TH51598B - compressor - Google Patents

Abstract

DC60 compressor, which has an auxiliary oil reservoir chamber and main for storing separated lubricant out of the refrigerant in the oil separation chamber. Part of the reservoir room it's reinforced is determined by. The enclosed wall of the oil separation chamber Inductive path for drawing lubricant in the oil separation chamber to the chamber The auxiliary oil reservoir is located within the surrounding wall. The inlet of the inductor opens to the upper oil separation chamber. The inner surface of the enclosing wall The outlet of the inductor opens to the auxiliary oil reservoir chamber. The main oil reservoir chamber is installed lower level than the auxiliary oil reservoir chamber in the direction of gravity. The vent for draining the lubricant in the auxiliary oil reservoir chamber to the oil reservoir chamber. main will stay Inside the bottom wall of the reservoir room it was reinforced. compressor, which has an auxiliary oil reservoir chamber and main for storing separated lubricant out of the refrigerant in the oil separation chamber. Part of the reservoir room it's reinforced is determined by. The enclosed wall of the oil separation chamber Inductive path for drawing lubricant in the oil separation chamber to the chamber The auxiliary oil reservoir is located within the surrounding wall. The inlet of the inductor opens to the upper oil separation chamber. The inner surface of the enclosing wall The outlet of the inductor opens to the auxiliary oil reservoir chamber. The main oil reservoir chamber is installed lower level than the auxiliary oil reservoir chamber in the direction of gravity. The vent for draining the lubricant in the auxiliary oil reservoir chamber to the oil reservoir chamber. main will stay Inside the bottom wall of the reservoir room it was reinforced.

Claims (1)

Claims (all) which will not appear on advertisement page serves to compress the refrigerant; and the oil separator chamber, where the refrigerant is taken from the compression area. Inside, the oil separator chamber is surrounded by a wall for circulating refrigerant to separate the lubricant mixed in the refrigerant. cooling off; and an additional oil reservoir room and the main oil reservoir which is where the lubricant is stored is separated from the refrigerant by part of the reservoir room it supplemented It is defined by the enclosing walls of the oil separator chamber and the inductor for extracting the lubricant in the oil separator chamber to the reservoir chamber. The reinforcement is formed within the enclosing wall, the inductor has an entrance at one end. and the exit is at the other end. The entrance of the inductor opens to the oil separation chamber on the inner surface of the enclosing wall and the outlet of the inductor opens to the auxiliary oil reservoir chamber, with the entrance of the inductor located at the lower part of the chamber. Separate the oil in the direction of gravity. and the exit of the inductor will be at a higher level than the entrance of the way. Induced in the direction of gravity and located at the bottom part of the reservoir chamber it is reinforced in the direction of gravity, and the main oil reservoir chamber is installed lower level than the oil reservoir chamber in the direction of gravity The vent is to drain the lubricant in the auxiliary oil reservoir room to the main oil reservoir room and the lubricant in the main oil reservoir room is supplied to the suction area of the area for Compressed 2. The compressor according to claim 1, whereby the auxiliary oil reservoir chamber is divided by the partition into the induction chamber. which corresponds to The outlet of the induction and discharge chamber corresponding to the vent, and the induction chamber and discharge chamber are interconnected. by the conveying area, which is located at a higher level Barrier area in the direction of gravity 3. The compressor according to claim 2, whereby the reservoir chamber is supplemented by the combination of walls inside the housing and gaskets are fixed between the housing parts. and the barrier area is formed by the gasket 4. The compressor according to claim 3, by the oil separation chamber and the main oil reservoir room. It is formed by the splicing of various housing parts. 5. Compressor according to claim 1, where the compression area is a scroll type. ------------------------------------------- 1. Compressor consists of: Compression area inside the housing serves to compress the refrigerant; and the oil separator chamber, where the refrigerant is taken from the compression area. Inside, the oil separator chamber is surrounded by a wall for circulating refrigerant to separate the lubricant mixed in the refrigerant. cool off There are specific characteristics. Reservoir room added. and the main oil reservoir which is where the lubricant is stored is separated from the refrigerant by part of the reservoir room it reinforces It is defined by the enclosing walls of the oil separator chamber and the inductor for extracting the lubricant in the oil separator chamber to the reservoir chamber. The reinforcement is formed within the enclosing wall, the inductor has an entrance at one end. and the exit is at the other end. The inlet of the inductor opens to the oil separator chamber on the inner surface of the enclosing wall, and the outlet of the inductor opens to the auxiliary oil reservoir chamber, and the main oil reservoir chamber is mounted lower than the auxiliary oil reservoir chamber in the direction of of gravity The vent is to drain the lubricant in the auxiliary oil reservoir room to the main oil reservoir room and the lubricant in the main oil reservoir room is supplied to the suction area of the area for compact