the top sheet 6 mainly in the central absorption region 11. The excretory fluid is transmitted through the hydrophilic fibers 20 in a region surrounded or sandwiched by the hydrophilic fibers 20 in the voids 22 in the surface sheet 6, and by capillary action in the voids 22. It penetrates through the gap 22 and penetrates. However, since there is a region where the water-repellent fibers 21 appear in the voids 22, the water-repellent function of the water-repellent fibers 21 causes the excretory liquid to diffuse excessively in the three-dimensional direction in the surface sheet 6. Is suppressed.
[0092]
Therefore, in the surface sheet 6, the excretion liquid proceeds downward in the gap 22 due to its own weight, permeates so as to escape in the thickness direction of the sheet, and the excretion liquid is diffused in the sheet surface direction in the surface sheet 6. Is suppressed. For this reason, the excretory fluid spot-penetrates through the surface sheet 6 in a region given to the surface sheet 6.
[0093]
The excretory liquid descending in the limited area of the surface sheet 6 is given to the liquid guide layer 5 below, but this liquid guide layer 5 has a lower density than the surface sheet 6 and is relatively large inside. Since the air gap is formed, the excreted liquid is given to the upper absorbent body 4 while falling in the air gap of the liquid guiding layer 5 by its own weight. Since the liquid guide layer 5 functions to quickly guide the liquid that has passed through the top sheet 6 to the upper absorbent body 4, the top sheet 6 is less likely to be saturated with liquid, and excretion fluid is repeatedly given to the top sheet 6. When that happens, the excreted liquid quickly penetrates the top sheet 6.
[0094]
Further, when the body is in a sitting posture or the like, the weight of the body acts on the top sheet 6, but the liquid guide layer 5 positioned below the top sheet 6 acts as a cushion layer, so that the gap 22 of the top sheet 6 is not easily crushed. The top sheet 6 can always exhibit a liquid transmission function.
[0095]
Further, in this embodiment, as shown in FIG. 4A, since a large number of liquid permeable holes 15 are formed from the top sheet 6 to the liquid guide layer 5, the liquid applied to the surface of the top sheet 6 is In addition to being transmitted through the gap 22 formed between the fibers 20 and 21 constituting the surface sheet 6, the light passes through the liquid permeation hole 15 and is guided to the liquid guide layer 5. Thus, by having both the liquid permeation function of the top sheet 6 itself and the liquid permeation function of the liquid permeation hole 15, the excretion liquid given to the top sheet 6 quickly enters the liquid guide layer 5.
[0096]
Further, the liquid guide layer 5 has a low density, and it is difficult for the liquid guide layer 5 to diffuse around the liquid. Therefore, menstrual blood or the like excreted from the vaginal opening passes through a limited range in the central absorption region 11 and is given to the upper absorbent body 3, and the diffusion region of the excretory fluid on the surface side of the sanitary napkin 1 Can be narrowed.
[0097]
The liquid that has permeated through the top sheet 6 and the liquid guide layer 5 by its own weight is immediately sucked by the hydrophilic action and capillary action of the high-density upper layer absorbent body 4 and absorbed and held in the upper layer absorbent body 4. Further, the excreted liquid in the upper layer absorber 4 is absorbed and held by the lower layer absorber 3. In the central absorption region 11, since the distance between the upper layer absorber 4 and the top sheet 6 is separated, it becomes difficult to visually check the color of menstrual blood diffusing in the upper layer absorber 4, from the surface side, When the wearer visually observes the surface of the sanitary napkin 1 in use, it is easy to prevent psychological anxiety from being felt.
[0098]
Moreover, since the said crimping | compression-bonding part 9 functions so that the spreading | diffusion of an excretion liquid may be blocked | prevented when the liquid diffuses around in the upper layer absorber 4 and the lower layer absorber 3 located in the center absorption region 11, The excretory liquid supplied to 11 becomes difficult to be transmitted to the surrounding auxiliary absorption region 12 beyond the crimping part 9.
[0099]
Thus, the retained excretion fluid absorbed by the upper layer absorber 4 and the lower layer absorber 3 is mainly retained in the central absorption region 11 surrounded by the crimping portion 9, and in the auxiliary absorption region 12, the upper layer absorber 4 and the lower layer absorber 3 are not easily given a large amount of excretory fluid. Accordingly, menstrual blood or the like transmitted through the body passes over the crimping part 9 and adheres to the surface of the auxiliary absorption region 12, or a large amount of excretion fluid is given to the central absorption region 11, and this excretion fluid is transmitted to the top sheet 6. Thus, when adhering to the surface sheet 6 in the auxiliary absorption region 12, the excretory fluid is quickly absorbed by the hydrophilic action and the capillary action of the upper layer absorbent body 4 or the lower layer absorbent body 3 positioned therebelow. Also at this time, in the surface sheet 6, the liquid travels through the gap 22 and is drawn into the upper layer absorbent body 4 or the lower layer absorbent body 3, and the excretory liquid hardly diffuses in the sheet surface in the surface sheet 6.
