JP2007105217A - Absorbent article and its manufacturing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an absorbent article and its manufacturing method capable of stably absorbing body fluid without allowing the reversion of the absorbed body fluid and having a hydrophilic foam body giving a user a superior wearing feeling. <P>SOLUTION: This absorbent article 1, or a sanitary napkin, is provided with a liquid permeable surface sheet 2, a liquid impermeable back sheet 3 and a liquid retention absorbent body 4 interposed between the both sheets, and has a substantially vertically long shape. The napkin 1 has an absorbent body having a hydrophilic foam body composed of cellulose-based sponge and the hydrophilic foam body includes 60-600 mass% water and/or polyalcohol. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an absorbent article, particularly an absorbent article such as a sanitary napkin or an incontinence pad.

Conventionally, an absorbent article using a hydrophilic foam as an absorbent is known. This type of absorbent article has excellent absorbency because of the high hydrophilicity of the absorber. Also, the hydrophilic foam continues to exhibit excellent absorbency even when it absorbs bodily fluids that are repeatedly excreted thereafter. Furthermore, since the hydrophilic foam has elasticity, it is excellent in recoverability against deformation, and is also excellent in warping prevention when the absorbent article is worn.
In addition, an absorbent article using a cellulose sponge as an absorber has been proposed.

  For example, in Patent Document 1, an absorbent article including a liquid-permeable top sheet, a liquid-impermeable back sheet, and an absorbent body interposed between both sheets, the absorbent body comprising a water-soluble polymer. A layer made of a cellulose sponge compressed body and a layer made of fluff pulp are laminated and formed, and the cellulose sponge compressed body is a state in which the cellulose sponge is adjusted to a moisture content of 13 to 35%. An absorbent article formed by pressing is disclosed.

Japanese Patent Laid-Open No. 3-109067

  The cellulose-based sponge compressed body in the absorbent article described in Patent Document 1 is excellent in dimensional stability because the compressed state is maintained for a long time by pressing in a low water content state of 13 to 35% as described above. ing. However, since the cellulosic sponge has high rigidity in the compressed state, there is a possibility that the wearer of the absorbent article may feel uncomfortable in the initial stage of use of the absorbent article before liquid absorption.

  Accordingly, an object of the present invention is to provide an absorbent article having a hydrophilic foam that can eliminate the drawbacks of the above-described prior art and a method for producing the same.

  This invention is equipped with the absorber which has a hydrophilic foam, This hydrophilic foam is the said by providing the absorbent article which contains 60-600 mass% of water and / or a polyhydric alcohol. The goal has been achieved.

  The present invention further includes an absorbent body having a hydrophilic foam, and the hydrophilic foam is a method for producing an absorbent article containing 60 to 600% by mass of water and / or polyhydric alcohol. First, an absorbent body having a hydrophilic foam made of cellulosic sponge is prepared, and then the absorbent body is impregnated with water and / or polyhydric alcohol, and then the absorbent body is prepared separately. The above object is achieved by providing a method of manufacturing an absorbent article that is sandwiched between the top sheet and the back sheet and that joins the periphery of both sheets.

  According to the absorbent article having the hydrophilic foam of the present invention, the absorbed body fluid can be stably absorbed without returning, and the wearing feeling is good.

  Hereinafter, a preferred embodiment of the absorbent article of the present invention will be described with reference to FIGS. 1 and 2.

The absorbent article 1 of the present embodiment is a sanitary napkin, and is interposed between a liquid-permeable top sheet 2, a liquid-impermeable back sheet 3 and both sheets as shown in FIGS. The liquid-retaining absorbent body 4 is provided and is substantially vertically long.
Moreover, the napkin 1 of this embodiment is provided with the absorber 4 which has the hydrophilic foam which consists of cellulose sponge, and this hydrophilic foam contains 60-600 mass% of water and / or a polyhydric alcohol. It is out. When water and polyhydric alcohol are contained, they are both contained in an amount of 60 to 600% by mass (hereinafter, water, polyhydric alcohol or water and polyhydric alcohol are also simply referred to as an aqueous alcohol solution). The ratio of the alcohol aqueous solution is calculated based on the weight of the hydrophilic foam as 100% by mass.

