JP2006167480A - Body fluid absorbing article - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a body fluid absorbing article which is excellent in leak preventive effect against large urination amount or repeated urination as well as returning or sticky feeling after urine absorption. <P>SOLUTION: A body fluid absorbing article comprises a liquid impermeable backside sheet, a liquid permeable surface sheet, and an absorptive body comprising pulp and a absorptive polymer put therebetween. The absorbent body has a highly absorptive polymer ratio to the total weight of pulp and the absorptive polymer of 10-90 wt%. The absorptive polymer has more than 5 g/g for 15 seconds from absorption starting of body fluid sucking absorptive performance to move the body fluid retained in voids of pulp fiber to the absorptive polymer side. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a body fluid absorbent article such as a disposable diaper, a sanitary napkin, an incontinence pad, and in particular, is excellent in leakage prevention effect for large-scale urination and repeated urination, and the like. The present invention relates to a body fluid absorbent article that eliminates the feeling of stickiness.

  Since bodily fluid absorbent articles such as disposable diapers, sanitary napkins, and incontinence pads have been provided on the market, various improvements have been made with respect to absorbent bodies using superabsorbent polymers.

  As is well known, a superabsorbent polymer absorbs and swells when it comes into contact with water and becomes a gel, and once absorbed, it has the property that it does not separate even if a certain amount of pressure is applied. It shows tremendous water absorption such as reaching tens to thousands of times.

  Although the superabsorbent polymer alone exhibits the above-mentioned absorbency, it cannot exhibit water absorption unless it is moistened to some extent, and because the absorption speed is slow, the pulp constituting the absorber of the body fluid absorbent article For example, it is mixed in a state of being aggregated in the form of granular powder, crushed powder or cocoon. As a result, problems unique to bodily fluid absorbent articles such as reversion from pulp and problems of resorbability occur.

  For example, in recent years, this type of body fluid absorbent article has been designed to be thin and compact, but the water absorption cannot be reduced even if it is made thin or compact. In particular, the blending ratio of the superabsorbent polymer is increased. However, when the blending ratio of the superabsorbent polymer is given, so-called “gel blocking” occurs in which the voids between the swollen polymer particles are extremely lowered, and the required water absorption ability cannot be expressed. As a result, the urine permeation is inhibited by the bonding between the polymer particles, and a phenomenon in which the urine that is impeded by the permeation is reversed and flows out again is observed. In the past, as a method for preventing this gel blocking, the mixing density of the superabsorbent polymer is gradually increased from the upper layer side and mixed so that gel blocking does not occur on the upper layer side (Japanese Patent Laid-Open No. 52-52). No. 45703, etc.), and those in which the center particle diameter of the superabsorbent polymer is 400 to 700 μm and the absorber is constituted by mixing the superabsorbent polymer and hydrophilic fibers (US Pat. No. 5,601,259) are disclosed. ing. On the other hand, thinning tends to be dealt with by using a superabsorbent polymer having a large bulk specific gravity while reducing hydrophilic fibers having a small bulk specific gravity.

  Furthermore, the pulp itself is compressed or densified to prevent the phenomenon that the pulp absorbs water and deforms and the water absorption space between fibers becomes extremely small (Japanese Patent Publication No. 1-333176, etc.) In addition, in order to prevent the pulp from twisting when wet, a product obtained by crosslinking a pulp with an appropriate crosslinking agent (Japanese Patent Laid-Open No. 63-264971) has been proposed.

  Certainly, although the above-mentioned technologies have shown some effects on individual problems, a questionnaire survey on the use of disposable diapers shows that in the case of older children and adults with high urination volume and fast urination speed, It has been confirmed that the wearer is often dissatisfied with leaks and reversals, and that if there is a large amount of urination per time, it will be leaked even though there is a margin in the absorption capacity. Yes.

