SU866362A1 - Two-chamber refrigerator - Google Patents

Description

(.54) TWO-CHAMBER REFRIGERATION The invention relates to refrigeration equipment, namely, to two-chamber refrigerators. A two-chamber refrigerator operating on a two-component mixture of liquids and containing a compressor, a medium-temperature and a low-temperature evaporator, a condenser consisting of two sections connected in series, between which the G13 separator is mounted, is known. The disadvantages of this refrigerator include low operating performance, as well as the impossibility of obtaining a significant temperature difference between the cooling and freezing chambers. Closest to the proposed invention, the technical essence and the achieved result is a two-compartment refrigerator that runs on a two-component mixture of refrigerants and includes a compressor, condensers of medium temperature and low temperature components, separator, regenerative heat exchangers, evaporators of the cooling and freezer chambers with drain lines and discharge water 23 However, in this refrigerator it is difficult for the low-temperature component to condense, since the cooling medium is the environment. s air, which is very significant in the summer temparatura, which significantly impairs the thermodynamic parameters of the refrigerator. The purpose of the invention is to increase the efficiency. efficiency of the refrigerator. The goal is achieved by the fact that a two-chamber refrigerator operating from a two-component mixture of refrigerants, including a compressor, medium-temperature and low-temperature condensers, a separator, regenerative heat exchangers, evaporators of the refrigerating and freezing chambers with pallets connected to the melt water line, is equipped with a valve. lines for supplying air to the condensers of the medium temperature and low temperature components, while the air cooler is made in the form of a capacitor spines with a horizontally mounted and wetted from the bottom side nozzle connected to the line of melt water and installed with the formation of the upper and lower

channels for the passage of air, communicated respectively with the lines of the air supply to the capacitors of low-temperature and medium-temperature components.

The drawing schematically shows the fridge refrigerator, general view.

The two-chamber refrigerator consists of compressor 1, condensers 2 and 3 of medium and low temperature components, separator 4, evaporators 5 and 6 of the freezing and refrigerating chambers with pallets 7 and B and line 9 for draining melt water, air cooler 10 with accessories 11 that are moisture-proof from the common side air flow and capillary-porous from the auxiliary flow. The air cooler 10 is connected to the upper channel via line 12 with the condenser 3 of the low-temperature component, and the lower channel to the condenser 2 of the medium-temperature component via the line 13. Before the air cooler 10, the fan 14 is installed, and after the condensers 2 and 3 through the refrigerant line, regenerative heat exchangers 15 and 16 with throttling orgaHaivM,

The principle of operation of the proposed refrigerator is as follows. Compressor 1 injects a pair of two-component refrigerant mixtures into condenser 2, in which the medium-temperature component is liquefied and the low-temperature component remains in the vapor phase. Further, the vapor-liquid mixture formed with the mixture enters the separator 4, where it is separated. The liquid from part of the separator 4 through the regenerative heat exchanger 15 after throttling is supplied to the evaporator 6 of the refrigerating chamber, where the cooling effect is boiling. into the evaporator of the low-temperature component. After the components of the mixture in the vaporizers 5 and 6 boil, their pairs through the regenerative heat exchangers 15 and 16 are sucked back into the compressor 1 and the cycle repeats.

When the condensation components of the refrigerant components are removed, an air cooler 10 is used. External air is blown into the upper channel of the air cooler from the moisture-proof side of the nozzle 11 via the fan 14. At the same time, the total air flow is cooled to the dew point temperature and then divided into two flows: main and auxiliary.

The first of these, through line 12, is directed to cooling the condenser 3 of the low-temperature component, and the other, moving countercurrently, passes the lower channel of the air-cooler 10 in contact with the capillary-porous side of the nozzle 11 moistened with water.

Due to the evaporation of moisture into the auxiliary air flow, the evaporative effect of cooling the nozzle 11 occurs, which in turn cools the overall air flow.

Thus, regenerative indirect evaporative cooling of the main air flow is carried out in the limit to the dew point temperature, and the auxiliary flow acquires a temperature slightly below the ambient temperature and is moistened to a relative humidity value of about 100%.

With such parameters, the auxiliary air flow through line 13 is directed to the cooling of the condenser 2 of the medium temperature component.

For wetting with the water of the capillary porous side of the nozzle 11, they use line 9 to drain the melt water from the trays 7 and 8, which is formed as a result of periodic thawing of the evaporators 5 and 6 of the freezing and refrigerating chambers.

In the proposed refrigerator, the condenser 3 of the low-temperature component is cooled by an air stream with a temperature lower than the ambient temperature, which makes it possible to use the lower-temperature component in the refrigerant mixture, thereby lowering the temperature in the freezer of the refrigerator and increasing the temperature difference between its channels.

In addition, the cooling of the condenser 2 is medium temperature & The component intensifies the auxiliary stream. The heat exchange process leads to a decrease in the condensation pressure and an improvement in the energy characteristics of the refrigeration system.

Claims (2)

1. Authorship certificate of the USSR 517765, kp, F25 O 11/02, 1974. 2. Authorship certificate of the USSR 600358, cl. F25 D 11/02, 1976 (prototype). / Y e x / jBcnoMoz. a) flow of the sound