JP2010106402A - Water-permeable nonwoven fabric sheet - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a water-permeable nonwoven fabric sheet suitably used as a second sheet for sanitary goods, sanitary napkins, vaginal discharge liners, paper diapers and other absorbing goods. <P>SOLUTION: The water-permeable nonwoven fabric sheet having a multilayer structure including two or more layers is an air laid nonwoven fabric including one layer (A) composed mainly of 100-90 wt.% of a thermo-adhesive conjugate fiber (a) subjected to hydrophilic surface-treatment and having a single fiber fineness of 2-6 dtex and 0-10 wt.% of a cellulosic fiber and having a fabric weight of 10-35 g/m<SP>2</SP>, and another layer (B) composed mainly of 100-70 wt.% of a thermo-adhesive conjugate fiber (b) subjected to hydrophilic surface-treatment and having a single fiber fineness of 0.5-2.5 dtex and 0-30 wt.% of a cellulosic fiber and having a fabric weight of 5-30 g/m<SP>2</SP>, and produced by integrating both layers by heat-treatment, wherein the single fiber fineness (a)(dtex) of the conjugate fiber (a) and the single fiber fineness (b)(dtex) of the conjugate fiber (b) satisfies (a)(dtex)>(b)(dtex), and the total fabric weight of the nonwoven fabric is 15-65 g/m<SP>2</SP>. The nonwoven fabric is inserted between a surface sheet and an absorbent of a sanitary item in a manner to contact the layer (A) with the surface sheet. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention is a disposable sanitary article excellent in absorbability and comfort, an absorbent article, such as an incontinence sheet for adults and babies, a urine collection pad, a disposable diaper, a sanitary article for women and a sheet of origami, The present invention relates to a moisture permeable nonwoven fabric sheet constituting a breast milk pad and the like. In particular, a moisture-permeable sheet used for so-called second sheets used between a surface sheet that comes into contact with the skin and an absorbent sheet that absorbs and retains water-based excrement such as urine, menstrual blood and vaginal discharge, and such The present invention relates to an absorbent article to which a sheet is applied.

The absorbent article as described above is generally required to have various quality performances. As the required performance, absorption performance that quickly leads urine and menstrual blood to the absorption layer, reversion of the liquid retained in the absorption layer (rewetting, Examples include wet-back prevention, touch, softness, moisture prevention, rash prevention and other comfort maintenance, and feeling of use.
In order to improve the quality problem of these absorbent articles, it is often proposed to use a second sheet between the surface sheet and the absorbent body and put into practical use.

For example, in the pamphlet of International Publication No. WO01 / 054640, as a temporary water storage layer (that is, a second sheet) made of a nonwoven fabric having a basis weight of 20 to 100 g / m ^2, an air-through nonwoven fabric made of heat-meltable fibers and rayon fibers (10% or more) is used. Although shown, specific contents such as fineness and layer structure are not shown, and there is no description or suggestion about the air-laid nonwoven fabric of the present invention. In addition, since rayon fibers absorb moisture, the rayon fibers are liable to give moisture to the skin through the surface sheet, and have a problem that stuffiness is likely to occur.

Japanese Patent Publication No. 2007-500048 proposes a capturing member (ie, a second sheet) made of regular PET fibers, spiral crimped PET fibers, and a latex binder. However, since the fibers are thick, the touch is not good, and since they are chemical bonds, residual monomers and trace formalin may be generated, which is not preferable from the viewpoint of safety and safety.
Further, Japanese Patent Laid-Open No. 11-81116 proposes an airlaid nonwoven fabric composed of short fibers having a length of 3 to 25 mm used for sanitary materials. The fineness and layer to be used as a specific second sheet are proposed. There is no description or suggestion about composition, hydrophilicity, etc.
International Publication WO01 / 054640 Pamphlet Special table 2007-500048 gazette JP-A-11-81116

  It is an object of the present invention to provide a moisture permeable nonwoven fabric sheet that is suitably used as a second sheet for sanitary products, sanitary napkins, cage sheets, paper diapers, and other absorbent articles.