  Based on this situation, the technologies proposed in the past are reconsidered, and each proposed technology is able to deal with individual problems such as leakage prevention, reversion prevention, gel blocking suppression, and pulp twist prevention by improving absorption performance. Although there are proposals for solution methods, each of which has been effective, there is a doubt that it lacks a comprehensive point of view regarding the composite function and role sharing of functions of pulp and superabsorbent polymer that constitute the absorber Occurred. That is, in order to improve the absorption performance, the blending ratio of the superabsorbent polymer may be increased, but if the blending ratio is excessively increased, gel blocking occurs. As a result, in order to achieve both contradictory effects such as reversal, the superabsorbency is taken into consideration from the viewpoint of comprehensive consideration of the combined function and function sharing of pulp and superabsorbent polymer. It is necessary to specify the blending ratio and absorption performance of the polymer.

  Therefore, the main problem of the present invention relates to body fluid absorbent articles such as disposable diapers, sanitary napkins, and incontinence pads, and focuses on the performance of the superabsorbent polymer used and the cooperative action between the pulp and the superabsorbent polymer. By providing a superabsorbent polymer element, it is possible to provide a body fluid absorbent article that is excellent in leakage prevention effects for large-scale urination and repeated urination, and that relieves the feeling of sticking of the surface sheet and back to the surface sheet after urine absorption. There is.

In order to solve the above-mentioned problems, the present invention provides a body fluid-absorbing article comprising a liquid-impervious back sheet, a liquid-permeable top sheet, and an absorbent body made of pulp and a superabsorbent polymer interposed between these sheets. In
In the absorbent body, the ratio of the superabsorbent polymer to the total weight of pulp and superabsorbent polymer is 10 to 90% by weight,
The superabsorbent polymer has a bodily fluid suction / absorbing performance for transferring the bodily fluid retained in the pulp fiber gap to the superabsorbent polymer side, and is 5 g / g or more in 15 seconds from the start of absorption. It is.

  In this case, the ratio of the superabsorbent polymer to the total weight of the pulp and the superabsorbent polymer is preferably 30 to 60% by weight. The superabsorbent polymer preferably has an irregularity of the polymer particle shape of 0.3 to 0.5 g / ml or less in bulk density evaluation, and the polymer particle size distribution is 10% by weight of 500 μm or more, Preferably, 250 to 500 μm is 70% by weight, and 250 μm or less is 20% by weight.

  To reconsider the water absorption mechanism between the pulp constituting the absorber and the superabsorbent polymer (hereinafter simply referred to as the water-absorbing polymer) and the cooperating action at that time, if the urine is discharged to the absorber, the water-absorbing polymer Has a problem that water absorption cannot be achieved unless it is moistened to some extent, and the absorption rate is relatively slow. Become. Then, an absorption form is adopted in which urine retained between pulp gaps moves to the water-absorbing polymer side with a delay. The urine leakage is thought to be due to the delay in the rate of transfer to the water-absorbing polymer and the amount of water retained between the pulp gaps reaching the limit. Below, as will be described later, if the urination time is 15 seconds, if the suction absorption performance of the water-absorbing polymer in this 15 seconds is 5 g / g or more, the water retention amount between the pulp gaps does not reach the limit value, It becomes possible to make the absorbent body absorb the entire amount of discharged urine.

  In addition, according to the characteristics of the water-absorbing polymer, the urine once retained is not easily separated even if pressurized, so in addition to the condition that the transition to the water-absorbing polymer is made quickly, it will be demonstrated by the following experiment. Thus, if the water-absorbing polymer content is preferably 30% by weight or more and less than 60% by weight, the occurrence of reversal can be effectively suppressed.

  Furthermore, since the reabsorption performance is determined by the water retention capacity of the pulp after urine absorption and the degree of gel blocking, the transition to the water-absorbing polymer side is performed quickly, and the particle shape is difficult to gel-block. In the present invention, it is solved by using a water-absorbing polymer of 0.3 to 0.5 g / ml in bulk density evaluation.

