SU251597A1 - STAND FOR DISCHARGING OF REFRIGERATING UNITS AND REFRIGERATING THE REFRIGERANT - Google Patents

Description

The invention relates to stands for discharging refrigeration units and regenerating a refrigerant, for example, freon.

Stands are known that contain a filter drier, a compressor, a heat exchanger for condensing the vapors formed, a collection of refrigerant heated periodically to evaporate the latter and to supply vapor to the condenser with a coil through which the cooling fluid circulates and water.

The purpose of the present invention is to improve efficiency.

This is achieved by installing a receiver connected to a heat exchanger and a refrigerant collector through a thermostatically controlled valve to the input end of the condenser coil, the output end of which is connected to the compressor suction line. The inlet pipe connecting the receiver with the refrigerant collector is inserted into the receiver to a predetermined height to maintain a constant level of refrigerant therein.

The drawing shows a schematic diagram of the described stand.

The stand consists of series-connected hoses 2, valves 3, manifold 4, filter dryer 5, compressor 6 with oil separator 7 on the discharge line, heat exchanger 8, receiver 9, valve 1G, collection // placed in the tank with water and connecting to a condenser with a cooling coil 12. The input end of the coil is connected through a thermostatic valve 13 to the receiver, and the output end through the valve / 4 - to the suction line of the compressor. To drain the refrigerant from the condenser

equipped with a pipeline with a valve 15.

The stand performs several operations in the following after a short time:

1. Pumping maslofreonovoy mixture of. Refrigerating unit.

2. Regeneration of freon.

3. Selection of freon collected at the stand in cylinders.

The compressor sucks in freon vapors from the connected refrigeration unit and through

the filter drier and suction separator directs them to an air-cooled heat exchanger. The condensed freon flows into the receiver and fills it to a level equal to the height of the pipeline section that is inserted inside the receiver. The freon level in the receiver is kept constant. Freon above this level flows through the connecting pipe to the stack. Thus, in the collection, gradually, there are particles of oil that do not fall into the oil separator.

Freon is regenerated by evaporation. At the same time, valves 5 and 10 are closed, and veitil-14 is opened. The collector is heated, and in the process of heating the freon, evaporating, enters the annulus of the condenser, 9 the oil remains in the collector. For the condensation of freon vapors, the same refrigeration system is intended as for discharging the refrigeration unit. Its operating elements are the compressor 6, the oil separator 7, the heat exchanger 8, the receiver 9, the condenser with a cooling coil 12, on which the thermostatic valve 13 and the valve 14 are installed. The refrigeration unit operates on a circuit assembled in the receiver the coil boils, extracting heat from the vapor of freon, located in the annular space of the condenser.

After filling the chalk of the condenser pipe space with freon free of oil, the latter is taken through valve 15 into evacuated cylinders. Full filling of cylinders with liquid refrigerant provides the pressure difference of freon in the heated collector and cooled condenser.

The use of the described stand for the discharge of refrigeration units and the regeneration of the refrigerant will reduce the regeneration process and also avoid the consumption of water for the condensation of freon vapors.

PREDE E invention

Claims (2)

1.Stand for discharging refrigeration units and refrigerant recovery, for example, freon, containing successively installed filter drier, compressor, heat exchanger for condensation of vapors formed along the course of the refrigerant, refrigerant collection periodically heated for evaporation the latter and supplying vapor to a condenser with a cooling coil, characterized in that, in order to increase efficiency, a receiver is connected to the communication line of the heat exchanger and the refrigerant collector through a temperature-controlled veitil to the input end of the condenser coil, the output end of which is connected to the suction line of the compressor. 2. A stand according to claim 1, characterized in that the inlet section of the pipeline connecting A receiver with refrigerant packer is inserted into the receiver to a predetermined height to maintain a constant level of refrigerant therein. l f f p Tt-t1gi-