RU2081966C1 - Hydraulic power generating unit - Google Patents

Abstract

FIELD: hydraulic power engineering. SUBSTANCE: this is for producing electric energy at restricted amount of water. Unit has water storage 1, turbine water duct 2, hydraulic turbine 3 with generator 4 installed at outlet from water duct 2, water receiving chamber 5, and water lifting plant for returning water to storage 1. Water from storage 1 flows through duct 2 and reaches turbine 3 connected to generator 4 which produces electric energy. Then water is branched to receiving chamber 5. Water accumulated in chamber 5 is returned to storage 1 by means of water lifting plant operating on power produced by external sources. EFFECT: high efficiency. 1 dwg

Description

 The invention relates to structures for generating electricity and can be used in many industries.

 Known hydropower installation, including a hydraulic turbine with a generator installed at the outlet of the turbine conduit connected to the reservoir, a water intake chamber and a water-lifting installation for returning water to the reservoir (see. "Hydroelectric stations". Edited by FF Gubin and G.I. Krivchenko, M. Energia, 1980, pp. 73-74, Fig. 8.1, Scheme 1).

 A disadvantage of the known installation is that for the return of water to the reservoir requires large energy costs from the outside.

 The objective of the invention is the creation of a hydropower installation that provides the return of water to the reservoir with low energy consumption from the outside, through the use of the lifting force of water.

 The problem is achieved in that in a hydropower installation comprising a hydraulic turbine with a generator installed at the outlet of a turbine water conduit connected to the reservoir, a water intake chamber and a water lifting installation for returning water to the reservoir, the water lifting installation consists of at least two groups of chambers connected water conduits with a water intake chamber, and the same number of levers and floats connected to them by means of flexible rods, each of the mentioned groups containing communicating water vodom water receiving chamber with the float chamber and connected thereto a flexible conduit of chamber communicating water conduit with the reservoir, wherein the floats are arranged in the float chamber, the arms are arranged to cooperate with corresponding flexible chambers, and conduits connecting the chambers have valves.

 In FIG. depicts a diagram of a hydropower installation.

 The hydropower installation contains a reservoir 1, in the lower part of which there is a turbine conduit 2. At the outlet of the conduit 2, a hydraulic turbine 3 with a generator 4 is installed. Below the turbine 3 there is a water intake chamber 5, communicating below the water conduits 6 with at least two groups of chambers included in the water-lifting installation (in Fig. shows one group of cameras). Each group of chambers contains a float chamber 7, with a float moving in it 8. The float chamber 7 is connected by a water conduit 9 to a flexible chamber 10 made, for example, of rubber. Near the flexible chamber 10, a lever 11 is mounted, interacting with the float 8, possibly through a flexible rod 12, for example, a chain hoist, providing an increase in the force directed to the lever, which can be supplemented by an extraneous energy source. Water conduits 6 and 9 are equipped with shutoff valves 13.

 Hydropower installation operates as follows.

 Water from the reservoir 1 through the conduit 2 flows to the turbine 3, which rotates the generator 4. After the turbine 3, the water enters the intake chamber 5, and then through the conduits 6 and 9 of one group of chambers into the float 7 and flexible 10 chambers. In this case, the conduit 6 of the second group of chambers is blocked by shutoff valves 13. When the flexible chamber 10 is sufficiently filled, the conduit 9 connecting it to the float chamber 7 is closed. Further raising the water level to the maximum in the intake 5 and float chambers 7 leads to the fact that the float 8 begins to act on the flexible rod 12 (for example, through the block), which moves the lever 11, compressing the flexible chamber 10. As a result, water from the flexible chamber 10 is displaced into the reservoir 1. Then, the water conduit 6 is closed by shutoff valves, the water conduit 9 is opened, and water from the float chamber 7 is sent to the flexible chamber 10, and the float 8 is lowered. At a steady water level in the float chamber 7, a water conduit 6 of the second group of chambers opens, and the cycle repeats. As a result, water is returned to the reservoir with low external energy consumption.

Claims (1)

 A hydropower installation, including a hydraulic turbine with a generator, installed at the outlet of the turbine conduit connected to the reservoir, a water intake chamber and a water lifting installation for returning water to the reservoir, characterized in that the water lifting installation consists of at least two groups of chambers connected by water conduits to the water receiving camera, and the same number of levers and connected to them by means of flexible rods of floats, while each of the mentioned groups contains communicated by a water conduit with a water intake a camera, a float chamber and a flexible chamber connected to it by a conduit communicated by the conduit to the reservoir, the floats being placed in the float chambers, the levers are mounted to interact with the corresponding flexible chambers, and the conduits connecting the chambers have shutoff valves.