SU437888A1 - Piston refrigeration gas machine - Google Patents

Description

one

This invention relates to a cryogenic technique.

Known refrigeration gas machines for producing low temperatures on the reverse Stirling cycle, comprising a compressor with a compressed pelvic cooler and a regenerator and a propellant for gas expansion.

Radiolysis equipment in known machines is carried out by varying the compression ratio of the working gas, for which, for example, buffer tanks or other devices are used, which complicates the design of the machine.

The purpose of the invention is to simplify the design of the machine.

This is achieved by connecting the cavities of the Omspressor and the displacer to each other with a baffle pipe equipped with a flow regulator, to the control chamber of which a gas thermometer is connected to the displacer, to bypass at the pulse of the temperature of a gas, mine the regenerator, from zones compression into expansion zones.

The drawing shows the scheme described piston.neve refrigeration and gas machine.

The machine contains a compressor 1 with a condenser 2 compressed in the cavity 3 of the compressor 1 gas and an annular regenerator 4 and a displacer 5. A cold zone 6 is placed over the displacer 5 and a cooling head 7 with a gas thermometer 8 placed on it 8. A gas thermometer 8 is connected to the control the flow control chamber 10 installed on the bypass pipe L1 connecting the cavity 3 of the compressor 1 and the zone 6 to the displacer 5.

The gas compressed in compressor 1 from cavity 3 enters the refrigerator 2, where it gives off heat to compression, and passes through the regenerator 4, cooling to the temperature of the solution. Expanding further in zone 6 of the displacer 5, the gas lowers its temperature.

When the heat load on the cooling coil 7 is reduced, the cooling temperature also begins to decrease due to an imbalance between the heat load and the cooling capacity. Along with the change in the cooling temperature, the pressure in the gas thermometer 8 system changes. This pressure change determines the amount of opening of the flow regulator 10, which changes the size of the working gas flow through the bypass pipeline 1.1, min. Regenerator 4. Flowed past the regenerator 4 the working gas or introduces an additional amount of heat into the cold zope 6 of the displacer 5, if the movement of the gas in the cycle from cavity 3 to zone 6,

or there is an undercooling of the regenerator 4 to the required temperature, if the gas moves from zone 6 to the cavity 3. In both cases, the cooling capacity of the machine decreases at a given temperature level.

The temperature ' of the cooling head 7 rises. With the flow controller 10 closed, the cooling capacity of the machine is maximum, with the flow rate open, it is minimal. Between these two limiting positions of the flow regulator 10 dry; there is a smooth control of the bypass of the working gas past the regenerator 4 and, as a result, a smooth change in the cooling capacity and cooling temperature

P re d L i e a a i

A pore freezing gas machine for producing low temperatures using a reverse Stirling cycle, comprising a compressor from a compressed air cooler and a regenerator and a propellant for gas expansion, characterized in that, with a simplified design gap, the compressor and displacer cavities are interconnected by a bypass pipe equipped with a flow regulator, to the control chamber of which a gas thermometer is installed, installed in the displacer zone, to bypass the temperature pulse of a part of the gas, the regenerator mine, from the zones compression into expansion zones.

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