  The present inventors focused on an airlaid nonwoven fabric in which fibers are easily arranged not only in the vertical and horizontal directions but also in the thickness direction, and as a result of earnestly examining the optimum structure, a non-hydrous polymer was used as a component. Using a heat-adhesive composite synthetic fiber whose surface is made hydrophilic, a layered structure with a gradient by changing the fineness of the side in contact with the topsheet and the side in contact with the absorbent body allows moisture permeation due to capillary action between the fibers It has been found that a water-permeable nonwoven sheet having performance and practicality effective for this application has been found by optimizing the fineness of these materials.

That is, according to the present invention, the single-sided layer (A) comprises 100 to 90% by weight of a heat-adhesive conjugate fiber (a) having a hydrophilic surface treatment with a single yarn fineness of 2 to 6 dtex and 0 to 10% by weight of cellulosic fibers. A heat-adhesive conjugate fiber composed of a layer having a basis weight of 10 to 35 g / m ² , and a single-sided layer (B) having a hydrophilic surface treatment with a single yarn fineness of 0.5 to 2.5 dtex ( b) A single yarn fineness (a) (dtex) of the composite fiber (a) comprising a layer having 100 to 70% by weight and cellulosic fiber 0 to 30% by weight as a main component and a basis weight of 5 to 30 g / m ^2. And the single fiber fineness (b) (dtex) of the composite fiber (b) is (a) (dtex)> (b) (dtex), and the overall basis weight is 15 to 65 g / m ^2. Airlaid nonwoven fabric, a sanitary surface sheet Between the absorber, one surface layer (A) is used in contact with the topsheet, two or more layers of a multilayer structure, describing the water permeable nonwoven sheet.
Here, the heat-adhesive conjugate fibers (a) and (b) are preferably any of PET (polyethylene terephthalate) / PE (polyethylene), PP (polypropylene) / PE, and PET / low-melting polyester. It consists of a core-sheath type or side-by-side type composite fiber.
Next, this invention relates to the absorbent article which uses the said water-permeable nonwoven fabric sheet between a surface sheet and an absorber.

Since the single-sided layer (A) (surface layer) constituting the moisture-permeable nonwoven fabric sheet of the present invention is mainly composed of synthetic fibers made of heat-adhesive conjugate fibers that do not absorb moisture, the fibers themselves do not entrap moisture. In addition, since moisture moves on the surface of the fiber subjected to hydrophilic treatment, it exhibits an effect of diffusing as a sheet, and since the fineness is thicker than that of the back layer, the gap between fibers is large and moisture retention is difficult, so there is little rewetting and voids. Large and hard to stuffy.
Moreover, the single-sided layer (B) (back layer) constituting the moisture-permeable nonwoven fabric sheet of the present invention has an effect of drawing moisture that has entered the surface layer by capillary action and transmitting it to the absorber in contact with it because the fineness is thin. .
Therefore, the water-permeable nonwoven fabric sheet of the present invention is used as a second sheet between the top sheet and the absorbent body of the absorbent article, so that water-based excrement such as urine, menstrual blood and orimono penetrates from the top sheet. It is possible to provide a structure (absorbent article) that diffuses in the area direction, allows the absorbent body to permeate through the absorbent body in a wide area, and quickly penetrates the absorbent body and is difficult to rewet.

  Hereinafter, the heat-adhesive conjugate fibers (a) and (b), cellulosic fibers and the like constituting the moisture-permeable sheet of the present invention will be described.

