JP2004344443A - Hydrolyzable absorbent article - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain an absorbent article having good hydrolyzable properties, and excellent in absorption characteristics for liquid and leakproof properties. <P>SOLUTION: A surface sheet 2 is a hydrolyzable nonwoven fabric. The first layer 21 is mainly composed of a hydrophobic fiber and the second layer 22 is mainly composed of a hydrophilic fiber. Fiber length of each fiber is equal to or less than 20 mm, and fibers are entangled with each other. A liquid 15 is attracted by hydrophilic force of the second layer 22, and passes through the first layer 21 quickly. In this constitution, the first surface 2a can be kept under a dry condition. When a large quantity of water is given, dispersion of the hydrophilic fiber of the second layer 22 is caused resulting in fast resolving of the surface sheet 2. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

【０１０９】
【表２】

【０１１０】
前記実施例１、実施例２、実施例８、実施例９、実施例１０のように、第１の繊維ウエッブ（第１の層）が疎水性繊維１００％で、第２の繊維ウエッブ（第２の層）が親水性繊維１００％であれば、目付けが５０ｇ／ｍ^２のときに、水解性に優れており、また触感評価が良好である。よって、水解性を維持するためには、目付けは３０〜７０ｇ／ｍ^２の範囲が好ましい。また、実施例３と実施例６および比較例１から、第１の層に親水性繊維が４０質量％以下含まれていても、触感評価が良好であることが解り、実施例６から３０質量％以下がさらに好ましく、実施例３から１０質量％以下がさらに好ましいことが解る。
【０１１１】
また、実施例２、実施例４、実施例５、比較例２および比較例３から、第２の層に疎水性繊維が４０質量％以下含まれていても、水解時間を６００秒以下とすることができる。また好ましくは３０質量％以下であり、さらに好ましくは１０質量％以下であることも理解できる。
【０１１２】
【発明の効果】
以上のように本発明では、水解性が良好で、肌側表面に液残りが少なく、且つ液の吸収性が良好な吸収性物品、または裏面シート側から速やかに水解できる吸収性物品などを得ることができる。
【図面の簡単な説明】
【図１】第１の実施の形態の吸収性物品の本体の平面図、
【図２】図１に示す本体のＩＩ−ＩＩ線の断面図、
【図３】第２の実施の形態の吸収性物品の本体の平面図、
【図４】図２に示す本体のＩＶ−ＩＶ線の断面図、
【図５】包装シートで本体を包んだ状態を示す吸収性物品の断面図、
【図６】表面シートの拡大断面図、
【図７】表面シートの液の拡散状態を示す説明図、
【図８】裏面シートの断面図、
【図９】包装シートの断面図、
【図１０】蒸留水の吸い上げ試験の説明図、
【図１１】湿式レイヤーを用いた不織布の製造工程を説明する説明図、
【図１２】エアーレイヤーを用いた不織布の製造工程を説明する説明図、
【符号の説明】
１，１Ａ 本体
２ 表面シート
２ａ 第１の表面
２ｂ 第２の表面
３ 裏面シート
３ａ 第１の表面
３ｂ 第２の表面
４ 液吸収層
６ 感圧接着剤層
７ 離型シート
８ 包装シート
８ａ 第１の表面
８ｂ 第２の表面
１２ 樹脂フィルム
２１，３１，８１ 第１の層
２２，３２，８２ 第２の層[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to sanitary napkins and panty liners, or absorbent articles such as disposable diapers and urine absorbing pads used by mildly incontinent patients. Absorbent article.
[0002]
[Prior art]
Disposable absorbent articles, such as sanitary napkins, panty liners, and disposable diapers, are discarded as garbage after use, so that it takes a lot of man-hours and cost to collect and treat the garbage. Therefore, if the absorbent article is water-disintegrating (water-disintegrating), which is decomposed early by a large amount of water, when the used absorbent article is directly discarded in the flush toilet, the water pipe of the flush toilet is clogged. Without this, it can be decomposed in a septic tank in a short time.
[0003]
In order to manufacture a water-disintegratable absorbent article, it is necessary to form each element constituting the absorbent article with a water-disintegrable material. Here, the surface sheet that appears on the skin side surface of the absorbent article needs to allow menstrual blood and urine to pass through promptly, but when a liquid such as menstrual blood or urine is given and becomes wet. It is necessary to maintain the strength enough to maintain the sheet state with the force applied from the body. Moreover, when a large amount of water is given to the flush toilet, it is necessary to dissolve the water in a short time.
[0004]
As described above, it is necessary for the water-disintegrable surface sheet to maintain all of the liquid permeability, wet strength, and water-disintegrability in a well-balanced manner.
[0005]
For example, Patent Literature 1 below discloses a high-pressure water jet on a sheet composed of regenerated cellulose fiber and pulp fiber, or a sheet composed of regenerated cellulose fiber, synthetic fiber, and pulp fiber as a surface sheet used for a water-disintegratable absorbent article. A technique using a nonwoven fabric in which fibers are entangled by injecting a flow is disclosed. The topsheet has good liquid permeability and good water dissolvability when exposed to a large amount of water by increasing the area and number of holes formed in the nonwoven fabric and the area ratio of the holes. It is to try to.
[0006]
In addition, since the topsheet of the absorbent article directly touches the skin of the body, if the topsheet is easily wetted with the liquid, it tends to give a wet feeling and a sticky feeling to the crotch part of the body. Therefore, in the topsheet described in Patent Document 1, one side of the nonwoven fabric is subjected to a water-repellent treatment.
[0007]
[Patent Document 1]
JP-A-10-28702
[0008]
[Problems to be solved by the invention]
Since the surface sheet used for the absorbent article described in Patent Document 1 is mainly composed of regenerated cellulose fibers and pulp fibers, which are hydrophilic fibers, the hydrophilic fibers are also applied to the surface of the surface sheet. Many appear. Therefore, it is necessary to apply a water repellent to a wide area of the surface in order to give a dry feeling to the body by reducing the liquid residue on the surface. However, when the area to which the water repellent is applied becomes large, the liquid permeability of the topsheet deteriorates, and it is necessary to form a large opening in order to secure the liquid permeability. In addition, safety due to the contact of the water repellent with the skin of the body becomes a problem.
