JP2001309941A - Disposable absorbing article - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a disposable absorbing article that is excellent in leakage preventive effect on excrements. SOLUTION: This article is has a liquid-permeable top sheet, a liquid- impermeable, and an absorbing body arranged between both the sheets. The absorbing body contains two kinds of high-molecular absorbing materials that mutually differ in water suction rates where the ratio in the difference is over three times, and on the peripheral area of the absorbing body, the high-molecular absorbing material whose water suction rate is higher is arranged in many portions, while on its center area, the high-molecular absorbing material whose water suction rate is low is arranged in many portions.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an absorbent article used for a baby absorbent pad, a disposable diaper and the like for infants or incontinent persons. The present invention relates to a disposable absorbent article having an improved effect of preventing leakage of articles.

[0002]

2. Description of the Related Art Conventional absorbent articles represented by disposable diapers include a liquid-permeable top sheet and a liquid-impermeable material, such as a deployable diaper disclosed in Japanese Patent Publication No. 52-40267. Back sheet, and an absorbent body disposed between the two sheets, the excrement such as urine excreted at the time of wearing is held by the absorbent body via a liquid-permeable top sheet, A stretchable elastic member is used as an impermeable back sheet to prevent excrement from leaking out of the absorbent wearing article, and can be suitably used as an absorbent article used in accordance with its use. Various forms have been proposed, for example, including a fastener and a fastener.

[0003] These waste absorbent articles are made of absorbent paper made of hydrophilic fiber as an absorbent and sodium polyacrylate as in the absorbent part disclosed in Japanese Patent Application Laid-Open No. 51-41295. Since the use of a composite with a polymer absorbent such as the above has been proposed, the use of hydrophilic fibers such as fluff pulp and various polymer absorbents as the absorbent has become mainstream at present.

[0004] Further, as a polymer absorbent used for the absorber, JP-A-63-256701 and JP-A-2-31 are disclosed.
No. 735, Japanese Patent Application Laid-Open No. 6-58931, the absorbent articles having different shapes, crosslink densities, etc. and different absorption speeds are used.
Additions of more than one type have been proposed.

[0005] In these absorbers, a time lag is provided when the polymer absorbent absorbs and retains urine and the like taken into the absorber, thereby preventing concentration and absorption in a part of the absorber. It has been proposed to quickly absorb and retain locally excreted urine, etc., and to use the entire absorber more effectively. Specifically, polymer absorbents having different absorption rates are simply mixed and added. It has been proposed to adopt a multilayer structure of the material and the absorber, and to use a polymer absorbent having a different absorption rate for each layer.

[0006]

In these inventions, since the article is a used article, it has been proposed to effectively utilize the polymer absorbent at a limited cost. The ultimate purpose of the absorbent component is to reliably absorb and retain excrement such as urine and to minimize leakage from the absorbent component, and various improvement methods have been proposed.

However, since these absorbent components are used in a wide variety of ways, it is extremely difficult to provide a product that completely prevents leakage of urine and the like, and to provide a product with a minimum leakage rate. Has become a major issue for manufacturers of such articles.

On the other hand, the above-mentioned methods are effective means. However, in these methods, simply adding a polymer absorbing material having a different absorption rate is an intermediate between the two properties. There is not much difference from the case of adding a material having a characteristic property, and there is no difference in the distribution state in the plane direction of the absorber. The same is true when materials are properly used, and there is room for improvement in minimizing leakage of urine and the like required for absorbent articles.

It is an object of the present invention to provide a product which solves the above-mentioned problems of the conventional disposable absorbent article and minimizes leakage of urine and other excrement from the absorbent article.

