JP2001081761A - Impervious layer of bentonite-mixed soil and its execution method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent the generation of a dust, maintaining the efficiency of pumping in a spraying hose, to improve even adhesion in spraying and to sufficiently demonstrate an impervious performance. SOLUTION: When the impervious layer is executed by spraying bentonite- mixed soil in which sand and bentonite are mixed, water at a sand weight ratio of 2 to 10% is added as pre-mixed water in mixing of sand and bentonite and pumped in a spraying hose 11. Water in quantity, in which the section of pre-mixed water is subtracted from a material being sent in the spraying hose 11, is added to the material, aiming at the water content of 10 to 30% of sprayed bentonite-mixed soil in a spraying nozzle 13 or in the vicinity of the spraying nozzle.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a method for constructing an artificial impermeable layer of a cohesive soil layer, a road slope, a mountain slope, etc., which is installed under an impermeable sheet such as a waste disposal site and an artificial pond such as a reservoir. The present invention relates to a water-impervious layer made of bentonite-mixed soil on a surface or the inner wall of a tunnel, and a construction method thereof.

[0002]

2. Description of the Related Art When waste is directly buried in landfill, harmful substances such as lead, nickel, cadmium and other heavy metals contained in the waste, and organic chlorinated solvents such as trichloroethylene are introduced into the soil together with rainwater. Due to the risk of environmental destruction due to diffusion, the technical standards for the structure of waste disposal sites have been improved and strengthened year by year, and measures to prevent environmental destruction have been taken. As a measure to prevent the diffusion of harmful substances into the soil, a method has been adopted to prevent water leakage by laying a water-impervious sheet.In particular, at the final waste disposal site, double waterproof sheets such as synthetic rubber sheets and vinyl chloride sheets are used. It has also been attempted to improve safety by laying it in the area.

[0003] The double impermeable structure of the above-mentioned final disposal site is a double impermeable structure in which a waterproof sheet made of synthetic rubber, vinyl chloride, or the like is laid double, and sharp waste or chemical contained in waste is contained. It is also conceivable that the two impermeable layers may be damaged at the same time due to the same factor such as a chemical, and the inundation containing harmful substances may diffuse into the environment. In particular, the impermeable sheet made of synthetic rubber may cause the impermeable sheet to bulge after construction unless air is properly vented from the sheet side. On the other hand, when a vinyl chloride sheet is used, it is cheaper and more economical than the water-impermeable sheet made of synthetic rubber, but the material is inferior in long-term stability.

Therefore, in recent years, as shown in FIG. 5, it has been proposed to form a water-impervious layer 2 of bentonite-mixed soil mixed with clay such as bentonite under the water-impervious sheet 1 as shown in FIG. In the figure, reference numeral 3 denotes a protective layer on the impermeable sheet 1.

[0005] The water-blocking layer having such a multilayer structure has the same factor as the water-blocking sheet 1 made of synthetic rubber or the like and the water-blocking material made of bentonite having completely different water-blocking materials. Thereby, the possibility that the impermeable layer is simultaneously damaged is extremely reduced, and a safer and more reliable impermeable layer can be formed.

In particular, since a water-impervious layer containing clay such as bentonite is disposed on the base, it can be used as a base for the water-impervious sheet 1 and can be a stable ground without uneven settlement. Since the soil can be used as soil in which clay such as bentonite is mixed, the amount of remaining soil disposal can be reduced, so that it is economical and environmental burden can be reduced.

[0007] Montmorillonite contained in bentonite is swelled when it comes into contact with water to stop water. Therefore, in terms of quality, even if it is repeatedly subjected to the dry and wet action due to the fluctuation of the water level, the swelling action is repeated each time and the stability is maintained for a long time, and it is possible to follow the deformation due to uneven settlement of the ground.

In the meantime, in the construction of the impermeable layer 2 using the bentonite mixed soil, the excavator is excavated into a predetermined shape, and in a flat portion, bentonite is sprayed and spread to a uniform thickness. Mixing and agitation of soil and bentonite, shaping the ground, and rolling to form a water-impervious layer (so-called tamping method), but on the slope side, heavy equipment such as a sprayer, stirrer, spreader, etc. is required. Because it is not possible, construction by spraying is the main.