≪Thermoadhesive composite fiber≫
As the heat-adhesive conjugate fibers (a) and (b) used in the single-sided layers (A) and (B) constituting the moisture-permeable nonwoven fabric sheet of the present invention, a non-hydrous polymer having an official moisture content of less than 5% Use the following. When the moisture content is 5% or more, the fiber itself contains water, and thus wetback tends to be adversely affected. In particular, polyolefin-based or low-melting-point polyester-based core-sheath type or eccentric side-by-side type composite fibers are suitable. Examples of the polyolefin constituting the sheath or the outer periphery of the fiber include polyethylene and polypropylene. The polymer constituting the core component or the inner fiber layer is preferably a polymer having a melting point higher than that of the sheath and not changing at the heat bonding treatment temperature. Examples of such combinations include PET (polyethylene terephthalate) / PE (polyethylene), PP (polypropylene) / PE, and PET / low-melting polyester. These polymers may be modified as long as they do not impair the action / effect of the present invention.

<Fineness>
Here, the heat-adhesive conjugate fiber (a) constituting the single-sided layer (A) has a single yarn fineness of 2 to 6 dtex, preferably 2.5 to 5 dtex, and constitutes the opposite single-sided layer (B). The heat-adhesive conjugate fiber (b) has a single yarn fineness of 0.5 to 2.5 dtex, preferably 0.8 to 2 dtex, and the single yarn fineness (a) (dtex) of the composite fiber (a) and the The single yarn fineness (b) (dtex) of the composite fiber (b) is (a) (dtex)> (b) (dtex).

When the single yarn fineness of the composite fiber (a) constituting the single-sided layer (A) exceeds 6 dtex, it is too thick and the touch is deteriorated. In addition, although the second sheet does not directly contact the skin, the rough feeling of the fineness is felt on the sensitive skin through the top sheet. On the other hand, the case of less than 2 dtex is not preferable because it is too thin and the inter-fiber gap is reduced between the top sheet and moisture is easily trapped after water absorption, and the comfort feeling is easily impaired.
In addition, when the single fiber fineness of the composite fiber (b) constituting the single-sided layer (B) is thinner than 0.5 dtex, the fibers are easily entangled in the airlaid nonwoven fabric process, the texture is deteriorated, and the uniformity is improved. I can't keep it. On the other hand, if it exceeds 2.5 dtex, the relationship of (a)> (b) cannot be maintained.
Further, by reducing the single yarn fineness of the composite fiber (b) rather than the composite fiber (a), the capillary action between the fibers can be transferred from the surface sheet (top sheet) through the single-sided layer (A). Can be easily drawn into the single-sided layer (B). Therefore, (a)> (b) is an important factor.

<Fiber length>
In addition, the fiber length of the said thermoadhesive conjugate fiber (a), (b) is 2-15 mm, Preferably it is 3-7 mm.
If the fibers are short, the spreadability is improved and a more uniform non-woven fabric tends to be obtained, but if it is less than 2 mm, it becomes closer to a powder form, making it difficult to form a network structure by bonding between fibers, and the strength as a non-woven fabric is reduced, making it practical. It is not preferable because it lacks properties. On the other hand, if the length is longer than 15 mm, the strength of the nonwoven fabric increases, but the fibers tend to get entangled during pneumatic transportation of the fibers during the production of the nonwoven fabric, which increases the fiber lump defects, which is not preferable.

<Granting hydrophilicity>
In order to smoothly transfer the moisture that has entered the top sheet to the absorbent body, the second sheet needs to be hydrophilic. However, if the fiber itself retains water like a cellulosic fiber, the wet sheet is adversely affected, so basically the second sheet must be a non-water-containing synthetic fiber.
Here, the heat-adhesive conjugate fiber constituting the second sheet (water-permeable nonwoven fabric sheet) in the present invention, that is, the synthetic fiber is generally non-hydrophilic. As a method for imparting hydrophilicity to this, there are a method of kneading a hydrophilic agent, a method of coating a hydrophilic surface on the fiber surface, and the like.

