Rotary compressor with sealing portions and oil-supply groove
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F04C-002/00
F03C-002/00
출원번호
US-0490164
(2003-04-16)
등록번호
US-7322809
(2008-01-29)
우선권정보
JP-2002-163842(2002-06-05)
국제출원번호
PCT/JP03/004863
(2003-04-16)
§371/§102 date
20040318
(20040318)
국제공개번호
WO03/104657
(2003-12-18)
발명자
/ 주소
Kitaura,Hiroshi
Yamaji,Hiroyuki
Yanagisawa,Masanori
출원인 / 주소
Daikin Industries, Ltd.
대리인 / 주소
Global IP Counselors
인용정보
피인용 횟수 :
7인용 특허 :
8
초록▼
In a rotary compressor to perform oil supplying to bearings through a main oil-supply passage formed in a drive shaft by making use of pressure differential between high-level pressure and low-level pressure in the casing, sealing portions having air-tight structures are formed at both sides in the
In a rotary compressor to perform oil supplying to bearings through a main oil-supply passage formed in a drive shaft by making use of pressure differential between high-level pressure and low-level pressure in the casing, sealing portions having air-tight structures are formed at both sides in the axis direction of each of the sliding faces constituted between the drive shaft and the bearings, putting bearing-portion oil-supply passages between the sealing portions, to improve the reliability of the bearings by preventing high-pressure gas flowing into a portion between the drive shaft and the bearings.
대표청구항▼
What is claimed is: 1. A rotary compressor comprising: a casing including high-pressure and low-pressure spaces; a compressing mechanism; at least one bearing disposed in the high-pressure space in the casing, the bearing having an inner peripheral face; an oil reservoir having an inside pressure t
What is claimed is: 1. A rotary compressor comprising: a casing including high-pressure and low-pressure spaces; a compressing mechanism; at least one bearing disposed in the high-pressure space in the casing, the bearing having an inner peripheral face; an oil reservoir having an inside pressure that increases during operation with the low-pressure space; and a compressor motor with a drive shaft driving the compressing mechanism, the drive shaft being supported by the bearing, the drive shaft having an outer peripheral face, the drive shaft further having a main oil-supply passage and at least one bearing-portion oil-supply passage formed in the drive shaft, the main oil-supply passage connecting the oil reservoir, one end of the bearing-portion oil-supply passage being connected with the main oil-supply passage and another end of the bearing-portion oil-supply passage being connected with a sliding face constituted between the drive shaft and the bearing, the outer peripheral face of the drive shaft and the inner peripheral face of the bearing forming first and second sealing portions having substantially air-tight structures, the first sealing portion being located on a side of the bearing-portion oil-supply passage at a first interface portion between the drive shaft and the bearing and the second sealing portion being located on an opposite side of the bearing-portion oil-supply passage in an axial direction of the sliding face at a second interface portion between the drive shaft and the same bearing, at least one of the drive shaft and the bearing including an oil-supply groove connected to the bearing-portion oil-supply passage, the oil-supply groove being formed at the sliding face and located between the first and second sealing portions, and the oil-supply groove having a length in a circumferential direction of the drive shaft longer than a length of the oil-supply groove in an axial direction of the drive shaft. 2. The rotary compressor of claim 1, wherein the compressing mechanism includes a fixed scroll that is fixed in the casing and an orbiting scroll that revolves orbitally relative to the fixed scroll, the orbiting scroll includes a scroll-portion oil-supply passage that is formed so as to be connected from the main oil-supply passage of the drive shaft through a sliding surface constituted between the fixed scroll and the orbiting scroll to the low-pressure space that is located at a suction side of the compressing mechanism. 3. The rotary compressor of claim 2, wherein at least part of the scroll-portion oil-supply passage is constituted of a restriction pathway. 4. The rotary compressor of claim 1, wherein the drive shaft is disposed so as to extend in a vertical direction in the casing, the at least one bearing includes a lower bearing that is close to the oil reservoir and an upper bearing that is located above the lower bearing, and the oil supply groove is disposed at least at the upper bearing. 5. The rotary compressor of claim 1, wherein the drive shaft includes an additional bearing-portion oil-supply passage with an additional bearing having an inner peripheral face disposed about the outer peripheral face of the drive shaft such that the inner peripheral face of the additional bearing and the outer peripheral face of the drive shaft form third and fourth sealing portions having substantially air-tight structures, the third sealing portion being located on a side of the additional bearing-portion oil-supply passage at a third interface portion between the drive shaft and the additional bearing and the fourth sealing portion being located on an opposite side of the additional bearing-portion oil-supply passage in the axial direction at a fourth interface portion between the drive shaft and the same additional bearing. 