SU561850A1 - Refrigeration compressor installation and how it works - Google Patents

Description

one

The invention relates to the field of cryogenic technology and can be used in systems designed for cryostatting electronic devices.

Known compressor refrigeration plants, working on a mixture of nitrogen and hydrocarbons, containing a cryostat with a throttle heat exchanger located in it, connected to the compressor. Production of cold in plants is produced by compression and subsequent throttling of a mixture of nitrogen and hydrocarbons.

The disadvantage of this design is the necessity of evacuating the insulating space between the outer and inner shells before the compressor start-up due to gas leakage through leaks in the housing.

The purpose of the invention is to increase operational reliability and resource. This is achieved by the fact that an adsorption pump is installed at the cold end of the heat sink, and the cryostat is connected via a controlled clan to the line of communication between the heat exchanger and the compressor but the return tray. At the same time, the cornostat is filled with the working mixture up to an overpressure, after which the compressor is turned on and the mixture is pumped out from the cryostat, and the vacuum chamber of the latter is loaded with an adsorption pump.

The drawing shows a schematic diagram of a compressor refrigeration refrigeration unit, B which implemented the described method of operation.

The refrigeration unit contains a cryostat 1 with a throttle heat exchanger 2 placed in it, connected to compressor 3. By means of a controlled valve 4, the constat is connected to the communication line of heat exchanger 2 to compressor 3 by a reverse note. This line also contains a valve 5. At the cold end of the heat exchanger, an adsorption pump 6 is installed.

The pre-vacuumized isolation space of the cryostat 1 is filled with the working mixture up to excessive pressure. Then turn on the compressor 3 n through the open valve 4 pumped them mixture pz cryostat. When a given pressure is reached

the cryostat closes the valve 4, opens the clanan 5, and the mixture is ready after compression in the co-compressor 3, the chokes in the heat exchanger 2 cools the cryostat 1 and the adsorption pump 6. Due to the cryocondensation

residual gases in the cold areas of the cryostat 1 and pumping them out by the pump adsorbents complete the evacuation of the cryostat.

After the compressor is turned off for 3 days, the heat transfer temperature of the cryostat is again filled with the working mixture to an overpressure.

Claims (2)

1. A refrigeration compressor unit operating on a mixture of nitrogen and hydrocarbons and containing a cryostat with a throttling tenlomechanic located in it, connected to: A compressor, characterized in that, in order to increase operational reliability and service life, an adsorption pump is installed at the cold end of the heat exchanger, and the cryostat is connected via a controlled clavane to the communication line of the heat exchanger with the compressor in reverse flow. 2. A method of operating a compressor refrigeration unit according to claim 1 by compressing and then throttling a mixture of nitrogen and hydrocarbons, characterized in that the cryostat is pre-filled with the working mixture to an overpressure, turns on the compressor and pumps out the mixture from the cryostat, and evacuates the latter with adsorption pump. Sources of information taken into account in the examination 1. Copyright certificate № 333860, cl. F 25J 5/00, 1969.