RU173976U1 - Water hammer installation - Google Patents

Abstract

The utility model relates to the field of hydropower and can be used to obtain both electric power and for pumping a possible main pipe with compressed air. A hydropercussion installation includes a body, which is a rigid pipe, a working body, two valves for the outlet and inlet of the working fluid, and a power valve block . As a working body, a one-piece elastic pipe is used, extruding the working fluid through the exhaust valve. The working fluid emerging under pressure can be converted into electrical energy using a hydrogenerator or used to pump the mains with a working fluid. The proposed utility model can operate stably and autonomously in low-pressure flows.

Description

The utility model relates to hydropower and can be used to generate low-pressure flow energy.

Known devices whose operation is based on a hydraulic shock of water [RU 2051569, 01/10/1996; RU 90848, 10/07/2009; 754119, 08/15/80]. The disadvantages of these devices are the narrow scope, the complexity of the designs and the complexity of manufacturing.

Close to the proposed utility model in technical essence is the installation that uses the energy of the free flow of large and small plain rivers of Mironov-Knyazev to generate electricity. The Mironov-Knyazev model contains a mover driven by a hydraulic ram, providing reciprocating movement of the working body, a stator with induction windings fixedly mounted on the body of the hydraulic ram, and high-energy magnets rigidly mounted on the working body of the mover, capable of moving relative to the induction windings of the stator to generate electric current [Mironov V.V., Knyazev Yu.I. Hydroelectric power station Mironova-Knyazev. Patent RU 90848, cl. F03B 13/00, prototype].

The known device have a more complex structure and the inability to use to pump the line with compressed air.

The objective of the utility model is the conversion of unused energy of low-pressure flows to meet the needs of industry with electric energy or compressed air.

The technical result of the utility model is expressed in the simplification of the device and in increasing the efficiency of energy selection of water hammer.

This is achieved by the fact that, in contrast to the known technical solution, a solid elastic pipe is used as a working body in a water hammer installation, extruding the working fluid through the exhaust valve.

The drawing shows a diagram of a water hammer installation.

The water hammer installation comprises a housing (1), an elastic pipe (2) located inside the housing (1), the intake valve (3) and the outlet (4) of the working fluid (5), and the power valve block (6). The arrow shows the direction of the river.

Water hammer installation works as follows.

Water passes through an elastic pipe (2) and when the river reaches a flow rate under pressure, the valve block (6) closes, resulting in a hydraulic shock. Under the action of the arising pressure inside the cavity of the elastic pipe (2), it stretches and displaces the working fluid (5) located in the space between the body (1) and the elastic pipe (2). At the outlet of the housing, the working fluid (5), which is under pressure, is used in accordance with the needs of industry. After reducing the pressure inside the elastic pipe (2) to hydrostatic, the power valve block (6) opens, the space between the housing (1) and the elastic pipe (2) is filled with a working fluid (5), and the cycle starts anew.

The proposed utility model will effectively convert the unused energy of low pressure flows to meet the needs of industry.

Claims (1)

A hydropercussion installation, which includes a body consisting of a rigid pipe, a working body, two valves for the outlet and inlet of the working fluid, a power valve block, characterized in that a solid elastic pipe is used as the working body, extruding the working fluid through the exhaust valve.

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