IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0891157
(2010-09-27)
|
등록번호 |
US-8506272
(2013-08-13)
|
발명자
/ 주소 |
- Fan, Shuichong
- Chao, Linzhi
- Fei, Yu
|
출원인 / 주소 |
- Emerson Climate Technologies (Suzhou) Research & Development Co., Ltd.
|
대리인 / 주소 |
Harness, Dickey & Pierce, P.L.C.
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
6 |
초록
▼
A lubricant metering system for a compressor may include a cap, a cap cage, and a shaft. The cap may include an outer surface, a first recess, and a first radial bore extending between the first recess and the outer surface. The cap cage may include a second recess receiving the cap and a lubricant
A lubricant metering system for a compressor may include a cap, a cap cage, and a shaft. The cap may include an outer surface, a first recess, and a first radial bore extending between the first recess and the outer surface. The cap cage may include a second recess receiving the cap and a lubricant inlet in communication with the first recess via the first radial bore. The shaft may be received within the first recess and may include an axially extending bore and a second radial bore extending between an outer diameter of the shaft and the axially extending bore. The shaft may be mounted for rotation relative to the cap to allow lubricant to flow into the axially extending bore via the first and second radial bores when the second radial bore is aligned with the first radial bore.
대표청구항
▼
1. A lubricant metering system for a compressor comprising: a cap including an outer surface, a first recess, and a first radial bore extending between said first recess and said outer surface;a cap cage including a second recess receiving said cap and a lubricant inlet in communication with said fi
1. A lubricant metering system for a compressor comprising: a cap including an outer surface, a first recess, and a first radial bore extending between said first recess and said outer surface;a cap cage including a second recess receiving said cap and a lubricant inlet in communication with said first recess via said first radial bore; anda shaft received within said first recess and including an axially extending bore and a second radial bore extending between an outer diameter of said shaft and said axially extending bore, said shaft is mounted for rotation relative to said cap to allow lubricant to flow into said axially extending bore via said first and second radial bores when said second radial bore is aligned with said first radial bore,wherein a high-pressure lubricant reservoir disposed between said cap cage and said cap axially biases said cap. 2. The lubricant metering system of claim 1, wherein said high-pressure lubricant reservoir disposed between said cap cage and said cap axially biases said cap against an annular member. 3. The lubricant metering system of claim 2, wherein said annular member is disposed between said cap and a bearing rotatably supporting said shaft, said annular member including at least one of a wear plate, a sealing plate, and a gasket. 4. The lubricant metering system of claim 3, wherein said cap cage sealingly engages said annular member. 5. The lubricant metering system of claim 3, wherein said cap cage is fixed relative to said bearing. 6. The lubricant metering system of claim 1, wherein said high-pressure lubricant reservoir extends between an inner surface of said cap cage and an outer surface of said cap and provides clearance between said cap and said cap cage to allow said cap to move in a radial direction relative to said cap cage. 7. The lubricant metering system of claim 1, further comprising an annular sealing member disposed in an annular groove in said inner surface of said cap cage, said annular sealing member sealingly engaging a bearing member rotatably supporting said shaft. 8. The lubricant metering system of claim 1, wherein a lubricant injection line is fluidly coupled to said lubricant inlet and provides fluid communication between a lubricant source and said lubricant reservoir. 9. The lubricant metering system of claim 1, further comprising a plurality of radial bores in said shaft that are selectively aligned with said first radial bore. 10. The lubricant metering system of claim 1, wherein said cap includes a protrusion and said cap cage includes a slot receiving said protrusion to prevent relative rotational movement between said cap and said cap cage. 11. The lubricant metering system of claim 10, wherein said protrusion and said slot are sized relative to each other to allow relative radial and axial movement between said cap and said cap cage. 12. The lubricant metering system of claim 1, wherein said first radial bore includes a diameter of about two millimeters. 13. The lubricant metering system of claim 1, wherein said second radial bore includes a diameter of about three millimeters. 14. A compressor comprising: a shell;a compression mechanism disposed within said shell;a drive shaft drivingly engaging said compression mechanism and including an axially extending bore and a first radial aperture extending between an outer diameter of said drive shaft and said axially extending bore;a motor driving said drive shaft;a lubricant sump fluidly coupled with said compression mechanism to receive lubricant discharged from said compression mechanism;a cap including an outer surface, a first recess, and a second radial aperture extending between said first recess and said outer surface; anda cap cage including a second recess receiving said cap and a lubricant inlet in communication with said first recess via said second radial aperture,wherein said drive shaft is received within said first recess for rotation relative to said cap to allow lubricant to flow into said axially extending bore via said first and second radial apertures when said first radial aperture is aligned with said second radial aperture,wherein a high-pressure lubricant reservoir disposed between said cap cage and said cap axially biases said cap into sealing engagement with an annular member. 15. The compressor of claim 14, wherein said high-pressure lubricant reservoir extends between an inner diameter of said cap cage and an outer diameter of said cap and provides clearance between said inner diameter of said cap cage and said outer diameter of said cap to allow said cap to move in a radial direction relative to said cap cage. 16. The compressor of claim 14, wherein a lubricant injection line is fluidly coupled to said lubricant inlet and provides fluid communication between said lubricant reservoir and said lubricant sump. 17. The compressor of claim 14, further comprising a plurality of radial apertures in said drive shaft selectively aligned with said second radial aperture. 18. The compressor of claim 14, wherein said annular member includes a sealing plate and a gasket. 19. The compressor of claim 14, wherein said annular member is disposed between said cap and a bearing rotatably supporting said drive shaft. 20. The compressor of claim 19, wherein said annular member includes an annular sealing member disposed in an annular groove in said cap cage, said annular sealing member sealingly engaging said bearing. 21. The compressor of claim 19, wherein said cap cage is fixed relative to said bearing. 22. The compressor of claim 14, wherein said cap includes a protrusion and said cap cage includes a slot receiving said protrusion to prevent relative rotational movement between said cap and said cap cage. 23. The compressor of claim 22, wherein said protrusion and said slot are sized relative to each other to allow relative radial and axial movement between said cap and said cap cage. 24. The compressor of claim 14, wherein said shell and said drive shaft are arranged horizontally. 25. The compressor of claim 14, wherein said compression mechanism includes a first scroll member orbiting relative to a second scroll member, said first and second scroll members having intermeshed spiral wraps defining at least one moving fluid pocket. 26. The compressor of claim 14, wherein said first radial aperture includes a diameter of about three millimeters and said second radial aperture includes a diameter of about two millimeters. 27. The compressor of claim 14, wherein said drive shaft includes at least one lubricant delivery aperture axially spaced apart from said first radial aperture. 28. The compressor of claim 14, further comprising a partition disposed within said shell and cooperating with said shell to define a suction pressure zone and a discharge pressure zone, said lubricant sump being disposed in said discharge pressure zone.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.