[0100]
Also in the auxiliary absorption region 12, since the excretory fluid is difficult to diffuse in the surface of the top sheet 6, it is less likely to give a moist feeling to the large labia and thighs where the auxiliary absorption region 12 is likely to hit.
[0101]
FIG. 9 is a sectional view showing a sanitary napkin 1A as an absorbent article according to the second embodiment of the present invention.
[0102]
In this sanitary napkin 1A, the liquid guide layer 5 is not provided unlike the sanitary napkin 1 shown in FIG. 3, and an intermediate layer located between the back sheet 2 and the top sheet 6 It is formed only by the upper layer absorber 4. And the upper layer absorber 4 is covered with the surface sheet 6B. This top sheet 6B is the same as that shown in FIG. 6B, and is a laminate of two nonwoven fabrics 6G and 6F. The upper nonwoven fabric 6F is more water repellent than the lower nonwoven fabric 6G. The content ratio of 21 is large.
[0103]
This sanitary napkin 1A also has a crimping part 9 formed on the lower layer absorbent body 3, the upper layer absorbent body 4 and the surface sheet 6B, as in the first embodiment shown in FIGS. 9 is divided into a central absorption region 11A surrounded by 9 and an auxiliary absorption region 12A located outside the crimping portion 9.
[0104]
In this embodiment, the excretory liquid given to the surface of the top sheet 6B is transmitted through the space 22 and is drawn by the hydrophilic action and capillary action of the upper layer absorbent body 4 located below. As described above, the surface sheet 6B has a structure in which the excretory liquid is difficult to diffuse within the sheet surface, and therefore, the excretory liquid given in a spot to the limited region of the central absorption region 11A is promptly within the region. It is absorbed in the upper layer absorber 4.
[0105]
Since the surface sheet 6B has a gradient of hydrophilicity from the first surface 25 to the second surface 26, the excretory fluid is easily guided in the thickness direction within the surface sheet 6B and diffuses within the surface. It is difficult to do.
[0106]
  In the embodiment shown in FIG.FIG.6A of surface sheets shown to (A)ButEstablishmentBe.
[0107]
Also in the embodiment shown in FIG. 9, it is preferable that a large number of liquid-permeable holes are formed in the top sheet at least in the central absorption region 11A.
[0108]
Further, in the sanitary napkin 1A of the embodiment shown in FIG. 9, it is also possible to use a fiber having a three-dimensional skeleton structure and a space formed between the fibers as the upper absorbent body 4 positioned below the top sheet. it can. For example, when the same thing as the airlaid nonwoven fabric that can be used as the liquid guide layer 5 is used as the upper layer absorbent body 4, the upper layer absorbent body 4 is bulky and has cushioning properties. In addition, since the excretory fluid quickly moves in the gap inside the upper layer absorbent body 4, the excretory fluid repeatedly given to the top sheet 6B can quickly permeate the top sheet 6B in the central absorption region 11A.
[0109]
Next, FIG. 10 shows a sanitary napkin 1B which is an absorbent article according to the third embodiment of the present invention, and FIG. 11 shows a sanitary napkin 1C which is an absorbent article according to the fourth embodiment of the present invention. ing.
[0110]
Both of these embodiments are different from the first embodiment in the pattern of the crimping portion and the outer shape of the sanitary napkin. However, as the other configurations, those shown in the first embodiment shown in FIG. 1 and the following and the second embodiment shown in FIG. 9 can be selectively adopted. Therefore, in FIGS. 10 and 11, the same reference numerals are given to the same configurations as those in the first embodiment and the second embodiment, and detailed description thereof is omitted.
[0111]
The sanitary napkin 1B of the third embodiment shown in FIG. 10 has a crimping portion 90 on the skin side surface.
[0112]
The crimping portion 90 has a right crimping portion 9a and a left crimping portion 9b, and a front crimping portion 9c and a rear crimping portion 9d, which have substantially the same pattern as the crimping portion 9 shown in FIG. 2, and these crimping portions 9a. , 9 b, 9 c, 9 d are continuous so as to surround the central absorption region 11, and the liquid guide layer 5 is provided in the central absorption region 11.
[0113]
The crimping portion 90 is formed with a front extension crimping portion 9e extending further forward from the boundary between the right crimping portion 9a and the front crimping portion 9c, and further forward from the boundary between the left crimping portion 9b and the front crimping portion 9c. A forward extension crimping portion 9f extending in the direction is formed. The front extension crimping portion 9e is located on the extension line of the right crimping portion 9a, and the front extension crimping portion 9f is also located on the extension line of the left crimping portion 9b. And the front extension crimping part 9e and the front extension crimping part 9f are inclined so as to move away from the longitudinal center line Oy-Oy toward the front edge part 1c of the sanitary napkin, The front end of the front extension crimping portion 9f is located away from the front edge portion 1c, the right edge portion 1a, and the left edge portion 1b.
