SU1666888A2 - Stand for refrigerators filling with refrigerant - Google Patents

Abstract

The invention relates to refrigeration. The goal is to increase efficiency by eliminating refrigerant losses and preventing environmental pollution. The stand contains a dispenser 1, system 2 for supplying freon from the network, system 3 for dispensing refrigerant from the stand, system 4 for supplying compressed air. The dispenser 1 includes a separator 5, the supramembrane cavity 6 of which is connected via a choke 7 to the rod end of the pneumatic cylinder. The stand is equipped with a capacity of 19 with a level indicator 20 and a heater 21. To the submembrane cavity 9 of the separator 5, the capacity 19 is connected through a stop valve 22. At the inlet, the capacity 19 is equipped with quick-release aggregate 23 and 24 bench semi-couplings. 1 il.

Description

The invention relates to refrigeration, and in particular to stands for refrigerant refrigeration units.

The purpose of the invention is to increase efficiency by eliminating the loss of freon and preventing environmental pollution.

The drawing shows a diagram of the stand refrigerant refrigeration units.

The stand contains a dispenser 1 freon, a system 2 for supplying freon from the network, a system 3 for dispensing freon from a stand, a system 4 for supplying compressed air. HFC dispenser 1 includes a membrane separator 5, the supranembrane cavity 6 of which is connected through the throttle 7 to the rod cavity of the pneumatic cylinder 8, and the submembrane cavity 9 is connected to the supply system 2 and the refrigerant delivery system 3. The piston cavity of the pneumatic cylinder 8 is connected through the air distributor 10 to the compressed air supply system 4, a flag 11 is fixed on the rod of the pneumatic cylinder 8, which interacts with the limit switches 12 and 13. The rod cavity of the pneumatic cylinder 8 and the membrane chamber 6 of the membrane separator 5 are filled with oil. The freon system 2 includes a shut-off valve 14, the freon system 3 includes a manometer 15 with upper and lower electrical contacts and a filling valve 16 connected through an air distributor 17 to the compressed air supply system 4. On the supply line of compressed air to the piston cavity of the pneumatic cylinder 8, a pressure regulator 18 is installed, with which the refrigerant discharge pressure is regulated. Additionally, the stand is equipped with a tank 19 with a level indicator 20 and a heater 21. To the submembrane cavity 9 of the separator 5, the tank 19 is connected via a shut-off valve 22. At the inlet, the tank 19 is equipped with quick-coupled coupling couplers - 23 and a bench 24 of the Hanzen type.

The stand works as follows.

In the initial position, the stand is filled with freon. The membrane of the membrane separator 5 and the piston of the pneumatic cylinder 8 are in the upper position, the shutoff valve 14 is closed, the upper electrical contact of the pressure gauge 15 is closed, the piston cavity of the pneumatic cylinder communicates with the atmosphere.

When connected to the refrigeration unit of the filling valve 16, the valve in it opens and the refrigerant enters the unit, the pressure of the refrigerant in the refrigerant dispensing system 3 and. accordingly, the oil pressure in the rod cavity of the pneumatic cylinder 8 drops, as a result, the upper and the lower electrical contacts of the manometer 15 open. The signal from the lower electrical contacts of the manometer 15 is fed to the opening of the air distributor 10 and the compressed air is supplied to the piston cavity of the pneumatic cylinder 8, the piston presses on the oil, which through the membrane, the freon is squeezed out of the membrane separator 5 into the freon delivery system 3 and then into the refrigeration unit. When the piston moves down and closes the flag 11 of the limit switch 13 from the latter, a signal is received to open the air distributor 17, the shutoff valve 14 and close the air distributor 10. At the same time, the filling valve 16 is fired from the refrigeration unit, the refrigerant enters the submembrane cavity 9 of the membrane separator 5 , the piston cavity of the pneumatic cylinder 8 is in communication with the atmosphere. Under the pressure of the incoming refrigerant, the membrane bends upward, displacing the oil into the rod cavity of the pneumatic cylinder 8. whose piston rises and the end switch 12 closes. The air distributor 17 closes, the pressure of the refrigerant in the membrane separator 5 increases, and when the upper contact of the pressure gauge 15 closes, a signal closing the shutoff fan 14. The stand returns to its initial state and is ready for the next refueling cycle.

When setting up and adjusting the automation of the stand, the filling valve 16. equipped with a bench half-coupling of the Hansen type is connected to the aggregate half-coupling 23 and the dose of freon enters the tank 19. When adjusting and measuring the dose, the freon from the measuring technological capacity (not included in the stand) equipped with an aggregate coupling 23, is poured into the container 19 with liquid refrigerant, which is determined by the level indicator 20, the heater 21 with thermostat is turned on, the shut-off valve 14 is closed and the shut-off valve 22 is opened. Freon from e capacity 19 enters the submembrane cavity 9 of the separator 5. The power of the stand comes from the tank 19. The heater 21 is designed to increase the pressure of the freon. After emptying the tank 19, the heater 21 is turned off, the shut-off valve 22 is closed, the valve 14 is opened and the stand is supplied with freon from a centralized network.

Claims (1)

Claim Stand refrigerant refrigeration units at ed. St. No. 1590884. distinguished by the fact that, in order to increase efficiency by eliminating refrigerant losses and preventing environmental pollution, it is additionally equipped with a tank with a heater connected to the submembrane cavity of the separator, and two are installed at the entrance to the tank Hansen quick disconnect coupling halves, and a valve at the outlet.