SU449214A1 - The method of thawing evaporators - Google Patents

Description

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The invention relates to refrigeration equipment, and in particular to methods of thawing evaporators of refrigerators used to store food at negative temperatures.

There is a method of defrosting evaporators of refrigeration chambers by sublimation, and not from the surface of at least one of the evaporators while the others work simultaneously.

In order to efficiently use the cold accumulated by frost and increase the cooling capacity of the compressor unit in the proposed method, the liquid refrigerant before the evaporators is initially throttled to a pressure corresponding to the sublimation process and the vapor formed is sent to the evaporator underneath the defrosting and the refrigerant separated during this is mixed. with condensate from the defrosting evaporator, re-throttled to evaporation and served in a vaporizer {evaporator ..

 The method is explained in the drawing, which shows evaporators 1, 2 and 3 installed inside the refrigerating chamber 4 and connected through solenoid valves 5 and pipe 6 to discharge steam to the compressor (not shown in the drawing, 7 and a thawing pipeline 8 with a separating vessel 9, into which liquid refrigerant from a condenser (not shown in the drawing) flows through the throttling valve 11 through the liquid pipeline 10.

The lower part of the separation vessel 9 is connected by a feed pipe 12 through a throttling valve 13 and solenoid valves 14 to the lower 4acTfiK evaporators 1-3, and the condensate supply from the latter to the separation vessel 9 is carried out through the solenoid valves 15 and the drain pipe 16.

The proposed method is carried out in the following way.

When translating one of the evaporators, for example evaporator 2, into the firing mode, evaporators 1 and 3 are not turned off, but AND (they are used to cool the refrigerating chamber 4. The defrosting of the evaporator 2 is performed by a time relay that closes the original solenoid valves 5 and 14 serving this the evaporator, and opening the corresponding solenoid valves 7 and 15.; After opening the solenoid valve 7, the upper part of the evaporator 2 goes through a ottaynitelny pipeline, 8, steam from the separation vessel 9 enters, resulting in throttled and liquid refrigerant in a throttling valve: 11 from condensation pressure to thawing pressure. The vapor entering the evaporator 2 condenses and flows in liquid form through a solenoid valve 15 through the drain pipe 16 into the lower part of the separation vessel 9, where it mixes with the liquid formed during the throttle. Liquid refrigerant from separating vessel 9 is again throttled in throttling valve 13 to evaporation pressure and through the supply line 12 enters through solenoid valves 14 to evaporators 1 and 3, cooling Suitable hydrochloric refrigeration chamber 4, for example, down to - 18 C. After defrosting the evaporator 2 converted in the cooling mode while the other evaporator, an evaporator 3 for example, is converted to a defrost mode. The proposed method allows the use of cold accumulated frost to increase the cooling capacity of the compressor unit, due to condensation of vapors resulting from the first. direct throttling of liquid refrigerant; this, and also to increase the relative humidity of the air in the chamber and, accordingly, reduce the intensity of the first products. Subject matter of the invention; The method of defrosting the evaporators of refrigerating chambers by sublimating them from the surface; at least one of them evaporate; while the others work simultaneously, i, in order to efficiently use the cold accumulated by frost and increase the cooling capacity of the compressor unit, the liquid refrigerant before the evaporators is initially throttled to a pressure corresponding to the sublimation process and the resulting steam is sent to the heater to be thawed, In this case, separating the liquid refrigerant is mixed with the condensate coming from the I thawed vaporizer, then re-evaporated to evaporated pressure. and fed into the evaporator.