[0114]
Further, in the rear region, a rear extension crimp portion 9g extending further rearward from the boundary between the right crimp portion 9a and the rear crimp portion 9d is formed, and rearward extending further rearward from the boundary between the left crimp portion 9b and the rear crimp portion 9d. An extension crimping portion 9h is formed. The rear extension crimping portion 9g is located on the extension line of the right crimping portion 9a, and the rear extension crimping portion 9h is also located on the extension line of the left crimping portion 9b. The rear extension crimping portion 9g and the rear extension crimping portion 9h are inclined so as to be separated from the longitudinal center line Oy-Oy toward the rear edge 1d of the sanitary napkin, and the rear extension crimping portion 9g The rear end of the rear extension crimping portion 9h is located away from the rear edge 1d, the right edge 1a, and the left edge 1b.
[0115]
In the sanitary napkin having the crimping portion 90 of the pattern, the central absorption region 11 surrounded by the right crimping portion 9a, the left crimping portion 9b, the front crimping portion 9c, and the rear crimping portion 9d, that is, the liquid guide layer 5 is provided. As shown in FIG. 7, the region is deformed in a convex shape toward the wearer, so that the central absorption region 11 is easily adhered to the excretory part of the body.
[0116]
Further, in a region in front of the front crimping portion 9c, the front extension crimping portion 9e and the front extension crimping portion 9f are formed to face each other so as to be separated from each other toward the front edge portion 1c. Therefore, the region sandwiched between the front extension crimping portion 9e and the right edge portion 1a and the region sandwiched between the front extension crimping portion 9f and the left edge portion 1b serve as the front extension crimping portion 9e and the front extension crimping portion 9f. It becomes easy to deform in the direction toward the body as a bending starting point. Therefore, the sanitary napkin is easily fitted to the front part of the crotch part of the body.
[0117]
Similarly, also in the rear region, the region sandwiched between the rear extension crimping portion 9g and the right edge 1a and the region sandwiched between the rear extension crimping portion 9h and the left edge 1b are connected to the rear extension crimping portion 9g and the rear. It becomes easy to deform | transform in the direction which goes to a body from the extension crimping | compression-bonding part 9h as a bending origin. Therefore, the sanitary napkin is deformed so as to follow the shape of the buttocks of the body, and it becomes easy to fit the body.
[0118]
The absorbent article is not limited to the planar shape as shown in FIGS. 1, 2, and 10, and may have a wing portion protruding from the right edge portion 1 a and the left edge portion 1 b.
[0119]
FIG. 11 shows a sanitary napkin 1C according to a fourth embodiment in which the wing portion is formed.
[0120]
This sanitary napkin 1C is provided with a pair of wing portions 21 and 21 extending from both sides of the both sides of the sanitary napkin 1C. In this sanitary napkin 1C, both side edges of the back sheet 2 have the same shape as the wing parts 21 and 21, but the right edge part 6a and the left edge part 6b of the top sheet 6 are provided with the wing parts 21 and 21. It extends only to the base of. On both the left and right sides, liquid-impermeable sheets 22 and 22 formed of a hydrophobic nonwoven fabric or a water-repellent nonwoven fabric are superposed on the outermost surface. The inner edge portions 22a and 22a of the sheets 22 and 22 are located at a certain distance from the longitudinal center line Oy-Oy and away from the crimping portion 9, and are sandwiched between the edge portions 22a and 22a. The surface sheet 6 is exposed in the region.
[0121]
Sheets 22 and 22 are bonded on top sheet 6 on both sides, and are bonded to back sheet 2 at wings 21 and 21. That is, the wing parts 21 and 21 are formed by bonding the back sheet 2 and the sheet 22 so that liquid cannot penetrate into these parts.
[0122]
In the sanitary napkin 1C, the liquid-impermeable sheets 22 and 22 are provided on both outer sides of the auxiliary absorption region 12, so that side leakage such as menstrual blood can be further prevented. In addition, the sanitary napkin 1C can be firmly fixed in the crotch portion by adhering the wing portions 21 and 21 to the outer surface of the crotch portion of the underwear via a pressure-sensitive adhesive layer.
[0123]
And the crimping | compression-bonding part 190 of the pattern similar to the sanitary napkin 1D shown in FIG. 10 is formed in the area | region pinched | interposed by the edge parts 22a and 22a of both sheets 22 and 22. FIG.
[0124]
In the present invention, the sanitary napkin may be of a long type having a large size in the vertical direction and a vertically long central absorption region.