[0009]
Further, since the hydrophilic fibers are entangled in the entire topsheet, the entanglement between the hydrophilic fibers is easily loosened when the liquid is applied, and the wet strength is apt to decrease. Conversely, in order to increase the wet strength, it is necessary to increase the fiber length, and in this case, the rate of hydrolysis decreases. As described above, it is difficult for an entangled nonwoven fabric mainly formed of hydrophilic fibers to balance water degradability and wet strength. Furthermore, since a water repellent is applied to the surface, the water repellent functions to inhibit water dissolution, and it is difficult to realize water dissolution in a short time.
[0010]
Next, the back sheet facing the clothes side of the absorbent article is required to have a liquid blocking function. When constructing a water-disintegratable absorbent article, it is necessary to use a sheet having a liquid blocking function and decomposing in water in a short time. For example, a back sheet formed of a water-soluble film such as PVA (polyvinyl alcohol) has a function of stopping the flow of a liquid, but the PVA film has a reduced sheet strength when water is applied, and therefore, the absorbent sheet has It is not preferable to use it as a clothing exterior. Also, when the back sheet is made of a nonwoven fabric formed of hydrophobic fibers, it is difficult to disassemble the back sheet in water in a short time.
[0011]
An object of the present invention is to solve the above-mentioned conventional problems, and an object of the present invention is to provide a water-disintegratable absorbent article using a sheet that is easily hydrolyzed and has high wet strength.
[0012]
Another object of the present invention is to provide a water-decomposable absorbent article that has a small amount of liquid residue on the surface of a topsheet and easily gives a dry feeling to the skin.
[0013]
Further, another object of the present invention is to provide a water-disintegratable absorbent article in which the back sheet can exhibit a liquid blocking function and can be hydrolyzed in a short time.
[0014]
[Means for Solving the Problems]
The present invention relates to an absorbent article having a liquid-permeable top sheet that appears on the skin side surface and a water-decomposable back sheet that appears on the clothing side surface,
The topsheet is a water-disintegratable nonwoven fabric in which water-dispersible fibers having a fiber length of 20 mm or less are entangled, and has a first surface facing the skin side and a second surface facing the backsheet side. The first surface is characterized by the appearance of hydrophobic fibers and 40% by mass or less of hydrophilic fibers, and the second surface is characterized by the appearance of hydrophilic fibers and 40% by mass or less of hydrophobic fibers. Things.
[0015]
In the nonwoven fabric of the present invention, a large amount of hydrophobic fibers appear on the first surface, or the first surface is formed only of hydrophobic fibers, and a large amount of hydrophilic fibers appear on the second surface, or the second surface is hydrophilic. It is formed only of conductive fibers. The liquid applied to the first surface is attracted to the hydrophilic fibers on the second surface side, and the liquid is attracted to the second surface side while diffusion is suppressed on the first surface, and It becomes easier to diffuse on the surface side. Therefore, the liquid permeability is improved. In addition, since the liquid remaining on the first surface hardly occurs, a dry feeling is given to the body.
[0016]
Further, although the hydrophobic fibers are entangled on the first surface, the entanglement of the hydrophobic fibers is unlikely to be loosened even when a liquid is applied, so that the wet strength of the entire nonwoven fabric can be increased. In addition, when a large amount of water is provided after being discarded in the flush toilet, water enters between the hydrophilic fibers located on the second surface side, and the entanglement of the hydrophilic fibers is loosened by the force of the water flow, and this causes A part of the hydrophilic fibers starts to be dispersed, and the entanglement of the hydrophobic fibers on the first surface side can be unraveled following the dispersion of the hydrophilic fibers. Therefore, the nonwoven fabric can be hydrolyzed in water in a relatively short time in water.
[0017]
The topsheet of the present invention has a first layer having the first surface and a second layer having the second surface, and has a boundary between the first layer and the second layer. The fibers of both layers are entangled with each other, and the average of the mass% of the hydrophobic fibers in the first layer is larger than that of the second layer, and the average of the mass% of the hydrophilic fibers in the second layer is larger. Is more than the first layer.
[0018]
The water-disintegratable nonwoven fabric is provided on a second fiber web containing only hydrophilic fibers or hydrophilic fibers and 40% by mass or less of hydrophobic fibers on a second fiber web containing only hydrophobic fibers or 40% by mass or less of hydrophilic fibers. It can be formed by stacking a first fiber web containing conductive fibers and subjecting the two layers of fiber webs to a fiber entanglement treatment. Preferably, a high pressure water jet is applied from the first fiber web side to entangle the fibers. As a result, the first surface becomes smooth and the feeling of contact with the body is improved.
[0019]
Further, it is desirable that the fiber density of the second layer is higher than the fiber density of the first layer. By increasing the density of the second layer mainly composed of hydrophilic fibers, a density gradient can be formed between the first layer and the second layer, and the liquid applied to the first surface is The liquid can be quickly attracted to the second layer, and the liquid residue on the first surface can be reduced.
[0020]
Further, the basis weight of the first layer is preferably in the range of 5 to 45% of the basis weight of the topsheet.
[0021]
By reducing the basis weight of the first layer mainly composed of hydrophobic fibers and increasing the basis weight of the second layer mainly composed of hydrophilic fibers, when the hydrophilic fibers are unwound in water, Following this, the hydrophobic fibers on the first surface side are also easily loosened, and the surface sheet is easily hydrolyzed.
[0022]
In addition, the top sheet was set so that the length of the MD was 150 mm and the width of the CD was 25 mm, and the longitudinal direction was vertically oriented. The 10 mm length portion at the lower end was immersed in distilled water for 30 seconds, then pulled up and left for 5 minutes. It is preferable that the suction height of distilled water measured on the second surface is 50 mm or more.
[0023]
When the suction height measured on the second surface is equal to or greater than the above value, the liquid given to the first surface is quickly attracted to the second surface side and diffuses on the second surface. Thus, the drawing speed of the liquid applied to the first surface can be increased.
[0024]
Next, the present invention relates to an absorbent article having a liquid-permeable and water-decomposable top sheet that appears on the skin side surface and a back sheet that appears on the clothing side surface,
The back sheet is a water-disintegratable nonwoven fabric in which water-dispersible fibers having a fiber length of 20 mm or less are entangled, and has a first surface facing the top sheet side and a second surface facing the garment side, On the surface of No. 1, hydrophobic fibers and 10% by mass or less of hydrophilic fibers appear, and on the second surface, hydrophilic fibers and 40% by mass or less of hydrophobic fibers appear. Things.
