JP3223899U - Absorbent articles - Google Patents

Abstract

The present invention provides an absorbent article that solves multiple folds and crevices at the same time and suppresses side leakage of excretory fluid at a higher level. A longitudinal direction (Y direction) having a top sheet 1, a back sheet 2 and an intermediate layer 3 and arranged along a direction connecting the abdomen, crotch and dorsal side of the wearer; It is an absorbent article having a transverse direction (X direction) orthogonal to the longitudinal direction, and the topsheet 1 has ridges 4 and grooves 5 extending in the longitudinal direction (Y direction) alternately in the transverse direction (X direction). The embossed portions 7 are arranged in a lattice shape extending obliquely with respect to the vertical direction (Y direction) and the horizontal direction (X direction). Have [Selection] Figure 1

Description

  The present invention relates to an absorbent article.

In absorbent articles such as sanitary napkins, the material and structure of each member have been improved to improve its function and wearing feeling.
For example, Patent Document 1 describes an absorbent article in which a surface sheet that forms a skin contact surface has a concavo-convex structure including streak-like ridges and recesses, and an absorbent body is provided with a highly flexible region. ing. The highly flexible region is formed of an embossed compressed portion and is disposed corresponding to the concave portion. Thereby, an absorbent article is easy to follow the shape change of a wearer's skin surface, and it is supposed that it is hard to produce a twist in an absorber. Moreover, the absorbent article described in Patent Document 2 has a concavo-convex structure in which the surface sheet is provided with streak-like ridges and depressions from the viewpoint of suppressing unintended wrinkles, and the low basis weight part of the absorbent body is the above-mentioned It is arranged to overlap the top of the ridge.
Patent Document 3 describes that, from the viewpoint of making an absorbent article soft and difficult to knead, the absorbent body is embossed with thermoplastic resin fibers, and the absorbent body is bonded to the skin side and clothing side layers. Has been.
Patent Document 4 discloses an absorbent article in which an absorber pressing portion is arranged in a lattice shape on an absorber and a surface sheet pressing portion is arranged on a top sheet from the viewpoint of suppressing the thickness of the absorber and suppressing the return of body fluid. Is described. A surface sheet pressing part is made into the arrangement pattern different from an absorber pressing part, and is set as the arrangement which overlaps with the small field divided by an absorber pressing part.

Japanese Patent Laid-Open No. 2006-77900 JP, 2006-77577, A JP 2006-123627 A JP2013-141A

When the absorbent article is worn, various twists may occur due to changes in the wearer's body shape, thigh pressure, or the like. For example, the clothing side surface may be rolled while being rolled on the top sheet around the side of the absorbent article (hereinafter also referred to as “mekure”). In addition, there is a twist (hereinafter also referred to as “multiple folding”) that the product width becomes narrower than that at the time of mounting due to repeated deep folds in the thickness direction, repeated mountain folds, and valley folds. Such twist is an obstacle to the absorption of excretory fluid through the top sheet. In addition, unintended liquid flow on the surface of the surface sheet is caused by twisting, which may cause side leakage of excreted liquid.
One of the countermeasures against multiple folds is to apply the embossing described in Patent Documents 3 and 4 to the absorber. However, even in this case, the suppression of mekre formed around the side portion of the absorbent article was not fully satisfactory. Moreover, in the absorbent articles described in Patent Documents 1 and 2, the absorbent body is easily deformed along the uneven structure of the topsheet and easily fits on the skin, while the above-described various modes of restraint are not sufficiently satisfactory. There wasn't.

  In view of the above points, the present invention relates to the provision of an absorbent article that solves multiple folds and creakings at the same time and suppresses lateral leakage of excretory fluid at a higher level.

