SU1638356A1 - Wave power generating unit - Google Patents

Abstract

The invention relates to hydropower engineering and allows increasing the reliability of the installation. Inside the pontoon (P) 1, an electric generator (E) 2 is placed in the cavity of the housing (K) 6. The shaft of which is kinematically connected to one of the movable blocks 5 of the polyspast formed behind the radial flexible link (C) 4, the movable blocks 5 and fixed blocks 3, mounted on K 6 and P 1 respectively. In the course of waves P 1, lifting onto the crest of the wave, pulls C 4, which, rotating blocks 3 and 5 of the polyspast, drives shaft E 2 to rotate and causes K 6 to rise, providing tension to C 4 with its weight. 6 goes down. Thus, the energy is taken off at wave oscillations P 1. 1 ill.

Description

The invention relates to hydropower, in particular to wave power plants.

The purpose of the invention is to increase the reliability of the installation.

The drawing schematically depicts the proposed wave power plant, General view.

The wave power plant comprises a hollow pontoon 1 with an electric generator 2 located therein, a fixed unit 3 fixed in the upper part of the pontoon 1, and a flexible connection 4 covering the unit 3 and connecting the fixed anchor support (not shown) with a tension device, while the generator shaft 2 is kinematically related to the latter. In addition, the installation is equipped with additional fixed blocks 3 and movable blocks 5 connected by a flexible connection 4 with the formation of a chain hoist. Additional fixed blocks 3 are attached to the upper part of the pontoon 1, and the movable blocks 5 are attached to the tension device. The latter is made in the form of a hollow body 6 and is installed with the possibility of vertical movement, while the electric generator 2 is placed in the cavity of the housing 6 and its shaft is connected to one of the movable blocks 5. Inside the pontoon 1, stops 7 and 8 are installed, restricting the movement of the housing 5.

Wave power plant operates as follows.

During the waves, the pontoon 1, rising to the crest of the wave, pulls the anchor flexible connection 4, which, rotating the blocks 3 and 5 of the chain hoist, rotates the shaft of the generator 2, located in the housing 6, providing its weight constant tension of the flexible connection 4 and rising at the same time up inside the pontoon 1. When lowering the pontoon 1 into the cavity of the wave, the casing 6 with the electric generator 2 also lowers. The maximum movement of the housing 6 is limited by stops 7 and 8.

The proposed implementation of the wave power plant allows you to convert the vibrations of the pontoon 1 into rotation using the chain block of the shaft of the generator 2, located in a separate housing 6 and thereby improve the reliability of the installation.

Claims (1)

Claim A wave power installation comprising a hollow pontoon with an electric generator located therein, a fixed unit fixed to the upper part of the pontoon, and a flexible connection covering the said unit and connecting the fixed anchor support with a tension device, while the electric generator shaft is kinematically connected with the latter, characterized in that that, in order to increase the reliability of the installation, it is equipped with additional fixed blocks and movable blocks connected by a flexible connection with the formation of a chain block, additional fixed blocks attached to the top of the pontoon, and movable to a tensioning device, the latter is designed as a hollow body and installed to be vertically moved. ny, while the electric generator is placed in the cavity of the housing and its shaft is connected with one of the moving blocks.