RU1802036C - Rock-filled dam and method of its construction - Google Patents

Abstract

Usage: to the field of hydraulic engineering construction, namely, to the structures of stone dams and methods of their construction in the conditions of existing reservoirs. SUMMARY OF THE INVENTION: in the body of the dam 1, consisting of a stone outline of the transition zone 2, the core is made composite, the upper part 3 of which contains a small fraction of the rock mass, and the lower part 4 is made of an exchium. RoH I- And iuki stteiz d of the 3rd loosened clay soil, brought to the state of maximum density, and has a height defined by the ratio of 5 dr K (0.08-0.13) Nskv, where Nskv is the pressure in the well when exposed to a cemented curtain in a fractured rocky base; KZ is the safety factor. During the construction of the dam, an inclined layer of homogeneous clay soils compacted in blocks of the state of maximum density is first poured into the water on the base. Subsequently, the fine rock mass is poured from the crest of the embankment onto a clay soil layer until the base of the fine rock mass layer is laid on the clay soil layer until the lower clay layer is at the base of the fine rock mass layer. the layered layer will not reach 5 dr. Next, again from the crest of the embankment, pioneering is carried out along the slope of the rock mass of the next inclined layer of monolithic clay soils, and the process is repeated. At the same time, a comb is formed at the interface between the lower and upper layers of the composite core. 2 s.p. 2 ill. A-A (L C 00 About ke o 00 iO

Description

The invention relates to the field of hydraulic engineering, in particular to structures of stone dams and methods for their construction under the conditions of existing reservoirs.

The purpose of the invention is to simplify work, reduce costs and increase their efficiency by avoiding environmental degradation in the water body.

Figure 1 shows a cross section along the axis of the dam; figure 2 is a transverse section along the axis of the core.

The body of the dam 1 consists of stone sketches, transition zones 2 and the upper part 3 of the compiled core are made of a fine fraction of the rock mass, the lower part A of the core is covered with pelletized clay soils. A cementation curtain 5 is made at the base of the dam, and an anti-filter curtain 6 of the wall type in the ground is made in the body.

These curtains are designed to limit the filtration of water during operation from the Existing Reservoir to the water seized from it.

To create a single anti-filtration front, the curtains of the base and body of the dam must be reliably mated. Pairing can be done using the lower part of the clay soil core, but the pairing of curtains in an aquatic environment at great depths is associated with difficulties in determining the size of the coupling assembly and in the selection of material for making this assembly. The material should be a soft plastic semi-solid consistency, viscous, so that it fits snugly under water and fills the troughs of an uneven base and, moreover, is filter-resistant. He must keep the pressure created in the wells during the construction of the cementation curtain in the base, while at the same time, the filtration is not destroyed by this pressure.

If a cement slurry is made at the base of the dam, which is erected dry, then the pressure is created under the protection of the concrete pad. The pressure value in the well is usually taken within the range of 2.0 to 2.5 atm. This pressure is spent on overcoming friction in the cracks and pores of the soil base and on displacing air from pores and crevices.

When performing a cement suspension at the base of a dam constructed in an aqueous medium, the generated pressure in the well is spent on overcoming friction in the cracks and pores of the foundation soil and on displacing clamped air and pore water, as well as overcoming the hydrostatic pressure of a filled reservoir,

In this case, the pressure in the well must be taken several times higher in comparison with the pressure in the well during dry cementation.

5Therefore, so that the lower part of the core made of clay soils does not collapse, its size should be sufficient and taken in height

10

(0.08-b, 13)

in width b dr 5: 2 5 dr, where Nskv. - head created in the well during cementation of the base; C3 is the safety factor for the conditions of cementing work in the aquatic environment. It is recommended that you take KZ 1.5-2.5.

The method of construction of stone

dams of such a construction

in the following way.

First, an inclined layer of monolithic clay soils pre-compacted in blocks to the state of maximum density is poured into the water on the base. Then, the fine fraction of the rock mass is poured from the crest of the rock mass onto the clay soil layer until the bottom clay layer reaches the height of the lower clay layer at the level of the fine rock mass (5 NUCLEUS). Then, again, from the crest of the bulk rock transfer, the pond is pulverized by rock slope of the next inclined layer

monolithic clay soils, and the process is repeated. At the same time, a comb is formed at the interface between the lower and upper layers of the composite core.

This method using pioneering soil filling in water allows the dam core to be made in two parts: with the lower part made of monolithic clay soils of predetermined parameters (with a minimum height of at least a beam and a width of a core of 2 core); and

top of the fine rock mass. At the same time, simplification of work and cost reduction is achieved, provides a reliable interface between the core and the base, and environmental degradation in the reservoir is not allowed.

Claims (2)

SUMMARY OF THE INVENTION 1. A stone-filled dam constructed mainly in a reservoir, including upper and lower prisms made of stone-made outline and antifiltration elements in the form of a core and a cement curtain, characterized in that, in order to simplify the work and cost reduction, the core of the dam is made integral, its upper part contains a fine fraction of the rock mass, and the lower part is made of pelletized clay soil, brought to the state of maximum density, by the height determined from the ratio 5 Kz core (0.08-0.13) N where Nskv - the pressure in the well during the construction of the cementation curtain in a fractured rock base; KZ is the safety factor. 2. A method of erecting a stone-filled dam mainly in a pond, comprising pioneering the clay soil and a fine rock mass into the water, characterized in that. with the aim of 0 5 to simplify the work and increase their efficiency by avoiding the deterioration of the ecological situation in the reservoir, the composite core of the dam is filled in obliquely intersecting layers with alternating clay soil and fine rock mass, while an inclined layer of homogeneous clay soils compacted in water is initially poured into the water blocks to a state of maximum density, and the fine fraction of rock mass is poured onto a clay soil layer until the base of the rock mass reaches a height below clay layer of the composite core with the formation of a comb at the interface between the lower and upper layers of the composite core. Figure 1