  The present invention has a top sheet on the skin contact surface side, a back sheet on the non-skin contact surface side, and an intermediate layer disposed between the top sheet and the back sheet. An absorbent article having a longitudinal direction arranged along a direction connecting the crotch part and the back side part and a lateral direction orthogonal to the longitudinal direction, wherein the top sheet extends in the longitudinal direction And groove portions are alternately arranged in the lateral direction on both sides of the lateral direction, and the intermediate layer is arranged in a lattice shape extending obliquely with respect to the longitudinal direction and the lateral direction. An absorbent article having an embossed portion is provided.

  The absorbent article of the present invention can solve multiple folds and creakings at the same time, and can suppress lateral leakage of excretory fluid at a higher level.

It is the partially notched perspective view which showed typically the panty liner as one preferable embodiment of the absorbent article of this invention. It is the partially notched top view which looked at the panty liner of this embodiment from the skin contact surface side. FIG. 3 is an enlarged sectional view taken along line III in FIG. 1. It is a partially expanded sectional view which shows typically the groove structure of a surface sheet.

  The absorbent article of the present invention will be described below with reference to the drawings based on a panty liner as a preferred embodiment. However, the absorbent article of the present invention is not limited to the panty liner of the embodiment shown below, and can be applied to various items such as sanitary napkins, incontinence pads, incontinence liners, diapers, urine collection pads, and the like. .

  In the present invention, unless otherwise noted, the side relatively close to the human body when worn is called the skin surface side, the skin contact surface side or the surface side, and the opposite side, the side far from the human body. It is called a non-skin surface side, a non-skin contact surface side or a back surface side. The direction positioned on the front side of the human body when worn is referred to as the front, and its end is referred to as the front end, and the direction positioned on the rear is referred to as the rear, and the end is referred to as the rear end. The direction connecting the front end portion and the rear end portion, that is, the direction connecting the wearer's stomach side portion, crotch portion and back side portion is referred to as the longitudinal direction (Y direction) of the absorbent article. A direction orthogonal to the vertical direction is referred to as a horizontal direction (X direction). Moreover, the normal line direction of the surface or back surface of an absorbent article is called thickness direction, and the quantity is called thickness.

1, FIG. 2 (A) and FIG. 3 show a panty liner 10 of the first embodiment.
The panty liner 10 includes a top sheet 1 on the skin contact surface side, a back sheet 2 on the non-skin contact surface side, and an intermediate layer 3 disposed between the top sheet 1 and the back sheet 2. The topsheet 1 is joined to the backside of the intermediate layer 3 by a joining means such as heat sealing or ultrasonic sealing, or a combination of a hot melt adhesive, outside the periphery of the intermediate layer 3. The top sheet 1 is liquid permeable and the back sheet 2 is hardly liquid permeable. “Liquid-permeability” means a property that hardly allows liquid to pass through, and includes waterproofness, water repellency, and liquid impermeability. On the non-skin contact surface side of the back sheet 2, an adhesive part (not shown) for fixing to underwear such as shorts is disposed.

  The topsheet 1 has a ridge groove structure 6 in which ridge portions 4 and groove portions 5 extending in a stripe shape in the vertical direction (Y direction) are alternately arranged in the horizontal direction (X direction). The ridge groove structures 6 are arranged on both sides in the lateral direction (X direction). These both sides are regions outside the region corresponding to the excretion part of the wearer in the lateral direction and include both sides 38, 38 of the intermediate layer 3. More specifically, with respect to the shortest lateral length M2 of the panty liner 10, the lateral direction in the range of the lateral length M1 is preferably 30%, more preferably 50%, centering on the center line in the lateral direction (X direction). This is a laterally outer region (region of lateral length M3) excluding the center. The ridge groove structure 6 is disposed on both lateral sides of the top sheet 1 and is disposed over the entire length of the panty liner 10 in the longitudinal direction (Y direction). Further, the region in the center in the lateral direction does not have the groove structure 6 and has a flat shape.