As the hydrophilizing agent, for example, a sulfonic acid metal salt compound such as disclosed in JP-A-10-325060, such as sodium alkyl sulfonate, is kneaded together with a hydrophilizing aid such as ethylene bis fatty acid amide. A method is mentioned. In the case of kneading into a composite fiber, it may be kneaded only into the polymer that forms the fiber surface.
In addition, as a method for treating the fiber surface, a method using a surfactant is generally known. However, the absorbent article is required to have a durable hydrophilic property that can withstand bodily fluid excretion rather than a temporary initial hydrophilic property. There is a case. For example, as disclosed in JP-A-62-19165 and JP-A-2000-256965, hydrophilic group-containing polyester oligomer, sulfoisophthalate sodium salt, polyether polyester block copolymer, polyoxy It is preferable to use a derivative of alkylene glycol or the like, and after applying the surface, heat treatment is performed to form a partial bond between the polymer that forms the fiber surface and the treatment agent.

≪Cellulose fiber≫
In order to express the property that the second sheet of the absorbent article has a high water-conducting effect and a small liquid return (wet back) from the absorbent layer, the surface of the sheet is hydrophilic as described above and the interior is non-hydrophilic. However, the composition of such fibers need not be 100% by weight. Cellulose fibers that are hydrophilic in nature, such as pulverized pulp and rayon, may be used in combination, thereby enhancing the water-conducting effect.
However, the amount of cellulose fiber used in the single-sided layer (A) is 10% by weight or less, preferably 5% by weight or less. If it exceeds 10% by weight, a phenomenon that wetback deteriorates due to water retention of the cellulosic fiber itself is not preferable.
Moreover, the usage-amount of the cellulose fiber in a single-sided layer (B) is 30 weight% or less, Preferably it is 25 weight% or less. If it exceeds 30% by weight, as in the case of the single-sided layer (A), the wet-back of the cellulosic fiber itself may cause a phenomenon that the wetback is deteriorated, or the comfort such as a feeling of stuffiness in the vicinity of the local skin is easily inhibited It is not preferable.

≪Other fibers≫
In addition, as for the fiber component which comprises a single-sided layer (A) and a single-sided layer (B), all are a heat bondable composite fiber (a) (and cellulosic fiber), or a heat bondable composite fiber (b) (and Cellulosic fibers) as the main component, but about 10% by weight or less of the total, other fibers other than heat-adhesive conjugate fibers and cellulosic fibers, such as semi-synthetic fibers such as acetate, polyester, polypropylene, polyamide, vinylon, etc. Other fibers such as synthetic fibers, fibrillar fibers such as SWP, and natural fibers such as cotton and hemp may be included. In this case, if the amount of other fibers exceeds 10% by weight, there is a high possibility that the above-mentioned other fibers may drop off, and the wet strength may be lowered, which causes a practical problem.

≪Body weight≫
The moisture permeable nonwoven sheet of the present invention, the basis weight of the single-sided layer formed on the surface sheet side of the absorbent article (A) is, 10~35g / ^{m 2,} preferably 12 to 30 g / ^{m 2.} If it is less than 10 g / m ^2, it is too thin and the liquid return (wetback) becomes large. On the other hand, if it is more than 35 g / m ^2, it is too thick, so that water is introduced to the absorber through the single-sided layer (B). Not only is the effect and liquid absorption worsened, but the phenomenon of retaining water in the inter-fiber voids inside the single-sided layer (A) is strengthened, and liquid return (wet back) is worsened.
Also, the basis weight of the single-sided layer comprising the absorbent body side of the absorbent article (B) is, 5 to 30 g / ^{m 2,} preferably from 8 to 20 g / ^{m 2.} If it is less than 5 g / m ^2, it is too thin to increase the liquid return (wet back), and it is not practical because the productivity and variation of the nonwoven fabric deteriorate. On the other hand, since it is too thick when it is larger than 30 g / m ^2, the effect of introducing water from the single-sided layer (A) to the absorber is deteriorated.
Furthermore, the entire fabric weight of the moisture-permeable nonwoven fabric sheet of the present invention is 15 to 65 g / m ² , preferably 25 to 60 g / m ² . If it is smaller than 15 g / m ^2, the same disadvantages as in the case where the weights of the single-sided layers (A) and (B) are too small are caused. On the other hand, if it is larger than 65 g / m ² , the inside of the layer is too thick. Moisture is easily retained and liquid return (wet back) is deteriorated.
As for the overall basis weight, the amount of liquid is relatively small in the case of sanitary napkins and orimono sheets, so a low basis weight is suitable, and a high basis weight is intended for urine of babies and adults. Preferred.

