SU1560775A1 - Receiving chamber of wave-energy plant - Google Patents

Abstract

The invention relates to hydropower engineering and allows for increased efficiency of the chamber. The rotary body (K) 1 has a wave receiving shield and a vertically located cylinder 2 attached to K 1, the piston rod of which is connected to the float 3. The wave receiving shield K 1 is made of two walls to form a cavity 6 between them. The latter is equipped with check valves 7 and elastic tubular elements (E) 8 and communicated with the receiving chamber 9 by means of openings 10, and with the external environment by means of longitudinal slots 11, with valves 7 installed in openings 10 and E 8 - opposite to slots 11, while E 8 are connected to the piston cavity of the cylinder 2. When nab In this case, the crest of the wave increases the pressure of the air in the chamber 9, which is supplied to the consumer, and the air pressure can be further increased by the action of a wave or wind through the slots 11 and the apertures 10, which are blocked when the crest of the wave escapes using valves 7 and E 8. 2 Il.

Description

The invention relates to hydropower tubular elements 8 supplied to a getik, in particular to wave installations.

The aim of the invention is to increase efficiency. ⁵

In FIG. 1 schematically shows the receiving chamber of a wave installation at the time of passage of the wave trough; in FIG. 2 - the same, at the moment of passage (θ of the ridge).

The receiving chamber of the wave installation comprises a rotary housing 1 open from below and partially submerged under the water level, having a wave receiving 15 shield, and a vertically located cylinder 2 attached to the housing, the piston rod of which is connected to the float 3. The body receiving shield is made of two walls 4 and 5 s the formation of a cavity 6 between them, the latter is equipped with check valves and elastic tubular elements and is in communication with the receiving chamber 9 by means of openings 10, and the external medium is 25 by means of longitudinal slots 11, and the panes 7 are installed in the holes 10, and the tubular elements 8 opposite the slots 11, while the tubular elements 8 are connected to the piston cavity βθ of the cylinder 2.

The receiving chamber of the wave installation operates as follows "

At clash wave crest on volnopriemny shield body 1 in the receiving space 9 increases the water level and increases the air pressure supplied to the consumer, for example an air turbine (not shown), at ₄₀ it floats float 3, and rises up the cylinder plunger 2, the pressure in its piston the cavity decreases and the working fluid from elastic to the last. The tubular elements 8 under the influence of a wave or wind are deformed. The pressure in the receiving chamber 9 additionally increases under the influence of a wave or wind through slots 11 and openings 1 L. When the wave crest departs, the float 3 drops, the pressure in the piston cavity of the cylinder 2 and in the elements 8 increases, the receiving chamber 9 is isolated from the effects of wind or wave through slits 11, the air pressure in it decreases and the air flow acts on the air turbine along.

This embodiment of the proposed receiving chamber of the wave installation allows to increase the efficiency due to the additional influence of the wave or wind on the wave receiving shield.

Claims (1)

Claim The receiving chamber of the wave installation, comprising a rotatable housing open from below and partially submerged under the water level, having a wave receiving shield, and a vertically arranged cylinder attached to the housing, the piston rod of which is connected to the float, characterized in that, in order to increase the efficiency, the wave receiving shield of the housing is made of two walls with the formation of a cavity between them, the latter is equipped with check valves and elastic tubular elements and communicated with the receiving chamber by means of holes, and with the external environment by means of native slots, the valves are installed in the holes, and the tubular elements are opposite the slots, while the tubular elements are connected to the piston cavity of the cylinder.