JP2003225631A - Water swelling sheet and water impervious liner work method using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a water swelling sheet having no problem in a method of laying only a swelling material or a work method for laying the swelling material and after that, laying a curing sheet or a water impervious sheet thereon and a water impervious liner work method having excellent workability and giving excellent water impervious property through a long period by using the water swelling sheet to form a water impervious structure having self- repairing function. <P>SOLUTION: The water swelling sheet 1 has the water impervious sheet 2 and a swelling layer 3 adhered on one surface of the water impervious sheet 2 and containing a water absorption swelling fiber swelling by water absorption. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water-swellable sheet and a water-shielding method using the same, and more particularly, it is used for preventing leakage of water inside the disposal site into the ground at a waste disposal site or the like. The present invention relates to a water-swellable sheet and a water-shielding method using the water-swellable sheet to form a water-impervious structure having a self-repairing function.

[0002]

2. Description of the Related Art Conventionally, as a water-blocking construction method for forming a water-blocking structure having a self-repairing function, a water-blocking sheet is first laid on the ground surface or first a water-blocking sheet is laid to absorb moisture. Of swelling bentonite, or a method of laying a mat made of water-swelling polymer and fibers or a mat made of bentonite and fibers, or a water-impervious sheet laid on the powder or mat to form a three-layer structure The construction method and the like are known.

[0003]

Among them, in the former method of laying only powder or mat, if the swelling material appears on the surface, the swelling material is swollen by rainwater in rainy weather, and therefore this is usually the case. To prevent this, after laying a mat or the like, a curing sheet or the like is laid on it, or the latter method is used. However, even in this case, in rainy weather, swelling due to rainwater may occur between the mat laying and the laying of the curing sheet or the water blocking sheet, which causes a problem that the self-repairing function of the swelling material does not work.

Further, if a powdery swelling material is used, there is a problem that the swelling material is locally laid out when the swelling material is laid or when water leaks into the swelling material, or when the swelling material is laid or leaks water. However, when a natural powder swelling material such as bentonite is used, the swelling speed is slow.

Therefore, an object of the present invention is to provide water which does not have various problems in the conventional method of laying only a swelling material, and the method of laying a swelling material and then laying a curing sheet or a water blocking sheet thereon. By using this water-swellable sheet to form a swellable sheet and a water-impervious structure having a self-repairing function, it is possible to provide a water-impervious construction method that has excellent workability and can obtain good water impermeability over a long period of time. To do.

[0006]

In order to solve the above-mentioned problems, the water-swellable sheet of the present invention is a sheet having water-blocking properties, and is attached to one surface of the sheet having water-blocking properties to absorb water. And a swelling layer containing a water-swellable fiber that swells.

In the present invention, the swelling layer comprises a nonwoven fabric containing the water absorbing and swelling fibers and bentonite powder.
In particular, it is preferable that the ratio of the non-woven fabric to the bentonite powder be contained in a range of 2: 1 to 3: 1 by weight. Furthermore, the non-woven fabric preferably contains 30% or more of the water-swellable fiber.

The water-blocking method of the present invention is a water-blocking method for forming a water-blocking structure having a self-repairing function,
Laying the water-impervious sheet body directly on the lower ground or on the ground surface, and then laying the water-swellable sheet of the present invention on the water-impermeable sheet body such that the swelling layer is the lower surface. It is characterized by.

[0009]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, specific embodiments of the present invention will be described in more detail with reference to the drawings. Figure 1
A schematic cross-sectional view of an example of the water-swellable sheet of the present invention is shown in FIG. As shown in the figure, the water-swellable sheet 1 of the present invention comprises a sheet 2 having a water-blocking property, and a swelling layer 3 attached to one surface of the sheet and containing a water-swellable fiber that swells when absorbing water. It is a thing. In the present invention, the swelling layer 3 can be protected by the sheet 2 by integrating the water-impervious sheet 2 and the swelling layer 3 with each other, so that the swelling of the water-swelling sheet during the construction work can be prevented. It is possible to prevent it appropriately. In addition, since the sheet 2 is directly attached to the swelling material contained in the swelling layer 3, even if one of the sheets is damaged, water does not diffuse in the horizontal direction, and the damaged portion is not damaged. In addition to being easy to specify, the swelling material locally swells, so that the repair effect can be improved.