By disposing the heel groove structure 6 on both sides in the lateral direction, it is possible to prevent the clothes side surface from being rolled over the top sheet around the side portion of the panty liner 10 (mekure). This is because the ridge groove structure 6 gives elasticity to both lateral sides of the topsheet 1. That is, both sides in the lateral direction of the topsheet 1 have mobility and shape recovery along the ridges with respect to external forces, and can effectively suppress the occurrence of the above-mentioned melee. Further, the groove structure 6 is arranged on both sides in the lateral direction to suppress the spread of the external force applied in the lateral direction to the center in the lateral direction, and effectively prevents various twists in the flat region at the center in the lateral direction of the topsheet 1. Can be suppressed.
As a result, various twists that obstruct liquid permeation in the top sheet 1 are eliminated, and rapid liquid absorption is realized. Moreover, the liquid flow which is not intended can be suppressed effectively. Even if a situation occurs in which the excretory fluid diffuses outward in the lateral direction on the top sheet 1, the groove structure 6 prevents lateral leakage from the side of the panty liner 10. Furthermore, the grooving structure 6 allows the excretion liquid to pass through the intermediate layer 3 quickly while diffusing in the longitudinal direction (Y direction). Thereby, as for the panty liner 10, the absorptive fluid absorbability increases with the defense against a side leak.

The intermediate layer 3 is a layer having a function of absorbing and holding excretory fluid that is transmitted from the top sheet 1. In the use of the panty liner 10, the thickness of the intermediate layer 3 is made thinner than other absorbent articles such as sanitary napkins and diapers. Still, from the viewpoint of the function of absorbing and holding the excretory fluid, the thickness is made thicker than the top sheet 1 that allows the excretory fluid to pass through quickly. The thickness of the intermediate layer 3 is preferably 0.1 mm to 4.0 mm, more preferably 0.2 mm to 3.0 mm, and the basis weight is preferably 10 g / m ^{2 to} 100 g / m ^2. More preferably, it is 20 g / m ² or more and 80 g / m ² or less.

  The intermediate layer 3 has at least a liquid-retaining absorbent 31 and is composed of the absorbent 31 and an intermediate sheet 32 that covers the skin contact surface side of the absorbent 31 in this embodiment. The intermediate sheet 32 is a member that promotes the transition to the absorber 31 while spreading the excretory liquid that is transmitted from the top sheet 1 in the surface direction. The intermediate sheet 32 can suppress settling when the absorber 3 that is the liquid holding unit holds the liquid. Therefore, it is preferable to have the intermediate sheet 32 from the viewpoint of suppressing various twists. Further, when the intermediate sheet 32 is made of a nonwoven fabric, the restoring force against compression is higher than that of paper or the like, and the effect of suppressing twisting is further increased.

  The intermediate layer 3 includes embossed portions 7 arranged in a lattice shape extending obliquely with respect to the vertical direction (Y direction) and the horizontal direction (X direction). The embossed part 7 is a part obtained by squeezing a member in the thickness direction by embossing, and is also referred to as a squeezed part. The embossed portions 7 are arranged in a lattice shape in the plan view of the intermediate layer 3. “Lattice shape” means a shape in which a plurality of squares drawn by the embossed portions 7 are connected and regularly arranged. Adjacent quadrangles share a vertex 71 and a side 72, and the directions of the sides 72 of the quadrangle are aligned. Thereby, each quadrangle is arranged side by side in the direction (two directions) in which the sides 72 of the adjacent quadrangle are connected. The “lattice shape extending obliquely with respect to the vertical direction (Y direction) and the horizontal direction (X direction)” means that the direction (two directions) in which adjacent quadrangular sides 72 are connected is the vertical direction (Y direction) and It means an oblique direction with respect to the horizontal direction (X direction). At this time, it is preferable that the directions (two directions) connecting the vertices 71 arranged opposite to each other constituting the quadrangle are directions along the vertical direction (Y direction) and the horizontal direction (X direction).

  The embossed portion 7 can take various forms as long as the embossed portion 7 is arranged so as to form the square side 72 described above. For example, the embossed portion 7 may be linear to form a square side 72. Further, a plurality of the embossed portions 7 may be arranged in the form of dots or broken lines to form a square side 72. In the case of a dot shape, the shape of one point can be various. For example, a geometric shape such as a circle, a triangle, or a rectangle, or a shape imitating the shape of an object such as a star or an animal can be used.

