UA141492U - COMBINED SYSTEM OF STORAGE AND SUPPLY OF WORKING SUBSTANCES OF ELECTRIC AND LIQUID PROPULSION INSTALLATIONS - Google Patents

Abstract

The combined system of storage and supply of working substances of electric and liquid propulsion systems consists of the system of storage of electric propulsion system which contains a tank of gaseous working substance, the filling valve, the sensor of pressure in a tank and the starting valve. Throttle systems for an electric propulsion system comprising a solenoid valve, receiver, pressure sensor, and liquid propellant storage and supply systems comprising a pressure regulator, a safety valve, non-return valves, liquid fluid tanks, each of which is divided into liquid and gas cavity displacement bags, filling and draining valves, shut-off liquid valves, pressure sensors in liquid mains. The outlet of the starting valve of the storage system of the electric propulsion system is connected to the inlet to the pressure regulator of the storage system and the supply of working fluid of the liquid propulsion system by an additional line, and the gas cavities of the tanks of the storage system of the liquid propulsion system are connected to the inlet valve. throttling of the electric propulsion system by additional gas mains on which the pyro-switch is installed.

Description

The utility model belongs mainly to the equipment of space vehicles, namely to the equipment used for storage and supply of working substances of electric and liquid propulsion systems.

A well-known liquid propulsion system for space vehicles of the "SOtoya! Zsieepsez Sogrogayop" company is based on the "Ziag!-2" platform (1), which includes tanks with liquid substances of rocket fuel and a tank for gas, which is used to squeeze out liquid substances of rocket fuel.

A significant disadvantage of this propulsion system is that with a long period of active existence of the spacecraft, it requires a significant mass of liquid substances of rocket fuel due to the relatively small specific impulse of thrust of its engines. This determines the fact that such spacecraft have a large mass.

In order to reduce the mass of spacecraft with a long period of active existence, in addition to the liquid propulsion system, which performs the functions of apogee, an electric propulsion system with a large specific impulse of thrust is introduced into their composition, which performs the functions of orbital, as is done, for example, in the space vehicles of the company " TnaIe5 Aiapia brase" on the basis of the "BZrase ryv" platform | 2) The composition of the gaseous working substance storage and supply system of the electric propulsion plant includes a gaseous working substance tank, a filling valve, a pressure sensor in the tank, a starting valve of the storage system, an electric valve, a reducer, a receiver , safety valve of the first circuit of the throttling system, electric valve, receiver, pressure sensor of the second circuit of the throttling system |Z). The system of storage and supply of working substances of the liquid propulsion system includes a gas cylinder, a filling valve, an inflation start valve, a pressure regulator, a safety valve, non-return valves, tanks with a liquid working substance, which are divided into liquid and gas cavities by extrusion bags, refueling drain valves, liquid shut-off valves, pressure sensors in liquid lines |4). These systems of storage and supply of working substances of electric and liquid propulsion systems are taken as the closest analogue.

A significant disadvantage of the closest analogue is that due to the fact that the storage and supply systems of the working substances of the electric and liquid propulsion units are separated from each other, in the storage and supply system of the liquid propulsion unit, which performs the role of the apogee,

After the spacecraft exits the planned orbit, gas remains in it for squeezing out the liquid working substance from the tanks, which is not used later when the spacecraft is in orbit. In addition, in the throttling system of the gas storage and supply system, two pressure reduction circuits are used to ensure the required gas pressure at the outlet. These factors determine the increased mass of propulsion systems and the spacecraft as a whole.

The useful model is based on the task of improving the storage and supply systems of working substances of electric and liquid propulsion systems by combining them and using the gaseous working substance of the electric propulsion system to squeeze the liquid working substance from the tanks of the liquid propulsion system with further use for its intended purpose in the electric propulsion system installation, which allows to exclude from the composition of the system of storage and supply of the working substance of the liquid propulsion system, the gas cylinder, refueling valve, inflation start valve, and from the composition of the storage and supply system of the working substance of the electric propulsion unit, the electric valve, reducer, receiver, safety valve of the first circuit of the system throttling

The technical result consists in reducing the mass of the systems of storage and supply of working substances of propulsion units and the spacecraft as a whole.