[0010]

SUMMARY OF THE INVENTION The present invention for solving the problems of the above-mentioned conventional waste absorbent article includes the following inventions. (1) A disposable absorbent article having a liquid-permeable top sheet, a liquid-impermeable back sheet, and an absorber disposed between these two sheets, wherein the absorber is at least partially Is composed of a composite of a hydrophilic fiber and a polymer absorbent, the polymer absorbent comprises at least two kinds of different physiological saline water absorption rates, measured by the following method, The ratio of the water absorption rate between the polymer absorbent F, which is a polymer absorbent having a fast water absorption rate, and the polymer absorbent S, which is a polymer absorbent having the slowest water absorption rate, is 3 times or more, and In at least a part of the peripheral region of the absorber, the polymer absorbing material F is disposed more than the polymer absorbing material S, and in at least a part of the central region of the absorber, the polymer absorbing material S is provided. Is the polymer absorbent F Disposable absorbent article characterized in that it is arranged much. Measuring method of water absorption rate: (1) In a 100 ml beaker, 50 ml of 0.9% sodium chloride aqueous solution is added, and the liquid temperature is adjusted to 25 degrees. (2) A Teflon rotator (diameter 8 mm, length 30 mm, weight 3.8 g) is put into the above-mentioned beaker, and stirred with a magnetic stirrer at 600 rpm. (3) 2 g of the polymer absorbent is added into the vortex, and the time (second) from the time of addition to the time when the vortex disappears and the liquid level becomes horizontal is measured.

(2) The polymer absorbent F has a water absorption rate of 3 to 15 seconds and the polymer absorbent S has a water absorption rate of 45 to 60 seconds, as measured by the above method. The disposable absorbent article according to the above (1).

(3) The ratio of the polymer absorbent F occupied in the polymer absorbent disposed in at least a part of the peripheral region of the absorber is 70 to 100% by weight, and the center of the absorber is The use according to the above (1) or (2), wherein the proportion of the polymer absorbent S in the polymer absorbent arranged in at least a part of the partial region is 70 to 100% by weight. All absorbent articles.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION The waste absorbent article of the present invention comprises:
As the polymer absorbent constituting the absorber, at least two types of physiological saline having different water absorption rates as measured by the above method are blended, and the polymer absorbent having the fastest water absorption rate is included. The ratio of the water absorption rate of the polymer absorption material S, which is the polymer absorption material having the slowest water absorption rate, to the absorption rate of the polymer absorption material F is three times or more, and the polymer absorption is in the peripheral region of the absorber. The material F is arranged more, and the polymer absorbent S is arranged more in the central region of the absorber.

When the wearable absorbent article of the present invention having the absorbent having such a structure is worn and urine or the like is actually excreted, the area of the absorbent where the liquid first penetrates is the absorption rate. The polymer absorbed material S is distributed in a large amount, and the liquid absorbed in this region is
It is diffused faster in the plane direction of the absorber than is absorbed by the polymer, and is quickly absorbed by the polymer absorbent F in the peripheral region of the absorber. As a result, the polymeric absorbent F gels and acts as a leak-proof wall, so that when urine is excreted next time, the urine that has reached the peripheral portion of the absorber stays inside the peripheral portion, and during that time, Is absorbed by the polymer absorbent S.

As described above, in the disposable absorbent article of the present invention, the polymer absorbent disposed in the absorber can efficiently absorb liquid such as urine, and can effectively prevent leakage. However, in particular, considering the state in which the wearer is in a recumbent position, or in a supine or prone position, the substantially absorbable area of the absorber is significantly reduced, and in such a state, urine or the like is absorbed. When excreted, liquid such as urine tends to reach the peripheral region of the absorbent at a relatively early stage, but in the case of the disposable absorbent article of the present invention, urine and the like from the peripheral region even in such a state. Liquid can be effectively prevented from leaking.

The polymer absorbent F has a water absorption rate of 3
１５15 seconds, the polymer absorbent S having a water absorption rate of 45 to 60 seconds is used, and the polymer absorbent F occupied in the polymer absorbent disposed in the peripheral region of the absorber is used. Is set to 70 to 100% by weight, and the ratio of the polymer absorbent S occupied in the polymer absorbent disposed in the central region of the absorber is set to 70 to 100% by weight. Effect can be further enhanced.