The ratio of the aqueous alcohol solution is calculated by the following method.
The ratio of the aqueous alcohol solution can be determined by the following formula from the mass of the hydrophilic foam immediately after taking out from the napkin 1 and the mass immediately after drying the hydrophilic foam at 110 ° C. for 2 hours.
Ratio of aqueous alcohol solution = (mass before drying−mass after drying) / mass after drying × 100

  The absorber 4 in the napkin 1 of the present embodiment will be further described. As shown in FIG. 1, the absorber 4 is vertically long in the longitudinal direction of the napkin 1 and has a shape in which the central portion in the longitudinal direction is constricted. ing. The absorbent body 4 is formed from a hydrophilic foam made of a cellulosic sponge, and the hydrophilic foam is formed by laminating an upper absorbent body 41 and a lower absorbent body 42 as shown in FIG. ing. The two absorbent bodies 41 and 42 have substantially the same shape in plan view, and the upper absorbent body 41 is located immediately below the top sheet 2 as shown in FIG. 2, and the lower absorbent body 42 is a back sheet. It is located immediately above 3.

  The cellulosic sponge forming the hydrophilic foam is in a dry state before the napkin 1 is manufactured. The cellulosic sponge in the dry state is relatively rigid because the cellulose fibers constituting the cellulosic sponge are hydrogen bonded to each other. On the other hand, when the cellulosic sponge absorbs water or the like, the hydrogen bond between the cellulose fibers is released or weakened, and the cellulosic sponge becomes flexible and elastic. Thus, since the absorbent body 4 made of a cellulose sponge has elasticity, it has excellent recovery from deformation, and the napkin 1 provided with the cellulose sponge is excellent in warping prevention.

On the other hand, no proposal has been made to impregnate an absorbent article such as a sanitary napkin with a large amount of water or the like (for example, a proposal to reach a moisture content exceeding 50% of the weight of the absorbent body).
The first reason is that, although it is a slight level as will be described later, no positive reason has been found to cause the absorbent to contain water until a part of the absorbency is lost.
The second reason is that the presence of excess water in the absorbent article in the state of free water is not preferable because mold and bacteria may grow.

In the present specification, the dry state of the cellulosic sponge before the production of the napkin 1 does not mean only a state in which water is not contained at all, but the water is cellulose under the humidity and temperature under normal use conditions. Also included are substantially dry states that exist in the system sponge in an equilibrium adsorption state. The equilibrium moisture content of the cellulosic sponge in such a state is 10 to 20% by mass. The measurement of the equilibrium water content can be obtained from the following formula, as described above.
Equilibrium water content = (mass before drying-mass after drying) / mass after drying x 100

The cellulosic sponge forming the hydrophilic foam is in a dry state as described above and has a high rigidity before the napkin 1 is manufactured. Therefore, at the time of manufacturing the napkin 1, the hydrophilic foam contains an alcohol aqueous solution as described above to reduce its rigidity and make it flexible.
The amount of the aqueous alcohol solution contained in the hydrophilic foam is as described above, preferably 60 to 600% by mass, and particularly preferably 100 to 400% by mass. When the amount of the aqueous alcohol solution contained in the hydrophilic foam exceeds 60% by mass as described above, the aqueous alcohol solution spreads over the entire hydrophilic foam, and the rigidity of the entire hydrophilic foam is lowered, so that the napkin 1 is comfortable to wear. It becomes. There are two hydrophilic foams in the present embodiment: a hydrophilic foam that forms the upper absorbent body 41 and a hydrophilic foam that forms the lower absorbent body 42. Included in each.

Further, if the amount of the aqueous alcohol solution contained in the hydrophilic foam is 600% by mass or less as described above, even if the hydrophilic foam is compressed and deformed due to the deformation of the napkin 1, the hydrophilic aqueous solution is converted into the aqueous alcohol solution. Does not ooze directly.
The amount of liquid that can be contained in the cellulosic sponge forming the hydrophilic foam is generally about 2000% by mass of its own weight. Therefore, even if the hydrophilic foam contains about 600% by mass of an alcohol aqueous solution in advance, it is possible to absorb about 1400% by mass of body fluid, which will affect the absorption retention of the napkin 1. Absent.

