SU1707218A1 - Surf unit - Google Patents

Abstract

The invention was used in hydropower. The purpose of the invention is to increase the efficiency. surf installation. In front of the wastewater, the baffle wall 1 is equipped with pressure receiving chambers 2 with elastic covers. Chambers 2 communicate through check valves with a water area of 9 and through pipeline B with a cumulative capacity of 4 placed 2 behind the wall. The transverse partitions of the housing 6 are inclined towards the wall 1. The chambers 2 are formed by partitions 7, which are installed with a gap relative to one of the side walls of the housing 6 Covers are attached by one side along the partition. Check valves are formed by the free side of the lid and the corresponding partition. Air tube 11 informs the upper part of the tank 4 with an open receiving cavity 10. The housing 6 is installed with. slope in the direction of the water area 9 and is equipped with a device 12 to change its angle of inclination. The traps 14 are mounted on the first end wall of the housing 6 along the wave, to trap heavy fractions. 2 of p. 2 Il.

Description

This invention relates to hydropower.

The aim of the invention is to increase the efficiency. installations

Fig, 1 shows the installation, section; in fig. 2 is a section along A-A in FIG. one.

The tidal installation includes a drainage wall 1 and pressure receptacle chambers 2 installed in front of it with elastic lids 3. A storage tank 4 is located behind the drainage wall 1, which is connected to the receiver chambers 2 via pipeline 5. In addition, the installation is equipped with a housing with transverse partitions 7, tilted in the direction of the drainage wall 1, and the receiving chamber 2 is formed by transverse partitions 7, the bottom of the case and elastic covers 3, while the partitions / are installed with a gap 8 relative to one of

side walls of the hull. Covers 3 of each chamber 2 are attached by one side along one of the partitions 7, the free side and the corresponding valve 7 are formed by non-return valves (not oooz1 nzcheny) to communicate the cameras 2 with the water area 9. In addition, in the upper part of the housing 6 the installation is equipped with an open receiving cavity 10 and an air nozzle 11 for communicating the upper part of the storage tank 4 with the cavity 10. The housing 6 is installed at an inclination towards the water area 9 and is provided with a device 12 for changing its angle of inclination. On the first end wall 13 of body 6 along the wave, traps 14 are installed. A check valve 15 is installed in the container 4 lid. And a turbine 16 with a guide 17 is installed in the tank itself

Priboyna installation works as follows

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The waves moving in the direction of the water breakdown wall 1, with their mass, act on the elastic covers 3, fill the receiving chambers 2. with water and fill the open cavity 10. When the wave rolls back, its sole is cut off by the upper edges of the inclined partitions 7 and fills the entire volume of the body. When the next wave rolls in, the pressure of water in the cavity 10 and chambers 2 rises, facilitating the movement of water through pipeline 5 before draining it into storage tank 4. In this case, cavity 10 and storage tank 4 are used as communicating vessels. To ensure the continuous supply of water to the storage tank 4, the volume of the cavity 10 is made considerably larger than the volume of the tank 4 and provided with an air nozzle 11 for creating a vacuum and evacuating the air from the tank 4, ensuring that water is forced through the pipeline 5.

As the level of water in the cavity 10 decreases, the level in the nozzle 11 also decreases. The valve 15 closes and the air from the tank 4 fills the empty volume in the nozzle 11. During installation and adjustment of the unit to the operating mode, the optimum angle is obtained. 12 and fix it in the right direction.

The heavy fractions drawn by the wave are trapped by the traps 14.

Claims (3)

1. Pribinona installation, containing a water outlet wall, installed in front of her pressure receiving chambers with elastic covers, communicated through check valves with the water area, and through the pipeline - with a cumulative capacity, located behind the drainage wall, characterized in that, in order to increase to. pd, it is provided with a housing with transverse partitions inclined towards the drainage wall, and the receiving chambers are formed by the latter, the bottom of the case and elastic covers, while the partitions are installed with a gap relative to one and From the side walls of the housing, the lids of each chamber are attached by one side along one of the partitions forming the chamber, and the check valves are formed by the free side of the lid and the corresponding partition. 2. Installation under item 1, characterized in that in the upper part of the body it is equipped with an open receiving cavity and an air nozzle for communicating the upper part of the storage tank with an open receiving cavity, and the body is installed with a slope towards the water area and is equipped with a device for changing the angle his inclination 3. Installation on PP. 1.2, characterized in that it is provided with traps mounted on the first end wall of the first body along the wave. ooooooooooo 6 5 FIG. 2