6. A rotary compressor comprising: a casing including high-pressure and low-pressure spaces; a compressing mechanism; at least one bearing disposed in the high-pressure space in the casing, the bearing having an inner peripheral face; an oil reservoir having an inside pressure that increases during operation with the low-pressure space; and a compressor motor with a drive shaft driving the compressing mechanism, the drive shaft being supported by the bearing, the drive shaft having an outer peripheral face, the drive shaft further having a main oil-supply passage and at least one bearing-portion oil-supply passage formed in the drive shaft, the main oil-supply passage connecting the oil reservoir, one end of the bearing-portion oil-supply passage being connected with the main-oil supply passage and another end of the bearing-portion oil-supply passage being connected with a sliding face constituted between the drive shaft and the bearing, the outer peripheral face of the drive shaft and the inner peripheral face of the bearing forming first and second sealing portions having substantially air-tight structures, the first sealing portion being located on a side of the bearing-portion oil-supply passage at a first interface portion between the drive shaft and the bearing and the second sealing portion being located on an opposite side of the bearing-portion oil-supply passage in an axial direction of the sliding face at a second interface portion between the drive shaft and the same bearing, at least one of the drive shaft and the bearing including an oil-supply groove connected to the bearing-portion oil-supply passage, the oil-supply groove being formed at the sliding face and located between the first and second sealing portions, and a length L of the bearing in the axis direction, a gap distance C between an inside diameter of the bearing and an outside diameter of the drive shaft at the sliding face, and a length b of the oil groove in the axis direction being provided such that 0.3L3. 7. The rotary compressor of claim 6, wherein the compressing mechanism includes a fixed scroll that is fixed in the casing and an orbiting scroll that revolves orbitally relative to the fixed scroll, the orbiting scroll includes a scroll-portion oil-supply passage that is formed so as to be connected from the main oil-supply passage of the drive shaft through a sliding surface constituted between the fixed scroll and the orbiting scroll to the low-pressure space that is located at a suction side of the compressing mechanism. 8. The rotary compressor of claim 7, wherein at least part of the scroll-portion oil-supply passage is constituted of a restriction pathway. 9. A rotary compressor comprising: a casing including high-pressure and low-pressure spaces; a compressing mechanism; at least one bearing disposed in the high-pressure space in the casing, the bearing having an inner peripheral face; an oil reservoir having an inside pressure that increases during operation with the low-pressure space; and a compressor motor with a drive shaft driving the compressing mechanism, the drive shaft being supported by the bearing, the drive shaft having an outer peripheral face, the drive shaft further having a main oil-supply passage and at least one bearing-portion oil-supply passage formed in the drive shaft, the main oil-supply passage connecting the oil reservoir, one end of the bearing-portion oil-supply passage being connected with the main oil-supply passage and another end of the bearing-portion oil-supply passage being connected with a sliding face constituted between the drive shaft and the bearing, the outer peripheral face of the drive shaft and the inner peripheral face of the bearing forming first and second sealing portions having substantially air-tight structures, the first sealing portion being located on a side of the bearing-portion oil-supply passage at a first interface portion between the drive shaft and the bearing and the second sealing portion being located on an opposite side of the bearing-portion oil-supply passage in an axial direction of the sliding face at a second interface portion between the drive shaft and the bearing, and at least one of the drive shaft and the bearing including an oil supply groove, a length b of the oil supply groove in the axis direction, a length L of the bearing in the axis direction and a gap distance C between an inside diameter of the bearing and an outside diameter of the drive shaft at the sliding face being provided such that 0.3L3. 10. A rotary compressor comprising: a casing including high-pressure and low-pressure spaces; a compressing mechanism; at least one bearing disposed in the high-pressure space in the casing, the bearing having an inner peripheral face; an oil reservoir having an inside pressure that increases during operation with the low-pressure space; and a compressor motor with a drive shaft driving the compressing mechanism, the drive shaft being supported by the bearing, the drive shaft having an outer peripheral face, the drive shaft further having a main oil-supply passage and at least one bearing-portion oil-supply passage formed in the drive shaft, the main oil-supply passage connecting the oil reservoir, one end of the bearing-portion oil-supply passage being connected with the main oil-supply passage and another end of the bearing-portion oil-supply passage being connected with a sliding face constituted between the drive shaft and the bearing, the outer peripheral face of the drive shaft and the inner peripheral face of the bearing forming first and second sealing portions having substantially air-tight structures, the first sealing portion being located on a side of the bearing-portion oil-supply passage at a first interface portion between the drive shaft and the bearing and the second sealing portion being located on an opposite side of the bearing-portion oil-supply passage in an axial direction of the sliding face at a second interface portion between the drive shaft and the same bearing, at least one of the drive shaft and the bearing including an oil-supply groove connected to the bearing-portion oil-supply passage, the oil-supply groove being formed at the sliding face and located between the first and second sealing portions, and the oil-supply groove having a rectangular shape and being flat-faced. 11. The rotary compressor of claim 10, wherein the drive shaft is disposed so as to extend in a vertical direction in the casing, the at least one bearing includes a lower bearing that is close to the oil reservoir and an upper bearing that is located above the lower bearing, and the oil supply groove is disposed at least at the upper bearing. 12. The rotary compressor of claim 10, wherein the compressing mechanism includes a fixed scroll that is fixed in the casing and an orbiting scroll that revolves orbitally relative to the fixed scroll, the orbiting scroll includes a scroll-portion oil-supply passage that is formed so as to be connected from the main oil-supply passage of the drive shaft through a sliding surface constituted between the fixed scroll and the orbiting scroll to the low-pressure space that is located at a suction side of the compressing mechanism. 13. The rotary compressor of claim 10, wherein at least part of the scroll-portion oil-supply passage is constituted of a restriction pathway.
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