SU1562396A1 - Water flow energy damper - Google Patents

Abstract

The invention relates to hydraulic engineering, in particular, to devices for quenching the energy of a water stream. The purpose of the invention is to increase efficiency and reliability. The water flow energy damper consists of a supply channel 1 with a console 2 made in well 3, a water wall 4 with a curvilinear front face and controfors 5. At the bottom 6 of well 3, a hole 8 is made above the gallery 7, overlapped with a concave throttling plate 9. During operation the quencher flux, which flows onto the curved water wall 4, is twisted in a vertical plane. Under the console 2 in the well 3, a vortex is also generated. The interaction of the vortices provides effective quenching of the energy of the water flow. The curvilinear shape of the wall allows for a smooth entrance of the flow into the quencher and reduce its cavitation erosion. The execution of the washing gallery 7 makes it possible to eliminate the danger of silting up of the well 3. This allows increasing the reliability of the device. 2 hp f-ly, 2 ill.

Description

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The invention relates to hydraulic engineering, in particular, to devices for quenching the energy of a water stream.

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

FIG. 1 shows a device for quenching the energy of a water stream, top view; in fig. 2 shows section A-A in FIG. one.

The water flow energy damper contains a supply channel 1 with a console 2 installed in the cavity of a water well 3, a water wall k curved in a vertical plane. The water wall 4 is provided with lateral flanges 5 and forms with them a chamber installed with a gap to the walls of the well 3. When the concave front face of the wall C with the bottom 6 of well 3 is mated, there is a bottom gallery 7 which has an opening 8 with a swirling device made in the form of a concave throttling plate 9. With the concave upper plane of the plate 9 facing the well. The plate 9 is attached to the axis of rotation 10, which is connected to the handle 11 and can be rotated 90 °. One end of the plate protrudes above the bottom 6 of the well 3. In the upper part of the side wall of the gallery 7, the stop 12 of the plate 9 is fixed and the well 3 behind the watering wall 4 is narrowed and adjoins the tapping channel 13. Gallery 7 is juxtaposed with the tapping pipe 1 .

The water flow energy absorber works as follows.

The flow of water from the supply channel 1 enters the console 2, then flows onto the concave front face of the water wall k connected to the side

about

five

the controphores 5, and colliding with them, is directed toward the curvilinear plate 9 and the console 2. A part of the flow, meeting an obstacle in the form of a protruding part of the plate 9 above the bottom 6, is twisted. And the other part of the flow, overflowing through the end of the plate 9, comes under the console 2, where it also acquires a swirling motion. Swirling flows, interacting with each other, extinguish each other’s energy. Then the flow enters the gaps between the controphores 5 and the side walls of the well 3 and is discharged through channel 13. Due to the generation of vortices in front of the plate 9, the deposition of pumps in the mating location of the water wall k with the bottom 6 is absent, they are discharged through the flow through hole 8 to the gallery 7 discharge pipe 14.

Claims (3)

1. A water flow energy damper that includes a water well with an L-shaped water wall installed at the level of the inlet channel, characterized in that, in order to increase efficiency and reliability, the water wall is curved in a vertical plane, coupled to the bottom of the well and equipped lateral contofors, I 2. A damper according to claim 1, characterized in that the end part of the supply channel is made in the form of a cantilever. 3. The damper according to claim. Characterized in that a hole is made at the bottom of the well, which is covered with a concave throttling plate.