SU714105A1 - Gas-type refrigerating machine - Google Patents

Description

(54) GAS; REFRIGERANT MISHIN

When the piston 8 moves from the bottom, the dead point (n m) to the upper end point (m m), the pelvis is compressed in a closed machine volume and pushed into the free volumes of the heat exchange units s of the main refrigerator 2, the regenerator 3, the refrigerator 4, the pulsation tube 5, the end cooler 6. In the process of compressing the gas, heat is compressed from its own gas present in each heat exchanger and cooling or heating of the gas flow through the heat exchangers 2-6 depending on their purpose .

So in the main refrigerator 2 the gas flow is cooled to the ambient temperature, the gas flow in the regenerator 3 is cooled from the ambient temperature to the temperature of the object being cooled, the temperature in the refrigerator 4 does not change / in the regenerator 7 the gas flow is heated. is from the temperature of the object being cooled to the ambient temperature; in the pulsation tube 5, adiabatic compression of the gas flow occurs-. for, in the koHueBOM refrigerator b, the gas is cooled to a temperature slightly higher than the ambient temperature. . ,

When moving, the piston 8 from in m t to n m t gas expansion process occurs. closed volume of the machine, in the process of gas expansion occurs, the removal of the expansion cold will knock off. venyogaz in each of the heat-breaking devices 2 .- .6 and cooling or heating the gas stream flowing through each of these heat exchangers, depending on its purpose.

Thus, in the main refrigerator 2, the flow rai3a is heated to ambient temperature; in the regenerator 3, the gas flow is heated from the temperature of the object being cooled to the temperature of the environment; in the refrigerator 4, the gas flow is heated by the heat emitted by the cool- ing. With the object being given, in the regenerator 7, the gas flow is cooled from ambient temperature to a temperature slightly below ambient temperature.

Installing an additional regenerator 7 in the middle of the volume of the pulsation tube allows the gas temperature in the pulsation tube to be raised from the temperature level of the object to the ambient temperature, heat recovery, as well. not due to the heat produced by a high degree of adiabatic compression of the gas and sharply reduce the temperature of the gas supplied to the end cooler b during the expansion of the gas in the car, thereby reducing the degree of compression in the compressor. 3-4 times.

Installing an end cooler in the main cooler also reduces the supply of heat to the working gas in the centrifugal cooler during the expansion process.

The use of the invention will increase the thermodynamic efficiency of a gas chiller with a pulsation tube with a simultaneous decrease in size and weight, which will allow to obtain a positive economic effect.

Fore / 1ula invented

Claims (2)

1. Gas refrigerating machine for low temperatures, containing a valveless compressor and a refrigeration unit in the form of a series-connected axial cooler, a regenerator, a refrigerator, a pulsation tube and an end cooler, in order to increase the thermodynamic effect, reduce dimensions and mass, the machine contains an additional regenerator installed in the middle part of the pulsation tube. 2. The machine according to claim 1, characterized by a as. the fact that the end refrigerator is built into the main refrigerator, Sources of information taken into account in the examination, 1. USSR author's certificate number 388177, cl. F 25 B 9/00, 1970. 2. Martynovskiy B.C., et al. Nova Gas Refrigeration Machine,. refrigeration equipment, 1971, f 4,