[0125]
FIG. 12 is a plan view showing a long-type sanitary napkin 1D as the fifth embodiment.
[0126]
This sanitary napkin 1D has the same basic structure as the sanitary napkins 1, 1A and 1B, but differs only in the overall size and the shape of the planar pattern of the crimping part.
[0127]
This sanitary napkin 1D has a long vertical dimension and a wide width in the rear, so that the rear part can be in close contact with the buttock when worn on the crotch.
[0128]
In the sanitary napkin 1D, the longitudinal dimensions of the back sheet, the lower layer absorbent body 3A, the upper layer absorbent body 4A, and the liquid guide layer 5A are long. And the crimping | compression-bonding part 190 is also a pattern long in the vertical direction. The vertically long pattern crimping portion 190 includes a right crimping portion 190a, a left crimping portion 190b, a front crimping portion 190c, and a rear crimping portion 190d that are continuously formed so as to surround the central absorption region 11B. Further, a pair of front extension crimping portions 190e and 190f are provided in front of the front crimping portion 190c. The front extension crimping portions 190e and 190f extend in an inclined manner so that the distance between the front extension crimping portions 190e and 190f increases toward the front, and the front end portions of the respective front extension crimping portions 190e and 190f extend from the edges of the sanitary napkin. In a remote location.
[0129]
Furthermore, a short inner crimping portion 190g is provided inside the right crimping portion 190a, and a similarly short inner crimping portion 190h is provided inside the left crimping portion 190b.
[0130]
In addition, as shown in FIG. 12, each part of the said crimping | compression-bonding part 190 has a predetermined | prescribed width dimension, but within this width | variety, like embodiment shown in FIG. The high density portions 9E are alternately formed along the line direction of the crimping portion.
[0131]
Further, the liquid guide layer 5A has a long area in the vertical direction in the central absorption region 11B and does not hang on the crimping portion 190. An auxiliary absorption region 12 </ b> B is formed on the outer periphery of the crimping portion 190.
[0132]
In this sanitary napkin 1D, since the central absorption region 11B is elongated in the vertical direction, the central absorption region 11B can be fitted from the vaginal opening to the buttocks. In particular, when the inner crimping portions 190g and 190h are provided, the front region and the rear region of the central absorption region 11B are easily bent starting from the inner crimping portions 190g and 190h. It fits and the rear area is easy to fit in the groove of the buttocks. Thus, since the central absorption region 11B is bent back and forth and easily fits to the body, diffusion of menstrual blood given to the central absorption region 11B in the buttocks direction can be prevented, and the spot absorption capability using the surface sheet can be improved. It can be used effectively.
[0133]
Further, at the front end portion of the sanitary napkin 1D, the sanitary napkin is easily bent at the portions of the front extension crimping portions 190e and 190f, so that the sanitary napkin can be easily fitted to the front portion rather than the vaginal opening.
[0134]
And the menstrual blood given to 6 A of surface sheets can be guide | induced to the upper layer absorber 4A and the lower layer absorber 3A under it by the liquid guide layer 5A located in the center absorption area | region 11B.
[0135]
In the embodiment of FIG. 12, the forward extension crimping portions 190e and 190f and the inner crimping portions 190g and 190h do not have to be provided.
[0136]
In the sanitary napkin according to each of the above embodiments, by using a surface sheet in which hydrophilic fibers and water-repellent fibers are mixed, menstrual blood can be spot-absorbed at the central portion, so that the skin side surface It is possible to prevent menstrual blood from diffusing around. Therefore, it is possible to omit a countermeasure when menstrual blood diffuses along the skin-side surface as in the prior art, or to simplify the structure for the countermeasure.
[0137]
For example, as shown in FIG. 1, FIG. 2, FIG. 10, and FIG. 12, the top sheet appears on the entire surface of the skin side, and the liquid-impervious sheets 22, 22 shown in FIG. Even if the structure is not arranged on both sides, spread of menstrual blood and leakage to the left and right sides can be prevented. Further, when the liquid-impervious sheets 22 and 22 shown in FIG. 11 are provided, it is not necessary to increase the water repellency of the sheets 22 and 22, and a material with a small basis weight can be used as the sheets 22 and 22. . Moreover, even if it does not have a wing part on either side like Embodiment of FIG.1, FIG.2, FIG.10, FIG.12, it is easy to prevent a side leak. Further, when the wing portions 21 and 21 are provided as in the embodiment shown in FIG. 11, it is not necessary to increase the water repellency of the wing portions 21 and 21 or to increase the basis weight.
