SU204143A1 - AUTONOMOUS GASB THERMAL PROTECTION SKAFANDR - Google Patents

Description

In the famous auth. St. No 180098 autonomous gas heat shield spacesuit The evaporation rate stabilizer can supply liquid gas to the evaporation system only from the bottom of the tank and cannot work in any of its positions.

In the proposed spacesuit inside the tank with liquid gas are placed two flexible hoses of thin-walled tompak or teflon corrugated tube type bellows, with one flexible hose with a load at the free end of the second end connected through a tube to the valve automatic regulator feed, and the other hose with a float on the end of the second end is connected to the valve tube.

The drawing schematically shows the spacesuit described. It consists of a hermetic suit / with a collector 2 and distribution air ducts 3, a tank 4, a hermetic case 5 in which an oxygen supply and ventilation air conditioning system is enclosed. The tank 4 has an inner vessel 6 filled with liquid gas and an outer shell 7, between which there is a vacuum cavity 8. In order to supply the liquid gas to the evaporation system at any position of the tank, two flexible hoses 9 and 10 from thin-walled tompac or teflon corrugated are placed inside it. tube type bellows, and slag 9 has a load // at the free end, and its second end is connected through tube 12 to valve 13 of automatic feed regulator 14. The second hose 10 has a float 15 at the free end, and the other end is connected with the vapor pipe 16 and the valve 17. At different positions of the tank 4, the free end of the hose 9 is always in the liquid, and the free end of the hose 10 is always in the gaseous phase.

An automatic feed regulator M, through which hose 9, tube 12 and valve 13 enters liquid gas, is connected to an evaporator coil 18, which is connected to mixing chamber 19. Valve 17, into which evaporated gas enters through hose 10 and flue pipe 16 It binds either through the nozzle 20 to the atmosphere (during interruptions in operation or when the spacesuit is loaded), or to an emergency non-replenishing valve 21 having a choke diaphragm 22

passage into the chamber 19 mix. (This note of gas is auxiliary). The mixing chamber 19 communicates through the throttling diaphragm 23 with the hose 24 connected to the helmet heat exchanger 25. In addition, the mixing chamber communicates with the coil heat exchanger 26 connected to the ejector 27 sucking gas from the spacesuit through the duct 28 and feeding it into the housing 5. In the housing, the gas is washed by the coils of the evaporator 18, heat exchanger 26 and other cooled parts, and after the ejector enters the spacesuit through the discharge hose 29 and the manifold 2. The spacesuit also has an automatic thermostat 30 connected through a pipe bku 31 with bypass 32, as well as with a thermal bulb 33 through a capillary tube 34. The thermal bulb 33 is filled with a liquid with a boiling point of 25-4-30 ° C. As the air temperature in the spacesuit rises to 25 ° -30 ° C, the liquid in the balloon 33 boils, the vapor pressure in it increases and is transmitted through the capillary tube 34 to the bellows of the thermostat 30, which expands and pushes the valve 13 of the regulator 14 up. At the same time, the supply of liquid gas to the evaporator 18 increases, the pressure in the system rises, the bypass valve 21 is activated and, due to the additional supply of cold gas, the air temperature in the spacesuit decreases. The pressure in the bulb 5 and in the bellows of the thermostat 30 drops, the latter compresses and retracts the pusher to its former position. Additionally, cold gas can also be supplied manually by bypass 32, for which it is necessary to press the bypass button, thereby compressing its sylphone and transferring pressure to the bellows of the thermostat 30. The inner bellows of the automatic regulator 14 and the cavity surrounding the bellows of the thermostat 30 are isolated from pressure in housing 5 and communicated by tube 35 with the surrounding space so that the pressure drop in housing 5 does not affect the operation of the automatic feed regulator 14. In the spacesuit there are pressure regulator 36 through which gas into the surrounding space is supplied for human breathing and for cooling the spacesuit, and fitting 37 for pouring in liquid oxygen. The subject of the invention Autonomous gas-thermal spacesuit by aut. St. No. 180098, characterized in that, in order to supply liquefied gas to the evaporation system at any position of the tank, two flexible hoses from thin-walled tompak or teflon corrugated tube of the bellows type are placed inside, one flexible hose with a load at the free end of the second end is connected the tube to the valve of the automatic regulator of oxygen supply, and the other hose with a float at the free end of the second end is connected to the tube of the valve. j3

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