RU2553579C2 - Method to arrange bentonite-mat-polymer screen on collapsing soils - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to hydraulic engineering, in particular, may be used in construction of watertight screens on canals, water reservoirs, industrial and domestic waste ponds made on collapsing soils and seismically dangerous areas. The method includes preparation of a soil base, its levelling, cutting of slots in soil with width of 0.1-0.3 m and depth of 0.3-0.5 m, where a polymer cloth 2 is placed, arrangement of deformation compensators 3, with simultaneous application of an anti-friction composition 4 inside folds. On top of the lower polymer cloth 2 they lay bentonite mats 5, above which they lay an upper polymer cloth 1, creating vertical deformation compensators 3 from vertical folds. The lower polymer cloth 2 is made simultaneously with horizontal and vertical folds. After the folds are ready, in a mechanised manner they fill the protective layer of the soil 6 using earth-moving mechanisms.

EFFECT: invention provides for increased antifiltration efficiency of screen operation on collapsing soils.

2 cl, 1 dwg

Description

The invention relates to hydraulic engineering, in particular, can be used in the construction of anti-filter screens on channels, ponds, storage of industrial and domestic waste, performed on subsiding soils and in seismically dangerous areas.

Known anti-filter screen with a compensator for deformations in the form of folds of a screen film (Glebov V.D. and other Film anti-filter devices of hydraulic structures. - M.: Energy, 1976, p. 104).

The disadvantage is the inefficiency of the compensator. The folds of the film are completely or partially pinched in the ground and deformed together with it. In this case, significant tensile stresses appear in the film, leading to its rupture and violation of the tightness of the screen.

Known anti-filter screen (see USSR author's certificate on application No. 2780570 / 29-15, class ЕВВ 3/16, dated 05.22.1979), including the main panels joined to each other and a compensator in the form of a deforming material strip overlapping the joint, coated with anti-friction compound.

The disadvantage is that this device does not have sufficient reliability with significant subsidence of the base. Due to the impossibility of fixing the lower strip of the deformative material during subsidence of the base, it can completely slip out and the upper strip to burst, which will lead to depressurization of the joint and leakage of water from the structure.

Closest to this invention is a method of making a soil-film screen on subsidence soils (see auto. St. USSR No. 1682453, class E02B 3/16, 05/03/1989), including laying a film anti-filter sheet equipped with strain relief in the form mutually intersecting folds with the application of anti-friction composition between the folds and filling of the protective soil layer.

The disadvantage of this method is that the folds of the film panels do not work when the subsidence of the soil, as they are pinched by a layer of protective soil.

The aim of the invention is to simplify the technology of work and increase the anti-filtration efficiency of the screen in case of damage to the film panels.

The objective of the invention is to ensure that the folds fold during mutual subsidence of the soil, since the folds will slip, revealing simultaneously with the moving soil, which, like vertical folds, will move in the vertical direction.

The technical result that this invention is directed to is to increase the anti-filtration efficiency of the screen on subsidence soils.

The technical result is achieved by performing a bentomatopolymer screen, in which, to increase the efficiency of opening the folds, the strain compensators are made vertical, and bentonite mats are placed between the anti-filter polymer sheets. In this case, the lower panel is performed simultaneously with horizontal and vertical folds.

In FIG. 1 shows a bentomatopolymer screen on subsidence soils, made by the proposed method.

The numbers in the drawing indicate (Fig. 1):

1, 2 - polymer panels;

3 - strain compensator;

4 - anti-friction composition;

5 - bentonite mats;

6 - a protective layer of soil.

The bentomatopolymer screen consists of two polymeric panels 1 and 2 separated by bentonite mats 5. The upper 1 and lower 2 polymer panels are equipped with vertical strain reliefs 3, made in perpendicular directions with the anti-friction composition applied inside the folds profile 4. A protective soil layer is poured over the upper polymer panel of the screen 6.

A method of performing a bentomatopolymer screen on subsiding soils is as follows (Fig. 1).

The soil base is leveled, then after 0.5-1.0 m, slits are cut in the soil 0.1-0.3 m wide and 0.3-0.5 m deep. A polymer sheet 2 is placed in the slot with the device of strain compensators 3 and with the simultaneous application of anti-friction composition folds inside 4. The polymer sheet 2 can be made of film material, geomembranes. Bentonite mats 5 (for example, the brand "Bentofix") are laid on top of the lower polymer panel 2. On top of the bentonite mats 5, the upper polymer sheet 1 is laid, creating vertical strain reliefs 3 from the vertical folds. Why on both sides of the folds soil is poured until the fold is fixed in a vertical position. In this case, the lower polymer sheet 2 is performed simultaneously with horizontal and vertical folds. After the folds are completed, the backfill of the protective layer of soil 6 is carried out mechanically, using digging mechanisms.

When subsidence of the soil, the vertical folds of the upper 1 and lower 2 polymer panels are displaced together with the soil, while opening. The tightness of the screen will not be broken, due to the disclosure of the folds.

The proposed bentomatopolymer screen is distinguished by high reliability with possible significant deformations of the base, which consists in the free movement of the film panels without being crushed by the ground and the appearance of overvoltages in them, and therefore, breaks.

Claims (2)

1. A method of performing a bentomatopolymer screen on subsidence soils, including laying separated by a layer of two polymer panels with deformators, made in perpendicular directions, applying the folds of deformation expansion joints of antifriction composition inside the profile, dumping a protective soil layer over the upper polymer panel of the screen, characterized in that to increase the efficiency of the opening of folds, strain compensators are vertical, and between the anti-filtration ones bentonite mats are placed with dimensional panels. 2. The method according to p. 1, characterized in that the lower panel is performed simultaneously with horizontal and vertical folds.