The task is solved by the fact that the combined system of storage and supply of working substances of electric and liquid propulsion systems consists of a storage system of an electric propulsion system, which contains a tank of a gaseous working substance, a filling valve, a pressure sensor in the tank and a start valve, a throttling system of an electric propulsion system an installation that contains an electric valve, a receiver, a pressure sensor, and a system of storage and supply of the working substance of a liquid propulsion unit, which includes a pressure regulator, a safety valve, check valves, tanks with a liquid working substance, each of which is divided into liquid and gas cavities by extrusion bags , filling and draining valves, shut-off liquid valves, pressure sensors in the liquid lines, according to the useful model, the output from the starting valve of the storage system of the electric propulsion system is connected to the input to the pressure regulator of the system of storage and supply of the working substance of the liquid propulsion system by an additional line, and gases and the cavities of the tanks of the system of storage and supply of the working substance of the liquid propulsion system are connected to the entrance to the electric valve of the throttling system of the electric propulsion system by additional gas lines on which a pyroswitch is installed.

Thus, the set of known essential features of the proposed useful model: the storage system of an electric propulsion system containing a tank of gaseous working substance, a filling valve, a pressure sensor in the tank and a start valve, a throttling system of an electric propulsion system containing an electric valve, a receiver, a pressure sensor, and the system of storage and supply of the working substance of the liquid propulsion system, which contains a pressure regulator, a safety valve, a check valve, tanks with a liquid working substance, each of which is divided into liquid and gas cavities by extrusion bags, a filling and draining valve, a liquid shut-off valve, a sensor pressure in the liquid lines, and new essential features: connection of the outlet from the start valve of the storage system of the electric propulsion system with the input to the pressure regulator of the system of storage and supply of the working substance of the liquid propulsion system by an additional line, the connection of the gas cavities of the tanks of the storage and supply system of the working substances of the genus of another propulsion system with an entrance to the electric valve of the throttling system of the electric propulsion system by additional gas lines, and the installation of a pyro switch on additional gas lines, ensures the achievement of a new technical result - a reduction in the mass of storage systems and supply of working substances of propulsion systems and the spacecraft as a whole.

The causal relationship between the set of essential features of a useful model and the technical result achieved is as follows.

The connection of the output from the starting valve of the storage system of the electric propulsion system with the input to the pressure regulator of the liquid propulsion system by an additional main line allows the use of the gaseous working substance of the electric propulsion system to squeeze the liquid working substance from the tanks of the liquid propulsion system and remove it from the composition of the storage and supply system of working substances of the liquid propulsion system, a gas cylinder, a refueling valve, an inflation start valve, and the connection of gas cavities of the liquid propulsion system tanks with the entrance to the electric valve of the second throttling circuit of the electric propulsion system by additional lines allows the use of the pressure regulator of the liquid propulsion system as the first lowering circuit of the pressure of the throttling system of the electric propulsion system and remove from the system of storage and supply of the working substance of the electric propulsion system the nodes of the first circuit of the throttling system in the warehouse

From the electric valve, reducer, receiver, safety valve. Due to this, the mass of storage and supply systems of working substances of electric and liquid propulsion systems and the spacecraft as a whole is reduced.

Installation of a pyroswitch on the lines connecting the gas cavities of the tanks of the two-component liquid propulsion system with the entrance to the electrovalve of the throttling system of the electric propulsion system ensures the absence of the possibility of connecting the fuel and oxidizer vapors of the liquid propulsion system in the event of leakage of the displacement bags of the tanks.

To explain the operation of the combined system of storage and supply of working substances of electric and liquid propulsion units, its pneumo-hydraulic scheme on the drawing is attached.

The combined system of storage and supply of working substances of electric and liquid propulsion units includes: tank of gaseous working substance 1, filling valve 2, pressure sensor in the tank 3, starting valve 4 of the storage system, solenoid valve 5, receiver 6, pressure sensor 7 of the throttling system of the electric propulsion unit and pressure regulator 8, safety valve 9, non-return valves 10, 11, tanks with a liquid substance 12, 13, which are divided into a liquid cavity 14, 15 and a gas cavity 16, 17 by extrusion bags 18, 19, filling and draining valves 20 , 21, shut-off liquid valves 22, 23, pressure sensors 24, 25 in the liquid lines of the liquid propulsion system. The output from the starting valve 4 of the storage system of the electric propulsion unit is connected to the inlet to the pressure regulator 8 of the liquid propulsion unit by an additional main line 26, and the gas cavities 16, 17 of the tanks with a liquid substance 12, 13 of the liquid propulsion unit are connected to the inlet to the electric valve 5 the throttling system of the electric propulsion system with additional lines 27, on which a pyroswitch 28 is installed.

