RU2005843C1 - Method for construction of earth dam - Google Patents

Abstract

FIELD: hydraulic engineering. SUBSTANCE: in low water filled in flowing water are stone banquettes 1 and 2 and pad 3 between them of coarse-grained material which together with alluvium is cut through with impervious high wall made of mudded up fine-grained ground and low wall. Dam core 7 and toes 8 are filled up to nonflooded elevation. Drilled from surface partially constructed core 7 and between high and low walls are holes 9 through which consolidating grout is injected during low filtration period to establish curtain 12 and combined water impermeable junction of core 7 with base limiting layer 11 formed by curtain 12 and high and low walls. EFFECT: higher efficiency. 9 cl, 2 dwg

Description

 The invention relates to hydraulic engineering and for the construction of soil dams built on highly permeable substrates.

 In FIG. 1 shows a diagram of a method for erecting an earth dam with a core on alluvial deposits in a river channel, a cross section; in FIG. 2 - the same dam with a screen.

 The method is carried out in the following sequence.

 In the event of high water discharge in the river channel, horse banquets are poured into the flowing water 2 and the section of the quiet channel between the banquets is filled with coarse-grained material, forming a pillow 3, which, together with the thickness of highly permeable alluvial deposits 4, are cut through the walls of the upper 5 and lower 6 , fixed by the passage of cracks under the protection of a clay suspension and filled with antifiltration primer materials (Fig. 1). Then, on the lower part of the dam constructed in such a way, the dumping of the core 7 and thrust prisms 8 of the dam begins, raising them to intermediate marks that are not flooded in the flood. From the surface of the partially erected core 7 and between the walls 5 and 6, in a known manner, rows of wells 9 are drilled intersecting the cushion 3, the thickness of the alluvial deposits 4, the area of the destroyed rocks 10 and entering the water storage 11 through which the fixing solution is injected into the filtration duct. Permeable soils, fixed by injection solution, create an anti-filtration curtain 12, which, together with walls 5 and 6, forms a combined water-permeable conjugation of the core 7 with the base stop 11. After this, the final dumping of the core 7 and thrust prisms 8 is carried out, bringing the dam to full height.

 The upper wall 5 is usually made of zaklinirovannogo fine-grained soil, and if necessary, when it is arranged, a panel of polymer film 13 is lowered into the gap with overlapping. The lower wall 6 can also be made of hardening material, for example, concrete or clay cement.

 With less efficiency, the combined waterproof pair may contain only a curtain 12 and an upper wall 5.

 When erecting the lower part of the dam at the same time as soil is poured into water, a soil anti-filter element 14 can immediately be arranged in it (Fig. 2). At the same time, at least the upper wall 5 is removed from the mixture of “warm” soils of permeable sediments 4 and the anti-filter element 14 of the lower part of the dam, which are removed during the sinking, which allows you to arrange the wall in winter without significant additional costs.

 During the construction of the dam filter element in the form of a soil screen 15 (Fig. 2), the injection of a fixing solution into the soil, creating a curtain 12, is carried out from the berm 16 of the dam arranged on the upper slope of the dam, which provides temporary drainage of the berm during the operation of the dam, which increases the maintainability of the dam .

 When implementing the proposed method of erecting a soil dam on a permeable base from alluvial deposits 4 with an intense flow of groundwater, the reliability of the waterproof interface of the anti-filtration core 7 or the screen 15 of the dam with the base stop 11, made in the form of jointly operating anti-filter elements of the curtain 12 and walls 5 and 6, is significantly increased. The plastic ground horse wall 5 is pressed firmly against the rigid curtain 12 by the pressure of water and blocks the access of water to cracks and the curtain and its ektirovannym lens and in an extreme case, a crack bridging pictures of his body, thus restoring the continuity and impermeability conjugation. In turn, a deeper curtain reaching the water stop 11 reduces the filtration gradients in walls 5 and 6, additionally seals the soil body of walls 5 and 6 with pressure and prevents the formation of a “focus” of erosion at the hanging lower ends of walls 5 and 6. At the same time, walls 5 and 6 temporarily take on an intermediate pressure of water during the construction period, creating favorable conditions for the injection of highly permeable soils of alluvial deposits 4 and pillows 3, and also allow to reduce the thickness of the curtain 12 at the same time Hinnom increasing distance between its wells 9.

 (56) Guidance on the design of walls of structures and anti-filtration curtains arranged in a “wall in soil” manner. M.: Stroyizdat, 1977, p. 2-12.

 USSR author's certificate N 1231114, cl. E 02 B 7/06, 1986.

Claims (9)

 1. METHOD FOR ESTABLISHING A SOIL DAM, erected on permeable sediments, including raising the bottom of the dam by pouring soil into the water in a low water, raising the body and the anti-filtration element of the dam on it to an intermediate mark that is not flooded in the flood, a device for waterproofing the anti-filtration element in the base with water-resistant dam by injection into the soil of the fixing solution under pressure from the intermediate mark of the dam and the dam to the full height, different t permeable deposits are cut through by at least one vertical wall arranged by driving a slit under the protection of a clay slurry and filled with anti-filtration material, moreover, the wall is installed from the surface of the lower part of the dam, and the injection with fixing solution is carried out in soil adjacent to the vertical wall.  2. The method according to p. 1, characterized in that the injection of the fixing solution is carried out in the soil adjacent to the wall from its lower side.  3. The method according to p. 1, characterized in that the permeable sediments are cut through two walls, and the injection of the fixing solution is carried out in the soil enclosed between the walls.  4. The method according to p. 1, characterized in that during the construction of the lower part of the dam at the same time arrange in it a soil antifiltration element.  5. The method according to PP. 1 and 3, characterized in that the wall located on the upper side of the injected soil is arranged from non-hardening material.  6. The method according to PP. 1, 3 and 5, characterized in that the wall located on the upper side of the injected soil is arranged from clayed fine-grained soil.  7. The method according to PP. 1, 4 and 5, characterized in that the wall is arranged from a mixture of soils of permeable sediments and an anti-filter element of the lower part of the dam, extracted during penetration.  8. The method according to PP. 1, 5 and 6, characterized in that the slit is lowered with an overlap of the panel from the polymer film.  9. The method according to PP. 1 and 4, characterized in that the anti-filter element of the dam is arranged in the form of a soil screen, and the fixing solution is injected into the soil from a berm arranged on the upper slope of the dam at a mark that provides temporary drainage of the berm during the operation of the dam.

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