As the sheet 2 having water impermeability used in the water-swellable sheet 1 of the present invention, even if it has been conventionally used for curing, it is also used for water impermeability that has been conventionally laid on it. It may be one. Although the one for curing is inferior in water impermeability to the one for water imperviousness, it is also sufficient for imperviousness such as rainwater and has an advantage of excellent workability. On the other hand, when using a water impermeable sheet that does not permeate moisture, the work that was conventionally performed in two steps can be performed in one step, so there is no need to separately lay a water impermeable sheet after laying a water-swellable sheet. Therefore, the process can be further simplified, which is more preferable. The same applies to the case of using a curing material in that one step can be omitted, but it is more preferable to use a water shielding material because the construction can be completed only with this. Examples of the sheet material for water blocking include rubber-based or olefin-based materials.

The swelling layer 3 needs to contain at least water-swelling fibers that absorb water and swell, but such a water-swelling polymeric material is excellent in water swelling property and processability, but it is Since it has a drawback that the swelling performance is deteriorated by repeating absorption and release, it is particularly preferable to use the water-swellable fiber and the bentonite powder together as the swelling material. Bentonite is an inorganic material which is a natural material conventionally known as a swelling material, and has a characteristic of excellent durability. Therefore, by using these together, durability can be improved.

The water-swellable fiber is not particularly limited, and conventionally known fibers can be used. Specifically, for example, acrylic modified products, polyvinyl alcohol (PVA), acrylate cross-linked products, Examples thereof include those in which fibers are usually coated with a water absorbing resin. Particularly preferably, the fiber outer layer portion is made of a hydrophilic cross-linked polymer and the core portion is made of an acrylonitrile polymer, and in this case, only the outer layer portion swells due to water absorption. In such a fiber, the swollen gel is integrated with the core portion, and it is possible to prevent the gel from coming off. Therefore, it can be said that it is particularly suitable for the use of the present invention.

The water-swelling fiber has a water-swelling degree of 2 ml.
/ G or more is preferable. The method for measuring the degree of water swelling is as follows. Immerse the sample in pure water 2
After keeping at 5 ° C. for 24 hours, it is wrapped in a nylon filter cloth (200 mesh) and subjected to a centrifugal dehydrator (3 G × 30 minutes (G: gravity acceleration)) to remove water between fibers. The weight of the sample thus prepared is measured (W ₁ g). next,
This sample is dried in a vacuum dryer at 80 ° C. until a constant weight is obtained, and the weight is measured again (W ₂ g). From the above measurement results, the water swelling degree is calculated by the following formula. Water swelling degree = (W ₁ −W ₂ ) / W ₂

The water-swellable fibers are present in the swelling layer 3 of the water-swellable sheet in the form of a non-woven fabric. Among the non-woven fabrics contained in the swelling layer 3, the water-swellable fibers are preferably 30% or more, more preferably 50%. % Or more. As the other mixed fiber, natural fiber, synthetic fiber or the like can be appropriately used, and spunbond or film may be compounded for reinforcement. Although the needle punching method is preferable as the method for producing the nonwoven fabric, a thermal bonding method in which low melting point fibers are mixed and spun may be used and is not particularly limited. Further, a non-woven fabric impregnated and coated with a water absorbing resin, and a non-woven fabric impregnated with a water-soluble polymer and cross-linked can also be used.

The non-woven fabric containing two kinds of swelling materials and water-swellable fibers and the bentonite powder may be arranged in the swelling layer 3 in a laminated form as shown in FIG. . When the swelling layer 3 is formed in a laminated form, it is easy to handle and the bentonite powder 5 is entangled with the nonwoven fabric 4 and adheres well because the nonwoven fabric 4 containing the water-swelling fiber has irregularities and gaps on the surface. That is, since the bentonite powder 5 does not move locally during construction and local deviation occurs, there is an advantage that workability is superior to the case where the bentonite powder 5 is directly placed on the water-blocking sheet. The ratio of the non-woven fabric containing the water-swellable fiber and the bentonite powder is preferably 2: 1 by weight.
~ 3: 1.