  The embossed portion 7 has a lattice-like arrangement extending in an oblique direction with respect to the vertical direction (Y direction) and the horizontal direction (X direction), thereby allowing an oblique direction with respect to the horizontal direction (X direction) of the intermediate layer 3. It becomes a flexible axis. Here, the flexible shaft refers to an axis that serves as a base point where the article is bent back (hereinafter the same applies in this specification). Thereby, in the panty liner 10, the drag force repelling against the compression from the lateral direction (X direction) is increased. Moreover, since the embossed part 7 which becomes a flexible shaft is a compacted part formed by pressing the member, the planar shape of the intermediate layer 3 is maintained by the arrangement of the embossed parts 7 extending in a lattice shape. It is attached to. Thereby, the intermediate | middle layer 3 has high shape recovery property when deform | transforming. Thereby, in the panty liner 10, multiple folding between the top sheet 1 and the intermediate layer 3 is difficult to occur.

  The embossed portions 7 arranged in the above-described lattice shape may be applied from either the skin contact surface side or the non-skin contact surface side of the intermediate layer 3, but sufficient suppression of multiple folding of the panty liner 10 is possible. From this point of view, it is preferably at least on the skin contact surface side of the intermediate layer 3. At this time, the repulsion resistance force and the shape recovery force of the intermediate layer 3 by the embossed portions 7 arranged in a lattice shape can act so that the shape recovery force of the groove structure 6 of the top sheet 1 is further increased.

In addition, the embossed portions 7 arranged in a lattice form are on the skin contact surface side of the intermediate layer 3, thereby providing a liquid diffusion path. This is because the embossed portion 7 is recessed in the thickness direction, and the fiber density is increased by squeezing more than other portions and the capillary force acts strongly. As a result, the excretory fluid spreads in the vertical direction Y and the horizontal direction X at the center in the lateral direction where there is no grooving structure 6 on the top sheet 1, and can move to the absorber 31 little by little over a wide area. At this time, since the panty liner 10 is shorter in the horizontal direction X than in the vertical direction Y, it can be said that there is a relative risk of side leakage. However, in the panty liner 10, the excretory fluid that flows laterally outward from the lateral center is rapidly permeated in a wide range in the longitudinal direction (Y direction) by the ridge groove structure 6, while the skin contact of the intermediate layer 3. As soon as it reaches the surface side, it diffuses in an oblique direction with respect to the vertical direction (Y direction) and the horizontal direction (X direction). That is, the excretory fluid returns to the center while diffusing in the vertical direction from both lateral sides. As a result, the excretory liquid is efficiently absorbed and held by using the wide region of the intermediate layer 3 by the groove structure 6 of the top sheet 1 and the embossed portions 7 arranged in a lattice pattern of the intermediate layer 3.
In addition, this linked liquid absorption and retention effectively suppresses melee and multiple wrinkles by combining the topsheet 1 having the groove structure 6 and the intermediate layer 3 having the embossed portions 7 arranged in a lattice pattern. It can be expressed more effectively and continuously during wearing.

  In the present embodiment, the embossed portion 7 is disposed at the same position on the skin contact surface side of the intermediate sheet 32 and the non-skin contact surface side of the absorber 31. The intermediate sheet 32 and the absorber 31 are integrated by the embossed portions 7 on both sides. Thereby, the flexible axis in the oblique direction with respect to the lateral direction (X direction) becomes clearer, and the drag force and the shape recovery force that repel the compression of the intermediate layer 3 from the lateral direction (X direction) are further increased. .