[0017]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view of an absorbent article according to the present invention, but the present invention is not limited thereto. FIG. 1 is a partially developed plan view of the absorbent article of the present invention viewed from the top sheet side. In FIG. 1, a waste absorbent article 1 is basically composed of a liquid-permeable top sheet 2, a liquid-impermeable back sheet 3, and an absorber 4 disposed between these two sheets. The absorbent article 1 has an hourglass shape having a longitudinal direction as a whole overall shape. In addition, a top sheet 2 extending from both end edges and both side edges of the absorber 4 is provided on both end portions and both end portions in the longitudinal direction of the absorbent article 1.
The end flap 5 and the side flap 6 are formed by the portion and the back sheet 3, and the top sheet 2 and the back sheet 3 forming the side flap 6 are formed on the side flaps 6 on both longitudinal side edges of the absorbent main body 1. The leg elastic member 6 is arranged between the legs. Fastening tapes 8 for fixing to a wearer are arranged at predetermined portions of the side flaps 6 on both side edges of the absorber.

FIG. 1 shows an example of the structure of a so-called tape-fastened absorbent article using a tape. In addition to the above, a pre-formed pants-type, tape-fastened or pants-type absorbent article is used. Urine pads used in combination with absorbent articles, or incontinence pads used by inserting them into underwear.

FIG. 2 is a developed plan view of the absorbent portion of the disposable absorbent article of the present invention. In FIG. 2, the absorber 4
Is formed mainly of fluff pulp and a polymer absorbent, has a rectangular shape, a region A where a large amount of the polymer absorbent F is arranged in a peripheral region of the absorber, and a central region of the absorber. Is composed of a region B where a large number of polymer absorbents S are arranged.

An example of a preferred embodiment of the absorber shown in FIG. 2 is shown below. The absorber 4 has a rectangular shape having a longitudinal direction, an area of 300 to 500 cm ² , and is a high molecular weight polymer of sodium acrylate having a cross-linked structure with a cotton-like material made of bleached kraft pulp of softwood. It is formed by a mixture with a polymer absorbent, and there are some differences depending on the site, but the basis weight of pulp is 150 to 300 g.
/ M ² , and the polymer absorbent is scattered almost all over the absorber, and there are some differences depending on the site,
The spray basis weight is 150 to 300 g / m ² .

The polymer absorbent S has an average particle diameter of 40.
It consists of a polymer of sodium acrylate from 0 to 500 microns and has an absorption capacity of 5 in 0.9% saline.
The water absorption rate is 50-60 seconds, also measured with 0.9% physiological saline. On the other hand, the polymer absorbent F is made of a polymer of sodium acrylate having an average particle diameter of 200 to 300 microns, has an absorption capacity of 50 to 60 times measured with 0.9% physiological saline, and is 0%. .
The water absorption rate measured with 9% physiological saline is 5 to 10 seconds.

The area of the region A is 100 to 200 cm.
² , in the region A, the polymer absorbent F is 150
２５０250 g / m ² , polymer absorbent S is 0-50
g / m ² . On the other hand, the area of the region B is 200 to 3
00 cm ² , and in the region B, the polymer absorbent S
Is sprayed at 150 to 250 g / m ² , and the polymer absorbent F is sprayed at 0 to 50 g / m ² . However, area A and area B
Is not clear, and the amount of application per unit area of the polymer absorbent F and the polymer absorbent S may be partially the same in the vicinity of the boundary.

FIG. 3 is an exploded plan view of an absorbent portion of a disposable absorbent article according to the present invention, showing an example different from FIG. In FIG. 3, the absorber 4 is formed mainly of fluff pulp and a polymer absorbent, has an hourglass shape in which the width of the central portion in the longitudinal direction is narrow, and has both side edge regions in the central portion in the longitudinal direction and A region A in which a large amount of the polymer absorbent F is arranged is formed in both end regions in the longitudinal direction, and a region B in which a large amount of the polymer absorbent S is arranged is formed in a central region excluding a peripheral region of the absorber. I have.

An example of a preferred embodiment of the absorber shown in FIG. 3 is shown below. The absorber 4 has an hourglass shape having a narrow portion at the center, and has an area of 300 to 500 cm ² , as in the case of the absorber shown in FIG. 2. The pulp has a basis weight of 150 to 300 g / m ² , although it is formed by a mixture of a polymer absorbent material that is a polymer and a polymer of sodium acrylate having a cross-linked structure. In addition, the polymer absorbent is spread over almost the entirety of the absorber, and there are some differences depending on the site, but the basis weight of the spray is 150 to 300 g / m ² . Note that the same polymer absorber F and polymer absorber S as those used in the absorber shown in FIG. 2 can be used.