  Further, as will be described later, when a water-absorbing polymer is supported on the absorbent body 4, it is more effective because the polymer serves as a part of the liquid absorption. The polymer can absorb and fix water more than 1000 times its own weight, and after absorbing and fixing excessive water remaining in the hydrophilic foam, further absorbs and fixes body fluid absorbed during actual use. Thus, there is an effect of sequentially recovering the absorbability of the absorber 4.

As a measuring method for measuring the flexibility of the absorbent body 4 in the napkin 1, there is a method of comparing the compression resistance of the absorbent body 4 when taken out from the napkin 1 and the compression resistance of the absorbent body 4 after drying, It is a more reasonable judgment method to confirm that the compression resistance is remarkably different.
For this measurement, various compression testers, for example, Tensilon Tensile / Compression Tester (RTM25, etc.) manufactured by Orientech Co., Ltd. (RTM25 etc.) are used in the compression mode (in this case, crosshead speed 10 mm / min, 80% of the original absorber thickness It is also possible to measure by compressing the compression stress from the chart and comparing it with a KES compression tester (G-5) manufactured by Kato Tech Co., Ltd. from a simpler and more accurate viewpoint. , A compression curve up to 50 g / cm ² was drawn, and the compression stress when compressed to 80% of the initial thickness was read from the chart. In particular,
First, the absorbent body 4 is taken out from the napkin 1.
This absorber 4 is installed in the KES compression tester, the head is raised to a position where it can be sandwiched, and this is set as the standard position.
Otherwise, the standard measurement method is used, and normal compression measurement is performed up to 50 g / cm ² .
The initial thickness h0 (mm) is the thickness of the absorber when it is 0.5 g / cm ² , the h0 × 0.8 (mm) position is the compression thickness, and the compression stress at that time is P1. In addition, let 20% compressive stress measured in the state (wet state) taken out from the napkin 1 be P1 _w .
In the dry state, the absorbent body 4 after P1 _w measurement was first dried at 110 ° C. for 2 hours, and then left in a room at 25 ° C. and 50% for one day and night to stabilize the state. 20% compression stress P1 _{D (} in the state) is obtained.
The variation in hardness can be confirmed by P1 _D / P1 _w × 100 (%).
Since a normal absorbent body hardly contains water, the hardness of the absorbent body does not change even if a drying process is performed. Therefore, the fluctuation of the hardness is usually 100 (%), and at most 100 to 130 (%).
On the other hand, in the case of the invention in which the hardness is controlled by liquid inclusion as in the present application, the variation in the hardness is preferably at least 200 (%) or more, preferably 300 (%) or more.
The above-described measurement of the compressive stress of the absorbent body 4 may be performed by measuring each of the upper absorbent body 41 and the lower absorbent body 42, or may be performed in a state where the upper absorbent body 41 and the lower absorbent body 42 are laminated. .

The thicknesses of the hydrophilic foams forming the upper absorbent body 41 and the lower absorbent body 42 may be different or the same. The thickness of the hydrophilic foam forming each of the upper absorbent body 41 and the lower absorbent body 42 in the liquid-containing state (60 to 600% by mass) of the aqueous alcohol solution described above is determined from the viewpoint of the wearing feeling of the napkin 1 and the anti-draping property. Therefore, it is preferably 15 mm or less, particularly preferably 2 to 10 mm, and further preferably 4 to 8 mm.
The thickness of the hydrophilic foam is measured, for example, by measuring a thickness under a load of 2.5 g / cm ² by placing a measuring plate of an appropriate size using a table thickness gauge made by Peacock.
The basis weight of the hydrophilic foam is preferably 40 to 600 g / m ² and particularly preferably 60 to 450 g / m ² from the viewpoints of sufficient absorbency and softness. In addition, this basic weight is a dry weight which does not contain alcohol aqueous solution and a water absorption polymer.

  In the napkin 1 of the present embodiment, a plurality of water-absorbing polymer particles 8, 8... Are arranged in the hydrophilic foam forming the absorbent body 4. Specifically, the water-absorbing polymer particles 8, 8,... Are mainly disposed between the upper absorbent body 41 and the lower absorbent body 42 as shown in FIG. Some of the water-absorbing polymer particles 8, 8... Are buried and sandwiched between opposing surfaces of the upper absorbent body 41 and / or the lower absorbent body 42.