[0009] There are two types of construction by such spraying: a dry type and a wet type. As shown in FIG. 6, sand 4 and billet 5 are stored in a sand hopper 6 and a billihopper 7, respectively, with a tire shovel 17 and the like. Stirrer 8 with measuring device
To

Into the stirrer 8 equipped with a measuring device, bagged bentonite 9 is also introduced, stirred and sent to a spraying machine 10 (dry or wet type), where the mixed material is compressed air from a compressor 12. At the same time, the spray hose 11 is conveyed, and is discharged and sprayed from the spray nozzle 13 at the tip.

In the case of the dry type, the water is added after or from the spray nozzle 13, and in the case of the wet type, the water is added at a stage before being conveyed by the spray hose 11, for example, at the stirrer 8. In the figure, 18 is a water tank, 19 is a generator, and 20 is a distribution board.

[0012]

The pumping of the spray hose 11 is performed by a wet method in which water is mixed in advance.
There is a possibility that the bentonite 9 may be clayified and clogged. On the other hand, the dry type has a good pumping efficiency with the blowing hose 11, but has a problem that the material to be pressed is diffused as dust at the blowing nozzle 13. Further, in any case, the proportion of water affects the dry density after spraying, and if the amount of water is not appropriate, a predetermined water blocking performance cannot be obtained.

An object of the present invention is to eliminate the disadvantages of the prior art and to prevent the generation of dust to eliminate dust pollution while maintaining the pumping efficiency of the spray hose, and to ensure that bentonite of a predetermined mixing ratio is produced. It is an object of the present invention to provide a water-blocking layer made of bentonite-mixed soil, which can be added to a sprayed layer of bentonite-mixed soil, has good adhesion at the time of spraying, and can sufficiently exhibit water-blocking performance, and a method for constructing the same. .

[0014]

In order to achieve the above object, the present invention relates to a method of constructing a water-impervious layer using a bentonite-mixed soil. In the case of constructing a layer, when mixing sand and bentonite, water of a sand weight ratio of 2% to 10% is added as a premixed water, and the inside of the spray hose is pumped,
At or near the spray nozzle, the water content of the bentonite mixed soil sprayed on the material sent into the hose is 1
The purpose is to add the amount obtained by subtracting the amount of the pre-mixed water from this with the goal of becoming 0 to 30%. Second, when mixing sand and bentonite, the gist is to add stiffness. It is.

The water-impervious layer made of bentonite-mixed soil includes sand, bentonite, and sand, and a sand weight ratio of 2% to 10%.
% Of water mixed in and blown through the spraying hose, and the water content of the bentonite mixed soil sprayed on the material sent into the hose at or near the spraying nozzle is 10 to 30%.
The gist is that the amount of water obtained by subtracting the amount of the pre-mixed water is added and sprayed for the purpose of becoming a target.

According to the first aspect of the present invention, the amount of premixed water is selected so that bentonite does not become clogged with clogging in a spraying machine or a spraying hose. The premixed water also serves to prevent dust. And the "kneading effect" of the bentonite mixed soil and water is obtained by adding water to the material sent into the hose, whereby the material adheres well to the sprayed surface and can exhibit the water shielding performance. .

According to the second aspect of the present invention, in addition to the above-mentioned action, by mixing the slime (particles larger than φ2 mm) with the sprayed material, the stiffness of the clay which tends to stick to the hose can be reduced. Flicking can prevent clogging.

Further, the addition of such a twist contributes to the improvement of the water blocking performance. This is because when a boulder having a certain size and mass is fired on the spraying surface with air, a striking effect is exerted and the sprayed soil layer is well tightened.

It should be noted that the water absorption of the bill itself is 1 to 2 by weight.
%, And most of the water added to the impermeable soil layer is absorbed by the sand and bentonite, so there is no danger of the water imperviousness being reduced by the addition of twill. Bili is in the form of an island that does not absorb water in the bentonite mixed soil, and the water barrier of the entire sprayed soil layer to be constructed is not impermeable, but a mixture of sand and bentonite that allows some water to pass through Is determined by

According to the third aspect of the present invention, it is the same as the first and second aspects, but as a result of preventing the bentonite from being scattered by the addition of the premixed water, a certain predetermined bentonite addition rate can be obtained. It becomes an impermeable layer.

[0021]

Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is an explanatory view showing a water-impervious layer made of bentonite-mixed soil of the present invention and a method of constructing the same. In FIG. 1, the same components as those in FIG.

