SU1079739A1 - Hydraulically filled dam - Google Patents

Abstract

SUBSTRATE DAM, containing upper and lower lateral exits, between which there is a central zone, filled with fine-grained material, and both vertical and lower resistant prisms, characterized in that, in order to increase the reliability of the dam due to lowering of the soil sufosity, clay and asphalt concrete internal morale located under the central zone and a riding side prism and articulated with a riding resistant prism. (L co 00 about

Description

1I The invention was designed for hydrotechnical construction, in particular, to underground alluvial dams. Dams made of local materials are known, including side prisms, draws and embankments 1 | . The disadvantage of this dam is its low operational stability in the presence of a highly permeable base. Also known is a new dam containing upper and lower lateral prisms, between which there is a central zone filled with fine-grained material, and upper and lower resistant prisms 2.1. In order to increase the perception activity and filtration strength of the dam, it was erected by its so-called bilateral alluvium, feeding pulp (slurry) from the edges of the slopes. The pulp flows down the slope to the center of the profile where a settling pond is formed. At the bottom of the pond, the smallest dust-sandy soil particles are deposited, from which they form in the central zone of the cry of the dam. The clarified water is drained from the settling pond through the wells through special drainage pipes. In order to wash the river, the basement part of the dam located within the river bed is first covered with stone banquets. However, due to the relatively high permeability of the lateral prisms of the dam, the water head is extinguished within the nuclear central zone and the hydraulic slopes of the seepage flow in conjunction with the base often exceed their permissible values and there is a danger of ground suffusion in this place. It is possible to avoid or at least dramatically reduce the danger of suffusion both in the nuclear (central; and base of the dam) and thereby increase the reliability of the entire structure, creating an additional obstacle to the filtration flow, which due to low resistance of the upper prism has Here, high pressures, practically no different from the pressures on the dam face, the aim of the invention is to increase the reliability of the dam by reducing the suffix of its soil. The goal is achieved by the fact that the dam is equipped with inside it is a clay or asphalt concrete bottom, located under the central zone and upper side prism and jointed with the upper thrust prism. The drawing shows a dam, a transverse section. The dam, located at the base 1, includes upper 2 and Miz 3 resistant prisms erected underwater alluvia, the basement part 4, the side prisms 5, the nuclear or central mass 6, which is the main waterproof element of the dam, is internal. The bottom 7 and the loop 8, passing through the upper stop prism, are perforated pipe 9, from which the water discharged from the pond is discharged. The construction of the dam begins with dumping on the foundation 1 using the pioneering method (and immediately to the full height) of resistant prisms 2 and 3. In the resulting water area, the basement 4 is raised to the non-submerged level by means of clay or asphalt concrete 7, located on the side of the headwater, within the lateral prism 5 and the central zone 6. At the same time, a perforated collector pipe 9 is placed in front of the top thrust prism 2, to which water outlets from prefabricated wells are attached, as usual, in a settling pond, where the zone 6 of the dam is formed when the turf soil is washed up. Then, the dam body itself consisting of its lateral prisms 5 and the nuclear zone 6 is driven by the bilateral alluvial of mixed-grained sand and pebble soil. The aqueous suspension of silt-clay particles discharged from the pond clarifier falls into the perforated pipe-count. Lecturer 9, from which it penetrates into the rock outline of the upper thrust prism under comparatively small pressure, gradually fills the voids in it with particles deposited from the suspension, and then when leaving the prism into the river bed from the same precipitating particles form: a train 8. Implementation the dam of these measures leads to the improvement of its technical and structural qualities, mainly to an increase in filtration strength due to the extension of the underground circuit and a decrease in pressure gradients in conjunction with the I eat, and consequently to improve the reliability.

310797394

 The dam of the prefabricated structure of this dam is curtain more adapted to unfavorable conditions, since the necessary drainage of the geotechnical conditions when the pipe is provided for the inside is provided with a highly permeable base. rum and trail, which also performs an optional cement grout. In wasps; The role of the silt is the base massif.

Claims (1)

APPLICATION WEIR, containing the upper and lower sideways, between which there is a central zone filled with fine-grained material, and upper and lower thrust prisms, characterized in that, with a chain to increase the reliability of the dam by reducing the suffusion of its soil, it is equipped with an inner loop made of clay or asphalt concrete located under the central zone and the upper lateral prism and the articulated upper thrust prism.