[0138]
Moreover, since menstrual blood can be spot-absorbed at the center of the skin side surface, it is easy to prevent the sanitary napkin from leaking backward. Therefore, it is possible to reduce the leakage of menstrual blood to the buttocks without providing a hip guard part that extends to the left and right at the rear part of the sanitary napkin. In addition, as shown in FIG. 12, in the case of having a hip guard portion that is vertically long and spreads to the left and right, the hip guard portion can have a small area or a thin one.
[0139]
In each of the above embodiments, the central absorption region 11 sandwiched between the crimping portions 9, 90 or 190 is raised to the surface side, and this portion is in close contact with the female local area. This local contact type sanitary napkin has a surface closely adhered to the vaginal opening and absorbs menstrual blood. However, as in the above embodiment, a topsheet in which hydrophilic fibers and water repellent fibers are mixed is used. Therefore, menstrual blood can be prevented from diffusing on the surface of the part that is in close contact with the vaginal opening, and the part other than the local part of the wearer's body is hardly contaminated with menstrual blood, causing discomfort and less There is very little effort to wipe the blood off.
[0140]
However, the absorbent article of the present invention may be a sanitary napkin in which the crimping part 9, 90 or 190 as described above is not formed and a raised central absorption region is not formed. This case is also effective in that it is difficult for the excretory fluid to diffuse on the surface.
[0141]
Alternatively, the present invention can also be configured as a thin absorbent layer or a thin absorbent sheet in which the surface of a thin hydrophilic cushion layer is covered with the top sheet. In this case as well, it is possible to absorb the secretion in a spot manner without diffusing the secretions such as the cage.
[0142]
【Example】
Hereinafter, preferred examples of the absorbent article of the present invention and their performance will be described in comparison with comparative examples.
[0143]
First, the materials of the top sheet, the liquid guide layer, the absorbent layer, and the back sheet that are selected and used for the absorbent articles of the examples and comparative examples will be described.
[0144]
(Surface sheet)
(1) Top sheet A
The water-repellent fiber 21 is a core-sheath type composite synthetic fiber having a core part of polyethylene terephthalate (PET) and a sheath part of polyethylene (PE) having a fineness of 2.2 dtex and a diameter of 44 mm. The ratio was 50:50, and the core part contained 0.5% by mass of titanium oxide in the whole fiber, and the surface was coated with 0.45 ± 0.05% by mass of a water repellent oil agent. Specifically, “2.2T44-ARH” manufactured by Toyobo Co., Ltd. was used.
[0145]
The hydrophilic fiber 20 is a core-sheath type composite synthetic fiber having a core part of polyethylene terephthalate (PET) and a sheath part of polyethylene (PE) having a fineness of 2.2 dtex and a diameter of 44 mm. The ratio and the content of titanium oxide were the same as those of the water-repellent fiber, and the surface was coated with 0.35% by mass of a hydrophilic oil agent.
[0146]
One sheet formed by forming a fiber web in which the water-repellent fiber is 20% by mass and the hydrophilic fiber is 80% by mass by the card method and passing through a hot air at 130 ° C. to 140 ° C. at a speed of 100 to 120 m / min. An air-through nonwoven fabric was used as a top sheet A. 25 g / m²It was.
[0147]
(2) Top sheet B
Using the same water-repellent fibers 21 and hydrophilic fibers 20 as the surface sheet A, a surface sheet on which two nonwoven fabrics as shown in FIG.
[0148]
The manufacturing conditions of each nonwoven fabric are the same as those of the top sheet A. However, the upper layer nonwoven fabric directed to the skin side is 20% by mass of the water-repellent fiber 21 and 80% by mass of the hydrophilic fiber 20, and the basis weight is 14 g / m.²The lower nonwoven fabric has a ratio of 15% by mass of the water-repellent fiber 21 and 85% by mass of the hydrophilic fiber 20 and a basis weight of 11 g / m.²The total basis weight of the two nonwoven fabrics is 25 g / m²It was.
[0149]
(3) Top sheet C
One nonwoven fabric was manufactured using only the hydrophilic fibers 20 used in the top sheet A. The manufacturing conditions in the air-through method are the same as those of the top sheet A.
The basis weight of the nonwoven fabric is 25 g / m²It was.
[0150]
(Liquid guide layer)
(1) Liquid guide layer A
Hydrophilic property in which 0.3% by mass of a hydrophilic oil is applied to the surface of a core-sheath type composite synthetic fiber having a core part of polypropylene (PP), a sheath part of polyethylene (PE) having a fineness of 4.4 dtex and a fiber length of 51 mm. Using a fiber, a web was formed by a card method, and further a non-woven fabric was formed by passing the web through hot air at 130 to 140 ° C. at 100 to 120 m / min by an air-through method. Nonwoven fabric weight is 20 g / m²The liquid guide layer A was obtained by folding the three sheets into a stack.
