SU603811A1 - Compressoion refrigerator - Google Patents

Description

(54) COMPRESSION REFRIGERATOR

The invention is related to refrigeration, i.e. to. the design of refrigerators with a small volume of the refrigerating chamber intended for use in everyday life, in passenger cabins, on railway and road transport. Compressor refrigerators are known that contain a two-cylinder compressor with insulated cylinders, each of which is connected to autonomous low- and high-temperature circulation circuits l. In evaporators, where the liquid refrigerant flows in one direction, the velocity of the vapor-liquid mixture decreases in the outlet manifold to separate it into steam and liquid, which is carried to the compressor. However, the loss of pressure in the reservoir causes a decrease in the boiling point, which is energetically unfavorable. The purpose of the invention is to increase the cooling capacity and efficiency of the refrigerator. This is achieved by the fact that the evaporators of both circuits are enclosed in a common building according to the anti-blocking circuit, and a forcondensator is additionally included in the low-temperature circuit. The drawing shows a diagram of a compression refrigerator with two autonomous circuits. Compression cooler contains compressor 1, heads 2 and 3 of cylinders 4 and 5, which are connected to low- and high-temperature circuits 6 and 7 with evaporators 8 and 9 and condensers 1O and 11. Evaporators 8 and 9 are locked into a common body of a low-temperature chamber { 1 12 according to a counter-current circuit, and in the I & E: a thermal circuit 6 is secured for optional capacitor 13. The circuits also additionally include evaporators 14 and 15, a control valve 16 is placed on the pipeline connecting the condenser 11 to the evaporator, and a connecting valve 16 is placed on the pipeline condensation a torus 10 with an evaporator 8; a control valve 17 is installed. The evaporators 14 and 15 are located in chamber 18. Cylinders 4 and 5 have suction chambers 19 and 2O and pressure chambers 21 and 22.

Compression fridge works in a guided manner.

Food is cooled to the required temperatures in the low-temperature chamber 12 using low-temperature evaporators 8 and 9, where the cooling agent boils at low pressure, and in the chamber 18 | where high-temperature evaporators are located 14 and 15, the compressed gas from cylinder 4 enters the forcondenser 13, where it cools and partially liquefies, then enters the hopovki 2, 3 cylinders, where the bed evaporates at a temperature of condensation, intensively wean off . suction kaMep 19, 20 and infinite tannin 21 and 22. Refrigerant vapor enters the main condenser 1O, after which the liquid refrigerant throttles through the control valve 17 and enters the evaporator 8 and then into the evaporator 15 of chamber 18, from the evaporator of the refrigerant vapor go to the suction in the compressor. Compressed refrigerant vapor from the injection chamber 22 enters the condenser 11 and through the control valve 16 into the evaporator 14, from where the countercurrent flows into the evaporator 9 of the low-temperature chamber 12. From this evaporator, refrigerant vapor is sucked into the suction chamber.

Cooling of the cylinder heads of the compressor allows to increase the cooling capacity of the compressor by 23-25%, to reduce the heating temperature of the windings of the electric motor

tel up to 80 ° C, which greatly increases the reliability and durability of the Koipecion refrigerator. Providing refrigerant circulation in the longitudinal and longitudinal separation channels of the evaporator will increase the thermodynamic efficiency of the evaporator by 35%, which will reduce the coefficient of operation time by up to 25% and increase the efficiency of the refrigerator as a whole.

The expected economic effect from the introduction of the proposed compression refrigerator over 25,000 rubles. in year.

Claims (1)

1. For Vku No. 2303831 / Oe.mi.F25 B1 / 00, 1976