SU1167264A1 - Water-receiving structure - Google Patents

Abstract

A WATER-ACCEPTABLE DEVICE, mainly a hydroelectric power station, includes an intersecting element interposed between the structures of the structure, to the upper edge of which a lattice is hingedly attached, and in the bases there are guides with which the interlocking lattice interacts, characterized in made in the form of a sector gate, with the guides inclined towards the hydroelectric power station, and the lattice interacts with the guides with its upper part. (L O) 1C Od 4

Description

The invention relates to hydropower, specifically to the water intake of hydroelectric power plants, designed to pass the heated upper layers of water from the reservoir to the downstream through the aggregates.

A water intake device is known, which contains a sector shutter installed between the structures of the structure and the grid 1.

In the case of a sectoral shutter spillway, the trash lattice is usually absent, as they are used mainly for dumping floating bodies to the lower reach. When using a sector gate in the water intake to pass heated layers from the reservoir to the lower reach through the HES units, to prevent the sunken or semi-tinted fuels and debris from entering the aggregates, the inlet of the receiving water should be blocked by a trash racket to the full height of the upper bay discharge. With a significant cross section of the inlet of the water intake, the trash raster structure becomes cumbersome, since it blocks the entire inlet, i.e., additional investment is required, which increases the cost of the water inlet.

It is also known to have a water intake device, which includes a partitioning element placed between the structures of the structure, to the top edge of which a lattice is hinged, and guides are made in the bases with which the lattice interacts. 2.

The blocking element in this device is made in the form of an inclined shield, progressively moving the bottom edge along the bottom of the structure, which makes it possible to jam the entire hinged structure.

The purpose of the invention is to increase reliability.

The goal is achieved by the fact that the device has a bifurcating element placed between the structures, the upper edge of which (the lattice is attached to the upper arm, the guides with which the lattice interacts, the partitioning element is made in the form of a sector gate , and the guides have a slope in the direction of the hydroelectric power station, and the lattice interacts with the guides with its upper part.

FIG. I shows the device when the shutter is fully closed, cross section; in fig. 2 - the same, with the full opening of the shutter.

The water intake (Fig. 1) consists of monolithic or precast reinforced concrete elements 1. To close the inlet of the water intake during repair work, a metal shield is lowered into the grooves of the repair gate 2. The trash screen 3 moves along guide grooves 4 located in the side walls.

5 water intake. The grille 3 is connected by a hinge 5 to a sector shutter 6 having a downstream rotational axis 7. The pressure chamber 8 is connected by a pipeline 9 to the upper reach, the valve Yu closes the pipeline 9. Another pipeline 11,

 overlapped by the valve 12, connects

downstream pressure chamber 8.

Turbine pipeline 13 is intended for

water supply to hydroelectric units.

The device works as follows.

5 During the drawdown of the reservoir, the water level in the upper reach decreases, while the hydrostatic pressure in chamber 8 (connected by pipe 9 to the upper reach) decreases, shutter 6, rotating about the axis of rotation 7,

0 starts to go down. Water from the chamber 8 flows through the pipeline 11 into the downstream. The retaining grill 3, which has a hinged connection with the bolt 6, moves along the guide grooves 4, and goes down. Accordingly, when the reservoir is filled, the water level in the upstream reaches increases, the hydrostatic pressure in chamber 8 rises, the shutter 6 rises, and the retaining grate 3 moves to the upper position. In both cases, the heated layer of water in the upstream, overflowing through the gate 2, enters the turbine pipeline 13.

This embodiment of the intake device allows to increase the reliability of its

operation by eliminating the blocking of the barrier element.

Claims (1)

WATER RECEIVING DEVICE is predominantly a hydroelectric power plant, including a partition element located between the construction abutments, a grate pivotally attached to the upper edge of which, guides interact with the grate, characterized in that, in order to increase the reliability of operation, the partition element is made in the form of a sector shutter moreover, the guides have an inclination towards the hydroelectric power station, and the lattice interacts with the guides with its upper part. FIG. / SU ,, 1167264