The area of the region A is 50 to 150 cm ^2.
In the region A, the polymer absorbent F is 150 to
250 g / m ² sprayed, 0 to 50 g of polymer absorbent S
/ M is ² sprayed. On the other hand, the area of the region B is 250 to 35
0 cm ² , in the region B, the polymer absorbent S was sprayed at 150 to 250 g / m ² , and the polymer absorbent F was
５０50 g / m ^{2 are} sprayed. Note that, similarly to the case shown in FIG. 2, the boundary between the region A and the region B is not clear, and in the vicinity of the boundary, the amount of application of the polymer absorbent F and the polymer absorbent S per unit area is partially reduced. May be the same in some cases.

As in the absorber shown in FIG. 2 or FIG. 3, a method of selectively changing the amount of the two or more polymer absorbents to be applied to a predetermined portion of the absorber by changing the amount of spraying is arbitrary. In the case of two types of polymer absorbents, for example, an absorbent body composed of two layers of fluff pulp is prepared, and a polymer absorbent material is layered between these absorbent bodies. When using a separate spraying device when spraying with a spraying device, the polymer absorbing material F is sprayed to the region A by one spraying device, and the polymer absorbing material S is sprayed to the region B by the other spraying device. Can be used. Further, in order to obtain the distribution as shown in FIG. 2, a polymer absorbent is mixed at the time of forming the absorber made of fluff pulp, and the region A and the region B are used in the case of a single-layer absorber. It is also possible to arrange the respective polymer absorbents so as to be unevenly distributed, and in the case of a two-layer absorber, it is also possible to be unevenly distributed in the region A in one layer and in the region B in the other layer. It is.

In the present invention, as the liquid-permeable top sheet, a liquid-permeable nonwoven fabric made of synthetic fibers made of polyethylene, polypropylene, polyester or other thermoplastic resin can be used.

In the present invention, as the liquid-impermeable back sheet, a liquid-impermeable sheet made of polyethylene, polypropylene, or the like can be used. Preferably, a polyethylene sheet having micropores or a thermoplastic resin is used. If moisture permeability is imparted using a moisture-permeable liquid-impermeable sheet that has been stretched by adding a filler to the material, there is no fear of stuffiness and the user is more comfortable.

In the present invention, the absorber is formed of at least a hydrophilic fiber and a polymer absorbent, and may have any shape as long as the object of the present invention is achieved. As the hydrophilic fiber, fluff pulp made of wood pulp is advantageously used, and other natural fibers such as cotton and hemp, rayon fibers and the like can be used. You can also. Further, it is preferable to form a laminated structure in which the whole is wrapped with a tissue.

In the present invention, as the polymer absorbent,
Polymer absorbents having different water absorption speeds of physiological saline as measured by the method shown below are used, and the ratio of the water absorption speeds is 3 times or more, and the polymer absorption material F is composed of the polymer absorption material having a high water absorption speed. At least two types of polymer absorbents, ie, a polymer absorbent S composed of a polymer absorbent having a low water absorption rate, are used. Measuring method of water absorption rate: (1) In a 100 ml beaker, 50 ml of 0.9% sodium chloride aqueous solution is added, and the liquid temperature is adjusted to 25 degrees. (2) A Teflon rotator (diameter 8 mm, length 30 mm, weight about 3.8 g) is put into the beaker, and the mixture is stirred with a magnetic stirrer at 600 rpm. (3) 2 g of the polymer absorbent is added into the vortex, and the time (second) from the time of addition to the time when the vortex disappears and the liquid level becomes horizontal is measured.

Further, in the present invention, the polymer absorbing material F is disposed more than the polymer absorbing material S in at least a part of the peripheral region of the absorber, and the polymer absorbing material F
Are arranged more than the polymer absorbent F in at least a part of the central region of the absorber. As described above, by locally disposing polymer absorbents having different water absorption rates in the absorber, it is possible to obtain a disposable absorbent article of the present invention having a desired effect.

