SU1749647A1 - Refrigerating machine - Google Patents

Abstract

Usage: chillers with variable heat load of the cooling object. SUMMARY OF THE INVENTION: A refrigeration machine contains a circulation circuit (1) with a compressor (2), a condenser (3), a receiver (4) equipped with a coil (8), a thermostatic valve (5), a tubular evaporator (6) and a tubular heat exchanger-evaporator (7). The vapor spaces of the annular spaces (9) of the evaporator (6) and the heat exchanger-evaporator (7) are connected by a pipe (10), the liquid cavity of the receiver (4) is connected to the inlet to the thermostatic valve (5) through the pipe space of the heat exchanger of the evaporator (7) and coil (8) receiver (4). 1 silt

Description

The invention relates to refrigeration and can be used in temperature control systems of objects with periodically changing heat load.

Known refrigeration machine for temperature control of an object with a variable thermal load, containing a circulation circuit with a compressor, a condenser, a control valve and an evaporator located in the receiver-battery.

Known refrigeration machine containing a circulation circuit with sequentially installed compressor, condenser, receiver, temperature control valve and a tubular evaporator.

. A disadvantage of the known refrigeration machine is its low efficiency as a result of lowering the evaporation pressure during throttling by a control valve in accordance with a decrease in the thermal load of the cooled object.

U, spruce of the invention - improving efficiency when changing the heat load of the object.

This goal is achieved by the fact that the known refrigeration machine containing a circulation circuit with a compressor, a condenser, a receiver, a thermostatic valve and a tubular evaporator is equipped with a tubular heat exchanger-evaporator and a receiver coil, and the vapor cavities of the annulus of the evaporator and the heat exchanger-evaporator are interconnected by a main and the receiver’s liquid cavity is connected to the inlet of the thermostatic valve through the successively installed tube space of the heat exchanger receiver and coil receiver.

The drawing shows a diagram of a refrigeration machine,

The refrigeration machine contains a circulation circuit 1 with a compressor 2, a condenser 3. receiver 4, a thermostatic valve 5, a tubular evaporator 6 and tubular heat exchangers 7, the receiver 4 is equipped with a coil 8. The vapor cavities of the annular spaces 9 of the evaporator 6 and the heat exchanger-evaporator 7 are connected by a highway 10, and the liquid cavity of the receiver 4 is connected to the inlet to the thermostatic valve 5 through the pipe space of the heat exchanger-evaporator 7 and the coil 8 of the receiver 4.

The chiller operates as follows.

The refrigerant vapor coming from the evaporator 6 and the heat exchanger-evaporator 7 is compressed in the compressor 2, liquefied in the condenser 3 and sent to the receiver 4. In the mode of reduced heat load on the evaporator 6, part of the liquid (non-evaporated) refrigerant through the line 10 enters the annular space of the heat exchanger -evaporator 7, where it boils, cooling the liquid high-pressure refrigerant coming from the liquid cavity of the receiver 4. The cooled high-pressure refrigerant is then supplied to the coil 8, supercooling the refrigerant located oral liquid receiver 4. As the operation of the machine with a lower thermal load of the object occurs subcooling refrigerant accumulated in the liquid receiver 4. From cavity refrigerant enters the receiver 4 to the thermostatic expansion valve 5 and then into the evaporator 6.

Cooling the refrigerant in front of the thermostatic expansion valve 5 increases the specific cooling capacity of the machine. In addition, in the mode of reduced heat load in the receiver 4, the stock of excess cold accumulates, which is consumed in the heat load mode above the nominal cooling capacity of the refrigeration machine, which leads to an increase in its efficiency as a whole.

Claims (1)

Claim A chiller, mainly for temperature control of an object, containing a circulation circuit with a compressor, a condenser, a receiver, a thermostatic valve and a tube evaporator, characterized in that, in order to increase economy when the heat load of the object changes, the machine is additionally equipped with a tube heat exchanger-evaporator and a receiver coil, moreover the vapor cavity of the annulus of the evaporator and the heat exchanger-evaporator are interconnected by a highway, and the liquid cavity of the receiver It is connected to the entrance to the thermostatic valve through the consecutively installed tube space of the heat exchanger-evaporator and the receiver coil.