[0025]
In this absorbent article, the water-disintegrable nonwoven fabric having a first surface and a second surface is used as a back sheet. Since the first surface is directed toward the topsheet, the liquid in the absorbent article can be blocked by the first surface, and the liquid can be prevented from oozing on the outer surface of the absorbent article on the clothing side. In order to prevent this seepage, it is preferable that the first layer is formed only of hydrophobic fibers so that only the hydrophobic fibers appear on the first surface, and the basis weight of the first layer is hydrolyzed. It is preferable to increase the number within a range not impairing the properties.
[0026]
In this absorbent article, since the clothes-side surface of the back sheet is the second surface having hydrophilic fibers, when the used absorbent article is discarded in the flush toilet, a large amount of the absorbent sheet immediately adheres to the clothes-side surface of the back sheet. , The entanglement of the hydrophilic fibers is released, and the back sheet is rapidly hydrolyzed. Due to the hydrolysis of the back sheet, air inside the absorbent article escapes and easily sinks in the septic tank, and the absorbent article sinking in the septic tank is quickly decomposed.
[0027]
Further, the present invention can be configured such that a liquid absorbing layer formed of hydrophilic water-dispersible fibers exists between the top sheet and the back sheet.
[0028]
In this case, by adhering the liquid absorbing layer to the second surface of the topsheet, the liquid diffused on the second surface of the topsheet can be immediately absorbed by the liquid absorbing layer. In addition, the absorbent article of the present invention is capable of absorbing and retaining a liquid with the hydrophilic fibers of the second layer of the water-disintegrable sheet, without forming the liquid-absorbing layer and forming a topsheet with the water-disintegrable sheet. It may be.
[0029]
In the present invention, between the top sheet and the back sheet, a biodegradable resin film is provided inside both side edges facing in the vertical direction.
[0030]
By providing the resin film, it is easy to prevent the liquid absorbed by the absorbent article from being excessively diffused to the left and right sides and causing lateral leakage.
[0031]
Further, the present invention provides an absorbent article provided with a packaging sheet that wraps a main body having a liquid-permeable top sheet and a back sheet.
The packaging sheet is a water-disintegratable nonwoven fabric in which water-dispersible fibers having a fiber length of 20 mm or less are entangled, and has a first surface facing outward and a second surface facing the main body, and Hydrophobic fibers and 40% or less hydrophilic fibers appear on the surface, and hydrophilic fibers and 40% or less hydrophobic fibers appear on the second surface. .
[0032]
In this absorbent article, the packaging sheet can be discarded as it is in a flush toilet. In addition, since the first surface mainly composed of the hydrophobic fiber is directed outward, moisture attached to the hand can be shielded by the first surface, and the inside of the package can be prevented from being accidentally wetted. .
Preferably, the hydrophobic fibers are biodegradable fibers.
[0033]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, as an embodiment of the present invention, an absorbent article used as a sanitary napkin or a panty liner will be described as an example.
[0034]
The absorbent article according to the embodiment has a skin-side surface directed to the skin of the body and a clothing-side surface facing the inside of the underwear. Each absorbent element of this absorbent article is formed of a water-disintegrable material. The water-disintegrable property in the present specification means a property that when immersed in a large amount of water, the strength is reduced and decomposed so as not to retain its original shape by the force of a water flow, which is the same as the water-disintegrable property Meaning. In addition, the water-disintegrable nonwoven fabric in the present specification means a nonwoven fabric that reaches a dispersed state within 600 seconds or less when measured by a measurement method described later. The term “water-dispersible fiber” means a fiber that can be completely dispersed for each single fiber when dispersed in water.
[0035]
Further, the water-disintegratable nonwoven fabric has a first layer mainly composed of hydrophobic fibers having a first surface and a second layer mainly composed of hydrophilic fibers having a second surface. However, since the fibers of the first layer and the fibers of the second layer are entangled in the nonwoven fabric, there is a case where the boundary is not always clear. In the present invention, even if the boundary is not necessarily clear, it is included in the nonwoven fabric having the first layer and the second layer.
[0036]
Further, the water-disintegratable nonwoven fabric is not limited to the one having only the first layer and the second layer. For example, a hydrophobic fiber and a hydrophilic fiber are entangled between the first layer and the second layer. It may have a third layer.
[0037]
FIG. 1 is a plan view showing a water-disintegratable absorbent article 1 according to the first embodiment of the present invention, and FIG. 2 is a sectional view taken along line II-II in FIG.
[0038]
As shown in FIG. 1, the main body 1 of the absorbent article 10 has a front edge portion 1 a having a convex shape and a rear edge portion 1 b having the same convex shape toward both sides in the vertical direction and both sides in the horizontal direction. It has a right-side edge 1c and a left-side edge 1d in the shape of a concave curve.
[0039]
As shown in FIG. 2, in the main body 1, the topsheet 2 appears on the skin side and the backsheet 3 appears on the clothes side, and the liquid absorbing layer 4 is sandwiched between the topsheet 2 and the backsheet 3. ing. As shown in FIG. 1, the top sheet 2, the back sheet 3, and the liquid absorbing layer 4 have the same size, and their shapes match the shape of the main body 1.
[0040]
The top sheet 2 has a first surface 2a directed to the skin side, and a second surface 2b directed to the liquid absorbing layer 4 and the back sheet 3. The back sheet 3 has a first surface 3a directed to the top sheet 2 and the liquid absorbing layer 4, and a second surface 3b directed to the clothing side.
[0041]
The second surface 2b of the topsheet 2 and the liquid absorbing layer 4 are adhered with a hydrophilic adhesive such as a hot melt type that is partially applied so as not to hinder the permeation of the liquid, and The absorption layer 4 is in close contact. Similarly, the liquid absorbing layer 4 and the first surface 3a of the back sheet 3 are also bonded by a hydrophilic adhesive such as a hot melt type.
[0042]
In the main body 10 of the absorbent article 1, a compressed concave portion 5 that is compressed in a concave shape from the top sheet 2 to the liquid absorbing layer 4 is formed. As shown in FIG. 1, the compression recesses 5 are formed in a dot shape at a constant pitch, and have a predetermined interval inside the front edge 1 a and the rear edge 1 b and inside the right edge 1 c and the left edge 1 d. Are arranged so as to extend along each of the edges. In the compression recess 5, the topsheet 2 and the liquid absorbing layer 4 are heated and pressurized. As a result, in the compression recess 5, the density of the topsheet 2 and the liquid absorbing layer 4 is higher than other portions. Has become. Therefore, the liquid diffused in the lateral direction of the topsheet 2 and the liquid absorbing layer 4 is attracted to the high-density portion of the compression concave portion 5, and the lateral leakage is easily prevented.