The speed of absorbing the body fluid of the water absorbent polymer particles 8 is not as fast as that of the hydrophilic foam, but the retention of the body fluid once absorbed is superior to the water absorbent polymer particles 8. Therefore, the body fluid absorbed in each of the upper absorbent body 41 and the lower absorbent body 42 made of a hydrophilic foam further moves to the water absorbent polymer particles 8 and is stably absorbed and held.
From the viewpoint of enhancing the absorption retention of the body fluid of the napkin 1, the hydrophilic foam is preferably provided with 5 to 40% by mass of water-absorbing polymer particles 8, and preferably 7 to 33% by mass. Particularly preferred. Also, the basis weight of the water-absorbing polymer particles 8 are sprayed on the absorbent body 4, is preferably 100 g / m ² or less, particularly preferably 20 to 60 g / m ^2. Here, the mass of the water-absorbing polymer particles 8 is in a state in which no alcohol aqueous solution is contained.

The napkin 1 of the present embodiment will be further described. The top sheet 2 and the back sheet 3 each have a plan view shape that is substantially similar to the absorber 4 and is vertically long as shown in FIG. The central part in the longitudinal direction is constricted. As shown in FIG. 2, both side portions in the longitudinal direction of the top sheet 2 extend from both side edges of the absorbent body 4, are wound down between the absorbent body 4 and the back sheet 3, and are joined to the back sheet 3. Has been.
As shown in FIG. 1, both end portions in the longitudinal direction of the top sheet 2 and the back sheet 3 are extended from both end edges in the longitudinal direction of the absorber 4, and are joined by a known joining method such as heat sealing.

  Moreover, the slip prevention material for fixing the napkin 1 to a wearer's shorts etc. is apply | coated to the surface by the side of the non-skin contact surface of the back surface sheet 3. The slip stopper is covered with release paper or the like and is protected until use.

  In the napkin 1 of the present embodiment having the above-described configuration, each of the upper absorbent body 41 and the lower absorbent body 42 has a function of quickly absorbing body fluid that has passed through the topsheet 2. Since the cellulosic sponge, which is a hydrophilic foam forming both the absorbent bodies 41 and 42, has high hydrophilicity, it has excellent absorbability from the beginning of its use. Since the cellulosic sponge is formed from hydrophilic cellulose fibers and includes a large number of bubbles, the excreted body fluid is instantaneously absorbed and held inside the bubbles of the cellulosic sponge. Next, a part of the body fluid absorbed and held inside the cellulosic sponge gradually moves to the water-absorbing polymer particles 8 that are mainly located between the absorbent bodies 41 and 42. Since the bubble diameter of the cellulosic sponge forming both absorbers 41 and 42 is relatively large, the liquid held in the bubbles is easy to move. The body fluid that has moved to the water-absorbing polymer particles 8 having excellent liquid holding properties is stably held inside the water-absorbing polymer particles 8 without reversing even when subjected to pressure due to deformation of the napkin 1 or the like. Each of the upper absorbent body 41 and the lower absorbent body 42 formed from the cellulosic sponge continues to exhibit excellent absorbency even when absorbing the bodily fluid that is repeatedly excreted thereafter.

The napkin 1 of the present embodiment is individually packaged by a packaging material that does not substantially have air permeability in a state of being folded in two or three until it is used. In order to prevent the alcohol aqueous solution contained in the hydrophilic foam from evaporating before use of the napkin 1, the packaging material does not allow water and polyhydric alcohol molecules contained in the hydrophilic foam to pass through. The packaging material is preferably formed of a material, and the packaging material preferably has one or more layers made of high-density polyethylene, nylon, polyvinylidene chloride or aluminum. Among these forming materials, high-density polyethylene and nylon are particularly preferable because they have high gas barrier properties and are supplied at low cost. When the packaging material is formed from multiple layers, at least one layer (for example, the center layer) has a high gas barrier property, and the other layers (for example, the front or back layer) have a high sealing property (although the barrier property is low). For example, a layer of low density polyethylene or the like may be used.
Moreover, it is preferable that the sealing part which seals the opening part which takes out the napkin 1 from the said packaging material is easy to open, but it is preferable that it is formed so that it may not have air permeability substantially.

