RU2005135172A - DEVICE FOR DEFECTIVE IN FLIGHT OF THE HYDRAULIC HIGHWAY CHARGED BY THE WORKING BODY OF THE SYSTEM OF THERMAL REGULATION OF A PILOTED SPACE OBJECT AND METHOD OF ITS OPERATION - Google Patents

Claims (2)

1. A device for the flight detection of a manned spacecraft thermal control system of a manned spacecraft temperature-controlled hydraulic line, including an absolute pressure gauge, characterized in that it additionally contains a vacuum pump and a sealed container, the internal volume of which is divided by an elastic diaphragm into two cavities - liquid and gas, moreover, the liquid cavity of the tank is filled with a working fluid of the hydraulic line of the temperature control system and pipes are connected through the first shutoff valve a wire with a defective section of the aforementioned hydraulic line, and the gas cavity of the tank is filled with air with the atmosphere pressure of the space object compartment and is directly connected to the absolute pressure gauge, and, in addition, through the second and third shut-off valves it is connected respectively with the vacuum pump inlet and the space object compartment atmosphere while the output of the vacuum pump is also communicated with the atmosphere of the compartment. 2. A method of operating a device for detecting in flight a hydraulic line of a manned spacecraft thermal control system filled with a working fluid, in which the pressure and temperature of the working fluid in the hydraulic manifold are aligned with the pressure and temperature of the atmosphere of the spacecraft compartment, after which the hydraulic manifold is divided into separate hydraulically disconnected sections and alternately inform each of them with a liquid cavity sealed with a working fluid a container in the gas cavity of which, separated from the liquid cavity by an elastic diaphragm, there is air with a pressure equal to the pressure of the atmosphere of the compartment of the space object, and after each message of the said container with a defective section, the liquid cavity of the sealed container is hydraulically disconnected from the defective section and its gas is evacuated cavity to the pressure of saturated vapor of the working fluid corresponding to its temperature, and then, maintaining this temperature constant, the liquid cavity is sealed capacitance with a defectable area and control the change in air pressure in the gas cavity of the sealed container, after which, in the absence of a change in pressure, a conclusion is made about the tightness of the defective area, and if there is a change, this area will be rejected.