JP2002325800A - Absorber product having bottom acquisition function - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an absorber product which is improved in the absorption speed and diffusion speed of discharged body fluid. SOLUTION: This absorber product has a liquid permeable front surface sheet which exists on an inner side in a wearing state, a leakproof back sheet which exists on an outer side and an absorber body which is interposed between the liquid permeable front surface sheet and the leakproof back sheet. A bottom acquisition layer which temporarily stores the absorbed fluid not absorbed by the absorber body is arranged in contact with the outer surface of the absorber body. This bottom acquisition layer is composed of a sheet-like material having hollow projecting parts of many three-dimensional structures and is so arranged that the projecting parts of the sheet-like material comes into contact with the absorber body. The height of the projecting parts is 0.5 to 5 mm and the density thereof is >=1 piece/cm<2> .

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to ultra-thin absorbent products such as children's and adult diapers, women's goods, etc., and more particularly, by introducing a bottom acquisition function, greatly increasing the absorption speed and diffusion speed of discharged body fluid. The present invention relates to an improved absorbent product.

[0002]

2. Description of the Related Art Absorbent bodies are interposed between a liquid-permeable top sheet and a liquid-impermeable back sheet, and a binding unit or an elastic element is added to the absorbent product to absorb and retain liquid. The absorbent body that plays the role of is mainly composed of an absorbent core made of a mixture of fluff-like pulp and a highly water-absorbent resin (SAP particles), and a core wrap such as a tissue surrounding the core.

[0003] In recent years, with the demand for such absorber products to be more compact, the composition ratio of SAP particles has been drastically increased to improve the absorption capacity, and the thickness has been reduced to a corresponding extent. Yes, those with a content of conventional SAP particles of about 30% have been developed, but those with a content of 50%, most recently more than 80%.

[0004] The fluff pulp used as a pulp component in such an absorbent has a good hydrophilicity and a property of retaining voids between fibers, so that the water-absorbing speed of the aqueous liquid is high. However, the aqueous solution lacks stable retention. On the other hand, once the SAP particles have water in the molecular network, they maintain a stable state, but they have a major drawback that they tend to cause gel block and that the rising speed of aqueous liquid absorption is slow.

[0005] Conventional absorbers are based on a balance between the two. However, when the SAP particle ratio exceeds about 40%, this balance breaks down.
Interposition of a bulky nonwoven web between a particle-containing absorber and the like has been performed. This web is called the acquisition layer, and in some cases,
It is sometimes called a transfer layer.

[0006]

However, when the ratio of SAP particles further increases and reaches about 80%, the absorber becomes 1%.
It becomes a thin sheet of less than mm. In such a system, a sufficient acquisition function cannot be achieved only by intervening the conventional acquisition layer. In order to cover this, a thicker and possibly multi-layered acquisition layer is required, but this leads to an increase in cost and a reduction in the advantage of compactness.

[0007] Therefore, for practical use of an absorber having a structure in which the SAP particle ratio is around 80%, it is necessary to introduce a new concept different from the conventional acquisition function.

[0008]

SUMMARY OF THE INVENTION The present invention provides an absorption speed and a diffusion property of the high-concentration SAP absorber described above by providing a bottom acquisition layer between the outer surface of the absorber main body and the leak-proof back sheet. Solve the problem. In this specification, the term “bottom acquisition layer” is used to distinguish the acquisition layer provided at this position from the acquisition layer (surface acquisition layer) provided between the inner surface of the absorber main body and the liquid-permeable topsheet. Call.

In the absorbent product provided with the bottom acquisition layer, the effluent supplied on the topsheet first diffuses on the inner surface of the absorber body, and then passes through the SAP layer while passing through the SAP layer. SAP))
The unabsorbed liquid that has not been absorbed is temporarily stored in the bottom acquisition layer, returned to the absorber main body over time, and absorbed therein.

In the present invention, the bottom acquisition layer is composed of a sheet-like material having a large number of hollow projections having a three-dimensional structure, and the projections of the sheet-like material are arranged so as to contact the absorber main body. The concave portion of the sheet material is configured to function as a storage portion for the unabsorbed liquid.