As for the laminated form of the non-woven fabric and the bentonite powder, as shown in FIG. 2B, the non-woven fabric 4a /
It is more preferable that the bentonite powder 5a and the non-woven fabric 4a are laminated in this order. In the case of this swelling layer 3a,
Since the bentonite powder 5a is arranged in a state of being sandwiched between the nonwoven fabrics 4a, the bentonite powder 5a can be more reliably fixed to a predetermined position.

As another arrangement form of the two kinds of swelling material,
As shown in FIG. 2C, it is also preferable to disperse and mix the bentonite powder 5b inside the non-woven fabric 4b. In this case, the bentonite powder 5b is fixed in the gap inside the non-woven fabric 4b, and bentonite is processed and constructed. Powder 5b
Is hardly moved, the workability of the bentonite powder 5b can be further improved. The swelling layer 3b having this arrangement can be easily manufactured by mixing the bentonite powder 5b in the web that is heated and pressed during the formation of the nonwoven fabric 4b.

The method of integrating the sheet 2 having water-blocking property and the swelling layer 3 is not particularly limited, and for example, it is carried out by a commonly used laminating process such as extrusion simultaneous laminating process or processing with an adhesive or a pressure-sensitive adhesive. be able to.

Further, in the water impermeable construction method of the present invention, after the water impermeable sheet body is laid, the water swellable sheet 1 of the present invention is laid on the water impermeable sheet body so that the swelling layer 3 is the lower surface. Then, a water-impervious structure having a self-repairing function is formed. In the construction method of the present invention, a sheet 2 having water impermeability is used as the water-swellable sheet laid on the body of the impermeable sheet.
Since the water-swellable sheet 1 having the swelling layer 3 attached to one side thereof is used, the water-swellable sheet and the sheet to be laid on the water-swellable sheet, which have been conventionally performed in separate steps, can be laid in substantially one step. It can be carried out. Therefore, it is possible to prevent the occurrence of problems due to rainwater or the like between the time of laying and the time of laying a curing sheet or the like as in the case of using a conventional water-swellable sheet. That is, the water-swellable sheet 1 of the present invention can be suitably used particularly in the water-blocking method of the present invention.

As the water-blocking sheet body used in the water-blocking method of the present invention, a normal water-blocking sheet having no self-repairing function, for example, a sheet made of the above-mentioned rubber-based or olefin-based material may be used. , There is no particular limitation. Further, in the construction method of the present invention, it is important that the water-swellable sheet 1 of the present invention is laid on the water-impervious sheet body so that the swelling layer 3 is on the lower surface. Regarding the etc., it may be appropriately carried out according to the usual method,
There is no particular limitation (see, for example, JP-A No. 11-291370).

The water shielding method of the present invention can be applied to, for example, a waste disposal site having a structure as shown in FIG. As shown in the figure, a vertical hole 10 is excavated in the natural ground, and a small step 14 is formed at an intermediate portion in the depth direction of the vertical hole 10, and a slope 11 and a small step between the field board 13 and the small step 14 are formed. The slope 12 between 14 and the floored surface 15 is inclined.

In the present invention, first, as shown in FIG. 3 (a), a water-impermeable sheet body 6 that does not allow moisture to permeate is laid from the floor-attached surface 15 of the vertical hole 10 serving as the base surface to the slope 12. Then, as shown in FIG. 3B, the water-swellable sheet 1 of the present invention is laid on the water-impervious sheet body 6 with the swelling layer 3 on the lower surface. By performing the construction in this way, it is possible to construct a water-impervious structure without swelling the water-swellable sheet 1 and without impairing the workability or the water impermeability even during work during rainfall. Is.