The combined system of storage and supply of working substances of electric and liquid propulsion units works as follows.

In the initial state, the tank of the gaseous working substance 1 is filled with gas through the filling valve 2. The pressure in the tank is monitored by the pressure sensor 3. The liquid cavities 14, 15 of the tanks 12, 13 are filled with liquid substances (fuel and oxidizer) through the filling and draining valves 20, 21. The liquid cavities 14, 15 of the tanks 12, 13 are separated from the gas cavities 16, 17 by displacement bags 18, 19. During the operation of the liquid propulsion system, which plays the role of the apogee, the start valve 4 is activated and the gas from the tank 1 through the additional line 26 is supplied to the inlet to the pressure regulator 8, where the gas pressure decreases and through the non-return valves 10, 11 enters the gas cavities 16, 17 of the tanks 12, 13. The safety valve 9 is needed to reset, if necessary, excess gas pressure from the mains behind the pressure regulator 8. Non-return valves 10, 11 are necessary to ensure the absence of the possibility of connecting fuel vapor and oxidizer in the event of leakage of the extrusion bags 18, 19 of tanks 12, 13. P under the action of gas pressure through the displacement bags 18, 19, the liquid working substances from the liquid cavities 14, 15 of the tanks 12, 13 enter the shut-off liquid valves 22, 23. To supply the liquid working substances to the engines, the shut-off liquid valves 22, 23 are activated. Pressure control in liquid mains is carried out by pressure sensors 24, 25. When the electric propulsion unit is operating, the electric valve 5 and gas through the pyroswitch 28, additional mains 27, receiver 6 is fed to the system of regulating the working substance from the gas cavity 16 of tank 12. The pressure control in the receiver b is carried out by a sensor pressure 7. If the pressure rises to the maximum possible value according to the information from the pressure sensor 7, the electric valve 5 closes. And when the pressure drops to the minimum possible value according to the information from the pressure sensor 7, the electric valve 5 opens. When the pressure in the tank 12 drops to the minimum possible value according to the information from the pressure sensor 24, the pyro switch 28 is activated, opening the access of gas from the gas cavity 17 of the tank 13 to the electric valve 5 of the electric propulsion unit and blocking the access of gas from the gas cavity 16 of the tank 12.

Thus, the proposed combined system of storage and supply of working substances of electric and liquid propulsion systems provides a reduction in the mass of systems of storage and supply of working substances of propulsion systems and the spacecraft as a whole.

SOURCES OF INFORMATION: 1. A. Kryilov "Production and exploitation of communication and broadcasting satellites". - M, 2014 - p. 26. 2. A. Krylov "Production and exploitation of communication and broadcasting satellites". - M, 2014 - p. 48. 3. N.V. Belan, N.A. Mashtmlev "Basic power supply and control of electroreactive propulsion systems". - Kharkiv, "HAY!", 2002 - p. 127, fig. 6.2. 4. N.M. Belyaev, N.P. Velyk, E.I. Uvarov "Reactive systems! control of space aircraft". - M.: Mashinobuduvannya, 1979 - p. 69, fig. 2.27.

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Claims (1)

UTILITY MODEL FORMULA Combined storage and supply system for electric and liquid propulsion systems, consisting of an electric propulsion system storage system that contains a gaseous working medium tank, a filling valve, a tank pressure sensor and a start valve, an electric propulsion system throttling system , which contains an electric valve, a receiver, a pressure sensor, and a system for storing and supplying the working substance of a liquid propulsion system, which includes a pressure regulator, a safety valve, non-return valves, tanks with a liquid working substance, each of which is divided into liquid and gas cavities by extrusion bags, filling and draining valves, shut-off liquid valves, pressure sensors in liquid lines, which differs in that the output from the starting valve of the storage system of the electric propulsion system is connected to the input to the pressure regulator of the system of storage and supply of the working substance of the liquid propulsion system by an additional line, and gas cavities tanks of the system of storage and supply of the working substance of the liquid propulsion system are connected to the entrance to the electric valve of the throttling system of the electric propulsion system by additional gas lines, on which a pyroswitch is installed.