The bottom acquisition layer is, for example, a molded product of a synthetic resin film, and the height of the projection is 0.5 mm.
And the density of the projections of the bottom acquisition layer is preferably 1 / cm ² or more.

The bottom acquisition layer may be impermeable to water and leakproof. In this case, the bottom acquisition layer can serve as a back sheet function as well as a bottom acquisition function.

Alternatively, the bottom acquisition layer may have an opening at the top and bottom of the projection, and may be configured to allow water to pass through the opening from the front surface to the back surface of the tom acquisition layer.

Further, on the outside of the bottom acquisition layer,
A water-resistant sheet may be joined and integrated to form a multilayer body, and this multilayer body may be used as a leak-proof back sheet.

In the absorbent product of the present invention, a surface acquisition layer is interposed between the inner surface of the absorber main body and the liquid-permeable surface sheet, and the surface acquisition layer and the bottom acquisition layer constitute two acquisition layers. It is also possible.

[0016]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The basic concept of the present invention is to arrange a bottom acquisition layer in contact with the outer surface of an absorber main body to temporarily store unabsorbed liquid not absorbed by the absorber main body. It is. The acquisition function of the absorbent product according to the present invention refers to a function of allowing the discharged bodily fluid to temporarily store the liquid at a rapid speed in a void layer having a certain bulk volume. What is particularly important as a function is that it is temporary and fast. That is, the liquid is only temporarily retained in the void, and this liquid is in a state to be moved. Therefore, it is only a temporary storage of liquid, not absorption or fixation.

The concept of the acquisition function is such that the main component of the absorbent body is replaced by pulp instead of SAP, and is created to supplement the absorption characteristics of SAP.

The term "acquisition layer"
It is used to mean a layer having the above-mentioned acquisition function. There are the following four cases as the location of the acquisition layer. FIG. 1 is a diagram showing the four cases.

(1) Surface acquisition layer (surface acquisition layer).

(2) Center acquisition layer (central acquisition layer).

(3) Side acquisition layers (acquisition layers on both sides).

(4) Bottom acquisition layer (bottom acquisition layer).

The surface acquisition layer is a conventional concept and generally means a bulky nonwoven layer interposed between a topsheet (top sheet) and the inner surface of the absorbent body. In order to compensate for the shortage of the initial absorption rate of the absorber body as the ratio of SAP increases, the discharged liquid is temporarily stored on the surface, and the unabsorbed liquid is released to the lower SAP layer over time by gravity. It is responsible for the buffer function. The released unabsorbed liquid is absorbed and fixed by the absorber with the recovery of the absorbency of SAP. A bulky nonwoven fabric is preferably used for the surface acquisition layer. As the nonwoven fabric is close to the topsheet, its feel is transmitted to the wearer's skin, so a soft cushioning property is required.At the same time, compression recovery (resilience) is required to secure voids that hold the liquid. A nonwoven fabric that is excellent, bulky, and excellent in liquid permeability is selected. As such a non-woven fabric, a thick denier synthetic fiber non-woven fabric whose surface is only hydrophilically processed is generally used.For example, a spot-bonded non-woven fabric by a PP card method, PE / P
A through-air-bonded nonwoven fabric or the like containing ET composite fiber as a main component is used. In the present invention, the presence of the surface acquisition is not essential, but it is preferable to use the surface acquisition together with a bottom acquisition layer described later.

Next, in the case where the absorber main body is formed into two or three layers, the center acquisition layer (central acquisition layer) is functionally provided with the surface acquisition effect and the bottom acquisition function until the absorber is disposed between the layers. It is a combination of some of the effects.

The side acquisition layers (acquisition layers on both side surfaces) are provided with acquisition layers on both side surfaces of the absorber main body to realize effective use of the absorber main body, but are not directly related to the present invention. Detailed description is omitted.

Further, the bottom acquisition layer (bottom acquisition layer) has the acquisition layer interposed between the outer surface of the absorber main body, that is, between the absorber main body and the back sheet, and exhibits an acquisition effect outside the absorber main body. Layer.

