SU505858A1 - Double stage refrigeration gas machine - Google Patents

Description

I

The invention relates to refrigeration gas machines and may be used in cryogenic engineering.

Two-stage refrigeration and gas machines are known, working on the reverse Stirling cycle, the steps of which are connected by a heat pipe to the evaporation, condensation and transport zones.

The disadvantages of the known installations are significant thermal resistances that occur between the respective zones of the heat pipe and the stages of the refrigeration gas machine, since the heat exchange between the condensation zone of the heat pipe and the first stage of the refrigeration gas dryer is due to the thermal conductivity of the part its surface.

Thus, the temperature difference between the first and second stages can be significant. At the same time, the cooling capacity drops sharply, and the power consumed in the nerve level increases dramatically.

The purpose of the invention is to increase the cooling capacity of the machine. This is achieved by the fact that the evaporative and condensation zones are made in the form of hollow cylinders with axes, perpendicular to the axes of the transport zone, and with tubing elements connected to the gas paths of the corresponding stages inside the cylinders;

parts of the outer surface of the tubular elements and the inner surface of the cylinder of the evaporation zone are covered with porous liners interconnected by bridges of porous material.

FIG. 1 schematically shows a refrigeration gas machine, a longitudinal section; in fig. 2 - heat pipe, longitudinal section.

Refrigerating-gas machine consists of two stages and an intermediate heat exchanger in the form of a heat pipe 1.

The first stage contains a compressor room 2, a refrigerator 3, a regenerator 4 connected to the condensation zone 5 of the heat pipe, as well as an expander cavity 6 The second stage contains a refrigerator 7, the warm part 8 of the regenerator and the cold part 9 of the regenerator. An evaporation zone 10 of the heat pipe with a porous liner 11 is built in between them. The evaporation and condensation zones of the heat pipe 1 are connected by the trans port zone 12, and the cold part of the regenerator is connected to the heat exchanger 13.

For the passage of gas from the compressor cavity 2 into the expander cavity 6 of the first stage in the condensation zone 5, finned tubes 14 are embedded. In the second stage for the passage of gas from the refrigerator 7 to the heat exchanger 13 in the evaporator also