KR890701965A - Refrigerant regeneration method and apparatus - Google Patents

Abstract

A refrigerant reclaim system includes a compressor (30), a heat exchanger (10), an oil separator (20), a condenser (40), a chill tank (50), a filter-dryer (63) and a cooling coil (65) in the chill tank. Refrigerant to be reclaimed is drawn through the cold side of the heat exchanger (10) converted to a gas which is discharged into the oil separator (20) where the gas is directed upwardly in an expanding stream. The flow of the stream is abruptly interrupted to separate oil from refrigerant.

Description

Refrigerant regeneration method and apparatus

Since this is an open matter, no full text was included.

The drawings show a schematic illustration of the invention, wherein the parts shown in the drawings are commercially available standard products or are disclosed in sufficient detail with reference to the description, and the person skilled in the art will know how the invention is practiced. It is supposed to be.

Claims (16)

A refrigerant regeneration device comprising: a heat exchanger having a heating portion and a cooling portion, means for connecting a cooling portion of a heat exchanger to a refrigerant container, means for connecting a heating portion of the heat exchanger to a source of a heated gaseous refrigerant, and a refrigerant from the container for a heat exchanger. Means for flowing through the cooling section of the heat exchanger, means for passing the gaseous refrigerant heated from the heat exchanger to the bottom of the elongated vertical separation tank, baffle means in the upper part of the separation tank to block the expansion of the heated heated gaseous refrigerant, A fluid conduit comprising a periphery of the baffle means for providing a narrow opening between the baffle and the inner wall of the tank to escape the gaseous refrigerant around the baffle and a fluid conduit having an opening on the baffle to remove the gaseous refrigerant from the separation tank. A device for separating oil from a refrigerant by removing the refrigerant. In a refrigerant regeneration device, a spirally extending means having inner and outer tubes, the inner tube being positioned within the outer tube to form a channel extending spirally between the outer surface of the inner tube and the inner surface of the outer tube, the inner tube of Means for connecting one end to the refrigerant container, means for connecting the opposite end of the outer tube to the outlet of the relatively heated gaseous refrigerant, allowing the refrigerant from the vessel to flow through the inner tube to one side and the relatively heated gaseous refrigerant to the tube Means for flowing in opposite directions through a spirally extending channel between, means for passing the heated gaseous refrigerant from the heat exchanger to the bottom of an elongated vertical separation tank, and separating the flow to the top of the expanding heated gaseous refrigerant Baffle means in the tank top, providing a narrow opening between the baffle and the inner wall of the tank To remove the refrigerant from the vessel, including a fluid conduit having an opening on the baffle to remove the gaseous refrigerant from the periphery of the baffle means and the separation tank. Device for disconnecting. 3. The apparatus of claim 2 wherein the inlet of the heat exchanger outer tube is in fluid communication with the outlet of the compressor and the means on the baffle in the tank is in fluid communication with the suction side of the compressor. 4. The apparatus of claim 3, wherein the area of the narrow opening and the entrance area on the baffle are approximately equal. In the refrigerant regeneration device, an elongated tank having a longitudinal axis extending vertically, and a baffle means provided at an upper portion of the tank (the baffle means includes a central plate attached to a skirt extending downward and outwardly around the tank). A narrow opening between the lower end of the skirt and the inner wall of the tank; means on a baffle having holes for discharging gaseous refrigerant from the tank, means underneath the tank for introducing gaseous refrigerant into the tank and the bottom of the tank Oil separator comprising means for recovering oil from the oil. 6. The apparatus of claim 5, wherein the area of the narrow opening is approximately equal to the area of the hole for discharging the gaseous refrigerant from the tank. A refrigerant regeneration device comprising: a compressor for compressing and discharging a gaseous refrigerant, a means for condensing the gaseous refrigerant with a liquid, a means for guiding the liquid refrigerant into a closed elongated cooling tank in which the longitudinal axis extends vertically, and the liquid refrigerant to the bottom of the cooling tank. Means for passing the fluid conduits in the cooling tank, extending from the lower part of the filtration-drying device, the expansion device and the cooling tank and continuously connecting the fluid conduits in fluid communication with the inlet of the compressor. An apparatus comprising external means, the apparatus holding in the apparatus while repeatedly purifying and cooling the refrigerant. 