  As described above, when the intermediate layer 3 is composed of a plurality of layers, the embossed portion 7 is preferably disposed at least on the skin contact surface side of the layer closest to the skin contact surface side. The layers other than the layer closest to the skin contact surface may be an embodiment without the embossed portion 7 or may be an embodiment in which the embossed portion 7 is provided for each layer. For the layers other than the layer closest to the skin contact surface, the embossed portion 7 may be present in any layer on the skin contact surface side and the non-skin contact surface side. However, from the viewpoint of more effectively suppressing multiple folds, it is more preferable that the embossed portion 7 connects two or more layers, and it is more preferable that the entire intermediate layer 3 is integrated in the thickness direction.

Next, a preferable relationship between the groove structure 6 of the top sheet 1 and the embossed portions 7 arranged in a lattice pattern of the intermediate layer 3 will be described.
Diagonal length P2 in the lateral direction (X direction) of the embossed portions 7 arranged in a lattice pattern of the intermediate layer 3 is the pitch P1 (arrangement interval between the ridge portions 4 or arrangement interval between the groove portions 5) of the ridge groove structure 6. Is preferably shorter (see FIGS. 2 and 3). The diagonal length P <b> 2 here means the distance between the vertices 71 aligned in the horizontal direction (X direction) in the quadrangle formed by the arrangement of the embossed portions 7. When the pitch P1 of the groove structure 6 is shorter than the diagonal length P2, the elasticity of the topsheet 1 is increased. Thereby, conventionally, it is possible to more effectively suppress the mesh that could not be prevented simply by arranging the embossed portion in the intermediate layer.

  Moreover, it is preferable that the surface sheet 1 and the skin side surface of the intermediate | middle layer 3 are joined by heat sealing | fusion or hot melt, and it is more preferable that they are joined by heat sealing | fusion. In the present embodiment, the top sheet 1 and the intermediate sheet 32 are joined by thermal fusion. Moreover, since the intermediate sheet 32 and the absorber 31 are joined by the embossing part 7, it has the structure where the surface sheet 1, the intermediate sheet 32, and the absorber 31 were integrated. Various methods that are usually used can be adopted as a method of heat fusion, and examples thereof include heat embossing and ultrasonic embossing. Thereby, the surface sheet 1 and the skin surface side of the intermediate layer 3 are not easily peeled even during liquid absorption, and the suppressive power of the occurrence of melee is kept higher. In particular, it is preferable that there is a portion where the groove portion 5 of the topsheet 1 is joined to the embossed portion 7 of the intermediate layer 3 from the viewpoint of preventing various twists. Further, the portion where the groove portion 5 of the topsheet 1 is joined to the embossed portion 7 of the intermediate layer 3 (the portion where the groove portion 55 enters and is joined to the embossed portion 7 shown in FIG. 3) This is preferable because the fiber density is higher than that of the portion and can contribute to the improvement of liquid permeability from the topsheet 1 to the intermediate layer 3. Further, the excretory fluid transfer route can be shortened, and the fluid can be quickly absorbed and retained. Further, from the viewpoint of liquid permeability, it is preferable that the joint portion by heat fusion is intermittently arranged in the vertical direction and the horizontal direction.

The ridge groove structure 6 of the topsheet 1 preferably has the following fiber density structure.
As described above, the ridge groove structure 6 is formed by alternately arranging the ridge portions 4 and the groove portions 5 in the lateral direction (X direction). As shown in FIG. 4, the topsheet 1 has a thickness from the ridge portion 4 to the groove portion 5 due to the unevenness formed by the ridge groove structure 6. In such a ridge groove structure 6, the thickness is divided into three equal parts, and is divided into a top portion 41 of the most skin-side ridge portion 4, a bottom portion 51 of the most non-skin-side groove portion 5, and an intermediate portion 61 that connects the two. In some cases (see FIG. 4), the fiber density of the intermediate portion 61 is preferably smaller than the fiber density of the top portion 41 of the flange portion 4 and the bottom portion 51 of the groove portion 5. Thereby, the gutter groove structure 6 becomes easier to move with the intermediate portion 61 as a flexible shaft, and can be more effectively suppressed against twisting caused by various external forces. In addition, the intermediate part 61 with a low fiber density is where the excretory fluid permeation resistance is smaller than the top part 41 of the heel part 4 and the bottom part 51 of the groove part 5. Therefore, the intermediate part 61 can contribute to quick liquid transfer even in a state where the topsheet 1 receives an external force. The method for measuring the fiber density is as follows.

