SU1430451A1 - Earth dam - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to hydraulic engineering. The purpose of the invention is to increase the seismic stability of the dam. The dam with stone prisms 1 and 2 consists of an impervious soil screen 3 with a horse face 4th profile. On the ridge 4, a drainage layer 5 and a protective coating 6 are arranged. The protective coating 6 is made in the form of inclined layers 8 separated by waterproof layers 7. From the downstream side 9 of the screen 3, the dam body consists of inclined layers 12-15, dissected by impermeable overlays 10 and 11. At the base of the dam there is a drainage layer (DS) 16. Inclined layers 12, 13 and layers 10 abut on the DS. The inclined layers 14, 15 and the waterproof layers 11 are mated with an inclined layer 13. Between the lower edge 19 and layer 15 there is a transition zone 17, which abuts against the inclined layer 13. The water that has filtered through the screen from the upper reach enters layers 12 and 13 which drain the filtrate in the DS. From layers 14 and 15, atmospheric water enters layer 13 and then into DS. From the DS, water through the stop prism 2 enters the downstream. 1 il. S (l

Description

1b

SAE

ate

ft

h

The invention relates to hydraulic construction, in particular to the construction of dams of ground materials with a screen, and can be used in the design, construction and operation of the dam

The aim of the invention is to increase the seismic stability of the dam.

The drawing shows a dam of soil materials with stone resistant prisms, transverse profile.

A plate of soil materials with stone prisms 1 and 2 consists of an impervious soil screen 3 with a high (pressure) face of a 4-step profile, on which a drainage layer 5 and a protective coating 6 are installed in the form of inclined layers 8 separated by waterproof layers of inclined layers 8 running from the top slope of the dam to its center. From the downstream side of the screen 3, the dam body is compacted from 10 and 11 inclined layers 12-15 dissected by waterproof layers. At the base of the dam over the entire area between the screen 3 and the downstream thrust prism 2 there is a drainage layer 16 inclined layers 12 and 13, as well as impermeable layers 10 enclosed between them, coming from the uphill slope, abut the drainage layer 16, and the inclined layers 14 and 15 and the waterproof layers 11 are directly connected with the inclined layer 1 3.

On the downside side 9 of the screen 3, a transition zone 17 is arranged between it and the layer 15, which abuts against the inclined layer 13.

The dam is built and works as follows.

After preparing the pit, filling the lower stage of the screen 3, the downstream stop prism 2 and the drainage layer 16, the upper stop prism 1 begins to be set up, and as the screen 3 grows, inclined layers 8, 12 and 0 are alternately

five

0

five

0

five

0

five

0

Resistant layers 7, 10, At the same time, on the pressure face of the screen 3, filling the layers 8 and layers 7 is preceded by a device parallel to the drainage layer 5. After filling layer 13, screen 3 and, therefore, filling layers 8 and layers 7 temporarily cease and proceed to filling layers 14 and layers 11. Upon completion of the filling of the layers 14 and the layers 1 1, the screen 3, the device of the drainage layer 5, the removal of layers B and the layers 7, the device of the transition zone 17 and the filling of the inclined layer 15, resumes simultaneously.

The water filtered through the screen from the upper pool enters layers 12 and 13, which drain the filtrate into the drainage layer 16. From layers 14 and 15, atmospheric water enters layer 13 and then into the drainage layer 16, from which water flows through the stop prism 2 downstream.

Claims (1)

Invention Formula A dam with soil materials, including stone thrust prisms placed on the side of the upper and lower pools of the structure, an anti-seepage screen with an upper edge of the stepped profile and drainage layers located on the upper slope of the screen and at the base of the dam between the bottom downstream prism and the ground screen , while the body of the dam is dissected into separate layers by layers of waterproof material placed obliquely from the upper and lower slopes of the dam to its center, characterized in that w povppeni its earthquake resistance, the inclined upper slope layers formed in dre- changes require upirayuschimis layer posted; enny at the base of the dam and vypolnenny between the screen and the downstream thrust prism, as inclined layers upirayuschimis lower slope formed over the entire area in the upstream side inclined layers.