SU1451323A1 - Method and apparatus for converting hydrostatic pressure - Google Patents

Abstract

The invention allows to expand the field of application by ensuring the autonomy of the device. The housing (K) 1 is immersed by loading ballast 3 into the bunker K1, having previously closed the valve 6. When immersed to the bottom of K1, the check valve 11 opens and water, vras.a hydraulic motor 2, enters the cavity K1 through pipelines 10 and 9, squeezing there is air there. Then, the check valve 8 and the flap 12, which retained the ballast 3, open. K1 floats up and under the action of air pressure, water is forced out of it through line 7. Interwall space 5 is filled with compressed gas with a pressure equal to half the hydrostatic pressure. use the device. The rotation of the motor 2 can be used to drive various consumers. 2 sec. and 1 z. p. f-lg, 1 ill. from €

Description

The invention relates to hydropower and can be used to convert hydrostatic pressure.

The purpose of the invention is the expansion of the scope.

The drawing shows a diagram of a device for converting hydrostatic pressure.

A device for converting hydrostatic pressure comprises a housing 1 and a hydraulic motor 2 connected to its cavity. The device is equipped with a hopper for loading ballast 3 and a ballast discharge mechanism, and housing 1 is equipped with an elastic shell 4 in contact with its inner surface, and housing 1 is double-walled, and the interwall space 5 is filled with compressed gas. The internal cavity of the housing 1 is in communication with the atmosphere through a valve 6, with a reservoir through a pipe 7 with a check valve 8, and with a hydraulic motor 2 through a pipe 9, and the hydraulic motor 2 is connected to a reservoir through a pipe 10 with a check valve 11. Relief mechanism The ballast has an adjustable shutter 12.

The method of converting hydrostatic pressure involves immersing the housing 1 at the bottom of the reservoir, water inlet through the hydraulic motor 2 into the cavity of the housing 1 with the simultaneous compression of air in it and the subsequent removal of water from the cavity with compressed air. The immersion of the housing 1 is carried out by loading it with ballast 3, and after the water inlet, discharge of the ballast 3 and the ascent of the housing 1.

During operation of the device, the housing 1 is immersed by loading the ballast 3 into the hopper of the housing 1, after closing the valve 6. When immersed at the bottom of the housing 1, the check valve And opens, and water, rotating the hydraulic motor 2, enters the cavity of the housing 1 through pipelines 10 and 9 while compressing the air there, until the hydrostatic pressure is equal to the air pressure. After that, the shutter 12 and the check valve 8 are opened and the ballast 3 is discharged. The housing 1 pops up, and under the influence of air pressure, water is displaced from it through the pipeline 7. The interstitial space 5 is filled with compressed gas whose pressure is equal to half the hydrostatic pressure in the place where it is supposed to be used, device.

Claims (3)

Claim 1. A method of converting hydrostatic pressure, including immersion of the hull to the bottom of the reservoir, water inlet through the hydraulic motor into the body cavity with simultaneous compression of air in it and subsequent removal of water from the cavity with compressed air, characterized in that, in order to expand the scope, immersion of the body by loading it with ballast, and after the water inlet, the ballast is released and the hull ascends. 2. A device for converting hydrostatic pressure, comprising a housing and a hydraulic motor connected to its cavity, characterized in that, in order to expand the field of application, the device is equipped with a hopper for loading ballast and a ballast discharge mechanism, and the housing is provided with an elastic shell in contact with its inner surface . 3. The device according to claim 2, characterized in that the body is double-walled, and its interstitial space is filled with compressed gas.