≪Thickness≫
In addition, the thickness of the nonwoven fabric sheet of this invention needs to exist in the most suitable range in consideration of the liquid return performance, the feeling of use, and the manufacturing cost when used as a second sheet. The range of the appropriate thickness varies depending on the application. For example, when the nonwoven sheet is used for a sanitary napkin, the overall thickness is 0.5 to 2 mm under a load of 7 g / cm ² , and a disposable diaper. When used for applications, it is preferably in the range of 0.8 to 2.5 mm.
The thickness of the nonwoven fabric sheet can be appropriately adjusted according to the basis weight of the sheet and heat treatment conditions.

≪Moisture permeable nonwoven sheet≫
Such a nonwoven sheet of the present invention is produced by an airlaid method. The nonwoven fabric produced by the airlaid method is preferred because the fibers forming the nonwoven fabric are randomly three-dimensionally oriented in the longitudinal direction, width direction and thickness direction of the nonwoven fabric.
In addition, the heat-adhesive conjugate fibers (a) and (b) forming the nonwoven fabric sheet of the present invention are thermally bonded by heat treatment, and the nonwoven fabric sheet is fixed in a network structure by interfiber bonding.

≪Manufacture of nonwoven fabric sheet of the present invention≫
Here, the nonwoven fabric sheet by the airlaid method according to the present invention can be obtained as follows.
That is, a predetermined amount of deflated thermoadhesive synthetic fiber (and cellulose fiber such as pulp if necessary) is the main component, and the fiber constituting the single-sided layer (A) is conveyed while being uniformly dispersed in the air stream. Then, the fibers blown out from the pores provided in the discharge section are dropped on a metal or plastic fiber collection net installed in the lower part, and the fibers are placed on the net while suctioning air at the lower part of the net. Deposit and repeat this operation at least twice as needed.
For example, the second and subsequent web depositions are similarly deposited as a web constituting the single-sided layer (B) on the deposition sheet to form a multilayer web of two or more layers.
On the fiber collection net, first, the web constituting the single-sided layer (B) may be deposited, and then the web constituting the single-sided layer (A) may be deposited.
Next, the nonwoven fabric sheet of the present invention can be obtained by heat-treating the whole to a temperature at which the heat-adhesive conjugate fiber sufficiently exhibits its adhesive effect. In order to fully exhibit the adhesive effect, heat treatment at a temperature 5 to 20 ° C. higher than the melting point of the adhesive component of the thermoadhesive conjugate fiber is necessary.

  In addition, functional processing, such as a deodorizer, an antibacterial agent, a fragrance | flavor, a moisturizer, a coloring agent, a hydrophilic agent, a water repellent, can also be provided to the nonwoven fabric sheet of this invention. Examples of the processing method include a method in which fibers having these functions are mixed in advance, a powdery agent is mixed, and a liquid agent is sprayed or impregnated.

  Thus, the nonwoven fabric sheet manufactured by the airlaid method can three-dimensionally orient the fibers randomly in the flow direction, the width direction, and the thickness direction of the nonwoven fabric. In particular, the fiber arrangement in the thickness direction contributes to the moisture permeation performance. And since these are thermally bonded, delamination does not occur. Moreover, since the non-woven sheet manufactured by the airlaid method has good uniformity, there is less variation in performance.