In this case, it is necessary that the ratio of the water absorption rates of the polymer absorbent F and the polymer absorbent S is three times or more.
That is, the water absorption rate of the polymer absorbent F measured by the above method is preferably 3 to 15 seconds, and the water absorption rate of the polymer absorbent S is preferably 45 to 60 seconds.
If the water absorption rate of the polymer absorbing material F is less than 3 seconds, the particle size of the polymer absorbing material at the time of manufacture becomes too small, the handleability is inferior, and it becomes unsuitable for use in manufacturing absorbent articles. On the other hand, when the water absorption rate exceeds 15 seconds, the ratio of the water absorption rate to the polymer absorbent S becomes small, and the effect of locally disposing the polymer absorbents having different water absorption rates in the absorber becomes small, which is not preferable. . On the other hand, if the water absorption rate of the polymer absorbent S exceeds 60 seconds, the absorption rate cannot catch up when a large amount of urine is excreted, and conversely, leakage tends to occur. On the other hand, when the water absorption rate is less than 45 seconds, the ratio of the water absorption rate to the polymer absorbent F becomes small, and the effect of locally disposing the polymer absorbents having different water absorption rates on the absorber becomes small, which is not preferable. .

Further, the proportion of the polymer absorbent F in the polymer absorbent disposed in the peripheral region of the absorber is preferably 70 to 100% by weight, and the ratio of the polymer absorbent F in the central region of the absorber is preferably 100 to 100% by weight. It is preferable that the ratio of the polymer absorbent S occupied in the arranged polymer absorbent is 70 to 100% by weight. When the blending ratio of the polymer absorbent F in the peripheral region of the absorber is less than 70% by weight, the absorption rate is reduced, leakage is likely to occur, and the polymer absorbent S in the central region of the absorber is reduced. If the blending ratio is less than 70% by weight, gel blocking is likely to occur and the absorption performance is reduced, and in any case, the effect of locally disposing the polymer absorbent having a different water absorption rate on the absorber is reduced. Therefore, it is not preferable.

Both the polymer absorbing material F and the polymer absorbing material S
Although it can be selected from polymer absorbents used for ordinary absorbers, in particular, a powdery polymer polymer made of an acrylate having a crosslinked structure is advantageously used. The shape of the powder is not particularly limited, but the average particle size is 10%.
It is preferably between 0 and 850 microns, with a particle size of 85
If it exceeds 0 micron, it is not preferable because the absorbent becomes rough when a hydrophilic fiber is mixed to form an absorbent, and if the particle size is less than 100 microns, the handleability during the production of the absorbent is inferior. It is no longer suitable for the manufacture of fragile articles.

Further, the polymer absorbing material F and the polymer absorbing material S
In both cases, the absorption capacity of physiological saline is preferably 40 to 65 times when measured by the method described below. The polymer absorbent material is obtained by polymerizing a water-soluble monomer into a polymer and imparting shape retention during swelling by having a crosslinked structure, and the absorption capacity can be freely changed by the crosslink density,
When the absorption ratio is less than 40 times, it becomes necessary to mix a large amount of a polymer absorbent to secure the absorption amount of the absorber, which increases the production cost and increases the density of addition of the polymer absorbent, and the It is not preferable because gel blocking easily occurs and the effect of adding a large amount does not appear, and conversely, if the absorption capacity exceeds 65 times, the gel at the time of swelling becomes too soft, and gel is applied when pressure is applied during use. This is not preferred because it tends to collapse and eventually lowers the absorption capacity.

Measurement method of absorption capacity: (1) To a 1000 ml beaker was added 500 ml of 0.9% aqueous sodium chloride solution, and the liquid temperature was adjusted to 25 ° C. (2) A Teflon rotor (diameter 8 mm, length 30 mm, weight 3.8 g) is put into the above-mentioned beaker and stirred with a magnetic stirrer. (3) 2 g of the polymer absorbent is put into the vortex, and the beaker is stirred for 60 minutes with a lid for preventing evaporation of water. (4) The gel is filtered through a standard 75-micron sieve and left for 15 minutes. (5) Measure the weight (W) of the gel remaining on the sieve in grams. (6) Obtain W / 2 and use it as absorption capacity.

