A compressor may include a shell, a compression mechanism, a crankshaft, a bearing support, and a lubricant sump. The compression mechanism may be disposed in the shell and may compress a working fluid. The crankshaft may be disposed at least partially in the shell and may drivingly engage the compr
A compressor may include a shell, a compression mechanism, a crankshaft, a bearing support, and a lubricant sump. The compression mechanism may be disposed in the shell and may compress a working fluid. The crankshaft may be disposed at least partially in the shell and may drivingly engage the compression mechanism. The bearing support may rotatably support the crankshaft. The lubricant sump may retain a volume of lubricant and may be disposed between the bearing support and the compression mechanism.
대표청구항▼
1. A compressor comprising: a shell;a compression mechanism disposed in said shell and compressing a working fluid;a crankshaft disposed at least partially in said shell and drivingly engaged with said compression mechanism;a bearing support rotatably supporting said crankshaft; anda lubricant sump
1. A compressor comprising: a shell;a compression mechanism disposed in said shell and compressing a working fluid;a crankshaft disposed at least partially in said shell and drivingly engaged with said compression mechanism;a bearing support rotatably supporting said crankshaft; anda lubricant sump for retaining a volume of lubricant and disposed between said bearing support and said compression mechanism,wherein said shell defines a first lubricant passageway that is fluidly separated from said lubricant sump and in communication with an inlet of the compressor that is distinct from a working fluid inlet of the compressor. 2. The compressor of claim 1, further comprising a thrust plate disposed between said bearing support and said compression mechanism, said thrust plate having an engaging surface that is engaged with said compression mechanism, said lubricant sump being defined by said thrust plate, said bearing support, and said shell. 3. The compressor of claim 2, wherein said bearing support and said thrust plate both include a plurality of openings allowing said working fluid and said lubricant to flow throughout said shell. 4. The compressor of claim 1, further comprising a counterweight attached to said crankshaft and rotating with rotation of said crankshaft, said counterweight traveling through lubricant in said lubricant sump during rotation of said crankshaft and splashing said lubricant therein to transmit said lubricant to said compression mechanism. 5. The compressor of claim 4, wherein an eccentric portion of said counterweight travels through lubricant in said lubricant sump during less than one-hundred-eighty degrees of rotation of said crankshaft. 6. The compressor of claim 1, further comprising an end cap connected to said shell and defining a high-side lubricant sump. 7. The compressor of claim 6, further comprising a lubricant discharge fitting in fluid communication with said high-side lubricant sump and a heat exchanger. 8. The compressor of claim 7, wherein said heat exchanger includes a first fluid passageway receiving lubricant from said high-side lubricant sump and a second fluid passageway receiving a working fluid from said compression mechanism, said first and second fluid passageways being fluidly isolated from each other. 9. The compressor of claim 8, wherein said compression mechanism includes an intermediate-pressure location receiving expanded working fluid from said heat exchanger. 10. The compressor of claim 1 in fluid communication with a condenser, an expansion device, and a heat exchanger, said condenser condensing working fluid discharged by the compressor, said expansion device expanding working fluid condensed by said condenser, said heat exchanger transferring heat from said lubricant to expanded working fluid. 11. The compressor of claim 1, wherein said crankshaft includes a second lubricant passageway providing communication between said lubricant sump and said inlet. 12. A compressor comprising: a shell defining a suction-pressure region and a discharge-pressure region;a compression mechanism disposed between said suction-pressure region and said discharge-pressure region;a first lubricant sump disposed in said suction-pressure region;a second lubricant sump disposed in said discharge-pressure region;a crankshaft drivingly engaging said compression mechanism;a bearing support rotatably supporting said crankshaft; anda thrust plate engaging said compression mechanism and disposed between said compression mechanism and said bearing support, said first lubricant sump being defined by said thrust plate, said bearing support, and said shell,wherein said bearing support and said thrust plate both include a plurality of openings allowing said working fluid and said lubricant to flow throughout said shell. 13. The compressor of claim 12, wherein a lubricant level within said first lubricant sumps is defined by a location of a vertically lowest of one said plurality of openings. 14. The compressor of claim 12, wherein said first lubricant sump is defined by an inner diametrical surface of said shell. 15. The compressor of claim 12, further comprising: a counterweight attached to said crankshaft and rotating with said crankshaft, said counterweight traveling through lubricant in said first lubricant sump during rotation of said crankshaft and splashing said lubricant therein to transmit said lubricant to said compression mechanism. 16. The compressor of claim 15, wherein an eccentric portion of said counterweight travels through lubricant in said first lubricant sump during less than one-hundred-eighty degrees of rotation of said crankshaft. 17. A compressor comprising: a shell defining a suction-pressure region and a discharge-pressure region;a compression mechanism disposed between said suction-pressure region and said discharge-pressure region;a first lubricant sump disposed in said suction-pressure region; anda second lubricant sump disposed in said discharge-pressure region,wherein said shell defines a lubricant passageway that is separated from said first and second lubricant sumps and in communication with an inlet of the compressor that is distinct from a working fluid inlet of the compressor. 18. The compressor of claim 17, wherein said lubricant passageway extends longitudinally in a direction parallel to a rotational axis of a crankshaft driving said compression mechanism. 19. The compressor of claim 12, wherein said shell defines a lubricant passageway that is separated from said first and second lubricant sumps and in communication with an inlet of the compressor that is distinct from a working fluid inlet of the compressor. 20. The compressor of claim 19, wherein said lubricant passageway extends longitudinally in a direction parallel to a rotational axis of a crankshaft driving said compression mechanism.
Unnewehr Lewis E. (Michigan City IN) Olsaker Oleif (Michigan City IN) Shoop John C. (LaPorte IN) Klingler Ray (Michigan City IN), Lubricant cooled electric drive motor for a compressor.
Izunaga Yasushi (Shimizu JPX) Kuno Hiroaki (Shimizu JPX) Sado Shintaro (Shimizu JPX), Mechanism for prevention of burning of bearing portions in a hermetic type scroll compressor.
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