SU1649024A2 - Method of controlling river flow - Google Patents

Abstract

The invention relates to hydraulic engineering and can be used to protect soils from erosion, land and settlements from flooding with flood waters. The purpose of the invention is to increase the reliability of the transfer of surface runoff to underground horizons. On the tributaries of the river they create reservoirs 1, in the bottom of which pits are drilled to reveal the permeable rocks communicated with the river bed. The wells are filled with a reverse filter. In the sides of the reservoirs, the depressions 5 are also made, revealing permeable rocks 3, and during the filling of the reservoirs 1 they isolate

Description

The invention relates to hydraulic engineering, namely to the regulation of water resources, and can be used in protecting soils from erosion, land and human settlements from flooding by flood waters.

The purpose of the invention is to increase the reliability of the transfer of surface runoff to underground horizons.

Figure 1 shows a reservoir, a cross-section; FIG. 2 is a section A-A in FIG. on fig.Z - section bb in figure 2; figure 4 is a section in figure 2; figure 5 - fencing, axonometrics.

The method is carried out as follows.

On the tributaries of the river create reservoirs 1 through the construction of dams. In the bottom of each reservoir 1, depressions 2 are made to open the permeable rocks 3 communicated with the river bed. The depressions 2 are filled with a return filter 4. Thus, the surface runoff is transferred through the depressions 2 into the underground horizons, the water of which further reaches the river bed, ensuring its recharge. In the sides of each reservoir 1, depressions 5 are made, exposing rocks 3, and during filling of reservoirs 1 by surface runoff, depressions 5 are isolated from suspended particles by means of fences 6. This helps to protect the surface of depressions from silting by soil particles, which are rich in surface runoff water The fence 6 is made in the form of two vertical guides 7 with stops in the upper part (not shown) fixed in the bottom of the reservoir t on both sides of the recess 5, the pontoon 8 and the folding curtain 9. The pontoon 8 is attached to the grip 10, which by means of the rollers 11 is installed in the guides 7. To the grip 10 is attached the upper edge of the curtain 9, the lower edge of which is attached to the bottom of the reservoir 1. The side edges of the curtain 9 are made in the form of wire brushes 12 that interact with the inner surfaces of the guides 7 The pontoon 8 in the upper part has a horizontal inlet port 13 with a grid 14, and in the lower part of the pontoon 8 there are

bearing 15 and the exhaust valve 16, made in the form of a ball float. The guides 7 are coupled with the sides of the reservoir 1 by walls 17.

At the bedded filling of the reservoir

1 pontoon 8 together with grippers 10 floats up and spreads curtain 9. At the same time, the vertical movement of the pontoon 8 and curtains 9 provide vertical guides 7 and centering rollers 11 sliding along its side faces 11. Water passing through brushes 12 into the cavity between recess 5 and the curtain 9, cleans and fills this cavity, equalizing the hydrostatic pressure on the curtain 9.

As the reservoir 1 is filled, the speed of flood water entering it decreases, the amount of soil particles suspended in them decreases, and the need to protect permeable rocks 3

from silting disappears. With the extreme upper position of the pontoon 8, the calculated maximum water level in the reservoir 1 exceeds the elevation of the lower edge of the window 13 of the pontoon 8. Due to this,

filtering through the grid 14, fills the pontoon 8 and the pontoon 8, sinking to the bottom, opens access to water from the reservoir 1 to the recess 5. Water enters the underground horizons through recess 5, and from there into the river. After

Emptying the reservoir 1, the valve 16 opens, emptying the pontoon 8.

Claims (5)

Claims of invention 1. Method of regulating river flow according to auth. Mg 1043233, characterized by that, in order to increase the reliability of transfer of surface runoff into the underground horizons, in the sides of the reservoirs there are made recesses, which expose permeable rocks, and during the period of filling the reservoirs, they isolate the recesses from suspended in water of the Particles by means of fences, each of which is made in the form of vertical guides fixed in the bottom of the reservoir on both sides of the recess, a pontoon with a horizontal inlet window in the upper part and an exhaust valve and supports in the lower part installed in the vertical guides, and the curtains, the lower edge of which is attached to the bottom of the reservoir, and the upper one attached to the pontoon, the lateral edges of the curtain being made in the form of wire brushes interacting with the inner surfaces of the guides. 0 2. A method according to claim 1, characterized in that the top edge of the curtain of each fence is attached to the pontoon by means of a grip. 3. A method according to claim 2, characterized in that each gripper is mounted on rollers interacting with guides. 4. Method according to claims 1-3, characterized in that a grid is installed in the window of each pontoon. 5. Method according to paragraphs. 1-4, that is, so that each exhaust valve is in the form of a ball float. 15 1 CQ eleven 15