[Measurement Method of Fiber Density at Top 41, Bottom 51 or Intermediate 61]
The nonwoven fabric is cut using a feather razor (part number FAS-10, manufactured by Feather Safety Razor Co., Ltd.), and the fiber density at the top 41 is above when the thickness of the cut surface of the nonwoven is divided into three equal parts in the Z direction. The vicinity of the apex of the apex 41, which is a part of the above, is enlarged and observed using a scanning electron microscope (adjusted to a magnification capable of measuring 30 to 60 fiber cross-sections; 150 to 500 times), and per unit area (0.5 mm ² ). The number of cross sections of the fibers cut by the cut surface is counted. Next, it is converted into the number of cross-sections of fibers per 1 mm ² , and this is defined as the fiber density at the top 41. The measurement is performed at three locations, and the average is the fiber density of the sample. Similarly, the fiber density at the bottom 51 is obtained by measuring the vicinity of the bottom of the bottom 51, which is the lower part when the thickness of the cut surface of the nonwoven fabric is equally divided into three in the Z direction. Similarly, the fiber density of the intermediate part 61 is determined by measuring the central part when the thickness of the cut surface of the nonwoven fabric is equally divided into three in the Z direction. As a scanning electron microscope, JCM-5100 (trade name) manufactured by JEOL Ltd. is used.

  Moreover, as for the surface sheet 1, as shown in FIG. 4, it is preferable that the inside of the collar part 4 is hollow (henceforth a hollow part). This hollow portion is a space between the flange portion 4 and the intermediate layer 3 on the non-skin contact surface side. Thereby, as for the surface sheet 1, the movement which utilized the flexible axis | shaft by the both-sides groove structure 6 becomes softer, the absorbability of external force is improved, and a twist can be suppressed more effectively. Moreover, the hollow part of the collar part 4 becomes a buffer area | region of the excretion liquid permeate | transmitted from the surface sheet 1, and is effective for liquid return suppression. Furthermore, the hollow part of the collar part 4 can accelerate | stimulate the spreading | diffusion of the excretion liquid to a vertical direction (Y direction) with the embossed part 7. FIG.

  As a material for the top sheet 1, those usually used for this type of article can be used without particular limitation as long as they have liquid permeability. In consideration of the touch, a hydrophilic nonwoven fabric is preferable, a thermal bond nonwoven fabric is more preferable, and an air-through nonwoven fabric is particularly preferable. It is preferably a thermoplastic resin fiber that has been subjected to a hydrophilic treatment, and the fiber is a fiber that has undergone a three-dimensional crimp such as a secondary crimp or a tertiary crimp. Specifically, polyethylene, polypropylene, polyester, nylon, and composite fibers thereof are prepared, and various hydrophilizing agents are applied at a stage before cutting into a predetermined length to form staples. Hydrophilic agents include various alkyl sulfonates represented by α-olefin sulfonates, acrylates, acrylate / acrylamide copolymers, ester amides, ester amide salts, polyethylene glycol and derivatives thereof, water-soluble Hydrophilic treatment with a commonly used hydrophilizing agent such as a basic polyester resin, various silicone derivatives, various sugar derivatives, and mixtures thereof can be used.