[0043]
A pressure-sensitive adhesive layer 6 is applied to the second surface 3b of the back sheet 3. The pressure-sensitive adhesive layer 6 is applied in a plurality of strips in the vertical direction at intervals in the horizontal direction. When worn, the pressure-sensitive adhesive layer 6 is adhered to the inner surface of the crotch portion of the underwear, and the main body 1 is fixed so as not to be displaced from the crotch portion. Before use, the pressure-sensitive adhesive layer 6 is protected by being covered with a release sheet 7.
[0044]
Further, as shown in FIG. 5, in the absorbent article 10 before use, the main body 1 is folded into two or three layers, and the entire body is wrapped by the packaging sheet 8. The end 8c of the packaging sheet 8 and the packaging sheet 8 located thereunder are stopped by a tape 9 having an adhesive portion. The packaging sheet 8 is heat-sealed at both ends in a direction perpendicular to the paper surface of FIG. 5, and the packaging sheet 8 is packaged without exposing the main body 1.
[0045]
In the absorbent article 10, each of the components is formed of a water-disintegrable material. That is, each component has a water disintegration of 600 seconds or less in the measurement described later.
[0046]
The topsheet 2 is formed of a liquid-permeable, water-disintegratable nonwoven fabric. FIG. 6 is an enlarged sectional view of the topsheet 2.
[0047]
The water-disintegratable nonwoven fabric constituting the topsheet 2 is such that the fibers are entangled with each other to maintain the sheet shape, does not include an adhesive (binder) for bonding the fibers, and has a thermal property of synthetic fibers. There is no portion where the fiber surfaces are fused by fusion. However, this does not prevent the surface of the hydrophilic fibers from being fixed by hydrogen bonding due to the hydroxyl groups (OH groups) on the surface of the hydrophilic fibers. Further, it is preferable that the topsheet 2 is not provided with a compression portion in a region other than the compression concave portion 5, but there is a dot-like compression portion in the topsheet 2 as long as water disintegration of 600 seconds or less is not hindered. It may be.
[0048]
The topsheet 2 is composed of water-dispersible hydrophilic fibers and water-dispersible hydrophobic fibers, and only the hydrophobic fibers appear on the first surface 2a, or 40 mass% of the hydrophobic fibers. % Or less of hydrophilic fibers are present. On the second surface 2b, only hydrophilic fibers appear, or hydrophilic fibers and 40% by mass or less of hydrophobic fibers appear.
[0049]
The surface sheet 2 is made permeable to liquid so that the first surface 2a has a small amount of liquid remaining, and the second surface 2b makes it easy for the liquid to penetrate into the liquid absorbing layer 4; In order to make the nonwoven fabric easily collapse from the second surface 2b, it is preferable that only the hydrophobic washing fibers appear on the first surface 2a and only the hydrophilic fibers appear on the second surface 2b. Also, in order for the dispersion of the fibers starting from the second surface 2b to be quickly transmitted to the first surface 2a when a large amount of water is given, only the hydrophilic fibers appear on the second surface 2b, Those in which hydrophobic fibers and 5 to 40% by mass of hydrophilic fibers appear on the surface 2a are also preferable.
[0050]
As will be described later, the topsheet 2 is formed by laminating a first fiber web mainly composed of hydrophobic fibers on a second fiber web mainly composed of hydrophilic fibers, and entangles the fibers of both layers. It can be formed by performing processing. Therefore, as shown in FIG. 6, the topsheet 2 will be described by dividing it into a first layer 21 having a first surface 2a and a second layer having a second surface 2b. However, at the boundary between the first layer 21 and the second layer 22, since the fibers of both layers are entangled with each other, the boundary is not always clear.
[0051]
The first layer 21 is substantially formed of only hydrophobic fibers, or contains hydrophobic fibers and hydrophilic fibers having an average mass% of 40% or less in the first layer 21. Further, the second layer 22 is substantially formed of only hydrophilic fibers, or contains hydrophilic fibers and hydrophobic fibers having an average of 40% or less by mass in the second layer 22. .
[0052]
When a large amount of water is applied to the topsheet 2, the disintegration of the nonwoven fabric due to the dispersion of the fibers starts from the second surface 2b and the second layer 22, and this disintegrates in a short time. In order to easily cover the first surface 2a, the ratio of the basis weight of the first layer 21 to the total basis weight of the topsheet 2 is preferably 5 to 45%, more preferably 15 to 45%. % Or less. Within the above range, when a large amount of water is given, the first layer 21 is easily decomposed due to the decomposition of the first layer 21. If the basis weight of the first layer 21 is less than 5%, the wet strength of the topsheet, which can be realized by the entanglement of the hydrophobic fibers, becomes low, and the topsheet is likely to be torn when wet. If the basis weight of the first layer 21 exceeds 45%, the first layer 21 in which the hydrophobic fibers are entangled becomes difficult to collapse when a large amount of water is given.
[0053]
The strength of the topsheet 2 when wet is such that the length of the MD (the longitudinal direction (longitudinal direction) of the absorbent article 1) is 150 mm, the width of the CD is 25 mm, and distilled water is added to the sheet mass by 50 mm. %, And the maximum tensile load is preferably 1 N or more, more preferably 2 N or more when the distance between the chucks is pulled at a tensile speed of 100 mm / min using a Tensilon tester. If the tensile strength is 2N or more, the sheet can be prevented from being excessively twisted or torn when a force is applied from the body in a wet state in which the liquid is absorbed.
[0054]
It is preferable that the average value of the fiber density of the second layer 22 is higher than the average value of the fiber density of the first layer 21. In this way, a density gradient can be provided from the first layer 21 to the second layer 22, and given to the first surface 2 a by the hydrophilic force and the capillary action of the hydrophilic fibers of the second layer 22. The liquid is quickly drawn into the second layer 22.
[0055]
Further, as shown in FIG. 10, the top sheet 2 was immersed in distilled water for 30 seconds, with the length of the MD being 150 mm, the width of the CD being 25 mm, and the longitudinal direction oriented vertically, and the lower end having a length of 10 mm. It is preferable that the suction height H of the distilled water measured on the second surface 2b when pulled up and left for 5 minutes is 50 mm or more, more preferably 70 mm or more.
[0056]
When the suction height H on the second surface 2b is equal to or greater than the above value, the liquid drawn into the second layer 22 can be quickly diffused to the surroundings on the second layer 22 and the second surface 2b. it can. This means that the liquid applied to the first surface 2a is quickly drawn into the second layer 22, and as a result, the liquid is less likely to remain on the first surface 2a. In addition, the fiber density of the second layer 22 is preferably 1.1 times or more, more preferably 1.5 times or more, the fiber density of the first layer 21.