  As described above in detail, according to the present invention, it relates to body fluid absorbent articles such as disposable diapers, sanitary napkins, and incontinence pads, and pays attention to the performance of the superabsorbent polymer used and the cooperative action between the pulp and the superabsorbent polymer. By defining the water-absorbing polymer element, it is possible to prevent leakage of large-scale urination and repeated urination, as well as to relieve the surface sheet from returning to the surface sheet and absorbing the surface sheet after urine absorption. It becomes.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  The bodily fluid absorbent articles targeted by the present invention are adult paper diapers, infant paper diapers, sanitary napkins, incontinence pads, etc., specifically, a liquid-impermeable back sheet, a liquid-permeable surface sheet, and both Any body fluid-absorbing article may be used as long as an absorbent body made of pulp and a water-absorbing polymer is interposed inside the sheet.

  As the liquid-impervious back sheet, a liquid-impervious sheet made of a polyethylene sheet or the like, a water-permeable / moisture-permeable sheet having moisture permeability from the viewpoint of stuffiness prevention, and a composite sheet of a nonwoven fabric and a waterproof sheet are used On the other hand, a porous or non-porous nonwoven fabric or a porous plastic sheet is preferably used as the liquid-permeable surface sheet. As the material fibers constituting the nonwoven fabric, in addition to olefins such as polyethylene or polypropylene, polyesters, polyamides, and other synthetic fibers, regenerated fibers such as rayon and cupra, and natural fibers such as cotton can be used. A nonwoven fabric obtained by an appropriate processing method such as a method, a spun bond method, a thermal bond method, a melt blown method, or a needle punch method can be used.

  The absorber interposed between the liquid-impervious back sheet and the liquid-permeable top sheet is composed of pulp and a water-absorbing polymer. Specifically, it is mixed as, for example, granular powder in the pulp constituting the absorber.

  Examples of the pulp include chemical fibers obtained from wood, cellulose fibers such as dissolving pulp, and artificial cellulose fibers such as rayon and acetate. Softwood pulp having a longer fiber length than hardwood pulp functions and It is preferably used in terms of price.

  On the other hand, the water-absorbing polymer used in the main body liquid-absorbing article has a body fluid suction / absorbing performance for transferring the body fluid retained in the pulp fiber gap to the water-absorbing polymer side, and is 5 g / g or more in 15 seconds from the start of absorption. used.

  If urination is performed to an absorbent body composed of pulp and a water-absorbing polymer, the water-absorbing polymer cannot exert its water-absorbing power unless it is moistened to some extent, and the absorption rate is slow, so the absorption rate is significantly faster than that of the water-absorbing polymer. On the pulp side, water is absorbed between the fibers by capillary action with some diffusion, and then urine retained between the fibers moves to the water-absorbing polymer side.

  On the other hand, according to the investigation by the present inventors, it has been found that the urination speed and amount are completed in 10 to 15 seconds and the amount is 50 to 200 ml. Assuming that urine retained in the gap between the pulp fibers within this urination time exceeds the limit value, leakage during large urination is retained between the pulp fibers to ensure leakage prevention. If the urine is quickly transferred to the water-absorbing polymer side, and the water-absorbing polymer blending amount (also referred to as the water-absorbing polymer content ratio) does not cause reversal, the total amount of urine discharged without the pulp fiber gap reaching the water retention limit Can be absorbed into the absorbent body and can be prevented from returning.

Therefore, in order to prevent urine leakage, it has been found that the amount of absorption at the urination site (about 100 cm ² ) is preferably about 1/4 or more of the total urine volume. The amount of absorption at the urination site should be 50 ml or more. Table 1 shows a trial calculation table for absorbing 50 ml of urine by pulp and water-absorbing polymer in 15 seconds. Table 1 shows that the pulp weight per 100 cm ² is 2.95 g, the water-absorbing polymer weight is 1.25 g (the water-absorbing polymer content ratio is 0.3), and the pulp absorption performance is 15 g / g. The required suction absorption performance of the water-absorbing polymer when the urine is absorbed by the pulp and the water-absorbing polymer is calculated.

  From the calculation results in Table 1, it was found that the body fluid suction / absorption performance of the water-absorbing polymer required 5 g / g or more in 15 seconds from the start of absorption in order to make the total absorption after 15 seconds 50 ml or more.