That is, the discharged body fluid supplied onto the topsheet first diffuses through the topsheet, passes through the topsheet, penetrates into the absorbent body mainly composed of SAP, is absorbed by SAP, and at the same time, its absorption rate is increased. Unabsorbed liquid that has passed through the SAP layer without being absorbed because it cannot catch up is temporarily stored in the bottom acquisition layer. The higher the storage capacity of the bottom acquisition layer is, the less the liquid stays on the topsheet and the shorter the time the liquid spreads over the entire SAP layer, and thus the less SAP blocking occurs. The unabsorbed liquid temporarily stored in the bottom acquisition layer is sucked up and held and fixed to the absorber main body in contact with the SAP as the absorption capacity of the SAP recovers. After that, the unabsorbed liquid stored in the bottom acquisition layer is absorbed by SAP, and voids are formed again inside.

Next, the structure and desirable conditions of the bottom acquisition layer will be described.

It is important that the surface acquisition layer has a soft and cushioning property. On the other hand, it is desirable that the bottom acquisition layer has rather high rigidity and high shape stability. Therefore, a molded article having a concavo-convex structure is more preferable than a nonwoven fabric, and a molded article having a structure for storing a liquid in its concave portion is suitable.

The invention having a cushioned air chamber that seals air as in the invention of Japanese Patent Application Laid-Open No. 2001-61892 cannot be used in the present invention, but the air chamber portion has no acquisition effect and has a non-acquisition effect. It is not preferred because it is efficient and bulky.

Hereinafter, the bottom acquisition layer applied to the absorbent product of the present invention will be described with reference to the drawings.

For example, the sheet 10 shown in FIG. 2 has a large number of projections 11 having a regularly arranged three-dimensional structure, and is obtained by, for example, thermoforming a low-pressure PE film having a thickness of 0.070 mm. The height (H) of the projection 11 is 2 mm
It is.

FIG. 3 shows a concavo-convex sheet 20 in which a number of convex portions 21 are formed on a metallocene-based PE film having a thickness of 0.100 mm. An opening 22 is formed at each vertex 21.
The opening 22 is formed by forming the funnel-shaped convex portion 21 by using heat suction and at the same time providing the opening 22. The height (H) of the convex portion 21 is 1.7 mm. The thickness was measured using FS-60A manufactured by Daiei Kagaku Seiki and the minimum load condition was 3 g / cm ^2.
Performed under load.

The material of the uneven structure film used for the bottom acquisition layer is not particularly limited, but is preferably a hydrophobic one. For example, HDPE, LDPE, LLDPE, metallocene P
Synthetic resin films such as E, PP, PET, EVA, SIS, SBS, SEPS, and polyurethane can be advantageously used.

In the present invention, factors that determine the bottom acquisition performance of the uneven film are the depth H of the unevenness,
This is the number of irregularities involved in the distribution uniformity.

The added height H of the unevenness is preferably in the range of 0.5 to 5 mm when approximated by the entire thickness. If the thickness is less than 0.5 mm, the acquisition effect is not sufficient, and if it exceeds 5 mm, the compactness of the entire absorber may be impaired.

[0037] The number of the convex portion, when expressed by the number present in the convenience 1 cm ^2, preferably from 1 to 100 / cm ^2, more preferably
It is in the range of ^{2 to} 50 particles / cm ² . If the number is less than 1 piece / cm ² , it is difficult to stabilize the shape. If the number exceeds 100 pieces / cm ² , it is difficult to form the convex portion and maintain the depth without forming a thin film.

FIGS. 8 and 10 are photographs showing typical surfaces of the concavo-convex sheet, respectively. FIG. 8 shows an example in which the depth of the projection is 1 mm, the diameter of the projection is 1.5 mm, and the horizontal pitch of the projection is 5 mm (corresponding to 14 projections / cm ² ). FIG. 9 is a cross-sectional view conceptually showing one of the protrusions seen on the surface of the uneven sheet of FIG. FIG. 10 shows a projection having a depth of 3 mm, a projection having a diameter of 6 mm, and a projection having a pitch of 10 mm.
This is an example (corresponding to the number of protrusions of 1.2 / cm ² ). FIG.
FIG. 1 is a cross-sectional view conceptually showing one of the protrusions seen on the surface of the uneven sheet of FIG. From these figures, it can be seen that the smaller the number, the larger the diameter of the shape maintaining upper convex portion.