[0057]
Here, the hydrophilic fiber in the present specification means a fiber having a hydrophilic group on the surface. Here, the hydrophilic group means a polar atomic group having a strong interaction with water, for example, (-SO ₃ H), (-SO ₃ M (M is an alkali metal or -NH ₄ )), (-OSO ₃ H), (-OSO ₃ M), (-COOM), or (-COOH), (-NH ₂ ), (-CN), (-OH), (NHCONH) ₂ ).
[0058]
In the present embodiment, preferred hydrophilic fibers are those in which cellulose fibers such as pulp, rayon, hemp, acetate, or cellulose-based fibers such as pulp or rayon are beaten to fibrillate the surface to increase the hydrophilicity. is there. Alternatively, a synthetic fiber having a hydrophilic group or a synthetic fiber which has been subjected to a hydrophilic treatment by applying a surfactant to the surface can be used. As the synthetic fiber, PVA (polyvinyl alcohol) fiber or CMC (carboxymethylcellulose) fiber having a property of being water-soluble or swelling when exposed to water is preferably used. When these water-soluble or swellable hydrophilic fibers are used, when a large amount of water is given, the fibers of the second layer 22 dissolve or swell, loosening the confounding, and dispersing the fibers at an early stage. Become. Moreover, since PVA and CMC are biodegradable, they are easily decomposed in a septic tank or the like.
[0059]
The hydrophobic fiber is a fiber having no hydrophilic group, or a fiber having a hydrophilic group but subjected to a hydrophobic treatment, and is a polypropylene, polyethylene, polyolefin-based resin fiber such as polystyrene, polyethylene terephthalate, polybutylene terephthalate, or Polyester fibers such as copolymers containing any of them, polyamide fibers such as nylon 6 and nylon 66, and further polyacrylonitrile fibers and acrylic fibers can be used.
[0060]
Preferred hydrophobic fibers in the present embodiment are biodegradable. When the fibers of the topsheet 2 are dispersed in a septic tank or the like, each of the biodegradable hydrophobic fibers is decomposed in a short time.
[0061]
As the biodegradable hydrophobic fiber, aliphatic polyester fiber such as PLA (polylactic acid) fiber having relatively high strength is preferably used. Alternatively, cellulosic fibers such as pulp, rayon, and acetate surface-treated with a water repellent or the like may be used.
[0062]
FIG. 7 is a cross-sectional view schematically showing the liquid permeation and diffusion state when the liquid 15 is applied to the first surface 2a of the topsheet 2 in the main body 1 of the absorbent article 10.
[0063]
Since the first surface 2a and the first layer 21 to which the liquid 15 is applied are mainly made of hydrophobic fibers, the liquid hardly diffuses into the first layer 21. Due to the presence of the dominant second layer 22, the liquid 15 quickly permeates through the first layer 21 due to the hydrophilic force of the hydrophilic fibers of the second layer 22 and the capillary action between the fibers. The second layer 22 is diffused in the second layer 22. In particular, at the boundary between the first layer 21 and the second layer 22, the fibers of both layers are entangled, so that the hydrophilic force of the hydrophilic fibers of the second layer 22 is close to the first surface 2a. Thus, the liquid 15 can be quickly transmitted through the first layer 21 and diffused in the second layer 22.
[0064]
In addition, since the second surface 2b of the topsheet 2 and the liquid absorbing layer 4 are in close contact with each other, the liquid diffused in the second layer 22 is transferred to the liquid absorbing layer 4 located below and in contact with the liquid. It is sucked sequentially. Therefore, even when the liquid is repeatedly applied to the first surface 2 a of the topsheet 2, the liquid quickly permeates through the topsheet 2 and reaches the liquid absorption layer 4.
[0065]
In FIG. 7, the diffusion region of the liquid 15 in the first layer 21 is indicated by reference numeral 15a, the diffusion region of the liquid 15 in the second layer 22 is indicated by reference numeral 15b, and the diffusion region of the liquid 15 in the liquid absorption layer 4 is further indicated. The diffusion area is indicated by reference numeral 15c.
[0066]
The top sheet 2 is held flat in the air without overlapping the liquid absorbing layer 4, and 0.05 cc of colored distilled water is dropped from the first surface 2a. When the diffusion area of the liquid and the diffusion area on the second surface 2b are measured, it is preferable that the diffusion area on the second surface 2b is 10 times or more the diffusion area on the first surface 2a, More preferably, it is 20 times or more. In this range, the liquid 15 applied to the first surface 2 a is quickly absorbed in the second layer 22 without being diffused widely in the first layer 21.
[0067]
As described above, since the liquid remaining on the first surface 2a is small, when the main body 1 is worn on the crotch of the body, the first surface 2a gives a dry feeling to the body.
[0068]
When the used main body 1 is discarded in the flush toilet, a large amount of water flows in the flush toilet, and a large amount of water in the septic tank is provided. When a large amount of water is applied to the topsheet 2, the hydrophilic fibers of the second layer 22 attract the water, and the entanglement between the fibers is loosened by the force of the water flow. Disperse quickly. This dispersing force extends to the fibers of the first layer 21. In the first layer 21, hydrophobic fibers are predominant, and the entanglement of the hydrophobic fibers is originally unlikely to be loosened by water, but at least at the boundary between the first layer 21 and the second layer 22, Since the hydrophilic fibers of the layer 22 are entangled with the hydrophobic fibers of the first layer 21, the dispersing force of the fibers of the second layer 22 is transmitted to the first layer 21 and Also, the fibers can be dispersed in a short time.
[0069]
In order to make the topsheet 3 easily hydrolyzed, the length of the fibers other than pulp is preferably 20 mm or less, and the lower limit is 3 mm. If it exceeds 20 mm, the entanglement of the fibers is difficult to loosen, and if it is less than 3 mm, the wet strength of the topsheet 2 decreases.
[0070]
As shown in FIG. 8, the back sheet 3 is formed of a water-disintegrable nonwoven fabric. In the water-disintegratable nonwoven fabric serving as the back sheet 3, hydrophobic fibers and 10% by mass or less of hydrophilic fibers appear on the first surface 3a, and preferably only hydrophobic fibers appear on the first surface 3a. . On the second surface 3b, only hydrophilic fibers appear, or hydrophilic fibers and 40% by mass or less of hydrophobic fibers appear.
