RU1832160C - Hydraulic power plant - Google Patents

Abstract

The invention relates to hydropower. The power plant comprises a main floating or stationary platform (P) 2 and a casing (K) with inlet and outlet tapering nozzles 7 and 11. K 10 is installed in the underwater part of P 2. The impeller 5 of the turbine is installed in K on a vertical shaft 4 with the possibility of changing depth of immersion. The impeller 5 is made in the form of a squirrel cage with hinged blades 8. located on the peripheral axles 6 of the latter. An energy converter is mounted on the upper deck 1 of platform 2 and is kinematically coupled to the turbine shaft 4. The blades 8 are made sickle-shaped and provided with perforations. K is equipped with a protective screen installed in front of the inlet 7. The energy converter is made in the form of an electric generator 3. The blades 8 in the folded state are arranged in a spiral of Archimedes. This embodiment of the power plant will increase its efficiency and reliability.

Description

The invention relates to hydropower, in particular, to the conversion of hydraulic energy resources, and in particular to devices for using the natural directional movement of a stream of water in rivers, lakes, seas and oceans.

The purpose of the invention is the preservation of the natural ecological balance of the reservoir during the selection of the power of the moving water flow, increasing efficiency, reducing capex per unit of generated electric power, eliminating cavitation, as well as the dependence of the turbine on the direction of movement and differential water.

In Figs. 1 and 2, the hydraulic power plant of G. N. Stepanov is shown.

G.N.'s hydraulic power plant contains a deck 1 of a floating or behind a main platform 2, an electric energy generator 3 mounted on it, a shaft 4 kinematically connected to it, and a hydroturbine consisting of squirrel cage 5 s connected to it in the underwater part mounted on its peripheral axis 6 movable sickle-shaped in shape relative to the surface of the water 7 and perforated by the depth (height) of the blades 8, from the side of the outflow of water on the hydraulic turbine mesh fence 9, the casing 10 for flowing in odes on the opening 11 parts of the blades 8 and at its outlet, the passage 13 for water narrowed from the side of the folding 12 parts of the blades 8.

In the normal position, in the absence of a flow of water, the blades 8 of the hydroturbine sickle-shaped in relation to its surface 7 and perforated in depth (height) are folded around the squirrel cage 5 in a spiral of Archimedes. In the presence of a water flow, the parts of the turbine blade 11 directed against it open, rotating relative to the peripheral axes of the squirrel cage 5, and under the pressure of the water flow, the electric energy generator 3 mounted on the shaft 4 is mounted on

the upper deck 1 of a floating or behind an indigenous stationary platform 2. As the turbine rotates, parts of its blades 12 that are not directed against the flow of water are folded under the same pressure of water. Netted

the fence 9 in front of the casing 10 eliminates the ingress of foreign floating objects (not shown) in the blades 8 of the hydraulic turbine. The outflow of surface water after its flow after the turbine is carried out through the narrowed passage 13 of the casing 10. The depth of immersion of the turbine outside the casing is achieved by lengthening the shaft 4 due to the spline connection of its components (not shown in Fig.).

Claims (1)

The claims A hydraulic power plant, comprising an indigenous stationary platform, a casing with inlet and outlet pipes narrowing downstream, installed in the underwater part of the platform, a hydraulic turbine with an impeller installed in the casing on a vertical shaft with the possibility of changing the immersion depth and made in the form of a squirrel cage with folding blades placed on the peripheral axes of the latter, and an energy converter mounted on the upper deck of the platform and kinematically connected to the shaft of the hydraulic turbine, and with the fact that the blades are made sickle-shaped and equipped with perforations, the casing has a soroprotective grille installed in front of the inlet pipe, and the energy converter is made in the form an electric generator, and when folded, the blades are arranged in a spiral of Archimedes.