Next, the arrangement of the bottom acquisition layer with respect to the absorber main body will be described.

The bottom acquisition layer is arranged such that the convex portion contacts the outer surface of the absorber main body. FIG. 4 uses an ultra-thin sheet-shaped absorber main body 30 (manufactured by Japan Absorbent Technology Research Institute, trade name “Mega Shin”), and on its outer surface,
3 shows an example in which the uneven film 10 shown in FIG. 2 is arranged.

Further, since the uneven film 10 in this case also has water resistance, it can be used as a back sheet as it is. When used as it is as a back sheet, a non-woven fabric is laminated on a film in advance, and the convex portion 11 is formed on the composite by thermoforming.

FIG. 5 shows a bottom acquisition layer.
FIG. 3 shows a case where an uneven film 20 having an opening 22 at the top of a convex portion 21 as shown in FIG. 3 is used. Although the uneven film having such openings is extremely effective as a bottom acquisition layer, when used as a back sheet, the water resistance of the film is insufficient. It is necessary to bond and use the non-woven fabric. In the example of FIG. 5, a breathable film 40 of PE is used.

Here, the function mechanism as the bottom acquisition layer will be described with reference to FIGS.

How does the bottom acquisition layer located on the outer surface of the absorber body work? 6 and 7 explain the mechanism. FIG.
In the above, when the bottom acquisition layer is the uneven film 10 having the convex portions 11, A ₁ ,
The space between the A ₂ ... A space that _n becomes the pan liquid, unabsorbed water coming through the absorbent body _{30 A 1, A 2 ... A} n gap between the outer surface of the absorbent body 30 that Temporarily store in

The bottom acquisition layer in a state where water is stored is in a state as shown in FIG. When the absorber main body 30 has a surplus capacity after a lapse of time thereafter, the liquid accumulated in the concave portion is re-absorbed and fixed to the absorber main body 30, and as shown in FIG.
_1, A ₂ ... so gaps that A _n is present. By providing such a bottom acquisition layer, the absorption performance of the absorber, that is, important characteristics such as absorption speed diffusivity and rewet are greatly improved.

Examples will be described below.

[0047]

[Example] For back sheet and bottom acquisition layer
Meaning polyester spunbond non-woven fabric (Unitika Erebesu 1
At 5 g / m ² ), an LLDPE resin was extruded to a thickness of 15 μm and laminated to prepare a raw material. The raw material was supplied to an embossing apparatus combining a heating embossing roll having irregularities and a receiving roll through which cooling water flows so that the spunbonded nonwoven fabric layer was on the heating side, and hot embossing was performed. The obtained concavo-convex sheet had protrusions having a height of about 2 mm at a density of 8 / cm ² . The thickness measured by the thickness gauge was 1.8 mm. This uneven sheet was prepared as a back sheet and a bottom acquisition layer. Combination with absorber Above ^two sheets of 150g / m2 coated entirely with SAP, width 12
An absorber (manufactured by Nippon Absorbent Research Institute, trade name “Megashin”) processed into a size of 28 cm in length and 28 cm in length was prepared as the absorber. As a top sheet, a thermally bonded nonwoven fabric (manufactured by Kuraray) of PE / PET composite fiber was prepared.

The above-mentioned material is used as a top sheet / absorber body /
A bottom acquisition layer (back sheet) was overlaid in this order, and this was used as a sample. In addition, the said uneven | corrugated sheet was arrange | positioned with the film side facing the absorber surface.

Further, the absorber having the above-mentioned structure is provided with a flat
A stack of PE films was prepared as a comparative sample. Absorption experiment A total of 300 ml of 100 ml of physiological saline was added to the above two types of samples at an interval of 10 minutes under a pressure of 0.1 PSI, and the absorption speed and the amount of reversion (rewet) were measured. Such a result was obtained. It can be seen that the absorption speed and the re-wet amount are greatly improved by using the bottom acquisition layer.