[0071]
The basic structure of the back sheet 3 as a nonwoven fabric is the same as that of the top sheet 2, and the back sheet 3 also has a first layer 31 having a first surface 3a and a second layer 31 having a second surface 3b. And a layer 32. Also in this case, the fibers of both layers are entangled at the boundary between the first layer 31 and the second layer 32, and the boundary is not always clear. The first layer 31 is formed of only hydrophobic fibers, or is formed of hydrophobic fibers and 10% by mass or less of hydrophilic fibers, and the second layer 32 is formed of only hydrophilic fibers. Alternatively, it is formed of hydrophilic fibers and 40% by mass or less of hydrophobic fibers.
[0072]
Since the back sheet 3 has the first surface 3a mainly composed of hydrophobic fibers directed to the liquid absorbing layer 4, the first surface 3a and the first layer 31 exhibit a function of blocking liquid, The liquid can be prevented from oozing further from the back sheet 3 to the clothes side.
[0073]
Here, in the top sheet 2, as shown in FIG. 7, the liquid 15 applied to the first surface 2a permeates through the first layer 21 and actively seeps into the second layer 22. As described above, the basis weight of the first layer 21 and the second layer 22 and the mixing ratio of the hydrophobic fiber and the hydrophilic fiber in the first layer 21 are set. On the other hand, in the back sheet 3, it is necessary to prevent the liquid that has reached the first surface 3 a from oozing out into the second layer 32. Therefore, in a range where the water disintegration does not exceed 600 seconds, the ratio of the basis weight of the first layer 31 to the whole basis weight of the back sheet 3 is larger than that of the top sheet 2.
[0074]
Then, when the suction height of distilled water is measured on the back sheet 2 in the same manner as shown in FIG. 10, the suction height H is preferably less than 50 mm, more preferably less than 40 mm. is there.
[0075]
The back sheet 3 has a first surface 3a mainly composed of hydrophobic fibers directed to the liquid absorbing layer 4 and functions as a liquid blocking layer, and a second surface 3b mainly composed of hydrophilic fibers has a main body. 1. Appears on the outside. Therefore, when the used main body 1 is discarded in the flush toilet and provided with a large amount of water, the water is immediately supplied to the second surface 3b of the back sheet 3, and the second surface 3b and the second layer 32 are provided. Are dispersed, and the hydrophobic fibers of the first layer 31 are dispersed by this.
[0076]
That is, in the main body 1, the back sheet 3 is collapsed at an early stage. Then, the air in the main body escapes with the collapse of the back sheet, and the main body 1 easily sinks in the septic tank. When the main body 1 sinks in the septic tank, other components can be collapsed in a short time.
[0077]
Further, in the absorbent article 10 according to the embodiment, the packaging sheet 8 is formed of a water-disintegratable nonwoven fabric having the same structure as the top sheet 2 and the back sheet 3. As shown in FIG. 9, the packaging sheet 8 has a first surface 8 a and a first layer 81 which are composed of only hydrophobic fibers or hydrophobic fibers and 40% by mass or less of hydrophilic fibers. The surface 8b and the second layer 82 are formed of only hydrophilic fibers or hydrophilic fibers and 40% by mass or less of hydrophobic fibers.
[0078]
The packaging sheet 8 is packaged with the main body 1 wrapped with the second surface 8b mainly composed of hydrophilic fibers facing the main body 1 and the first surface 8a mainly composed of hydrophobic fibers facing outward. You. Since the first surface 8a mainly composed of hydrophobic fibers is directed outward, moisture adhering to the hand or the like in the packaging state shown in FIG. 5 causes the outer surface of the packaging sheet 8 (the first surface 8a). , It is difficult for this moisture to enter the inside of the package, and it is possible to prevent the packaged body 1 from being carelessly wetted.
[0079]
When the packaging sheet 8 is discarded in the flush toilet, the collapse starts from the second surface 8b mainly composed of hydrophilic fiber and the second layer 82, and the first layer 81 is also shortly triggered by this. Will be able to collapse.
[0080]
In addition, the length of the water-dispersible fibers other than pulp is also in the range of 3 to 20 mm in the back sheet 3 and the packaging sheet 8.
[0081]
Other components of the absorbent article 10 will be described.
The liquid absorber 4 is an aggregate of water-dispersible hydrophilic fibers, and is, for example, a laminate of cellulose fibers such as pulp, rayon or cotton having a fiber length of 20 mm or less. When a large amount of water is given to the liquid absorbing layer 4, the liquid can be dispersed in a short time.
[0082]
The pressure-sensitive adhesive layer 6 is formed of a hydrophilic adhesive or a biodegradable adhesive. The release sheet 7 is also water-decomposable, and is formed of a paper obtained by applying a release agent to the surface of a hydrolyzed paper, or a water-soluble resin film.
[0083]
Further, the surface sheet 2 and the liquid absorbing layer 4 are bonded with a hydrophilic adhesive, and the liquid absorbing layer 4 and the back sheet 3 are bonded with a hydrophilic adhesive.
[0084]
FIG. 3 is a plan view showing an absorbent article 1A according to a second embodiment of the present invention, and FIG. 4 is a sectional view taken along line III-III of FIG.
[0085]
Each component of the absorbent article 1A is the same as each component of the absorbent article 1 shown in FIG. Therefore, the same parts as those of the absorbent article 1 are denoted by the same reference numerals, and detailed description thereof will be omitted.
[0086]
In the absorbent article 1A shown in FIGS. 3 and 4, resin films 12 for preventing leakage are provided inside the right side edge 1c and inside the left side edge 1d, respectively. The resin films 12 are arranged between the liquid absorbing layer 4 and the back sheet 12. The resin films 12, 12 are formed of a biodegradable resin such as PLA, PBS (polybutylene succinate), PVA, and CMC.
[0087]
By providing the resin films 12, 12, the liquid that is going to penetrate into the liquid absorbing layer 4 toward the right edge 1c and the left edge 1d can be stopped, and lateral leakage can be easily prevented.
[0088]
Next, an example of a manufacturing process of a water-disintegratable nonwoven fabric used as the top sheet 2, the back sheet 3, and the packaging sheet 8 will be described.
[0089]
The manufacturing method shown in FIG. 11 uses a wet layer 50. The wet-type layer 50 is provided with a mesh-like conveyor (mesh wire) 51 that is relatively fine and wraps between rolls and circulates in the direction of the arrow (i). A part of the mesh conveyor 51 is an inclined portion (inclined wire portion) 51a which rises obliquely in the transport direction, and the inclined portion 51a has a second supply portion 52 and a first supply portion 53. Are facing each other.