  As a test method for measuring the body fluid suction and absorption performance, for example, the test method shown in FIG. 1 is preferably employed. First, 3 g of pulp is laid flat on a cylinder 1 having an opening with a diameter of 50 mm at the top and a 300 mesh filter 1 a at the bottom, and the weight Wo of Group A is measured. Next, 0.3 g of a water-absorbing polymer is laid flat on the upper surface of the filter paper 3 with the filter paper 2 in between so as to be uniform. Then, as shown in FIG. 1, the filter paper 3, the filter paper 2, and Group A are placed in this order on the tray 4, and 8 ml of artificial urine is injected using a burette. The weight Wt of Group A was measured every time determined after the injection of 8 ml, and the absorbed amount of the water-absorbing polymer per hour was calculated from the following formula (1).

Absorption amount of water-absorbing polymer (g / g) = (Wo + artificial urine weight−Wt) / water-absorbing polymer weight (1)
FIG. 2 shows the results of the above test performed on a plurality of types of water-absorbing polymers A to C. As a result of testing three types of water-absorbing polymers, it was found that the water-absorbing polymer A can be used in the present invention. The water-absorbing polymer A is prepared by dispersing and polymerizing an acrylic acid or alkali metal acrylate aqueous solution containing a reaction initiator (catalyst) in a petroleum solvent containing a surfactant, crosslinking with a crosslinking agent, drying, It is produced by classification, and the particle form has large irregularities on the surface of each particle, and each particle shape forms an irregular shape. Incidentally, Table 2 shows the bulk density and particle size distribution of the water-absorbing polymers A to C used in the experiment.

  The content of the water-absorbing polymer with respect to the total weight of the pulp and the superabsorbent polymer is preferably 0.1 to 0.9. When the water-absorbing polymer content is less than 0.1, the body fluid is not sufficiently transferred from the pulp gap to the water-absorbing polymer, causing the body fluid to flow on the top sheet of the absorbent article during repeated absorption, and leakage is likely to occur. Moreover, when the water-absorbing polymer content exceeds 0.9, a phenomenon in which gel blocking becomes remarkable is observed.

  Regarding the water-absorbing polymer content, in order to find a more suitable range, the water-absorbing polymer A suitable for the body fluid absorbent article of the present specification was used to examine the water-absorbing polymer content ratio that does not reverse. In the test, five types of absorption specimens with the polymer blending ratio a changed between 0.2 and 0.6 were prepared, and after flattening them and injecting 200 cc of artificial urine, the weight was measured in advance. A 5 kg weight was loaded for 10 seconds after a certain period of time, and the weight of the kitchen paper was measured again after loading, and the amount of reversion was calculated from the difference in kitchen paper weight before and after loading. The result is shown in FIG.

  As a result of the test, when the water-absorbing polymer content ratio a is lower than 0.3, the absorption amount per unit weight of the water-absorbing polymer is increased, artificial urine is not sufficiently sucked from the pulp gap, and the reverse phenomenon rapidly increases. Yes. Therefore, it has been found that the water-absorbing polymer content is preferably 0.3 or more. The upper limit is not shown in the experiment, but depending on the type of the body fluid absorbent article, gel blocking may occur, which may adversely affect the amount of reversion, etc., so the preferred upper limit of the water-absorbing polymer content is 0. .6.

  Next, using the water-absorbing polymer A suitable for the body fluid-absorbing article of this specification, a paper diaper was actually made as a prototype, and an absorption amount test and a reabsorption test were performed. The water-absorbing polymer A to be used was one having an irregularity of particle shape of 0.40 g / ml in terms of bulk density evaluation. In the bodily fluid absorbent article of the present invention, those having a bulk density in the range of 0.3 to 0.5 g / ml are preferably used. When the bulk density is less than 0.3 g / ml, the strength of the water-absorbing polymer is lowered, the gel is broken by the shearing force applied during production and use, and the absorption performance is lowered. On the other hand, if the bulk density exceeds 0.5 g / ml, the surface area of the water-absorbing polymer tends to decrease, so that the contact area with the body fluid also decreases and sufficient body fluid absorption performance cannot be obtained.

