JPS63130810A - Water stopper - Google Patents

Abstract

PURPOSE:To exactly from a water-impermeable layer by a simplified method in which a matrix is formed of a swelling clay combined with extendible binders and an extendible perforated core is buried in the matrix. CONSTITUTION:A water stopper consists of a matrix 1 composed of swelling clay and binders and a single layer of core 2 buried in the matrix 1. A mixture of the swelling clay and binders is divided into two sections, and the halve 1' is sheeted, the core 2 is set on the sheet, and the remaining halve 1'' is set on them. They are pressed under a fixed pressure and held for a given time period to form a matrix 1-core 2 integrated unit. The unit can be conveniently handled when transporting it and the scattering of clay can also be prevented.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a water-blocking material used in precious wood construction to prevent water leakage in the field of civil engineering.

In the field of civil engineering, it is necessary to install precious wood in reservoirs, water storage facilities, (industrial) waste storage facilities, wet area facilities, irrigation canals, etc. Needless to say, sufficient water-tightness must be achieved through such construction, but it is also necessary that the construction be simple, quick, and reliable, and it is desirable that the cost be as low as possible.

[Conventional technology] In conventional precious wood construction, a soil material with a low permeability coefficient that is mainly composed of natural swelling clay is applied, or artificial tree-holding materials such as waterproof sheets, asphalt, and waterproof materials are used. Concrete and other materials have been used alone or in combination as water-blocking structures.

Tarpaulin sheets have excellent waterproof performance, but the preparation process and installation process before installation are not easy, and the cost of materials is high. Repairs are not easy, and waterproof sheets, asphalt, and concrete all use fixed shapes and dimensions as a unit.
Water leakage from the connections between these units is a major defect, and construction to prevent this is extremely difficult.

Natural swelling clay has good compatibility with the ground and can create an excellent impermeable layer, but when it is used in granular form, it is difficult to lay it to a specified thickness. , requires careful construction and experience. Instead of careful construction, the amount of 111 was considerably more than the required amount.
Water-blocking properties can be achieved using wet clay, but it is not economical due to high material costs, and when used in combination with other materials, the selection of other materials and the amount used are problematic. and requires specific mixing operations.

Furthermore, when using granular waterproofing material, construction on slopes or corners of 25° or more is difficult and requires special operations.

[Problems to be Solved by the Invention] The purpose of the present invention is to solve the above-mentioned construction problems by using natural swellable clay as the main material, and to provide a reliable water-impermeable construction with simple construction. The object of the present invention is to provide a water-blocking material that can be formed into layers. In other words, the present invention enables tree-linking work to be carried out by a simple construction method in which trees are pre-produced in a predetermined shape in a factory, laid side by side on site, and then covered with soil, and moreover, achieves an extremely excellent water-shielding effect. We provide water-blocking materials that can

[Means for Solving the Problems] The water-blocking material of the present invention includes a matrix made of swellable clay bonded with a binder having extensibility, and a material embedded in the matrix or bonded to the outer surface of the matrix. and at least one extensible perforated or crimp sheet core material.

A typical swellable clay is bentonite, but other natural minerals such as montmorinite, hectorite, sabonite, beidellite, and fluorohectolite, and artificial minerals such as laponite and guimonite can also be used as the swellable clay in the present invention. I can do it.

By extensible binder is meant a binder which allows some elongation of the matrix when tension is applied to the matrix. As such a binder having extensibility, latex such as isoprene rubber latex and butadiene rubber latex can be used. Other solid rubbers include imprene rubber, butadiene rubber, and ethylene rubber.
Propylene rubber, liquid polyisoprene, liquid polybutadiene, liquid styrene-butadiene rubber, and thermoplastic elastomers such as polystyrene, polyolefin, polyester, and thermoplastic elastomers can also be used as binders with extensibility in the present invention. .