≪Absorbent article≫
The moisture-permeable nonwoven fabric sheet of the present invention is suitably used as a second sheet between the top sheet and the absorbent body in the absorbent article.
When the moisture-permeable sheet of the present invention is used as a second sheet of an absorbent article, the single-sided layer (A) (surface layer) is mainly composed of heat-adhesive conjugate fibers that do not absorb moisture, so that the fibers themselves hold moisture. In addition, since moisture moves on the surface of the fiber that has been subjected to hydrophilic treatment, the effect of diffusing as a sheet is exhibited, and since the fineness is thicker than the back layer, the gap between fibers is large and moisture retention is difficult, so there is little rewetting It is difficult to stuffy due to the large gap. Moreover, the single-sided layer (B) (back layer) constituting the moisture-permeable nonwoven fabric sheet of the present invention has an effect of drawing moisture that has entered the surface layer by capillary action and transmitting it to the absorber in contact with it because the fineness is thin. .
Therefore, by using the water-permeable nonwoven fabric sheet of the present invention as a second sheet between the top sheet and the absorbent body of the absorbent article, water-based excrement such as urine, menstrual blood and orimono penetrated from the top sheet While being diffused in the area direction, the absorbent article can be quickly permeated into the absorbent body and hardly rewet.

Hereinafter, the present invention will be described more specifically with reference to examples.
In the examples, various evaluations were measured as follows.

<Thickness>
Thickness meter (Ozaki Seisakusho, FFA-8 type. However, the diameter of the probe is 3 cmφ, and the load is added to 7 g / cm ² ). The thickness of the nonwoven fabric under 7 g / cm ² load (when dry) Was measured.

<Test method for liquid return (wet back), diffusion length, absorption rate>
1. Sample (1) In the case of a urine collection pad (Examples 1-2, Comparative Examples 1-3)
First, the surface sheet was removed from the commercially available diaper for adults (lithographic type), and the nonwoven fabric sheet of the example was placed as a second sheet on the absorber, and the surface sheet placed thereon was used as a test sample.
(2) In the case of a cage sheet (Examples 3 to 4, Comparative Examples 4 to 5)
First, the surface sheet was removed from the commercially available sheet, the nonwoven fabric sheet of the example was placed as a second sheet on the absorber, and the surface sheet placed thereon was used as a test sample.

2. Test method (1) A cylinder (made of plastic having an inner diameter of 20 mmφ, a height of 80 mm, and a weight of 160 g) is placed on the sample.
(2) In the center of the cylinder, 30 cc of physiological saline (salt 0.9%, colored blue with a coloring agent brilliant blue 0.05%) is gently poured for 10 seconds. In the case of a urine pad, the physiological saline is 30 cc.
(3) Measure the time from the end of pouring until the water injection solution is absorbed by the sample and no liquid droplets can be seen on the surface. This value (seconds) is taken as the absorption rate.
(4) After 5 minutes from the measurement of the absorption rate, the cylinder is removed.
(5) Place 10 sheets of filter paper (90 mmφ) on the sample, and further place an iron plate load (90 mmφ, 0.7 kg) (64 cm ² × 11 g / cm ² ).
(6) Remove the load and filter paper after 5 minutes.
(7) The weight of the filter paper is measured, and the difference in weight before and after the test is defined as the wetback amount (g).
(8) The surface sheet is removed, and the diffusion length (cm) of the physiological saline in the second sheet is measured vertically and horizontally.
3. Data display Each sample was tested three times and expressed as the average value.