[0090]
A raw material in which hydrophilic fibers are dispersed in water or a raw material in which hydrophilic fibers and hydrophobic fibers are dispersed is supplied to the second supply unit 52, and the raw material is poured on the inclined part 51a to be inclined. A second fiber web is formed on the portion 51a. This second fiber web is formed of only hydrophilic fibers, or contains hydrophilic fibers and 40% by mass or less of hydrophobic fibers.
[0091]
A raw material in which hydrophobic fibers are dispersed in water or a raw material in which hydrophobic fibers and hydrophilic fibers are dispersed is supplied to the first supply unit 53, and this raw material is supplied to the second fiber on the inclined portion 51a. The first fiber web is laminated on the second fiber web by being poured on the web. This first fiber web is formed of only hydrophobic fibers, or contains hydrophobic fibers and 40% by mass or less or 10% by mass or less of hydrophilic fibers.
[0092]
Downstream from the first supply unit 53, the mesh conveyor 51 is provided with a entanglement processing unit 55. The entanglement processing section 55 is provided with, for example, two rows of jet water nozzles 56 arranged in a row in a direction orthogonal to the moving direction of the mesh conveyor 51. Is supplied with a high-pressure water jet, and the fibers constituting the first fiber web and the second fiber web are entangled to form a water-disintegratable nonwoven fabric.
[0093]
The water-disintegratable nonwoven fabric is transferred to and conveyed to a conveyor 57 that circulates in the direction of the arrow (ii), and is conveyed to a drying step where it is dried.
[0094]
The manufacturing method shown in FIG. 12 uses the air layer 40. A second card machine 42 and a first card machine 43 are arranged side by side to face a mesh-shaped conveyor 41 of a predetermined mesh that circulates in the (iii) direction. In the second card machine, hydrophilic fibers or hydrophilic fibers and hydrophobic fibers are air-laid on a mesh conveyor 41, and are made of only hydrophilic fibers or a hydrophilic fiber having a hydrophobicity of 40% by mass or less. A first fiber web containing fibers is formed. In the first card machine 43, the hydrophobic fiber or the hydrophobic fiber and the hydrophilic fiber are air-laid, and only the hydrophobic fiber, or the hydrophobic fiber and 40% by mass or less are provided on the first fiber web. A first fiber web containing 10% by weight or less of hydrophilic fibers is formed.
[0095]
Then, a high-pressure water jet flow is applied to both of the fiber webs by the jet flow nozzle 56 provided in the entanglement processing section 55 to entangle the fibers, and thereafter, the process proceeds to a drying step.
[0096]
As described above, the high-pressure water jet stream is applied from the first fiber web side to the first fiber web and the second fiber web formed by the wet laid method or the air laid method, whereby the first surface is formed. It is possible to obtain a water-disintegratable nonwoven fabric in which 2a, 3a and 8a are relatively smooth and each fiber is entangled. When the topsheet 2 is formed, by making the mesh of the mesh conveyor 51 or 41 relatively large, the density of the nonwoven fabric can be reduced at the mesh portion when a high-pressure water jet stream is applied, or Can be formed, and a liquid having good liquid permeability can be obtained.
[0097]
【Example】
Examples and comparative examples of the water-disintegrable nonwoven fabric suitable for use as the topsheet 2 described in the above embodiment were manufactured, and the characteristics thereof were examined.
[0098]
(1) Fiber used
The fibers used for the first fiber web and the second fiber web in Examples 1 to 7 and Comparative Examples 1 to 6 are as follows.
[0099]
The PLA fiber had a fineness of 1.1 dtex and a fiber length of 5 mm, the rayon fiber had a fineness of 1.1 dtex and a fiber length of 5 mm, and the pulp used NBKP.
[0100]
The first fiber web of Example 8 was made of PET (polyethylene terephthalate) fiber having a fineness of 1.4 dtex and a fiber length of 10 mm. The core of the first fiber web of Example 9 was used. Is a core-sheath type composite synthetic fiber of PP (polypropylene) and a sheath part of PE (polyethylene), a fineness of 2.2 dtex, a fiber length of 5 mm, and a core used for the first fiber web of Example 10. The part is a core-sheath type composite synthetic fiber of PET and a sheath part of PE, with a fineness of 3.3 dtex and a fiber length of 5 mm.
[0101]
The mixing ratio of each fiber in the first fiber web and the second fiber web in each of the examples and the comparative examples is as shown in Tables 1 and 2. In each table, the mixing ratio of the fibers is shown by mass% with respect to the first fiber web or the second fiber web.
[0102]
(2) Nonwoven fabric manufacturing method
A second fiber web is formed in a wet layer on a wire (net-like conveyor) "LL-70E" manufactured by Nippon Filcon Co., Ltd. The first fiber web is formed on the second fiber web by a wet layer. Laminated. A high-pressure water jet was applied over the first fiber web in a state where the two layers of fiber webs were stacked. The energy of this high pressure water jet stream is 0.269 kW / m ² , And the wires were advanced at a speed of 30 m / min to entangle the fibers. Then, it dried at 120 degreeC for 3 minutes using the rotary dryer.
[0103]
(3) Measurement of tensile strength
In the examples and the comparative examples, a test piece having a MD length of 150 mm and a CD width of 25 mm was subjected to a tensile tester at a distance between chucks of 100 mm and a pulling speed of 100 mm / min. The tensile load was measured.
[0104]
The tensile strength when wet was determined by applying 0.1 cc of distilled water to the test piece from the first surface side and leaving the test piece for 1 minute before performing the tensile test. The basis weight is 50 g / m ² In the case of the test piece, the water content is 53% based on the mass of the test piece.
[0105]
(4) Suction height of distilled water
As described in the above embodiment with reference to FIG.
[0106]
(5) Water dissolution time
The water disintegration test was performed in accordance with the looseness test of the toilet paper specified in JIS-P4501. For details, 300cc of water having a water temperature of 20 ° C ± 5 ° C is put into a 300cc beaker, and a disk-shaped rotor having a diameter of 35mm and a thickness of 12mm is put in the beaker and rotated at 600 ± 10rpm. . A test piece was prepared by cutting the example and the comparative example into a square having a side of 114 ± 2 mm, and the time from when the test piece was put into the beaker to when the sheet shape was completely eliminated by visual observation was measured. This was taken as the water dissolution time.