[0151]
(2) Liquid guide layer B
The hydrophilicity obtained by applying 0.3% by mass of a hydrophilic oil to the surface of a core-sheath type composite synthetic fiber having a core part of polyethylene terephthalate (PET), a sheath part of polyethylene (PE) having a fineness of 3.3 dtex and a fiber length of 51 mm. Sex fibers were used.
[0152]
The weight of the softwood kraft pulp having an average fiber length of about 3 mm, the hydrophilic fiber, and the acrylic acid binder (liquid) in a ratio of 65% by mass: 25% by mass: 10% by mass is 60 g / m²An airlaid nonwoven fabric was formed.
[0153]
Specifically, a mixture of the pulp and hydrophilic fibers is floated in the air, the fibers are collected and laminated on a screen, and then the binder is applied to both surfaces and then dried. .
[0154]
(Absorption layer)
(1) Absorbing layer A
300g / m of softwood kraft pulp with an average fiber length of about 3mm²Furthermore, the basis weight of the superabsorbent polymer is 10 g / m²With a basis weight of 15 g / m²A single layer wrapped with a tissue was used as an absorbent layer A.
[0155]
(2) Absorbing layer B
According to the same manufacturing method as the liquid guide layer B, a softwood kraft pulp having an average fiber length of about 3 mm, a superabsorbent polymer, and an acrylic acid binder in a ratio of 70% by mass: 20% by mass: 10% by mass. 200 g / m²The airlaid nonwoven fabric was formed, and this was used as the absorbent layer B.
[0156]
(Back sheet)
Polyethylene resin is melt-extruded by the T-die method and the basis weight is 20 g / m.²The resin film was used as a back sheet. The back sheet is commonly used in the following examples and comparative examples.
[0157]
<Example, Reference examples andComparative Example>
  Next, an example using each of the above membersReference examplesThe layer structure of the comparative example will be described. Examples belowReference examplesThe comparative example and the comparative example have the same planar shape as that shown in FIG. 2, but the laminated structures appearing in the cross section are different. In any case, the shape of the crimping portion 9 is as shown in FIGS. 1 and 2, and the longitudinal dimension L2 of the central absorption region is 100 mm, and the width dimension W2 is 28 mm.
[0158]
(referenceExample 1)
  A sanitary napkin having a cross-sectional shape shown in FIG. 13 was produced. As shown in FIG. 13, an absorbent layer 31, a liquid guide layer 32, and a top sheet 33 are laminated on a back sheet 30, and are pressure-bonded to the top sheet 33, the liquid guide layer 32, and the absorbent layer 31. Part 9 was formed.
[0159]
  referenceIn Example 1, the top sheet A was used as the top sheet 33, the liquid guide layer A was used as the liquid guide layer 32, and the absorbent layer A was used as the absorbent layer 31.
[0160]
(Example1)
  A sanitary napkin having a cross-sectional shape shown in FIG. 14 was produced. In the structure shown in FIG. 14, the absorbent layer 31, the liquid guide layer 32, and the top sheet 33 are laminated on the back sheet 30 in this order. The pressure bonding part 9 was formed in the two layers of the surface sheet 33 and the absorption layer 31, and the liquid guide layer 32 was provided only in the central absorption region so as not to reach the pressure bonding part 9.
[0161]
  Example1Used the top sheet B as the top sheet 33, the liquid guide layer A as the liquid guide layer 32, and the absorbent layer A as the absorbent layer 31.
[0162]
(referenceExample2)
  In the sanitary napkin having the structure shown in FIG. 14, the top sheet A was used as the top sheet 33, the liquid guide layer A was used as the liquid guide layer 32, and the absorbent layer A was used as the absorbent layer 31.
[0163]
(referenceExample3)
  A sanitary napkin having a cross-sectional shape shown in FIG. 15 was produced. The sanitary napkin is laminated on the back sheet 30 in the order of the absorption layer 31, the first liquid guide layer 35, the second liquid guide layer 36, and the top sheet 33. In the pressure-bonding portion 9, the top sheet 33 and the absorption layer 31 are pressure-bonded, and the first liquid guide layer 35 and the second liquid guide layer 36 are located on the inner side of the pressure-bonding portion 9 and are applied to the pressure-bonding portion 9. Not.
[0164]
The top sheet 33 is the top sheet A, the first liquid guiding layer 35 is the liquid guiding layer B, the second liquid guiding layer 36 is the liquid guiding layer A, and the absorbing layer 31 is the absorbing layer B. Yes.
[0165]
(referenceExample4)
  In the sanitary napkin having the structure shown in FIG. 14, the top sheet A was used as the top sheet 33, the liquid guide layer A was used as the liquid guide layer 32, and the absorbent layer A was used as the absorbent layer 31.
[0166]
(Comparative Example 1)
In the sanitary napkin having the structure shown in FIG. 14, the top sheet C was used as the top sheet 33, the liquid guide layer A was used as the liquid guide layer 32, and the absorbent layer A was used as the absorbent layer 31.
