IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0843303
(2004-05-12)
|
우선권정보 |
KR-10-2003-0068055(2003-09-30) |
발명자
/ 주소 |
- Lee,Moon Joo
- Lee,Seung Kap
- Sung,Chun Mo
|
출원인 / 주소 |
- Samsung Electronics Co., Ltd.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
1 |
초록
▼
A variable capacity rotary compressor including a housing to define therein two compression chambers having different capacities, a rotating shaft transmit ting a rotating force from a drive unit to the two compression chambers, two eccentric parts are provided on an outer surface of the rotating sh
A variable capacity rotary compressor including a housing to define therein two compression chambers having different capacities, a rotating shaft transmit ting a rotating force from a drive unit to the two compression chambers, two eccentric parts are provided on an outer surface of the rotating shaft to be placed in the two compression chambers, respectively. Two eccentric bushes, having different weights respectively fitted over the eccentric parts to rotate relative to the rotating shaft within predetermined angles, a pair of force transmission parts, provided on opposite sides of the eccentric unit, to receive the rotating force of the rotating shaft so that one of the two eccentric bushes rotates while being eccentric from the rotating shaft and a remaining one of the two eccentric bushes rotates while being released from eccentricity from the rotating shaft, according to a rotating direction of the rotating shaft.
대표청구항
▼
What is claimed is: 1. A variable capacity rotary compressor, comprising: a housing to define therein a the first compression chamber having a first capacity, and a second compression chamber having a second capacity; a rotating shaft to transmit a rotating force to the first and second compression
What is claimed is: 1. A variable capacity rotary compressor, comprising: a housing to define therein a the first compression chamber having a first capacity, and a second compression chamber having a second capacity; a rotating shaft to transmit a rotating force to the first and second compression chambers; first and second eccentric parts, provided on an outer surface of the rotating shaft in the first and second compression chambers, respectively; an eccentric unit, including first and second eccentric bushes having different weights, the first and second eccentric bushes fitted over the first and second eccentric parts, respectively, to rotate relative to the rotating shaft within predetermined angles; and a pair of force transmission parts provided on opposite sides of the eccentric unit to receive the rotating force of the rotating shaft so that one of the first and second eccentric bushes rotates the rotating shaft and a remaining one of the first and second eccentric bushes rotates while being released from eccentricity from the rotating shaft, according to a rotating direction of the rotating shaft, the pair of force transmission parts being provided to be closer to a center of gravity of the first or second eccentric bush which is heavier, than to a center of gravity of the first or second eccentric bush which is lighter. 2. The variable capacity rotary compressor according to claim 1, further comprising: a locking slot provided around a predetermined portion of the eccentric unit so that opposite ends of the locking slot are placed on the opposite sides of the eccentric unit to serve as the pair of force transmission parts; and a locking pin projected from the outer surface of the rotating shaft to engage with the locking slot. 3. The variable capacity rotary compressor according to claim 1, wherein the pair of force transmission parts have axial positions aligned with an axial position of a center of gravity of the eccentric unit. 4. The variable capacity rotary compressor according to claim 1, further comprising a through hole which is axially provided along at least one of the first and second eccentric bushes, thus reducing an eccentric weight of the eccentric bush. 5. A variable capacity rotary compressor, comprising: a housing to define a first compression chamber having a first capacity, and a second compression chamber having a second capacity; a rotating shaft to transmit a rotating force to the first and second compression chambers; first and second eccentric parts, provided on an outer surface of the rotating shaft, in the first and second compression chambers, respectively; an eccentric unit comprising first and second eccentric bushes having different volumes, the first and second eccentric bushes fitted over the first and second eccentric parts, respectively, to rotate relative to the rotating shaft within predetermined angles; and a through hole axially provided along the first or second eccentric bush having a higher volume, thus reducing a weight difference between the first and second eccentric bushes. 6. A variable capacity rotary compressor, including a housing having first and second compression chambers having different capacities, and a rotating shaft to transmit a rotating force from a drive unit to the first and second compression chambers, comprising: first and second eccentric parts on an outer surface of the rotating shaft and placed in the first and second compression chambers, respectively; an eccentric unit, including first and second eccentric bushes made of similar materials and having different volumes, fitted over the first and second eccentric parts, respectively, to rotate relative to the rotating shaft; and force transmission parts to selectively rotate one of the eccentric bushes eccentrically and the other eccentric bush non-eccentrically, relative to the rotating shaft, according to a rotating direction of the rotating shaft, wherein the force transmission parts are closer to a center of gravity of the eccentric bush having the larger volume. 7. The variable capacity rotary compressor according to claim 6, further comprising: a locking slot provided around a predetermined portion of the eccentric unit so that opposite ends of the locking slot are placed on the opposite sides of the eccentric unit to serve as the pair of force transmission parts; and a locking pin projected from the outer surface of the rotating shaft to engage with the locking slot. 8. The variable capacity rotary compressor according to claim 6, wherein the pair of force transmission parts are aligned along an axial direction of the eccentric unit proximate to a center of gravity of the eccentric unit. 9. The variable capacity rotary compressor according to claim 6, further comprising a through hole which is provided along an axial direction of at least one of the first and second eccentric bushes to reduce an eccentric weight of the eccentric bush. 10. A variable capacity rotary compressor, including a housing having a first compression chamber having a first capacity, and a second compression chamber having a second capacity, and a rotating shaft to transmit a rotating force from a drive unit which generates the rotating force to the first and second compression chambers, comprising: first and second eccentric parts provided on an outer surface of the rotating shaft to be placed in the first and second compression chambers, respectively; an eccentric unit, including first and second eccentric bushes made of similar materials and having different volumes, fitted over the first and second eccentric parts, respectively, to rotate relative to the rotating shaft within predetermined angles; and a through hole extending axially along the eccentric bush having a larger volume, to reduce a weight difference between the first and second eccentric bushes. 11. A variable capacity rotary compressor, including a housing having first and second compression chambers having different capacities, and a rotating shaft to transmit a rotating force from a drive unit to the first and second compression chambers, comprising: first and second eccentric parts provided on the rotating shaft to be placed in the first and second compression chambers, respectively; an eccentric unit, including first and second eccentric bushes made of similar materials and having different volumes, fitted over the first and second eccentric parts, respectively, to rotate relative to the rotating shaft within predetermined angles; and a through hole extending axially along the eccentric bush having a larger volume, to reduce a weight difference between the first and second eccentric bushes.
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