Moisture permeability can be used as an index of air permeability of the packaging material. Since the moisture permeability of the packaging material is low, water or polyhydric alcohol molecules contained in the hydrophilic foam do not pass through the packaging material, and therefore the moisture permeability does not evaporate from the hydrophilic foam. preferable. From this viewpoint, the moisture permeability of the packaging material is preferably 0.7 g / 100 cm ² · hr or less, particularly preferably 0.5 g / 100 cm ² · hr or less. Here, the moisture permeability can be measured by a moisture permeability measuring method of JIS Z-0208.

  In this specification, “substantially no breathability” includes a case where there is no breathability at all and a case where there is a slight breathability as described above.

The sanitary napkin 1 individually packaged as described above is integrally packaged in the product as follows.
The sanitary napkin 1 packaging body is a packaging body in which a plurality of individually napkins 1 are packaged with an outer layer packaging material having substantially no air permeability. 1... Are contoured in their outer shape and overlapped in series in the thickness direction. The outer packaging material is preferably formed from a material that does not substantially have air permeability, and examples of the forming material include the materials described above. The moisture permeability of the outer layer packaging material is preferably 0.7 g / 100 cm ² · hr or less, particularly preferably 0.5 g / 100 cm ² · hr or less. Here, the moisture permeability can be measured by the measurement method described above.

Next, each member constituting the napkin 1 of the present embodiment will be described. A cellulose-based sponge forming a hydrophilic foam is described in, for example, the specification of JP-A-3-109067. Specifically, the cellulose-based sponge is a sponge made of a material having a cellulose skeleton. Examples of such a sponge include cellulose derivatives, cellulose derivatives such as viscose, cellulose ethers, and cellulose esters. There is a sponge made of or a mixture of them. As other cellulose sponges that can be used, natural cellulose having a cell structure such as peat moss can also be used.
Another preferred form of the hydrophilic foam may be a hydrophilic porous sheet in which hydrophilic porous fibers such as peat moss are compressed by air flow lamination or water flow lamination.
As other hydrophilic foams, other conventionally known foams can be used. For example, urethane foam that has been subjected to a hydrophilization treatment by a known method, or ethylene vinyl acetate (EVA) A polymer foam, polyolefin foam, melamine resin foam or the like that has been subjected to the same hydrophilic treatment can also be used.

  The cellulose-based sponge described above can be produced, for example, by the method described in the specification of Japanese Patent Application Laid-Open No. 3-109067. Specifically, the cellulose is converted to alkali cellulose with an alkali, and then sulfurized with carbon disulfide to form cellulose xanthate, and a sodium hydroxide solution is further added to adjust viscose. Next, mirabilite, reinforcing fibers, etc. are added to the viscose, which is a dissolved product of cellulose, molded into a predetermined shape, solidified by heating, washed with water, treated with dilute sulfuric acid solution, washed again with water, and further carbonated. It is neutralized with soda, washed with water, and dried to obtain a cellulose sponge.

As the water-absorbing polymer particles 8, various water-absorbing polymer particles used in conventional absorbent articles can be used without particular limitation, and examples thereof include the following polymers. Polyacrylic acid soda, (acrylic acid-vinyl alcohol) copolymer, crosslinked polyacrylic acid soda, (starch-acrylic acid) graft polymer, (isobutylene-maleic anhydride) copolymer and saponified product thereof, polyacrylic Examples include potassium acid and cesium polyacrylate. Among these, a sodium polyacrylate cross-linked product is preferably used because it is supplied at a low cost and various water absorption retention characteristics can be designed according to the purpose.

