SU879193A2 - Refrigeration unit - Google Patents

Description

(54) REFRIGERATING INSTALLATION

The invention relates to refrigeration.

According to the main author. St. No. 759807 known refrigeration unit with a condenser, throttle valve and evaporator. The vapor and liquid spaces of the condenser and the evaporator are connected via pipelines equipped with shut-off valves, and the condenser is placed under the evaporator for operation in the mode of thermosyphon.

In addition, the installation contains an additional condenser connected in the self-circulation circuit parallel to the pipeline connecting the condenser with the compressor 1.

A disadvantage of the known installation is the impossibility of simultaneously obtaining different boiling points and insufficiently economical operation.

The aim of the invention is to improve the economy.

This goal is achieved by the fact that a low-temperature evaporator and an additional compressor are successively installed between the additional and main condensers along the course of the liquid refrigerant. In addition, a low-temperature evaporator is additionally connected to

output from the main condenser through the control valve.

The drawing shows a diagram of the refrigeration unit.

The installation contains an air condenser 1 connected in a large circuit through shut-off valves 2 and 3 with a compressor 4, a low-temperature evaporator 5 1 with a throttle valve 6; a condenser 7 connected via a gas line to the cut between the shut-off valve 3 and the compressor 4, and through the liquid line through the throttle valve 8 to the low-temperature evaporator 5 and through the throttle valve 9 to the high-temperature evaporator 10 which is connected to the liquid line through the stop valve 11 and the throttle valve 12 with the air condenser 1 to the control valve 6, and through the gas line through the stop valve 13, forming a self-circulation circuit; a compressor 14 installed in a cut on the suction side by a shut-off valve 13 and a high-temperature evaporator 10 with a high temperature on the discharge side between the shut-off valves 2 and 3.

The installation works as follows.

thirty

Parallel operation of the receiving scheme.

The compressor 14 sucks the vapors from the high-temperature evaporator 10, compresses them and, with the valve 13 closed, sends it to the air condenser 1. Condensing liquid ammonia (with the shut-off valve 1.1 closed) returns to the evaporator 10 through the throttle valve 12, closing the cycle to obtain cold contour.

The throttle valves 6 and 9 and the shut-off valve 3 are closed, the compressor 4 is otsas; refrigerant vapor from the low-temperature evaporator 5, compresses them and directs them to the water condenser 7. Condensing liquid refrigerant through the throttle valve 8 returns to the evaporator 5, completing the low-temperature cold cycle.

When the outside air temperature decreases, the condensation pressure in the high-temperature circuit decreases and, when it becomes equal to the pressure in the evaporator, high-temperature cold can be produced by self-circulating when the compressor 14 is stopped, the shut-off valves 13 and C open and the throttle valve 12 closed.

Sequential operation of the cold generation scheme with different boiling points occurs during the period when the pressure in the air condenser becomes equal to or less than the pressure in the high-temperature evaporator 10, and as follows.

The refrigerant vapor from the evaporator 40 through the self-circulation line with the stop valve 13 enters the air condenser 1, from there the liquid refrigerant enters the evaporator 5 through the throttle valve 6. 9 liquid refrigerant enters the high-temperature evaporator .10, completing the refrigeration cycle common to the two modes. The shut-off valves 11 and 2 and the throttle valves 12 and 8 are closed at the same time.

When the surface of the air cooling condenser 1 is insufficient for obtaining all the high-temperature cold, the stop valve 2 is closed and the stop valve 3 is open.

Compressor 14 operates parallel to the self-circulation circuit, sucking off some of the refrigerant vapor, compressing them and sending them to a water-cooled condenser. At the same time, the sequential operation of the refrigeration circuit with different boiling points for only a part of the refrigerant coming from the evaporator 10 to the air condenser 1 is maintained.

This invention improves the efficiency of the refrigeration unit.

Claims (2)

1. Refrigeration installation by bus. St. No. 759807, characterized in that, in order to improve efficiency, a low-temperature evaporator and an additional compressor are successively installed between the additional and main condensers in the course of the liquid refrigerant. 2. Installation under item 1, characterized in that the low-temperature evaporator is additionally connected to the outlet of the main condensate through the control valve. The source of information taken into account in the examination: the USSR 1. Copyright certificate № 759807, cl. F 25 B 1/00, 1977.