That is, in the figure, reference numeral 8 denotes a stirrer equipped with a measuring device, into which sand, whirl (cobblestone having a diameter of 2 mm or more) and bentonite 9 are also charged, stirred, sent to a spraying machine 10 (dry or wet type), and sprayed. In the machine 10, the mixed material is
The spray hose 11 is conveyed together with the compressed air from the nozzle, and is discharged from the spray nozzle 13 at the tip and sprayed.

As described above, in the present invention, when the bentonite-mixed soil in which sand and bentonite are mixed is sprayed to construct the impermeable layer, water having a sand weight ratio of 2% to 10% is mixed with the sand and bentonite beforehand. And the water content of the bentonite mixed soil sprayed on the material sent into the spraying hose 11 at or near the spraying nozzle 11 becomes 10 to 30%. For this purpose, the amount of water obtained by subtracting the amount of the premixed water is added.

The premixed water may be added to the sand in addition to the case where the premixed water is added by the stirrer 8 with a measuring device, and the mixed water may be added to the stirrer 8.

In the present embodiment, the water addition at the spray nozzle 13 or in the vicinity thereof is provided at the base of the spray nozzle 13 through the water supply ring 14. In the figure, 15 is a water tank for water addition, and 16 is a water supply pump.

Next, the results of a demonstration experiment performed to confirm the effects of the present invention will be described.

In the construction experiment, the bentonite-mixed soil was sprayed on the slope portion having a slope of 1: 1.5 by using a wet or dry spraying machine.

The "kneading effect" of the bentonite mixed soil and water can be obtained by providing a watering ring near the spraying tip and adding water to the material sent into the hose. As a result, the material adheres well to the spray surface, and exhibits water-blocking performance.

Table 1 below shows the material mixing ratio. FIG. 2 shows the particle size distribution of the sprayed sand. Billi was used to prevent clay from adhering to the inside of the spray hose. The bentonite used was bentonite from Gunma (W _L = 360%, W _P = 57
%). The premixed water was added to and mixed with the material while changing the sand weight ratio to 2% to 10% in order to examine whether bentonite became clay and clogged in the spraying machine or the spraying hose. The premixed water also serves to prevent dust. The amount of water was adjusted such that the water content of the sprayed bentonite mixed soil was adjusted to 15 to 20%, and the amount of premixed water was subtracted.

[0030]

[Table 1]

[Construction experiment result] Before spraying construction,
Each material was mixed in advance and a specimen was prepared by a tamping test, and the water permeability, the dry density and the water content were measured. The result is shown in FIG. FIG. 4 shows the results of measuring core permeability, dry density and water content by collecting cores from a slope impermeable layer actually produced by spraying.

FIG. 3 shows that the water permeability coefficient was 1
0 ^-6 cm / s or less and become, when using this material, the water content ratio as shown in Table 2 is 14 to 21%, dry density is 1.55~1.72g / cm ^3. Table 2 below summarizes the results.

On the other hand, as shown in FIG. 4, the samples collected from the sprayed impermeable layer had a water content of 15.4 to 19.8%, and the water permeability was all 10 ⁻⁶ cm / s or less. Table 3 below
The results of the spraying method are summarized below.

The spraying method has a slightly smaller compaction energy than the compacting method. When the effective water-blocking performance in spraying construction is analogized by a tamping test, the spraying construction has a slightly lower dry density and a slightly higher moisture content than the tamping test, and has a lower permeability on the wet side. In quality control of spraying construction, it is thought that it is possible to predict the required water barrier performance by conducting an indoor tamping test and a permeability test in advance and grasping the optimal moisture content and dry density. .

[0035]

[Table 2]

[0036]

[Table 3]

The method of constructing a water-blocking layer using bentonite-mixed soil according to the present invention has made it possible to construct an artificial water-blocking layer on a slope face, which has been a problem in the prior art. The quality of the artificial impermeable layer was 50 cm or more in thickness, 10 ^-6 cm / s or less in water permeability, and the slope slope that could be constructed was 1: 1.5 or less.

The water content of the bentonite mixed soil must be changed depending on the type and amount of bentonite. When a highly wettable material such as bentonite from Wyoming is used, the mixture ratio of bentonite is When using bentonite that can be reduced and has low wettability, it is necessary to increase the amount of bentonite added.

