SU1522000A1 - Cryogenic plant - Google Patents

Abstract

The invention relates to a cryogenic technique and makes it possible to shorten the time of violation of the temperature regime of the installation. When the throttles 5 freeze due to the presence of impurities, the pressure difference on the automatic valve 7 increases, which causes it to open. In the absence of refrigerant consumption, choke 5 is heated by heat leakage, impurities melt, normal operation is restored. Under varying conditions of operation, the cylinder 9, due to the presence of throttles 10 with a small flow area, maintains the pressure of the suction line, which allows the pneumatic actuator 8 to process the automatic valve 7 at a given pressure difference. The valve 11 is used to adjust the value of the specified pressure difference. 1 hp ff, 1 ill.

Description

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I The invention relates to a cryogenic technique and can be used in choke installations for cooling electronic devices.

 The aim of the invention is to improve the operational reliability, I The drawing shows the principle of the proposed installation. I The installation contains a compressor 1, a heat exchanger-condenser 2, a micro-cooler 3 with a recuperative heat exchanger. , choke 5 and evaporator 6, automatic valve 7, G1 pneumatic actuator 8, container 9, additional choke 10 and valve 11. I The unit operates as follows.

I Compressor 1 sucks the coolant vapors from the microcooler and compresses them. The refrigerant compressed in compressor i enters the heat exchanger-condenser 2, and then into the liquid cooler 3, where the heat exchanger l passes and the evaporator 6 through the throttle 5 of the butt 8 of the cooler 6, cools its surface to low temperatures.

In the case of freezing throttles 5 due to the presence of harmful impurities, the pressure in the injection line increases, c) in the suction line - decreases, which increases the pressure difference acting on the automatic valve 7. When; the latter opens and the Refrigerant flow enters from the injection to the suction line. The remaining liquid in the evaporator - 6 The refrigerant boils away, maintaining the temperature of the cooling object. The throttle 5 due to the lack of flow is heated by heat influx, which causes its defrosting and restoration of the normal operation of the installation.

Under changing conditions of work, a compensation element is used.

stores information about the pressure in the suction suction, namely, the tank 9s connected to the suction line through the additional choke 10. The ratios of the resistance of the chokes 10 and the container 9 are chosen so that during the time of driving and defrost of the chokes 5 the pressure in the tank 9 does not change would be more than 1-2%. Then the drop in suction pressure by 5-10 is sufficient for valve 7 to operate. This cool-down maintains the suction pressure at 90-95% of the worker, which causes the boiling point of the liquid remaining in the evaporator 6 to drop by 0.5-1.5 K, while while without the valve 7, the temperature in the evaporator 6 drops by 7–9 K. Additional overcooling may delay the process of warming and defrosting the throttle 5 by 7–10 s or more, i.e. shorten the time of temperature violation by 2 or more times.

F o r N (inventa

Claims (1)

1. A cryogenic installation containing a circulation loop with a sequentially installed compressor, a heat exchanger-condenser, a microcooler and a recuperative heat exchanger, a choke and an evaporator, characterized in that In order to increase operational reliability, the installation additionally contains in the warm zone a micro-cooling bypass line with an automatic valve included in it, 2, Installation according to claim 1, about tl and h ayu so that, in order to increase the reliability of operation in variable modes, and.the automatic valve has a pneumatic actuator connected to: the circuit between the microcooler and the compressor through the tank and additional choke.