SU1521998A1 - Cascade-type refrigerator - Google Patents

Abstract

The invention relates to refrigeration engineering and allows for increased efficiency of cascade refrigeration units. When the air temperature in the chamber 7 is lower than the predetermined solenoid valve 11 opens (with the valve 12 closed) and the refrigerant from the steam chamber of the condenser-evaporator 2 enters the heat exchanger 10, where it condenses. The heat exchanger 10 also serves as a receiver for the condensate produced. When the air temperature in chamber 7 rises to a predetermined value, valve 11 closes. Periodically connecting the heat exchanger 10 to the lower stage controls the amount of refrigerant in the latter, depending on the heat load, which determines the lower specific energy consumption in the installation. 1 il.

Description

The invention relates to refrigeration engineering, in particular, to steam compressor refrigeration devices.

The purpose of the invention is to increase the efficiency of cascade refrigeration units.

The drawing shows the lower stage of the proposed cascade refrigeration unit.

The lower branch of the installation contains sequentially installed compressor 1, condenser-evaporator 2, throttle 3, air cooler with inlet 5 and outlet 6 nozzles placed in the refrigerating chamber 7 with temperature sensor 8 of the temperature controller E and heat exchanger 10. The second cavity of the heat exchanger 10 connects the outlet The nozzle 6 of the air cooler f with the suction side of the compressor 1. The first cavity of the heat exchanger 10 through another solenoid valve 11 is connected to the steam cavity of the condenser 2, and through the solenoid valve 12 and to The filler tube 13 is connected to the air inlet nozzle 5.

The installation works in the following way.

The compressor 1 of the lower branch sucks through the heat exchanger 10 refrigerant vapor from the air cooler f and pumps them into the evaporator-condenser 2, where they condense during heat exchange with the boiling refrigerant of the upper branch. The condensate formed after choking in the capillary tube 3 enters the air cooler i, where it boils, and cools the air in the refrigerating chamber 7.

The temperature of the air in the chamber depends on the performance of the airway

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cooler 4, which is determined by the degree of its filling with refrigerant V, is controlled by alternating cover-closing solenoid valves r) and P and 12, controlled by a three-position temperature regulator 9 depending on air temperature and chamber 7.

IWhen the air temperature in the chamber is below the preset solenoid valve

I1 opens (with valve 12 closed) and the refrigerant vapor from the steam 1 VOLUME of the condenser-evaporator 2 flows into the heat exchanger 10, where it is condensed during heat exchange with the cold vapors after air-cooling (10) the heat exchanger 10 also serves as a receiver of the resulting condensate. the extraction of steam from the condenser-evaporator 2, the pressure and the amount of condensate in it decreases, which results in a decrease in the productivity of the air cooler

and an increase in air temperature in chamber 7. When the air temperature in chamber 7 rises to a predetermined value, the solenoid valve 11 closes. When the air temperature in chamber 7 is higher than the given one, the solenoid fan 12 is open (with the valve 11 closed) and the liquid coolant from the heat exchanger 10, droplet in the capillary tube 13, enters the inlet 5 of the air cooler,

increasing its filling rate, and

Q

five

also the amount of agent supplied to the condenser-evaporator 2, which increases the pressure in it and the performance of the capillary tube 13. When the air temperature in the chamber 7 drops to a predetermined value, the solenoid valve 12 is closed.

Claims (1)

Invention Formula A cascade refrigeration unit comprising a lower cascade with series-installed compressor, a vapor cavity condenser-evaporator, a throttle and an air cooler located in the refrigerating chamber, as well as a evaporator-evaporator steam line with a lower cascade including a solenoid ventilator electrically connected with a temperature sensor in the refrigerating chamber, and a capillary tube, that is, so that, in order to improve efficiency, the communication line is connected to the lower stage between the dross and it comprises a cooling coil and set dopopnitelyo mezhyu cavity steam condenser-evaporator solenoid valve and the other solenoid valve is electrically connected to a temperature sensor, and two-sheet exchanger, a second cavity which is included in the lower stage between the air cooler and the compressor.