SU924233A1 - Water discharge structure (its modifications) - Google Patents

Description

The invention relates to hydraulic construction, in particular to the discharge devices of high-pressure waterworks.

A spillway device is known, which includes a supply and discharge gates, a shutter chamber, a fairing and a twisting device in the form of rotating blades [1].

It is also known spillway device, including the inlet and outlet conduits, the axes of which do not intersect, the shutter and the twisting device [2].

_(A disadvantage of known devices zaklyu- _<5 chaetsya in design complexity, inability to pass sunken bodies and operation of the gate in conditions with backwater. Downstream side.

"

The purpose of the invention is to increase reliability and efficiency.

This goal is achieved by the fact that the valve is located in the supply water 2

de, and the twisting device is made in the form of a toe-springboard installed behind the gate, and the inlet conduit is connected to the edge of the end of the diverter.

The goal is also achieved by a version of the spillway device, in which the valve is located in the supply conduit, and the twisting device is made in the form of a toe-springboard installed

behind the gate, with the supply conduit and side surface. diversion conduit connected in a spiral.

FIG. 1 shows the spillway device when installing the toe-springboard at the end of the camera chamber, longitudinal section; in fig. 2 is the same, in plan view; FIG. 3 shows section A-A in FIG. one; in fig. 4 - spillway device when installing the toe-springboard behind the camera shutter in the discharge conduit, a longitudinal section; in fig. 5 - the same plan view; in fig. 6 is a section BB in FIG. 4 in FIG. 7 - · an embodiment of a discharge device, longitudinal 924233

rez; in fig. 8 - the same plan view; FIG. 9 is a section along the line BB in FIG. 7

The spillway device includes a supply conduit 1, a shutter chamber 2 with a control shutter 3, a sock — tramp 5 lin ^l , an air duct 5, a discharge conduit 6.

The inlet port 1 is connected to the edge of the end face of the outlet conduit 6, the direction of the longitudinal axis of which may be the same as the direction of the longitudinal axis of the inlet conduit 1 and the gate chamber 2 or differ from this direction in a vertical plane or plan at some angle. 15

An embodiment of the spillway device involves mating the inlet duct 1 with the side surface of the outlet duct 6 in a spiral 7. 20

Water is supplied through the supply conduit 1, the flow enters the control valve 3 and the chamber 2 of the shutter, while with all the openings of the regulating shutter 3 it operates in a normal 25 submerged mode with a throughput corresponding to the accepted type of shutter, because the flow swirling in the outlet conduit 6 behind the nook-springboard 4 does not affect the operation of the shutter 3 eo. This ensures an increase in throughput and smooth flow control. Providing a normal, unsupportive mode of operation of the control valve 3, for which air is supplied through the duct 5, increases the reliability of operation of the spillway structure. After the chamber 2 of the shutter, the high-speed flow, falling on the toe-springboard 4, is thrown upwards and due to the reaction of the walls of the diverting conduit 6 or the helix 7 is twisted effectively. The amount of swirling flow in the discharge conduit O is regulated by the angle of elevation of the toe-springboard 4. The straightness of the flow path provides the ability to pass through large-scale floating objects through the spillway construction, reduces the size of the spillway device and provides simplicity and manufacturability of its construction.

Claims (2)

Claim 1. Spillway device, including inlet and outlet waterways, whose axes do not intersect, shutter and twisting device, characterized in that, in order to improve reliability and efficiency, the shutter is located in the supply conduit, and the twisting device is made in the form of a toe-springboard installed behind the gate, with the inlet conduit connected to the edge of the diverting end. 2. A device including a supply and discharge conduits whose axes do not intersect, a shutter and a twisting device, characterized in that, in order to increase reliability and efficiency, the shutter is located in the supply conduit, and the twisting device is designed as a sock-springboard shutter, and: the supply conduit and the side surface of the outlet conduit are conjugated in a spiral.