SU1701814A1 - Water intake structure for mountain rivers - Google Patents

Abstract

The invention relates to hydraulic engineering, in particular, to water intake structures of mountain and piedmont river bottoms. Purpose of the invention: improving efficiency. the threshold 3 of the curved shelf 6 located above the pocket 4 and having in the end part of the slot 7 of the water intake with the input threshold and the input and output gateway regulators 10 sedimentation sediment occurs before the threshold of 3 g by their partial discharge along the threshold to the flushing sluices on the uchagrc of the water intake pocket 4 with a lowered bottom 5 and along the curvilinear shelf 6 to which water comes from the pocket 4 with the holes of the slot 7 ;

Description

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The invention relates to hydraulic engineering, in particular to water intake structures for mountain and foothill rivers.

The purpose of the invention increase efficiency

Fig 1 shows a water intake structure, a top view; FIG. 2 is a section A-A in FIG. one; in fig. 3 shows a section BB in FIG. 1, in FIG. 4 shows a section B-B in FIG. 1; FIG. 5 — section G-D in FIG. one.

The water intake structure consists of a spillway dam 1, flushing sluices 2, a curved bottom threshold 3. a curved shelf 6 located above the pocket and having a slot 7 in its end part, a water receiver 8 with an input threshold 9, input and output gateways-regulators 10.

Shelf 6 has a transverse slope to the side of the convex wall of the water intake pocket 4, and the bottom 5 of the output part of the pocket 4 is lowered compared to the bottom of its input part by an amount equal to 0.8 1.2 the height of the bottom threshold 3

The construction works as follows.

Curved bottom threshold 3 deflates the flow, directs bottom sediments to the flushing gateways 2 and thereby reduces the flow of bottom sediments into the curved linear intake pocket 4. to the bottom These jets create a bottom drum which causes the sediment to be agitated and partly transported to the water intake manifold 4.

To reduce the ingress of bottom n. Enuses into the water intake pocket 4 at its a: ode, there is a curvilinear threshold 3. For the shield effect of the threshold, it is enhanced by the device

L-shaped nanoscopic visor located on it and rendered upstream.

After delamination at the entrance to the water intake pocket 4, the lower part of the flow moves to the flushing sluices 2 with the drift sediments, and the upper part (clarified) moves along the water intake pocket 4 and enters the pocket section with the bottom 5 lowered, which intercepts sediment. The flow of water, considerably free from sediments, passes through slots 7, enters the upper shelf b, rotates 180 ° in it (which provides a significant reduction in

0 flow velocity, contributing to sedimentation of suspended sediment) and is taken in by the intake 8

Suspended sediment deposited on the upper shelf 6 is washed with

5 gateway controller 10

Claims (1)

The invention The intake structure for mountain rivers, including a sub-discharge dam and a curved intake plan. 0 mans equipped with a bottom threshold at the entrance, characterized in that, in order to increase the efficiency of work, a curvilinear shelf having a full length is built up over the water intake pocket 5 the transverse slope in the direction of the convex sginka of the water intake pocket and provided with slots in its end part, the output part of the water intake pocket is located below its entrance part by the height of the bottom threshold 1 53 $ urt in-s gd Shig 7 C 6 FIG. five