In the present embodiment, the polyhydric alcohol contained in the hydrophilic foam is a dihydric or higher polyhydric alcohol, and dihydric and trihydric alcohols having an appropriate viscosity at room temperature are preferable. In particular, the polyhydric alcohol preferably contains propylene glycol, sorbitol, butanediol, ethylene glycol, glycerin, or the like that is less irritating to the skin and low in volatility at room temperature. The polyhydric alcohol may be used alone or in combination of two or more, and particularly preferably contains ethylene glycol and glycerin.
The volume ratio of water to the polyhydric alcohol in the aqueous alcohol solution contained in the hydrophilic foam is preferably 50% by volume or less, particularly preferably 4 to 42% by volume. Even when the contribution of the polymer is small, if the ratio of the polyhydric alcohol in the alcohol aqueous solution is 8% by volume or more, the propagation of miscellaneous bacteria and the like in the hydrophilic foam can be particularly effectively prevented.
The alcohol aqueous solution may be soaked in a predetermined amount from the surface sheet 2 side after the production of the napkin 1, but in view of the stability of components such as a hydrophilizing agent, the alcohol aqueous solution is soaked directly into the absorbent body 4 immediately after preparation of the absorbent body. Most preferred. The alcohol aqueous solution application method can be a known method such as dripping or spray spraying. The most quantitative and stable application method is to bring one or a plurality of liquid injection nozzles into contact with the absorber 4. This is a method for transmitting liquid in a linear manner. Since the liquid penetrates into the absorbent body 4 and further diffuses, there is no inconvenience in this method.
A method in which the absorbent polymer 8 is preliminarily mixed with liquid is also a preferable method.

In the absorbent article 1, the absorbent polymer particles 8 exhibit a complicated function as follows.
The first function is adjustment of the liquid content of the absorber 4.
The excess alcohol aqueous solution in the cellulosic sponge bubbles migrates to the absorbent polymer particles 8. Therefore, the alcohol aqueous solution does not ooze out.
On the other hand, the alcohol aqueous solution once transferred to the absorbent polymer particles 8 can also be evaporated and diffused into the package as gas molecules. The surface of the cellulose sponge (including the inner surface) is hydrophilic and porous, and it is possible to positively adsorb the alcohol aqueous solution that has become gas molecules and to contain it appropriately. Does not dry out and harden.
As described above, the alcohol aqueous solution has a function of preventing the alcohol aqueous solution from oozing out from the cellulosic sponge and preventing the alcohol aqueous solution from becoming hard due to the movement of the alcohol aqueous solution.
The second function is to prevent the growth of mold and various germs.
As mentioned above, adding polyhydric alcohol to improve antibacterial properties is common and effective, but it is added from the viewpoint of skin irritation, flame retardancy, and cost. Sometimes it is not possible.
Absorbent polymer particles 8 have the effect of internally fixing 100 to 200% by mass of water of their own weight as bound water and not allowing the growth of germs. It is possible to prevent the propagation of various bacteria.
As shown in the first function, any polymer known to those skilled in the art as exemplified above can be applied to the polymer that is effective as a moisture amount adjusting material. More preferably, it is effective to design a cross-linked polyacrylic acid soda so that the water once absorbed and retained can be smoothly moved (discharged). In order to perform such a structural design, for example, the following method can be considered.
Forms a cross-linked polymer whose main chain is sodium acrylate-methyl acrylate copolymer, sodium acrylate-methyl methacrylate copolymer, etc .; reduces the number of hydrophilic groups (carboxyl groups) in the molecular chain and hydrophobic groups (Methyl group, etc.) is introduced. Water retention is lowered by slightly lowering the hydrophilicity of the molecule, making it easier to discharge.
Although sodium acrylate is the main chain, the average molecular weight is lowered; the average molecular weight is lowered from the average molecular weight (a few million to several million) of a commonly used water-absorbing polymer (approximately 2 million to 8 million).
Other methods such as molecular cross-linking using short-chain cross-linking agents, increasing cross-linking density, and designing low cross-linking agent hydrophilicity are also effective in controlling the hydrophilicity and swelling ability of molecules. It is possible to design a polymer in combination.

As a material for forming the topsheet 2, various materials used in conventional absorbent articles can be used without particular limitation. For example, a polyethylene terephthalate / polyethylene composite fiber (fiber diameter 1.8 to 8.0 dtex) is carded with a basis weight of 16 to 30 g / m ² , made into a nonwoven fabric by an air-through method, and subjected to various known hydrophilization treatments. Things.

As the material for forming the back sheet 3, various materials used in conventional absorbent articles can be used without particular limitation, but a resin film that is liquid-impermeable and moisture-permeable is particularly preferable. For example, a porous polyethylene resin film having a basis weight of 22 to 48 g / m ² can be mentioned.