[0167]
(Formation of liquid permeable holes)
  Example 1And Reference Example 12as well asA liquid permeation hole 15 was formed in the central absorption region surrounded by the crimping part 9 of the sanitary napkin of Comparative Example 1. The liquid permeable holes 15 are formed from the top sheet 33 to the liquid guide layer 32, and the opening diameter Hd in the top sheet is 1.0 mm, and the area ratio of the openings in the region where the plurality of liquid permeable holes 15 are formed. Was 8%.
[0168]
  referenceExample3Then, as shown in FIG. 16, in the central absorption region surrounded by the crimping part 9, the liquid permeable hole 15 is communicated from the top sheet 33 to the second liquid guide layer 36 in the range where the width dimension W <b> 3 is 20 mm. Formed. The diameter of the liquid permeation hole and the area ratio of the liquid permeation hole within the width of W3 are shown in Example 1.And Reference Example 12,AndAnd Comparative Example 1. Further, on both sides of the region where the liquid permeation hole 15 is formed, the top sheet 33, the second liquid guide layer 37 and the first liquid guide layer 35 are pressed into a concave shape and fixed to each other with dot-like embosses 37. . The occupation area ratio of the emboss 37 in the region where the plurality of the emboss 37 is scattered is 2.7%.
[0169]
  In additionreferenceExample4In the absorbent article, the liquid permeation hole 15 and the emboss 37 were not provided.
[0170]
<Absorption test method>
The test method is shown in FIG. The test samples 41 of Examples 1 to 5 and Comparative Example 1 are placed on a flat test table 40, and 3 g of the artificial menstrual blood 43 is obtained at a rate of 90 g / min using the autoburette 42. The time until the artificial menstrual blood became invisible from the surface of the test sample was measured as the first absorption speed.
[0171]
Next, 30 seconds after the first measurement, 4 g of the artificial menstrual blood was dropped at the same location of the test sample 41 at a rate of 95 g / min, and the artificial menstrual blood was dropped from the surface of the test sample. The time until blood disappeared was measured as the second absorption speed.
[0172]
Next, 30 seconds after the second measurement, 3 g of the artificial menstrual blood was dropped at the same location of the test sample 41 at a speed of 90 g / min, and the artificial blood was dropped from the surface of the test sample. The time until menstrual blood disappeared was measured as the third absorption speed.
[0173]
In the artificial menstrual blood, 8 g of carboxymethylcellulose sodium salt (NaCMC), 80 g of glycerin, 10 g of NaCl, and 34 g of NaHCO3 are mixed and stirred with 1 liter of ion-exchanged water, and further colored with a red pigment. We used what we did.
[0174]
After measuring the absorption speed for the third time, the width and length of the artificial menstrual blood spread on the surface sheet of each test sample were visually measured to measure the diffusion state of the artificial menstrual blood. The experimental results are shown below.
[0175]
[Table 1]

[0176]
  As shown in Table 1, Example 1And Reference Examples 1 to 4Then, compared with the comparative example 1, it turned out that the width dimension and length dimension of the artificial menstrual blood which spread | diffused to the surface sheet are small, and the absorption speed with respect to the artificial menstrual blood of the said absorbent article is quick.
[0177]
  Example 1And Reference Examples 1 to 4In either case, the surface sheet A or the surface sheet B made of an air-through nonwoven fabric in which water-repellent fibers and hydrophilic fibers are mixed at a predetermined ratio is used as the surface sheet. On the other hand, in Comparative Example 1, the surface sheet C of an air-through non-woven cloth made only of hydrophilic fibers is used. From this experiment, water repellent fibers and hydrophilic fibers are mixed at a predetermined ratio as the surface sheet. It has been found that the use of the surface sheet can appropriately suppress the diffusion of the excretory liquid into the surface sheet and can increase the speed of the excretory liquid passing through the surface sheet.
[0178]
  Example 1And Reference Examples 1 to 3, And Comparative Example 1 both have the liquid permeation holes 15 in the surface sheet 33 of the central absorption region,referenceExample4Is not provided with the liquid permeation hole 15,referenceExample4From the evaluation results of the above, even if the liquid permeation hole 15 is not provided, the surface sheet 33 is formed by mixing the hydrophilic fiber and the water-repellent fiber, so that the excretion liquid to the surface sheet is compared with Comparative Example 1. It was found that the diffusion can be appropriately suppressed and the speed at which the excretory liquid permeates the top sheet can be increased.
[0179]
【The invention's effect】
As described above, according to the present invention, the excretory liquid provided on the top sheet can be quickly drawn and permeated, the liquid can be prevented from diffusing on the top sheet, and side leakage can be effectively prevented.