[0050]

[Table 1]

[0051]

As described above, in the absorbent product of the present invention, the bottom acquisition layer having a large number of convex portions is provided on the outer surface of the absorbent body (the side opposite to the surface in contact with the skin of the wearer). Because it is provided, the discharged body fluid supplied on the topsheet first diffuses through the topsheet, penetrates the topsheet, penetrates into the absorber layer mainly composed of SAP, and is absorbed by SAP at the same time. The unabsorbed liquid that is not absorbed because the speed cannot keep up is temporarily stored in the bottom acquisition layer, and then, as the absorption capacity of the SAP recovers, is sucked up and held and fixed by the absorber body that is in contact therewith.
Therefore, even if the liquid is supplied in an amount exceeding the absorption speed of the absorber main body, such a problem that the liquid stays on the surface of the absorber main body and gives discomfort to the wearer is effectively prevented.

If the bottom acquisition layer is impermeable to liquid, it can also function as a back sheet, and the structure can be simplified and the cost can be reduced.

[Brief description of the drawings]

FIG. 1 is a diagram showing four cases of acquisition.

FIG. 2 is a perspective view showing a concavo-convex sheet applied as a bottom acquisition layer in the embodiment of the present invention.

FIG. 3 is a perspective view showing another uneven sheet applied as a bottom acquisition layer in the embodiment of the present invention.

FIG. 4 is a longitudinal sectional view showing a state in which the uneven sheet of FIG. 2 is combined with an absorber main body.

FIG. 5 is a longitudinal sectional view showing a state where the uneven sheet of FIG. 3 is combined with an absorber main body.

FIG. 6 is an explanatory diagram for explaining an acquisition space and its function in the example of FIG. 4;

FIG. 7 is an explanatory diagram illustrating a mechanism in which the function of the bottom acquisition layer works.

FIG. 8 is a diagram showing a surface state of the uneven sheet. Lateral pitch of protrusions: 5 mm

FIG. 9 is a cross-sectional view of a protrusion existing on the surface of the uneven sheet of FIG.

FIG. 10 is a diagram showing a surface state of another uneven sheet.
Protrusion pitch: 10 mm

FIG. 11 is a cross-sectional view of a projection existing on the surface of the uneven sheet of FIG.

[Explanation of symbols]

10,20 uneven film 11, 21 protrusion 22 opening 30 absorbent body 40 breathable films A _1, A ₂ ... A _n space

[Procedure amendment]

[Submission date] May 7, 2001 (2001.5.7)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] 0050

[Correction method] Change

[Correction contents]

[0050]

[Table 1]

Claims (8)

[Claims] 1. A liquid-permeable topsheet positioned inside in a worn state, a leak-proof backsheet positioned outside, and an absorber body interposed between the liquid-permeable topsheet and the leakproof backsheet. Wherein a bottom acquisition layer for temporarily storing unabsorbed liquid that is not absorbed by the absorber main body is disposed in contact with the outer surface of the absorber main body. . 2. The method according to claim 1, wherein the bottom acquisition layer is formed of a sheet having a plurality of hollow protrusions having a three-dimensional structure, and the protrusion of the sheet is disposed so as to contact the absorber body. The concave portion of the sheet-like material is configured to function as a storage portion for the unabsorbed liquid.
An absorbent product according to claim 1. 3. The bottom acquisition layer is a molded article of a synthetic resin film, and the height of the projection is 0.5 mm to 5 mm.
The absorbent product according to claim 2, which is: 4. The absorbent product according to claim 1, wherein the density of the projections of the bottom acquisition layer is 1 / cm ² or more. 5. The absorbent product according to claim 1, wherein the bottom acquisition layer is impermeable to water and leakproof, and has a back sheet function as well as a bottom acquisition function. 6. The bottom acquisition layer has an opening at the top and bottom of the projection, and is configured to allow water to pass from the front surface to the back surface of the bottom acquisition layer through the opening. Any one of 1 to 5
The absorbent product according to the item. 7. The bottom acquisition layer is joined and integrated with a water-resistant sheet disposed outside thereof to form a multilayer body, and the multilayer body is used as a leakproof backsheet. 7. The absorbent product according to 6. 8. A surface acquisition layer interposed between the inner surface of the absorber main body and the liquid-permeable surface sheet, and two acquisition layers of the surface acquisition layer and the bottom acquisition layer are provided. The absorbent product according to any one of claims 1 to 7, which is provided.