SU879192A1 - Refrigeration unit - Google Patents

Description

The invention relates to refrigeration equipment, namely, refrigeration units with evaporators for cooling air in the chambers.

The PTZ refrigeration unit is known, consisting of two integrated cooling machines, each of which contains a heat exchanger, a receiver and an evaporator with an automatic defrosting system with hot vapor of refrigerant 1.

The disadvantages of the known installation are the wet running of the compressor when defrosting the evaporator of one machine, as well as the impossibility of using the cold produced during the defrosting process and increasing the cooling capacity of the other machine.

The purpose of the invention is to ensure the dry running of the compressor when defrosting the evaporator of one of the machines, as well as utilizing the cold produced during the defrosting process and increasing the cooling capacity of the other machine.

The goal is achieved in that the installation additionally contains two heat immersions, the annular space of each of which is connected between the evaporator outlet and the annular space of the main heat exchanger of this machine, and the tube space of each additional heat exchanger is connected to the receiver of its machine and the pipe space of the main heat exchanger of the other machine.

The drawing shows a diagram of the cooling installation.

The refrigeration unit contains compressors 1, 2, heat exchangers 3, 4, receivers 5, 6 and evaporators 7, 8 with an automatic ottaivain system with hot refrigerant vapor, two additional heat exchangers 9, 10, with the annular space of each heat exchanger connected between the outputs of the evaporators 7, 8 and the annular space of the main 15 heat exchangers 3, 4 of this machine, and the tube space of each additional heat exchanger 9, 10 is connected to the receivers 5, 6 of their machine and the tube space of the main heat exchangers 20 3, 4 another m Arshins, solenoid valves 11, 12 and two-program timer 13.

Refrigeration unit works the following way.

Using a two-program time relay 13, the defrosting of the evaporators 7, 8 of refrigerating machines occurs at different times, i.e., when the first chiller switches to the second defrost mode, it operates in the normal refrigeration cycle and turns 30.

During the operation of the first chiller in the defrost cycle, compressed compressor 1 compresses hot freon vapors through a pipeline with a solenoid valve 11 into the evaporator 7, where heat exchange takes place. The snow coat on the surface of the vaporizer 7 melts, and the freon vapors cool and partially condense. The vapor-liquid mixture of freon enters the annular space of an additional heat exchanger 9, in which intense heat exchange takes place, i.e. boiling of the liquid and heating of the vapor of freon coming from the thawed evaporator 7, due to the heat of the liquid freon coming from the receiver 6 of the second machine. From the annular space of the additional heat exchanger 9, superheated freon vapors are sucked off by compressor i through the mellive space of the main heat exchanger 3.

During the defrosting of the evaporator 7 of the first refrigerating machine in the second refrigerating machine, the liquid freon coming from the receiver 6 is cooled, firstly, in the coil of the additional heat exchanger 9, releasing the heat in the annular space of the refrigerant that comes out of the thawed evaporator 7 of the first refrigerating machine secondly, in the coil of the main heat exchanger 4 refrigerant vapor entering the annulus of this heat exchanger from the source 8 through the annulus additional heat exchange Enpika 10.

Thus, the introduction of two additional heat exchangers into the installation allows the compressor to run dry during the thawing process and one of the machines, as well as utilize the cold produced during the defrosting process and increase the cooling capacity of the other machine.

Claims (1)

1. USSR author's certificate number 361366, cl. F 25 B 21/06, 1971.