According to the water-blocking structure formed by this method, as shown in FIG. 4 (a), the water-shedding sheet 2 on the upper layer side of the water-swellable sheet 1 (a sheet for water-blocking was used. Even if the holes 20 are generated for some reason (as is the case), the swelling layer 3 absorbs the water that has penetrated from the holes 20 as shown in FIG. When the water-swellable fiber expands, the gap in the swelling layer 3 and the gap in the hole 20 are eliminated, and water leakage can be prevented. Further, as shown in FIG. 5, the same is true when the sheet 2 is damaged by the waste 22 such as the holes 21, and in this case also, the swelling layer 3 of the water-swellable sheet causes swelling. The gaps in the layer 3 and the gaps between the swollen layer 3 and the waste 22 can be appropriately closed, water leakage can be satisfactorily prevented, and an excellent water blocking effect can be obtained. In this case, in order to surely exhibit the above-mentioned water leakage prevention function, the outer peripheral end (upper end) of the water-impervious structure composed of the water-impervious sheet body 6 and the water-swellable sheet 1 is shown in FIG.
As shown in (a) and (b), it is set at a position higher than the maximum level Hmax of the leachate collected at the bottom of the vertical hole 10.

In the water-blocking method of the present invention, the water-swellable sheet 1 may be directly laid on the base surface without using the water-blocking sheet body 6, and in this case also, good water blocking property is obtained. It is possible to construct an impermeable structure having. The water-impervious structure in this case corresponds to a case where the water-impervious sheet body 6 is not laid in the structure shown in FIG. 3B, and the same effect as the illustrated structure can be obtained with respect to water impermeability. Also, with respect to the prevention of water leakage when holes are formed or when damage occurs, the same effect as that of the structure shown in FIGS. 4 and 5 can be obtained. Regarding the laying procedure, conditions, etc., only the water-blocking sheet body 6 is omitted, and other points may be performed in the same manner as above.

[0025]

As described above, according to the present invention, a water-swellable sheet capable of appropriately preventing leakage of water inside the disposal site in a waste disposal site into the ground,
And, by using this water-swellable sheet, it is possible to provide a water-impervious construction method which is excellent in workability, can obtain good water impermeability for a long time, and can form a water-impervious structure having a self-repairing function. .

[Brief description of drawings]

FIG. 1 is a schematic cross-sectional view showing an example of a water-swellable sheet of the present invention.

FIG. 2 is a schematic cross-sectional view showing an example of the layer structure of a swelling layer of the water-swellable sheet of the present invention.

FIG. 3 is a schematic cross-sectional view showing the steps of the water shielding method of the present invention.

FIG. 4A is a schematic cross-sectional view showing a state in which the water-impervious structure is damaged, and FIG. 4B is a schematic cross-sectional view showing the water-impervious structure after self-repair.

FIG. 5 is a schematic cross-sectional view showing a state in which the water-impervious structure is damaged by waste.

FIG. 6 is a perspective view showing an example of a waste disposal site before formation of a water-impervious structure.

[Explanation of symbols]

1 Water-swellable sheet 2 Water permeable sheet 3,3a, 3b Swelling layer 4,4a, 4b Non-woven fabric 5,5a, 5b Bentonite powder 6 Impermeable sheet body 10 vertical holes 11,12 Slope 13 Local board 14 small columns 15 surface with floor 20,21 holes 22 Waste

Claims (5)

[Claims] 1. A water-swelling material, comprising: a water-impervious sheet; and a swelling layer containing a water-swelling fiber that is attached to one surface of the water-impervious sheet and swells when absorbing water. Sheet. 2. The water-swellable sheet according to claim 1, wherein the swelling layer contains a nonwoven fabric containing the water-swellable fiber and bentonite powder. 3. The water-swellable sheet according to claim 2, wherein the ratio of the non-woven fabric to the bentonite powder is in the range of 2: 1 to 3: 1 on a weight basis. 4. The non-woven fabric comprises the water-swellable fiber 30
The water-swellable sheet according to claim 2 or 3, wherein the water-swellable sheet contains at least 10% by weight. 5. A water-blocking method for forming a water-blocking structure having a self-repairing function, comprising laying a water-blocking sheet body directly on a lower surface or on a ground surface, and then laying on the water-blocking sheet body. 5. A water-impervious construction method, wherein the water-swellable sheet according to any one of claims 1 to 4 is laid so that the swelling layer is on the lower surface.