According to the napkin 1 of the present embodiment described above, a predetermined amount of water and a polyhydric alcohol are contained in a hydrophilic foam made of a cellulosic sponge and has an excellent wearing feeling. Moreover, since the absorber 4 is formed from a hydrophilic foam, stable body fluid absorption is possible.
Further, since a plurality of water-absorbing polymer particles 8, 8... Are arranged on the hydrophilic foam, the absorbed body fluid does not return, and the absorbability of the body fluid is further enhanced.

  Next, the principal part of one embodiment of a preferable method for producing the napkin 1 as the absorbent article of the present invention described above will be described below with reference to FIGS. 3 (a) and 3 (b).

As a preferable embodiment for producing the napkin 1 of the present invention, for example, the following method may be mentioned.
In this embodiment of the napkin 1 of the present invention, first, an absorbent body 4 having a hydrophilic foam made of a cellulosic sponge is prepared, and then the absorbent body 4 is impregnated with water and / or a polyhydric alcohol. After that, the absorbent body 4 is sandwiched between a separately prepared top sheet and back sheet, and the periphery of both sheets is joined.

This embodiment will be described in detail below.
First, as the absorbent body 4, an upper absorbent body 41 and a lower absorbent body 42 made of a hydrophilic foam are produced according to a conventional method, and both the absorbent bodies 41 and 42 are dried.
Next, 60-600 mass% of alcohol aqueous solution (mixed solution of water and a polyhydric alcohol) is contained in the water-absorbing polymer particles 8 prepared separately with respect to the weight of the water-absorbing polymer particles 8.
Next, as shown in FIG. 3A, a plurality of water-absorbing polymer particles 8, 8... Containing an aqueous alcohol solution are uniformly dispersed over the entire upper surface of the lower absorbent body. The amount of the water-absorbing polymer particles 8 to be dispersed is 5 to 40% by mass of the absorber 4 (upper absorber 41 and lower absorber 42) which is a hydrophilic foam. Here, the mass of the water-absorbing polymer particles 8 to be dispersed is in a state in which no alcohol aqueous solution is included.

  The amount of the aqueous alcohol solution contained in the water-absorbing polymer particles 8 varies depending on the amount of the water-absorbing polymer particles 8 arranged in the hydrophilic foam, It is preferable to spray on the lower absorbent body 42 in order to spread the aqueous alcohol solution over the entire hydrophilic foam. Even if the water-absorbing polymer particles 8 have the amount of the aqueous alcohol solution described above in advance, 1) it can contain a liquid of about 1000% by mass of its own weight, and 2) a part thereof is hydrophilic Since it moves to a foam, it has a sufficient ability to absorb and retain body fluids.

  Next, the upper absorbent body 41 is placed on the lower absorbent body 42. The surface of the water-absorbing polymer particles 8 containing the liquid has an adhesive force, and the upper absorbent body 41 and the lower absorbent body 42 are bonded to each other. Further, a part of the alcohol aqueous solution contained in the water-absorbing polymer particles 8 moves to the upper absorbent body 41 and the lower absorbent body 42 in a dry state. The aqueous alcohol solution that has moved to both absorbers 41 and 42 is uniformly distributed throughout the absorbers 41 and 42, and the stiffness of the absorbers 41 and 42 is reduced as a whole. As shown in FIGS. 3A and 3B, the water-absorbing polymer particles 8 have a smaller diameter when the amount of the alcohol aqueous solution contained is reduced. Each of the upper absorbent body 41 and the lower absorbent body 42 absorbs an alcohol aqueous solution and expands slightly to increase its thickness.

  In this way, as shown in FIG. 3B, the absorbent body 4 made of a laminate of the upper absorbent body 41 and the lower absorbent body 42 is formed.

  Further, the absorbent body 4 formed as described above is placed on a separately prepared back sheet 3, and a separately prepared top sheet 2 is placed thereon, and the two sheets are joined together at the periphery. Thus, the napkin 1 as the absorbent article of the present invention is obtained. The napkin 1 may be manufactured individually, or may be continuously performed using, for example, a long absorbent material and a sheet material.