8. The apparatus of claim 7, wherein the fluid conduit is a coil located below the normal water level of the liquid refrigerant in the cooling tank. 9. An apparatus according to claim 8, comprising a hole at the top end of the tank and means for venting air through the hole. 10. The apparatus of claim 9 including means for recovering liquid refrigerant from the cooling tank and discharging it to the vessel. A heat exchanger having a refrigerant suction part, a cooling part and a heating part, a fluid conduit means for connecting the suction part in fluid communication with the cooling part of the heat exchanger, from the cooling part of the heat exchanger to the lower part of the elongated oil separation tank in which the longitudinal axis extends vertically A fluid conduit means for guiding, located above the tank and having a midboard portion and a skirt portion extending downwards and outwards, a baffle, oil separation tank inner wall providing a narrow opening between the outer end of the skirt and the inner wall of the oil separation tank. Fluid conduit connected to the suction side of the compressor and in fluid communication with the top end of the compressor (where the area of the narrow opening is approximately equal to the area of the hole located near the top end), and the pressure portion of the compressor is Means for connecting the heating part in fluid communication, the condenser, the heating part of the heat exchanger Means for making connections, elongated cooling tanks with vertical axis extending vertically, means for discharging liquid refrigerant from the condenser to the cooling tank, and fluid communication with other fluid conduit means leading from the bottom of the cooling tank to the filtration-dryer. Connected fluid conduit means, valve means for discharging liquid refrigerant from the cooling tank into the container or into the filtration-drying device, extending through the lower portion of the inside of the cooling tank to the top of the cooling tank and communicating with the suction side of the compressor. In fluid communication with the fluid conduit connected to the oil separation tank and in fluid communication with the fluid conduit connected to the oil separation tank, when the pressure in the fluid conduit at the suction side of the expansion device and compressor connected to the filtration-drying device is actually manufactured PSIG. And a pressure-corresponding control means arranged to stop the compressor. It removes oil from gaseous fluid by removing gravity from gaseous fluid by taking out the refrigerant to be recycled from the container, heating the refrigerant to gas state, expanding gaseous fluid in the upper fluid passage, and suddenly blocking the flow of fluid. Regeneration method of a refrigerant comprising a. 13. The method of claim 12 wherein the gaseous fluid is passed through a narrow annular opening after the flow of fluid is interrupted, and then the gas is passed through a hole having an area approximately equal to the area of the annular opening. Compress the gaseous refrigerant, condense the refrigerant into liquid, drain the liquid into the liquid pool, recover the liquid from the bottom of the pool, filter and dry the liquid, and pass the liquid from the narrow passage to the wide passage Converting the liquid phase from the liquid phase to the gas phase to expand the gaseous refrigerant in a passage extending through the liquid pool to cool the liquid and to repeatedly compress, condense, filter-dry and cool the same refrigerant. 15. The method of claim 14, comprising discharging the liquid refrigerant from the pool into the vessel. The regenerated refrigerant is taken out of the container, the refrigerant is heated in a gaseous state, oil is separated from the gaseous fluid, the gaseous refrigerant is compressed, and the compressed gaseous refrigerant is passed through the extracted refrigerant and the thermal conductor wire contact. Heat the refrigerant when it is blown out, condense the compressed gaseous refrigerant into the liquid, drain the liquid into the liquid pool and draw the liquid from the bottom of the pool, filter and dry the liquid, Passing through the passage converts the liquid from the liquid phase into the gas phase to expand the gaseous refrigerant in the passage extending through the pool of liquid to cool the liquid, combining the expanding gaseous refrigerant with the gaseous refrigerant separated from the oil, and combined gaseous refrigerant Refrigerant comprising the step of compressing. ※ Note: The disclosure is based on the initial application.