By extensible perforated or reticulated sheet is meant a sheet having a large number of openings or reticulated, such that the sheet is capable of elongating to some extent when tension is applied thereto. For example, a sheet of plastic acid such as polyvinyl chloride or polyethylene is provided with a large number of openings.1. If the total area of the openings is sufficiently large relative to the total area of the sheet, such a sheet exhibits extensibility, and therefore such a sheet can be used in the present invention as an extensible perforated sheet. Also, sheets made of threads made of natural or synthetic fibers or meshed with metallic wires have extensibility.

It can be used in the present invention. A perforated sheet of plastic acid is a particularly suitable sheet because it has the property of retaining the shape of the water-blocking material.

The binder is preferably used in an amount of 10 to 20% by weight based on the swelling clay, and additives commonly used for the swelling clay, such as tripolyphosphorous soda and pyrophosphate sodium, are preferably used in an amount of 0.5 to 20% by weight. It can be added at a rate of 5.0% by weight.

It is preferable that the core material 1 is embedded in the matrix, but in some cases it may be joined along one outer surface of the matrix.

[Example] An example of the water-blocking material of the present invention is shown in FIG. This consists of a matrix 1 made of swellable clay and a binder, and a single layer of core material 2 embedded within it. In this way, it is convenient to transport and install the waterproof material.

The water-shielding material shown in FIG. 1 can be made as follows. First, add a binder to the swelling clay and mix it.
As shown in Figure 2, the half 1' is made into a sheet and placed on a support stand (not shown), the core material 2 is placed on top of it, and the clay-binder mixture is placed on top of it. the other half 1
'' is placed in the form of a sheet. When this assembly is pressed from above with a constant pressure and held in that state for a predetermined period of time, the swellable clay is bound by the binder and -y) Lix l
(Fig. 1), and the core material 2 is joined to the matrix to form a plate-shaped water-shielding material.

Some heat may optionally be applied to the assembly during or after pressing.

(a) to (C) in FIG. 2 show examples of core materials. (a) is an example of a net-like sheet, and (b) and (C) are examples of perforated sheets having a large number of openings. The perforated sheet can be made by punching or, if the sheet material is plastic, by injection molding.

As shown in FIG. 4 (a) to (h), the water shielding material of the present invention has the following shapes: (a) flat plate shape, (b) block shape, (C) rectangular tube shape,
It can be formed into various shapes such as (d) frame shape, (e) circular tube shape, (f) ring shape, (g) curved plate shape, and (h) L-shaped plate shape. These various shapes are selectively used depending on the situation at the construction site, which will be discussed in more detail later.

When the thickness of the water-shielding material is large as shown in Figure 4 (b), it is preferable to use a multi-layer core material. Molded to size. For example, in the case of the flat plate shown in Figure 4(a), the height is 30 mm.
~100cm, width 30~100cm, and thickness 3~7m, and in the case of a block shape shown in Figure 4(b), length 20~40cm, width 10~20cm, thickness 5~
It is preferable to set it as 10 鳳■.

[Function] The waterproof material of the present invention can be constructed using conventional and common techniques such as laying tiles, stacking blocks, and stretching sheets, depending on the situation at the construction site.

When waterproofing a flat area, lay a sheet or block of waterproof material at the bottom of the excavation.

In this case, the matrix portions of adjacent waterproof materials are arranged so that they are as close to each other as possible. If the core material protrudes outside the matrix, the protrusion of one water-shielding material should be overlaid with the matrix of the adjacent water-shielding material. In some cases, the protruding parts may be cut out before construction; the thickness of the sheet is determined according to the geological situation at the construction site. It is preferable to use a sheet-like impermeable material with a thickness of about 7 mm when the geology is in a normally humid state; in the case of soft or gravelly ground, the sheet thickness is about 20 mm. In addition, in places where there is a lot of water permeation, it is preferable to use a block-shaped waterproof material with a thickness of about 50 mm. After installation, excavated soil is rolled onto the top of the layer of waterproof material to protect the surface.