Although the above embodiment has been described with respect to an example of a final waste disposal site, the present invention can be similarly applied to a water-impervious layer structure such as an artificial pond such as a storage pond.
It can also be applied to the construction of impermeable layers with bentonite-mixed soil on slopes such as mountain slopes and on the inner walls of tunnels.

[0040]

As described above, the water-impervious layer made of bentonite-mixed soil of the present invention and its construction can prevent the generation of dust while maintaining the pumping efficiency of the spray hose, and prevent the dust from adhering. It has good water resistance and can sufficiently exhibit water-blocking performance.

[Brief description of the drawings]

FIG. 1 is an explanatory view showing a water-impervious layer made of bentonite-mixed soil of the present invention and a construction method thereof.

FIG. 2 is a graph showing a particle size distribution of blowing sand.

FIG. 3 is a graph showing a relationship between a water content ratio, a water permeability coefficient, and a dry density of a test piece in a laboratory compaction test.

FIG. 4 is a graph showing a relationship between a water content ratio, a permeability coefficient, and a dry density of a core sample obtained by spraying.

FIG. 5 is a vertical cross-sectional side view of a slope portion of a final waste disposal site having a water impermeable layer structure.

FIG. 6 is an explanatory diagram showing a conventional example.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Waterproof sheet 2 ... Waterproof layer 3 ... Protective layer 4 ... Sand 5 ... Bili 6 ... Sand hopper 7 ... Billipopper 8 ... Stirrer 9 ... Bentonite 10 ... Blowing machine 11 ... Blowing hose 12 ... Compressor 13 ... Blowing nozzle 14… Hydration ring 15… Water tank 16… Water supply pump 17… Tire excavator 18… Water tank 19… Generator 20… Distribution board

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Naoto Hamada 2-1 Tsukudo-cho, Shinjuku-ku, Tokyo Kumagaya Gumi Tokyo head office (72) Inventor Katsuei Nishiyama 2-1 Tsukudo-cho, Shinjuku-ku, Tokyo Stock Company Kumagaya Gumi Tokyo Head Office (72) Inventor Taku Ohori 2-1, Tsukudo-cho, Shinjuku-ku, Tokyo Kumagaya Gumi Tokyo Head Office (72) Inventor Takahiro Shimizu 2-1 Tsukudo-cho, Shinjuku-ku, Tokyo Kumagaya Co., Ltd. Gumi Tokyo headquarters (72) Inventor Masaru Hatae 2-1 Tsukudo-cho, Shinjuku-ku, Tokyo Kumagaya Gumi Tokyo headquarters (72) Inventor Katsumi Mizuno 1-9-1 Edobori Osaka-shi, Osaka Toyojun-Yoko Co., Ltd. (72) Inventor Tadashi Hamako 8-14-14 Ginza, Chuo-ku, Tokyo Nippon Special Construction Co., Ltd. (72) Naoki Horie 8-14-14 Ginza, Chuo-ku, Tokyo Incorporated company (72) Inventor Yoji Kikuchi 8-14-14 Ginza, Chuo-ku, Tokyo Nippon Special Construction Co., Ltd. (72) Inventor Takayuki Iizuka 8-14-14 Ginza, Chuo-ku, Tokyo Nichiku Construction Co., Ltd. F term in the formula company (reference) 4D004 AA46 AB03 AB06 BB04

Claims (3)

[Claims] Claims: 1. In a case where a bentonite mixed soil in which sand and bentonite are mixed is sprayed to form a water barrier layer,
When sand and bentonite are mixed, water with a sand weight ratio of 2% to 10% is added as pre-mixed water and is pumped through the spraying hose, and is sprayed onto the material sent into the hose at or near the spraying nozzle. Water content of bentonite mixed soil
A method for constructing a water-blocking layer using bentonite-mixed soil, characterized in that an amount obtained by subtracting the amount of the premixed water from the above is added to the water so as to achieve 30%. 2. The method according to claim 1, wherein when sand and bentonite are mixed, a twist is also added. 3. The weight ratio of sand to bentonite to sand and sand is 2%.
Water of 10 to 10% is mixed and blown in the spraying hose, and the water content of the bentonite mixed soil sprayed on the material sent into the hose at or near the spraying nozzle is adjusted to 10 to 10%.
A water impermeable layer made of bentonite-mixed soil, characterized in that an amount obtained by subtracting the amount of the pre-mixed water from this is added and sprayed for the purpose of 30%.