  The groove structure 6 of the top sheet 1 can be formed by various methods used for this type of article. For example, when forming an air-through nonwoven fabric, it may be shaped by hot air using a support corresponding to the ridges, or fibers may be selected by water flow. Moreover, after forming into a nonwoven fabric, it may be shaped by meshing between a pair of tooth space rolls. In the case of using a tooth gap roll, for example, there is a method described in paragraphs [0048] to [0065] of JP-A-2006-79529. By this tooth groove processing, it is easy to form a configuration in which the fiber density of the intermediate portion 61 is smaller than the fiber density of the top portion 41 of the flange portion 4 and the bottom portion 51 of the groove portion 5. It is preferable that the high-stretch fiber described in paragraphs [0016] to [0028] of the same document is included as the material for the non-woven fabric to be processed with tooth gaps.

As the material for the intermediate layer 3, those used for this type of article can be used without particular limitation.
From the viewpoint of satisfactorily forming the embossed portions 7 arranged in the above-described lattice shape, and from the viewpoint of forming good bonding by thermal fusion between the topsheet 1 and the intermediate layer 3, the intermediate layer 3 is made of a heat-fusible fiber. It is preferable to include. The heat-fusible fiber is preferably hydrophilic. Examples of the heat-fusible fiber include polyethylene fiber, polypropylene fiber, polyethylene terephthalate and polyethylene, and composite fiber having a core-sheath structure or a side-by-side structure in which polypropylene and polyethylene are combined.

  The intermediate layer 3 preferably contains heat-shrinkable fibers. As a result, the elasticity and shape recoverability of the intermediate layer 3 are enhanced, making it difficult to twist. A heat-shrinkable fiber is a fiber that has developed shrinkage such as crimping by heat treatment. Examples of the raw material fibers to be heat-treated include those made of an eccentric core-sheath type or side-by-side type composite fiber containing two types of thermoplastic polymer materials having different shrinkage rates as components.

  As the intermediate sheet 32 constituting the intermediate layer 3 of the present embodiment, a commonly used material can be adopted, and those having hydrophilicity and excellent liquid diffusibility are preferable. As described above, from the viewpoint of increasing the restoring force against compression, it is preferably made of a nonwoven fabric. It is more preferable to include the above-mentioned heat-sealing fiber and heat-shrinkable fiber. As a nonwoven fabric, the nonwoven fabric obtained by various manufacturing methods can be used. For example, an air-through nonwoven fabric in which heat-bonding points between fibers are formed on a fiber web obtained by the card method or airlaid method, and a heat-bonding point between fibers is formed on a fiber web obtained by the card method by a heat roll method. Various nonwoven fabrics such as heat roll nonwoven fabric, heat embossed nonwoven fabric, spun lace nonwoven fabric, needle punched nonwoven fabric, and resin bonded nonwoven fabric can be used.

As the absorber 31 constituting the intermediate layer 3, those used for this type of article can be used without particular limitation as long as they have liquid retention. It is more preferable to include the above-mentioned heat-sealing fiber and heat-shrinkable fiber. Thereby, even when the absorbent body 31 swells in a state where the excretory liquid is absorbed and retained, the deformation of the shape can be suppressed, and the shape retainability and the shape recoverability against external force can be improved.
The absorber 31 includes, for example, an absorbent core and a core wrap sheet that covers the outer periphery, and a thin absorbent sheet. The absorbent body 31 of the panty liner 10 is preferably an absorbent sheet in the form of a thin sheet. Examples of the material that absorbs and holds the liquid in the absorbent body 31 include hydrophilic fibers such as pulp, cotton, rayon, and lyocell, and a superabsorbent polymer (SAP). However, when the superabsorbent polymer (SAP) is contained, a hard part is generated in the absorbent body 31, and this part can be broken and become a starting point. Therefore, from the viewpoint of preventing multiple folding of the intermediate layer 3, it is preferable not to include a superabsorbent polymer (SAP). In this case, examples of the absorbent sheet for panty liner include airlaid nonwoven fabric formed using pulp fibers and spunlace nonwoven fabric formed by hydroentanglement using hydrophilic fibers and pulp fibers. The absorbent body 31 may be composed of a single absorbent sheet, may be a laminate of a plurality of absorbent sheets, or may be a multilayer structure obtained by folding a single absorbent sheet.