In the present invention, as the elastic member around the leg, an elastic member such as urethane thread or thread rubber can be used. Each elastic member is disposed in an extended state, and is arranged in a longitudinal direction of the absorbent article by a hot melt adhesive. Is fixed to a predetermined area with a length shorter than the total length of

[0038]

The waste absorbent article of the present invention is formed by locally disposing at least two kinds of polymer absorbents having different water absorption rates in the peripheral region and the central region of the absorber. . The waste absorbent article of the present invention having such a structure, when urine or the like is excreted for the first time, diffuses in the plane direction of the absorber and is quickly absorbed by the polymer absorbent F in the peripheral region. At the same time, the polymer absorbent F gels to form a leak-proof wall, and when urine or the like is excreted next, it is blocked at the peripheral region of the absorber, and the polymer absorbent is formed inside the peripheral region. Since it is absorbed by sulfur, the polymer absorbent can efficiently absorb urine, and has an extremely excellent leakage prevention effect.

[Brief description of the drawings]

FIG. 1 is a partially exploded plan view of a disposable absorbent article of the present invention viewed from the top sheet side.

FIG. 2 is a developed plan view of an absorbent portion of the disposable absorbent article of the present invention.

FIG. 3 is a developed plan view of an absorbent portion of the disposable absorbent article of the present invention, showing an example different from FIG.

[Explanation of symbols]

1: Absorbable absorbent article 2: Top sheet 3: Back sheet 4: Absorbent body 5: End flap 6: Side flap 7: Elastic elastic member around the leg 8: Fastening tape A: High-absorbing polymer absorbent material Selectively distributed area B: Area where polymer absorbing material with low absorption rate is selectively distributed

Continued on the front page F-term (reference) 3B029 BA05 BA12 BA14 BA15 BA18 4C098 AA09 CC02 CC10 4F100 AJ04 AK01C AK04 AK07 AK25 AK41 AR00A AR00B BA03 BA07 BA10A BA10B BA42 BA44 DG04C DG15 DJ06 GB66 J05 JB05C JD05JD

Claims (3)

[Claims] 1. A disposable absorbent article having a liquid-permeable top sheet, a liquid-impermeable back sheet, and an absorber disposed between these two sheets, wherein the absorber is At least a portion is composed of a composite of a hydrophilic fiber and a polymer absorbent, wherein the polymer absorbent comprises at least two types of physiological saline having different absorption rates, as measured by the following method. The ratio of the water absorption rate of the polymer absorbent F having the fastest water absorption rate to the polymer absorption material S having the slowest water absorption rate is 3 times or more, and at least a part of the peripheral region of the absorber. In the above, the polymer absorbing material F is disposed more than the polymer absorbing material S, and in at least a part of the central region of the absorber, the polymer absorbing material S is more than the polymer absorbing material F. That it is located Disposable absorbent articles characterized by the features. Measuring method of water absorption rate: (1) In a 100 ml beaker, 50 ml of 0.9% sodium chloride aqueous solution is added, and the liquid temperature is adjusted to 25 degrees. (2) A Teflon (registered trademark) rotor (diameter: 8 mm, length: 30 mm, weight: 3.8 g) is put into the beaker, and the mixture is stirred with a magnetic stirrer at 600 rpm. (3) 2 g of the polymer absorbent is added into the vortex, and the time (second) from the time of addition to the time when the vortex disappears and the liquid level becomes horizontal is measured. 2. The water absorption rate of the polymer absorbent F measured from the above method is 3 to 15 seconds, and the water absorption rate of the polymer absorbent S is 45 to 60 seconds. A disposable absorbent article according to claim 1. 3. A ratio of the polymer absorbent F occupied in the polymer absorbent disposed in at least a part of a peripheral region of the absorber is 70 to 100% by weight, and a center part of the absorber is provided. The ratio of the polymer absorbent S in the polymer absorbent disposed in at least a part of the region is 7%.
2. The composition according to claim 1, wherein the amount is 0 to 100% by weight.
2. The disposable absorbent article according to 2.