RU2048641C1 - Shaft water drainage sump - Google Patents

Abstract

FIELD: hydraulic works. SUBSTANCE: when water level rises above normal key bed, water is discharged from the upper reach of shaft waterworks through drain funnel 1 into vertical shaft 4. Simultaneously, water flows through pipes into overflow head 2 positioned in the funnel and having the form of a hollow cone wherefrom it also overflows into vertical shaft 4. This flow of water through drain funnel 1 and overflow head 2 increases the spillway capacity at a minimum forced level of upper reach. EFFECT: improved design. 2 dwg

Description

 The invention relates to hydraulic structures and can be used to skip water consumption.

 Known mine spillway structures.

 The disadvantages of these structures include the non-rational use of a spillway funnel and a spillway to increase the capacity of the spillway. The capacity of the annular spillway reduces the non-radial inlet along the perimeter of the annular spillway, causing rotational flow and uneven water supply. To eliminate rotation and evenly ensure water supply, a recess supplying water to the spillway is given certain outlines and counter-rotary devices are installed. Many designs have been proposed to exclude screw movement. The main disadvantage of the above works is the irrational use of space in the spillway to increase the throughput of the spillway.

 Closest to the invention is a spillway consisting of an annular spillway and an additional spillway funnel located inside the inlet funnel. Additional water is supplied via radial inlets. At high costs, the radius of the annular spillway is large and, accordingly, the lengths of the supply pipes for an additional funnel increase. This requires a special solid construction and the static stability of the structure is violated.

 The main disadvantage of these designs is the complexity of the design and low throughput at high costs.

 The aim of the invention is to ensure maximum resistance of the overflow layer of water at the inlet; ensuring throughput with a minimum radius of the funnel and throughput with a minimum depth of the drainage layer.

 This is achieved by the fact that the inner space of the spillway funnel spillway between the surfaces of the merging jets is used to supply additional costs. For this purpose, an additional water intake device is arranged along the axis of the spillway structure, made in the form of a hollow cone, the apex of which faces downward in the direction of the tunnel and is installed with a gap between the cone body and the free surface of the jet poured into the tunnel.

 Water for an additional water intake device is supplied using hollow pipes that simultaneously support the water intake head.

Thus, water through hollow pipes enters an additional tip. In such designs, the throughput is increased by about 10-20%
In FIG. 1 and 2 given the proposed structure.

 The spillway consists of a spillway funnel 1, an additional water intake head 2, a hollow pipe 3, and a vertical discharge shaft 4.

 The spillway funnel has a circular shape and its top is at the level of the normal retaining water level in the reservoir. The additional water intake head 2 has a hollow conical shape, the apex of which faces in the direction of the tunnel and is installed with a gap from the free surface of the jet poured into the tunnel. The hollow pipe 3 performs two main functions: the holder of an additional tip and for supplying water to it. The vertical discharge shaft 4 performs the function of connecting the spillway to the discharge tunnel.

 The design works as follows.

 When water rises above the normal backed horizon of the reservoir, overflow occurs through the spillway parts of the funnel. At the same time, water flows through hollow pipes into an additional water intake head. Then the water overflows through the vertical shafts and is diverted into the tunnel. Thus, the application of the proposed design allows to reduce the depth of the tidal layer and reduce the radius of the spillway funnel.

Claims (1)

 A SHAFT WATER DISCHARGE CONSTRUCTION, including a spill funnel connected to the discharge shaft, and a water overflow head located inside the funnel along its axis and resting on the walls of the funnel by means of inlet conduits connecting the head cavity to the reservoir, characterized in that, in order to increase throughput at a minimum forced level of the upper pool, overflow head is made in the form of a hollow cone, with its apex pointing down in the direction of the discharge shaft and having an open base, and letting Water conduits are made in the form of pipes.

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