  The polymer particle size distribution was prepared such that 500 μm or more was 10% by weight, 250 to 500 μm was 70% by weight, and 250 μm or less was 20% by weight. Considering that the bulk density of commonly used water-absorbing polymer is around 0.6 g / ml, this water-absorbing polymer with a small bulk density ensures gel blocking as demonstrated in the reabsorption test described below. It has been confirmed that it exhibits a very high reabsorption performance.

  The body fluid absorbent article used in the experiment is a pants-type paper diaper in which an absorber is interposed between a liquid-permeable top sheet and a liquid-impervious back sheet, and the absorbent is composed of an upper layer absorbent and a lower layer absorbent. The upper and lower two-layer absorber structure, the lower layer absorber has a substantially hourglass shape with constrictions on both sides in the longitudinal direction, the longitudinal dimension is 500 mm, the constriction width is 100 mm, while the upper absorber is just It has a scoop shape, about 300 mm in the longitudinal direction, a thick part is about 150 mm, and a thin part is about 50 mm. As shown in Table 3, the water-absorbing polymer content ratio was set to 0.5 for both the lower layer and upper layer absorbers, and a water-absorbing polymer C was also prepared for comparison.

(Leakage test)
For leaks, a doll simulating an old man's figure was placed sideways, artificial urine was injected at a rate of 15 ml, and the amount of absorption when the leak occurred was measured. The results are shown in Table 4.

  From Table 4, it was 321 ml in the case of the product of the present invention, and 220 ml in the case of the comparative product. In this absorbent body, since the urine retained between the pulp voids quickly moves to the water-absorbing polymer side, it was confirmed that the pulp was delayed in reaching the water retention limit amount and could absorb a large amount of urine as a result.

(Resorption test)
In the reabsorption test, the human body model is placed sideways, and after 150 ml of artificial urine has been absorbed in advance, artificial urine is injected at a water injection rate of 10 ml / sec. Was measured. The results are shown in Table 5.

  From Table 5, it was confirmed that the product of the present invention shows a high value in terms of reabsorption performance. This is because the urine retained between the pulp gaps is quickly transferred to the water-absorbing pulp side, and the water retention capability is left between the pulp gaps, and the water-absorbing polymer has a low bulk density, so it swells. However, the voids are not filled, and it seems to be the result of maintaining the absorption capacity for a long time.

It is a perspective view which shows the suction absorption test capacity | capacitance of a water absorption polymer. It is a graph which shows a suction absorption test result. It is a graph which shows a reverse test result.

Explanation of symbols

  1 ... Cylinder, 2.3 ... Filter paper, 4 ... Tray

Claims (4)

In a body fluid absorbent article formed by interposing an absorbent made of pulp and a superabsorbent polymer inside the liquid impervious back sheet, liquid permeable top sheet, and both of these sheets,
In the absorbent body, the ratio of the superabsorbent polymer to the total weight of pulp and superabsorbent polymer is 10 to 90% by weight,
And the said superabsorbent polymer is a bodily fluid characterized by the bodily fluid suction | inhalation absorption performance which transfers the bodily fluid retained by the pulp fiber space | gap to the superabsorbent polymer side being 5 g / g or more in 15 seconds from absorption start. Absorbent article.   The body fluid absorbent article according to claim 1, wherein the ratio of the superabsorbent polymer to the total weight of the pulp and the superabsorbent polymer is 30 to 60% by weight.   The humor absorbent article according to any one of claims 1 and 2, wherein the superabsorbent polymer has an irregularity of polymer particle shape of 0.3 to 0.5 g / ml in bulk density evaluation. The body fluid-absorbing article according to any one of claims 1 to 3, wherein the superabsorbent polymer has a polymer particle size distribution of 10% by weight of 500 μm or more, 70% by weight of 250 to 500 μm, and 20% by weight of 250 μm or less.

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