SU361366A1 - BIELLMOGIKA - Google Patents

Description

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The invention relates to the production and use of artificial cold on refrigerators.

There are known methods for thawing in and out (along the surfaces of the evaporators of the low-temperature chamber in a system equipped with autonomous low- and high-temperature refrigeration units.

The purpose of the invention is the effective use of cold accumulated by frost.

These are spines (they suppose that thawing at least one of the evaporators of the low-temperature chamber while the cold is produced by the others is carried out by sublimating with steam supplied to the evaporator from the suction pipe by the high temperature of the refrigeration unit with subsequent evaporation of the condensate into the refrigerant .

The drawing shows a diagram of a low-temperature chamber in which the described method is carried out.

The evaporators / -3 of the low-temperature refrigeration unit are placed in the chamber 4 II connected from above through the solenoid valves 5 by the steam suction pipe 6 to the compressor (not shown in the drawing). Through solenoid valves 7, these evaporators are connected by pipeline 8 to the suction pipe 9 of the high-temperature refrigeration unit (not shown). Below

evaporators 1-3 are connected through solenoid valves 10 by a pipe / supply of liquid refrigeration atheite, and through solenoid valves 12 by a drain pipe 3. According to the latter, condensate from evaporators -3 is drained into a high-temperature refrigeration unit. All solenoid valves are turned on and off from the time relay.

When one of the evaporators, for example 2, is switched to defrost mode, the evaporators / and 3 are not turned off and are used to cool the chamber 4. Initially, they close valves 5 and 10, which relate only to evaporator 2, and open valves 7 and 12.

Pipeline 8 from the suction pipe 9 in the evaporator 2 receives steam. The liquid refrigerant remaining in the evaporator 2 through the valve 12 through the pipeline 13 is discharged into a high-temperature refrigeration unit. The condensate drain IB process is deflated by evaporator 2 in a similar way.

The defrosting of the evaporator 2 is carried out by 30 due to the condensation of steam coming from a high-temperature refrigeration unit with a temperature of 1-10 ° C. Steam condensation increases the temperature and the partial pressure of water vapor on the outer surface of the frost. The difference in the partial pressures of water vapor on the surface of air and in the air of chamber 4 provides for the defrosting of the evaporator 2 by sublimation of air and the transfer of water vapor to air.

The air temperature in chamber 4 during the defrost process is maintained below zero, for example -20 ° C.

At the end of the defrost, the evaporator 2 is switched to cooling mode (air and the other evaporator, for example 1, previously cooled air, is switched to defrost mode.

Subject invention

The method of defrosting from the surface of evaporators of a low-temperature chamber in a system equipped with autonomous low- and high-temperature refrigeration units, characterized in that, in order to effectively use the cold accumulated by frost, thawing at least

one of the evaporators of the low-temperature chamber, while cold producing by the remaining cold, is sublimating, by means of sublimation, with steam, supplied to the evaporator from the suction pipe of the high-temperature refrigeration unit with subsequent recovery of the condensate to the high-temperature refrigeration unit for re-evaporation.

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