After construction, when the swelling clay in the shielding wood comes into contact with groundwater, rainwater, seepage water, etc., it absorbs water and exhibits a swelling phenomenon. The extensible core material and extensible binder are used in such waterproof materials to fill the voids within the waterproof material and also expand outward to fill the voids between adjacent waterproof materials. Allows for outward expansion. The swollen part is highly sticky and gel-like, so once it swells, it completely blocks the passage of water.

The core material serves as a support material for the matrix during transportation and construction, and also supports the swellable clay even after it has gelled after construction, preventing the matrix portion from flowing out even in areas where underground underground water is extremely large. As a result, complete waterproofing is achieved over a long period of time.

When constructing a water-shielding wall in the form of a vertical wall using the continuous wood of the present invention, it is convenient to stack blocks formed into blocks. After stacking the blocks, cover the front, back, and top of the wall with excavated soil to create a protective layer. When waterproofing a sloped surface using the continuous wood of the present invention, a rhomboid-shaped block formed to fit the slope may be used.For construction at a corner, a flat plate-shaped block may be used. Although it is possible to use a curved one, it is convenient to use an L-shaped one as shown in FIG. 4(h).

Gas vent pipes and water vent pipes are sometimes installed to penetrate the impermeable layer in reservoir and other construction works.

In this case, in the case of a 0-circle pipe that uses continuous wood shaped to match the size and shape of the pipe it is passing through, Figure 4 (e
) or m, or in the case of square pipes, as shown in Figures 4 (C) and (d), by fitting it into the penetrating part and inserting it into the gap in the attachment part. Water leakage can be prevented.

[Effects] The continuous wood of the present invention makes effective use of the excellent water-blocking function of swellable clay and solves the conventional drawback of being difficult to construct. Since the matrix and the core material, which are bonded together by the binding material, form a two-piece structure, it is convenient to handle during M'a construction, and scattering of clay is also prevented.

The construction can be carried out reliably by the simple operation of arranging or stacking the units in the optimal shape according to the conditions of the site, especially the ground, geology, and structure, and also on steep slopes. It can also be easily constructed. Since the construction method is simple and there is little wastage of materials, the construction cost per unit area is also low.

Because the extensible binder and extensible core material are used, the swellable clay can easily expand to fill the gaps between the units when absorbing construction water.
Excellent water impermeability of the connection is thus achieved.

[Brief explanation of the drawing]

FIG. 1 shows an example of the continuous wood of the present invention, FIG. 2 shows an example of the manufacturing process of the continuous wood of the present invention shown in FIG. 1, and FIG. 3 shows an example of the core material used in the present invention. 4 shows various shapes of the continuous timber of the present invention. 1.1', 1": Matrix 2: Core material Figure 4 Procedure amendment F May 20, 1985 Commissioner of the Patent Office Black 1) Akio Tono 1.4X indications 1985 Patent M No. 273853 2. Name of the invention Waterproof material 3. Relationship with the case of the person making the amendment Patent applicant name Toyojun Mining Co., Ltd. 4. Agent 107 5. Date of amendment order Initiator 6. Patent of the specification to be amended Column 7 of the Claims, Contents of Amendment, Attached Sheet #I The scope of the claims is amended as follows: ``1. at least one embedded in or bonded to the outer surface of the matrix.
A water-blocking material characterized by comprising a core material of a perforated or net-like sheet having extensibility. 2. The water-blocking material according to claim 1, wherein a part of the core material protrudes outward from the side of the matrix. 3. The water shielding material according to claim fj1.1, which has a flat plate shape, a hollow prismatic shape, or a hollow cylindrical shape. "that's all

Claims (1)

[Claims] 1. A matrix made of swellable clay bonded with a binder having extensibility, and at least one extensible hole embedded in the matrix or bonded to the outer surface of the matrix. A water-blocking material characterized by comprising a core material of a perforated or reticulated sheet. 2. The water-blocking material according to claim 1, wherein a part of the core material protrudes outward from the side of the matrix. 3. The water-shielding material according to claim 1, which has a flat plate shape, a hollow prismatic shape, or a hollow cylindrical shape.