Further, as another preferred embodiment for producing the napkin 1 as the absorbent article of the present invention, a dry water absorption containing no alcohol aqueous solution between the upper absorbent body 41 and the lower absorbent body 42 prepared as described above. The laminated body 43 is produced on both sides of the conductive polymer 8, and then, an aqueous alcohol solution is soaked into the laminated body 43.
The amount of the alcohol aqueous solution soaked into the laminate 43 is 60 to 600% by mass when the weight of the hydrophilic foam is 100% by mass, so that the alcohol aqueous solution is the whole of the upper absorbent body 41 and the lower absorbent body 42. It is preferable for the absorber 4 to be flexible. About another manufacturing method, it is the same as that of the embodiment mentioned above, and the description mentioned above is applied suitably.
According to this embodiment, since the aqueous alcohol solution is not included in the water-absorbing polymer 8 in advance, the production is easy.

The absorbent article of the present invention is not limited to the above-described embodiments and embodiments, and can be appropriately changed without departing from the spirit of the present invention.
For example, the absorbent body 4 may include an absorbent material mainly composed of hydrophilic fibers in addition to the hydrophilic foam. As the hydrophilic fiber, for example, a pulp material is preferable, and a layer made of the pulp material is preferably disposed on the non-skin contact surface side of the hydrophilic foam. Further, water-absorbing polymer particles may be disposed in the bubbles of the hydrophilic foam made of cellulose sponge. Moreover, the hydrophilic foam may contain only water or a polyhydric alcohol.

  In the present embodiment, the water-absorbing polymer has a particle shape. However, in addition to the particle shape, the water-absorbing polymer can be used in various forms such as a powder form and a fiber form.

  Furthermore, in the above-described embodiment, a laminate of the upper absorbent body 41 and the lower absorbent body 42 with the dried water absorbent polymer particles 8 sandwiched between hydrophilic foams made of a cellulosic sponge containing an aqueous alcohol solution. May be formed.

  In addition, the aqueous alcohol solution may contain a known antibacterial agent such as paraben, an antifungal agent and the like in order to further improve the antibacterial property and antifungal property.

  The absorbent article of the present invention may be a sanitary napkin, but may be a diaper, an incontinence pad, a panty liner, or the like.

FIG. 1 is a partially broken perspective view showing this embodiment of a sanitary napkin as an absorbent article of the present invention. 2 is a cross-sectional view taken along line XX of FIG. Fig.3 (a) and (b) are sectional drawings which show the principal part of the manufacturing method of the sanitary napkin as an absorbent article of this invention, (a) laminates | stacks an upper absorber and a lower absorber. (B) The upper absorber and the lower absorber are stacked and joined.

Explanation of symbols

1 Sanitary napkin (absorbent article)
2 Top sheet 3 Back sheet 4 Absorbent body 41 Upper absorbent body 42 Lower absorbent body 8 Water-absorbing polymer particles

Claims (9)

  An absorbent article comprising an absorbent body having a hydrophilic foam, wherein the hydrophilic foam contains 60 to 600 mass% of water and / or a polyhydric alcohol.   The absorbent article according to claim 1, wherein water-absorbing polymer particles are arranged in the hydrophilic foam.   The hydrophilic foam is formed by laminating an upper absorbent body and a lower absorbent body, and the water-absorbing polymer particles are mainly disposed between the upper absorbent body and the lower absorbent body. Item 3. An absorbent article according to item 1 or 2.   The absorbent article according to claim 1, wherein the hydrophilic foam is made of a cellulosic sponge.   The absorptive article according to any one of claims 1 to 4 which contains ethylene glycol and / or glycerin as said polyhydric alcohol.   The absorbent article according to any one of claims 1 to 5, wherein the absorbent article is individually packaged by a packaging material having substantially no air permeability.   The absorbent article according to claim 6, wherein the packaging material has one or more layers made of high-density polyethylene, nylon, polyvinylidene chloride, or aluminum.   A package of absorbent articles, wherein a plurality of the absorbent articles according to claim 6 or 7 are packaged with an outer layer packaging material having substantially no air permeability. An absorbent body having a hydrophilic foam, the hydrophilic foam is a method for producing an absorbent article containing 60 to 600% by mass of water and / or polyhydric alcohol,
First, an absorbent body having a hydrophilic foam made of cellulosic sponge is prepared,
Next, the absorbent is impregnated with water and / or polyhydric alcohol,
Thereafter, the absorbent body is sandwiched between a separately prepared topsheet and backsheet, and the periphery of the two sheets is joined.

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