Example 1
As a lower layer, heat-adhesive conjugate fiber (Teijin Fibers Ltd., 1.7 dt × 5 mm) made of sheath PE (polyethylene) / core PET (polyethylene terephthalate) subjected to surface hydrophilization treatment is 22 g / m ^2. The web was formed on the collection net by the airlaid method. Further, as the upper layer, a similar hydrophilized heat-adhesive conjugate fiber (manufactured by Teijin Fibers Ltd., 4.4 dt × 5 mm) was formed by an airlaid method so as to be 21 g / m ² . Next, this 43 g / m ² airlaid two-layer laminated web was heated in a heat oven at 140 ° C. to cause interfiber bonding to obtain an airlaid nonwoven sheet having a thickness of 1.1 mm.
When this sheet is inserted between the top sheet of a commercially available urine absorption pad (Pigeon, "Comfort Pad" flat type) and the absorber, the upper layer is in contact with the top sheet. However, it was difficult to reverse. Moreover, the smooth feeling of the skin was good as a feeling of wearing, and it was useful without affecting the touch.

Example 2
As a lower layer, 90% by weight of heat-adhesive conjugate fiber (Chisso Polypro Fiber Co., Ltd., 1 dt × 3 mm) made of sheath PE (polyethylene) / core PP (polypropylene) subjected to surface hydrophilic treatment, pulverized pulp (Weyerhaeuser) Made of NF405) at a ratio of 10% by weight, and a web was formed on the collection net by the airlaid method so as to be 20 g / m ² . Furthermore, as an upper layer on top of this, 18 g / m of a heat-adhesive conjugate fiber (5.5 dt × 5 mm, manufactured by Chisso Polypro Fiber Co., Ltd.) made of sheath PE (polyethylene) / core PP similarly subjected to surface hydrophilization treatment. ² was formed by airlaid method. Next, this 38 g / m ² airlaid two-layer laminated web was heated in a heat oven at 140 ° C. to cause interfiber bonding to obtain an airlaid nonwoven sheet having a thickness of 1.1 mm.
As in Example 1, when this sheet was inserted between the surface sheet of the commercially available urine absorbing pad and the absorbent body so that the upper layer was in contact with the surface sheet, the diffusion length was increased and the sheet was reversed. It was difficult.

Comparative Example 1
As a lower layer, a heat-adhesive conjugate fiber made of sheath PE (polyethylene) / core PET subjected to surface hydrophilic treatment (manufactured by Teijin Fibers Ltd., 4.4 dt × 5 mm) is airlaid so as to be 18 g / m ^2. A web was formed on the collection net. Furthermore, as an upper layer, 75% by weight of heat-adhesive conjugate fiber (made by Chisso Polypro Fiber Co., Ltd., 1 dt × 3 mm) made of sheath PE (polyethylene) / core PP subjected to surface hydrophilic treatment, NF405, manufactured by Weyerhaeuser, was mixed at a ratio of 25% by weight and formed by airlaid so as to be 18 g / m ² . Next, this 36 g / m ² airlaid two-layer laminated web was heated in a heat oven at 140 ° C. to cause interfiber bonding, thereby obtaining an airlaid nonwoven sheet having a thickness of 0.9 mm.
The structure of the fineness is reversed (the upper layer is thicker and the lower layer is thin), and the pulp is mixed in the upper layer as much as 25% by weight, causing a phenomenon that the second sheet itself retains water, and the diffusibility is poor. In addition, the amount of wetback was large. When used in the same manner as in Example 1, the smooth feel of the skin deteriorated.

Comparative Example 2
A two-layer airlaid nonwoven fabric was obtained in exactly the same manner as in Example 1. However, the raw material fibers used were all washed in advance with a cleaning solution of water / ethanol = 50/50% by weight, and the hydrophilic oil agent on the fiber surface was removed.
The absorption rate, wetback amount, and diffusion length were significantly worse than in the examples.

Comparative Example 3
The surface sheet and the absorbent body of the commercially available urine absorbing pads used in the above Examples and Comparative Examples were peeled off once and then stacked again for the performance test. That is, this comparative example 3 is a case where there is no second sheet of the present invention compared to examples 1-2.
The performance was worse than each Example.