[0180]
Further, in the absorbent article of the present invention, the excretory fluid discharged from the vaginal opening is spot-absorbed without diffusing, so that the excretory fluid diffuses on the surface of the absorbent article and this is the vagina in the crotch region. It is possible to prevent the phenomenon of re-adhering to a part other than the mouth, and it is difficult to cause discomfort due to the excretion fluid re-adhering to the body.
[0181]
Therefore, for example, when applied to a type in which the central absorption region sandwiched between the crimping portions is formed in a protruding shape and the portion is in close contact with the vaginal opening, the excretory fluid in the central absorption region in close contact with the vaginal opening Is absorbed in a spot manner, and it becomes difficult for the excretory liquid to diffuse around the close contact portion, and the advantages of the close contact type can be utilized.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a sanitary napkin according to a first embodiment of an absorbent article of the present invention;
FIG. 2 is a plan view of the sanitary napkin shown in FIG.
FIG. 3 is a cross-sectional view of the sanitary napkin shown in FIGS.
4A is an enlarged view of a central absorption region of the cross-sectional view shown in FIG. 3, and FIG. 4B is an enlarged view of an auxiliary absorption region.
FIG. 5A is a fiber structure constituting a top sheet.Basic structure(B) is a partially enlarged perspective view further enlarging (A),
6 (A) and (B) have a hydrophilic gradient in the thickness direction.Embodiment of the present inventionSectional drawing which shows an example of a surface sheet,
FIG. 7 is a sectional view showing a deformed state when the sanitary napkin is worn on the body;
FIG. 8 is an enlarged plan view showing an open state of the liquid permeable hole,
FIG. 9 is a cross-sectional view showing a sanitary napkin according to a second embodiment;
FIG. 10 is a cross-sectional view showing a sanitary napkin according to a third embodiment;
FIG. 11 is a sectional view showing a sanitary napkin according to a fourth embodiment;
FIG. 12 is a cross-sectional view showing a sanitary napkin according to a fifth embodiment;
13 is a cross-sectional view for explaining the layer structure of the absorbent article of Example 1. FIG.
14 is a cross-sectional view for explaining the layer structure of the absorbent articles of Examples 2, 3, 5 and Comparative Example 1. FIG.
15 is a cross-sectional view for explaining the layer structure of the absorbent article of Example 4, FIG.
FIG. 16 is a partial plan view showing a formation pattern of liquid permeation holes and embossing of the absorbent article of Example 4,
FIG. 17 is an explanatory diagram of an absorption test method;
[Explanation of symbols]
1, 1A, 1B, 1C, 1D sanitary napkin
2, 30 Back sheet
3 Lower layer absorber
4 Upper layer absorber
5, 32 Liquid guide layer
6, 6A, 6B, 33 Surface sheet
9, 90, 190 Crimp part
11 Central absorption area
15 Liquid passage hole
20 Hydrophilic fiber
21 Water repellent fiber
22 Air gap
35 First liquid guide layer
36 Second liquid guiding layer
37 Embossed

Claims (7)

In the absorbent article in which the intermediate layer is provided between the back sheet and the liquid-permeable top sheet,
At least a portion of said surface sheet is formed by liquid-permeable air-through nonwoven fabric and the hydrophilic fibers and water-repellent fibers are mixed,
The top sheet has a first surface facing the body and a second surface facing the intermediate layer, and the water repellent fiber occupancy rate on the first surface is the water repellency on the second surface. Formed higher than the fiber occupancy,
The absorbent article, wherein the water repellent fiber is one or both of a fiber having a surface coated with a water repellent oil and a synthetic fiber having a water repellent oil mixed in the fiber.   The absorbent article according to claim 1, wherein the nonwoven fabric is formed by joining the fibers to form a skeleton in which each fiber extends in a three-dimensional direction, and voids are formed between the fibers.   The hydrophilic fiber is at least one of a synthetic fiber having a surface coated with a hydrophilic oil agent, a synthetic fiber having a hydrophilic oil agent mixed therein, a natural fiber, and a regenerated cellulose fiber. The absorbent article as described.   The absorbent article according to any one of claims 1 to 3, wherein the water-repellent oil is one of a silicone-based oligomer, an acrylate polymer of alcohol containing a perfluoroalkyl group, and a fluorine-based oligomer.   The absorbent article according to any one of claims 1 to 4, wherein a mass ratio of the hydrophilic fiber to the water-repellent fiber is in a range of 95: 5 to 50:50.   The absorbent article according to any one of claims 1 to 5, wherein the fineness of the hydrophilic fiber and the water-repellent fiber is within a range of 1.1 dtex to 6.6 dtex. The absorbent article according to any of the basis weight of the surface sheet formed in the nonwoven fabric, claims 1 is in the range of ^{15g / m 2 ~120g / m 2} 6.

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