SU1654437A1 - Water intake - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to hydrotechnical construction, in particular, to water intake devices of a spillway. The purpose of the invention is to increase work efficiency. The water intake device allows flood discharge when the level of the reservoir rises above the NHL and the water overflows through the overflow walls 8 and is subsequently drained by trays 7, additional water inlets 6 and discharge shafts 5. At the same time, water is also passed through the water inlets 3 with shutter chambers 4, working in the interflood period as a production culvert. The combination in the tower 1 of the operational and flood drainage paths reduces the material consumption of tower 1 and ensures the passage of the flood with a slight forcing of the reservoir. 1 hp f-ly, 4 ill. 6-6 (L S ± o ate 4 CO

Description

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FIELD OF THE INVENTION The invention relates to hydrotechnical construction, in particular, to water intake devices of a spillway.

The purpose of the invention is to increase work efficiency.

FIG. 1 shows a section of a water intake device (section A-A in FIG. 2): FIG. 2 shows a section BB in FIG. one; in fig. 3 is a section bb of FIG. 2; in fig. 4 - section G-Y in FIG. one.

The water intake device includes a tower 1 with overlapping 2 in its upper part, water intakes 3, equipped with shutter chambers 4 in the lower part of the tower, waste shafts 5 with additional water intakes 6 in the lateral faces of the waste shafts 5, trays 7 with plenum gallons mi 8, made along the perimeter of the upper part of the tower 1 in the form of consoles of corner profile protruding from the tower walls, bullheads 9 connecting the overlap 2 with the overflow walls 8. The bottom 10 of the trays 7 are made with slopes in the direction of additional water intake from Erste b. Gobies 9 are installed in the direction of the flow of the spillway.

During the interflood period, operational costs flow into tower 1 through water inlets 3 and are controlled by valves in chambers 4. When the reservoir is forced above the LPH and the flood discharges pass, water is transferred through the overflow walls 8 and transported through trays 7 to additional water inlets 6 and discharge them 5. Simultaneously with work

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spillway mines 5 flood floods are also carried out through fully open water inlets 3.

The placement of the bulls 9 in the direction of the flow of the discharge stream reduces their hydraulic resistance.

The presence of an additional water throughput tract in the form of waste shafts 5, additional water intakes 6 and chutes 7 reduces the material consumption of the device by reducing the spans of the main water intakes and ensure automatic discharge of the flood flow rate with a slight increase in the reservoir.

Claims (2)

1. A water intake device including a tower with an overlap in its upper parts and water inlets with shutter chambers in the lower part, characterized in that, in order to increase the work efficiency, the tower is equipped with waste mines with additional water inlets in their lateral edges and trays with water walls arranged around the perimeter of the upper part of the tower, the trays being made in the form of consoles of the corner profile projecting from the wall of the tower, and their water walls are rigidly connected with the tower overlapping by means of bulls. 2. The device according to claim 1, characterized in that the bottoms of the trays are made with slopes in the direction of additional intake holes of waste mines. Put.t 7g Fig.Z