SU977848A1 - Hydraulic power microstation - Google Patents

Description

(54) MICROHYDROELECTRIC STATION

The invention relates to hydromashiko, structure, and can be used for the autonomous production of electricity in micro hydro power plants. A microhydroelectric station is known, which contains a conical pressure chamber, in the lower part of which there is a guiding device and an impeller mounted on a vertical shaft connected to a generator 1J. The disadvantage of such a microhydroelectric station is the lack of a simple automatic regulating device to maintain the generator speed. The purpose of the invention is to regulate the flow of water. In order to achieve the goal, the pressure chamber in the upper part is provided with openings and a collector located in the zone of the latter, communicated by means of a pneumatic valve with atmosphere, and a plate is mounted on the shaft above the chamber. The drawing shows MSPS, section. The microhydroelectric power station contains a conical pressure chamber 1, in the lower part of which there are located a guiding device 2 and an impeller 3 mounted on a vertical shaft 4 connected to a generator 5. The pressure chamber 1 in the upper part is provided with openings 6 and located in the last zone with a collector 7 communicated by means of a pneumatic valve 8 with the atmosphere. A plate 8 is mounted on the shaft 4 above the chamber 1, the microcirculation plant operates as follows. Water rushing into the pressure chamber 1 passes through the guide apparatus 2 and then onto the impeller 3, rotating the shaft 4 of the generator 5. In the absence of a load on the generator 5, the water in the pressure chamber 1 passes with a sufficiently large speed and flow rate. As a result, in the upper part of chamber 1 a compression of the jet is formed and the vacuum created under it opens the pneumatic valve 8 and sucks the air from the atmosphere through the holes 6

Claims (2)

The claims increase, reducing the passage area and, accordingly, the flow rate of water through the chamber 1. When connected to the load generator 5, the rotational speed of the impeller 3 decreases, a pressure is created, the water velocity in the chamber 1 decreases and the vacuum in the compression zone of the jet decreases. The pneumatic valve 8 covers the air access through the collector 7, the compression of the jet decreases, the throughput of the chamber 1 and the water flow through it increase. Plate 9 serves to prevent the formation of an air funnel. ,5 The proposed technical solution provides automatic regulation of water flow through a microhydroelectric power station in the simplest way, without complicated control devices, which gives an economic effect. 1. Microhydroelectric power station containing a conical pressure chamber, in the lower part of which there is a guiding apparatus and an impeller mounted on a vertical shaft connected to a generator, characterized in that, in order to ensure regulation of water flow, the pressure chamber in the upper part is provided holes and a collector located in the zone of the latter communicated by means of a pneumatic valve with the atmosphere. 2. Microhydroelectric power station according to π. 1, characterized in that. a plate is mounted on the shaft above the camera.