[0107]
(6) Tactile evaluation
The Example and Comparative Example were 100 mm × 100 mm in size, 0.5 cc of distilled water was dropped from the first surface side, and after this distilled water was drawn in, 10 women aged from 20 to 39 years old, The first surface was touched by hand, and a sensory test was performed to determine whether or not a dry feeling was obtained. When 8 to 10 respondents obtained a dry feeling, the evaluation was “○”, when 5 to 7 respondents, the evaluation was “△”, and when 4 or less, the evaluation was “×”.
The results are shown in Tables 1 and 2 below.
[0108]
[Table 1]

[0109]
[Table 2]

[0110]
As in Examples 1, 2, 8, 9 and 10, the first fiber web (first layer) is made of 100% hydrophobic fiber and the second fiber web (first layer) is made of 100% hydrophobic fiber. 2) is 100% hydrophilic fiber, the basis weight is 50 g / m2. ² In this case, the composition had excellent water dissolvability and good tactile evaluation. Therefore, in order to maintain water disintegration, the basis weight is 30 to 70 g / m. ² Is preferable. Further, from Examples 3 and 6, and Comparative Example 1, it was found that even when the first layer contained 40% by mass or less of hydrophilic fibers, the evaluation of tactile sensation was good. %, More preferably 10% by mass or less from Example 3.
[0111]
Further, from Examples 2, 4, 5, and Comparative Examples 2 and 3, even when the second layer contains 40% by mass or less of the hydrophobic fiber, the water disintegration time is set to 600 seconds or less. be able to. It can also be understood that the content is preferably 30% by mass or less, and more preferably 10% by mass or less.
[0112]
【The invention's effect】
As described above, in the present invention, an absorbent article having a good water disintegration property, a small amount of liquid remaining on the skin side, and a good liquid absorbability, or an absorbent article which can be rapidly hydrolyzed from the back sheet side is obtained. be able to.
[Brief description of the drawings]
FIG. 1 is a plan view of a main body of an absorbent article according to a first embodiment,
FIG. 2 is a sectional view of the main body shown in FIG. 1 taken along the line II-II.
FIG. 3 is a plan view of a main body of the absorbent article according to the second embodiment;
FIG. 4 is a cross-sectional view taken along line IV-IV of the main body shown in FIG. 2;
FIG. 5 is a cross-sectional view of the absorbent article showing a state where the main body is wrapped by a packaging sheet;
FIG. 6 is an enlarged sectional view of a topsheet,
FIG. 7 is an explanatory view showing a diffusion state of a liquid on a top sheet;
FIG. 8 is a sectional view of a back sheet,
FIG. 9 is a sectional view of a packaging sheet,
FIG. 10 is an explanatory diagram of a test for sucking up distilled water,
FIG. 11 is an explanatory view illustrating a manufacturing process of a nonwoven fabric using a wet layer,
FIG. 12 is an explanatory diagram illustrating a manufacturing process of a nonwoven fabric using an air layer,
[Explanation of symbols]
1,1A body
2 Surface sheet
2a First surface
2b Second surface
3 Back sheet
3a First surface
3b Second surface
4 liquid absorption layer
6 Pressure-sensitive adhesive layer
7 Release sheet
8 Packaging sheet
8a First surface
8b Second surface
12 Resin film
21,31,81 First layer
22, 32, 82 Second layer

Claims (10)

In an absorbent article having a liquid-permeable top sheet that appears on the skin side surface and a water-decomposable back sheet that appears on the clothing side surface,
The topsheet is a water-disintegratable nonwoven fabric in which water-dispersible fibers having a fiber length of 20 mm or less are entangled, and has a first surface facing the skin side and a second surface facing the backsheet side. The first surface is characterized by the appearance of hydrophobic fibers and 40% by mass or less of hydrophilic fibers, and the second surface is characterized by the appearance of hydrophilic fibers and 40% by mass or less of hydrophobic fibers. Water-disintegratable absorbent article. The topsheet has a first layer having the first surface and a second layer having the second surface, and has both layers at a boundary between the first layer and the second layer. Fibers are entangled, the average of the mass% of the hydrophobic fibers in the first layer is larger than that of the second layer, and the average of the mass% of the hydrophilic fibers in the second layer is the first. The water-disintegratable absorbent article according to claim 1, wherein the number of the water-disintegratable absorbent articles is larger than the number of layers. The water-disintegratable absorbent article according to claim 2, wherein the fiber density of the second layer is higher than the fiber density of the first layer. The water-disintegratable absorbent article according to claim 2 or 3, wherein the basis weight of the first layer is in a range of 5 to 45% of the basis weight of the topsheet. When the length of the topsheet is 150 mm, the width of the CD is 25 mm, the length of the CD is 25 mm, and the longitudinal direction is vertical, the 10 mm long portion at the lower end is immersed in distilled water for 30 seconds, then pulled up and left for 5 minutes. The water-disintegratable absorbent article according to any one of claims 1 to 4, wherein a suction height of distilled water measured on the second surface is 50 mm or more. In an absorbent article having a liquid-permeable and water-decomposable surface sheet that appears on the skin side surface and a back sheet that appears on the clothing side surface,
The back sheet is a water-disintegratable nonwoven fabric in which water-dispersible fibers having a fiber length of 20 mm or less are entangled, and has a first surface facing the top sheet side and a second surface facing the garment side, On the surface of No. 1, hydrophobic fibers and 10% by mass or less of hydrophilic fibers appear, and on the second surface, hydrophilic fibers and 40% by mass or less of hydrophobic fibers appear. Water-disintegratable absorbent article. The water-disintegratable absorbent article according to any one of claims 1 to 6, wherein a liquid absorbing layer formed of hydrophilic water-dispersible fibers exists between the top sheet and the back sheet. The water-decomposable absorbent article according to any one of claims 1 to 7, wherein a biodegradable resin film is provided between the top sheet and the back sheet on both sides facing in the vertical direction. . In an absorbent article provided with a packaging sheet that wraps a main body having a liquid-permeable top sheet and a back sheet,
The packaging sheet is a water-disintegratable nonwoven fabric in which water-dispersible fibers having a fiber length of 20 mm or less are entangled, and has a first surface facing outward and a second surface facing the main body, and Hydrophobic fibers and 40% by mass or less of hydrophilic fibers appear on the surface, and hydrophilic fibers and 40% by mass or less of hydrophobic fibers appear on the second surface. Absorbent articles. The water-degradable absorbent article according to any one of claims 1 to 9, wherein the hydrophobic fiber is a biodegradable fiber.

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