In the panty liner 10, the thickness of the absorber 31 is preferably 0.1 mm or greater and 3 mm or less, and more preferably 0.3 mm or greater and 2 mm or less. The thickness of the absorber 31 can be measured by the following method.
The thickness T is measured using a peacock precision measuring instrument (model R1-C) which is a micrometer having two parallel pressing surfaces (a fixed pressing surface and a movable pressing surface). The diameter of the measuring element movable pressing surface is 5 mm, and the pressure is 100 kPa or less. The size of the test specimen for measurement is not less than the size of the following plate. A 20 mm × 20 mm plate (mass 5.4 g) is placed on the test piece, the measuring element movable pressurizing surface is operated at a speed of 2 mm / s, applied to the plate, and the value immediately after stabilization is read. The pressure between the pressing surfaces (pressure applied to the test piece) is 1.3 kPa or less.

  As the back sheet 2, those used for this type of article can be used without particular limitation as long as they have poor liquid permeability. For example, a film is formed by melt-kneading a hydrophobic thermoplastic resin and a fine inorganic filler made of calcium carbonate or the like or an incompatible organic polymer, and the film is obtained by uniaxial or biaxial stretching. And a porous film. Examples of the thermoplastic resin include polyolefin. Examples of the polyolefin include high to low density polyethylene, linear low density polyethylene, polypropylene, polybutene and the like, and these can be used alone or in combination.

DESCRIPTION OF SYMBOLS 1 Top sheet 2 Back sheet 3 Intermediate layer 31 Absorber 32 Intermediate sheet 4 Gutter part 41 Gutter part top part 5 Gutter part 51 Groove part bottom part 6 Gutter structure 61 Intermediate part 7 Embossed part 10 Panty liner

Claims (12)

A skin contact surface side surface sheet, a non-skin contact surface side back sheet, and an intermediate layer disposed between the top sheet and the back sheet; An absorbent article having a longitudinal direction arranged along a direction connecting the back side portions and a lateral direction orthogonal to the longitudinal direction,
The top sheet has a ridge groove structure in which the ridges and grooves extending in the vertical direction are alternately arranged in the horizontal direction on both lateral sides, and the intermediate layer is formed in the vertical direction and the horizontal direction. An absorbent article having embossed portions arranged in a grid extending in an oblique direction.   The absorptive article according to claim 1 in which the embossed part arranged in the lattice form exists in the skin contact surface side of said intermediate layer.   The absorptive article according to claim 1 or 2 whose pitch of said ridge part and said slot of said surface sheet is shorter than the diagonal length of the transverse direction of said embossed part arranged in said lattice form of said intermediate layer.   The said groove | channel structure of the said surface sheet WHEREIN: The density of the intermediate part which connects the top part of the said collar part and the bottom part of the said groove part is smaller than the density of the top part of the said collar part, and the bottom part of the said groove part. The absorbent article according to any one of the above.   The absorbent article according to any one of claims 1 to 4, wherein the intermediate layer includes a liquid-retaining absorbent body and an intermediate sheet that covers the skin contact surface side of the absorbent body.   The absorbent article according to claim 5, wherein the intermediate sheet and the absorbent body are joined together by embossed portions arranged in the lattice shape.   The absorbent article according to claim 5 or 6, wherein the embossed portions arranged in a lattice shape are disposed at the same position on the skin contact surface side of the intermediate sheet and the non-skin contact surface side of the absorber. .   The absorbent article according to any one of claims 5 to 7, wherein the intermediate sheet is made of a nonwoven fabric.   The absorptive article according to any one of claims 5 to 8 in which said absorber does not contain superabsorbent polymer material.   The absorptive article according to any one of claims 1 to 9 in which said intermediate layer contains heat fusion fiber.   The absorptive article according to any one of claims 1 to 10 in which said intermediate layer contains heat contraction fiber.   The absorptive article according to any one of claims 1 to 11 in which said surface sheet and said intermediate layer are joined by heat fusion.

Images