Example 3
A nonwoven fabric sheet was obtained in the same manner as in Example 1, and was tested by placing it between a surface sheet of a commercially available cage sheet (manufactured by P & G, “Sarafu Liner”) and an absorbent body. Good results were obtained for wetback, diffusion length, and absorption rate. However, the lower layer fiber (a) is 2.2 dt × 5 mm to 18 g / m ² , the upper layer 4.4 dt × 5 mm layer is also 18 g / m ² , and the whole is 36 g / m ² and the thickness is 0.9 mm. Met.

Example 4
A nonwoven fabric sheet was prepared in the same manner as in Example 1. However, the lower layer was a mixture of 90% by weight of fiber (a) and 10% by weight of pulverized pulp (manufactured by Weyerhaeuser, ThinFlex), and the basis weight was 18 g / m ² . The upper layer is 15 g / m ^{2 of a} heat-adhesive conjugate fiber (made by Teijin Fibers Ltd., 4.4 dt × 5 mm) made of copolymer polyester / core PET having a sheath having a melting point of 130 ° C. and having a hydrophilic surface. It was.
When evaluated as a sheet made in the same manner as in Example 3, the effect of improving the performance was obtained in the same manner. In particular, since ThinFlex, which is a type having excellent diffusibility as a pulp, was used, the diffusion length was further improved. Moreover, since an all-polyester type heat-adhesive conjugate fiber was used for the upper layer, an effect of easily maintaining the shape was recognized even if it was practically used locally.

Comparative Example 4
A non-woven fabric sheet having a single structure was fabricated by the same fiber configuration as that of the upper layer of Comparative Example 1 with a basis weight of 30 g / m ² and the same heat bonding without a lower layer. In the same manner as in Example 3, when the performance was evaluated as a container sheet, there was no water conduction effect required as a second sheet, and there was a strong tendency to retain moisture, so the wetback, diffusion length, etc. were poor, The feeling of stuffy skin was felt strongly.

Comparative Example 5
The surface sheet and the absorbent body of the commercially available cage sheets used in Examples 3 and 4 and Comparative Example 3 were peeled off once and stacked again for the performance test. That is, this comparative example 5 is a case where there is no second sheet of the present invention compared to examples 3-4.
The performance was worse than each Example.

The moisture-permeable nonwoven fabric sheet of the present invention is useful as a second sheet for absorbent articles, as well as a surface sheet, a pet sheet, a wiper, a filter, and the like.

Claims (3)

The single-sided layer (A) is composed mainly of 100 to 90% by weight of a heat-adhesive conjugate fiber (a) having a hydrophilic surface treatment with a single yarn fineness of 2 to 6 dtex and 0 to 10% by weight of a cellulosic fiber. Heat-adhesive conjugate fiber (b) 100-70 weight which consists of a layer of 10-35 g / m < ² >, and another single-sided layer (B) performed the hydrophilic surface treatment of the single yarn fineness of 0.5-2.5 dtex. % And cellulosic fiber 0 to 30% by weight as a main component and a basis weight of 5 to 30 g / m ² , the single fiber fineness (a) (dtex) of the composite fiber (a) and the composite fiber (b ) Single yarn fineness (b) (dtex) is (a) (dtex)> (b) (dtex), and the overall weight is 15 to 65 g / m ² and is an airlaid nonwoven fabric integrated by heat treatment. There is one side between the top sheet for hygiene and the absorber (A) is used in contact with the topsheet, two or more layers of a multilayer structure, the moisture-permeable nonwoven fabric sheet.   The core-sheath type in which the heat-adhesive conjugate fibers (a) and (b) are any of PET (polyethylene terephthalate) / PE (polyethylene), PP (polypropylene) / PE, and PET / low-melting polyester The moisture-permeable nonwoven fabric sheet according to claim 1, comprising a side-by-side type composite fiber.   An absorbent article using the moisture-permeable nonwoven fabric sheet according to claim 1 or 2 between a top sheet and an absorbent body.