IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0846538
(2004-05-17)
|
등록번호 |
US-7300259
(2007-11-27)
|
우선권정보 |
KR-10-2003-0071474(2003-10-14) |
발명자
/ 주소 |
- Cho,Sung Hea
- Lee,Seung Kap
- Sung,Chun Mo
|
출원인 / 주소 |
- Samsung Electronics Co., Ltd.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
2 |
초록
▼
A variable capacity rotary compressor, including upper and lower compression chambers having different capacities, a rotating shaft passing through the upper and lower compression chambers, upper and lower eccentric cams provided on the rotating shaft, and upper and lower eccentric bushes fitted ove
A variable capacity rotary compressor, including upper and lower compression chambers having different capacities, a rotating shaft passing through the upper and lower compression chambers, upper and lower eccentric cams provided on the rotating shaft, and upper and lower eccentric bushes fitted over the upper and lower eccentric cams, respectively. A slot is provided at a predetermined position between the upper and lower eccentric bushes. A locking pin, moves along the slot, to change a position of the upper or lower eccentric bush to a maximum eccentric position, and a clutch engages with the slot at a position opposite to the locking pin to thereby preventing the upper and lower eccentric bushes from slipping over the upper and lower eccentric cams, respectively.
대표청구항
▼
What is claimed is: 1. A variable capacity rotary compressor, comprising: upper and lower compression chambers having different capacities; a rotating shaft passing through the upper and lower compression chambers; upper and lower eccentric cams provided on the rotating shaft; upper and lower eccen
What is claimed is: 1. A variable capacity rotary compressor, comprising: upper and lower compression chambers having different capacities; a rotating shaft passing through the upper and lower compression chambers; upper and lower eccentric cams provided on the rotating shaft; upper and lower eccentric bushes fitted over the upper and lower eccentric cams, respectively; a slot provided at a predetermined position between the upper and lower eccentric bushes; a locking pin, moving along the slot, to change a position of the upper or lower eccentric bush to a maximum eccentric position; and a clutch to engage with the slot at a position opposite to the locking pin, to prevent the upper and lower eccentric bushes from slipping over the upper and lower eccentric cams, respectively, wherein the rotating shaft comprises a through hole which is provided at a height corresponding to the slot, to allow the locking pin and the clutch to be placed in first and second ends of the through hole, respectively, the clutch comprises a clutch pin set in the second end of the through hole to reciprocate in a radial direction of the rotating shaft and an elastic member provided in the through hole to elastically biasing the clutch pin so that the clutch pin retracts into the through hole when the rotating shaft stops rotating, and the clutch pin comprises a body part having a diameter which is larger than a width of the slot, a locking part projected from an outside end of the body part, and having a diameter which is smaller than the width of the slot, and a first threaded part projected from an inside end of the body part. 2. The variable capacity rotary compressor according to claim 1, wherein the locking pin comprises: a head to engage with the slot; and a threaded shank extending from the head, and comprising: a second thread mounted to the first end of the through hole through a screw-type fastening method, to mount the locking pin to the through hole; and a third thread projected from an inside end of the second thread. 3. The variable capacity rotary compressor according to claim 2, wherein the elastic member comprises a coil spring, the coil spring being set in the through hole to be coupled at first and second ends of the coil spring to the first threaded part of the clutch pin and the third thread of the locking pin, respectively. 4. The variable capacity rotary compressor according to claim 3, wherein the head of the locking pin and the locking part of the clutch pin respectively comprise a tightening slot, to allow the first and second ends of the coil spring to be coupled to the first thread of the clutch pin and the third thread of the locking pin, respectively. 5. The variable capacity rotary compressor according to claim 4, wherein the clutch pin and the coil spring are included in the second end of the through hole after the first end of the coil spring is coupled to the first thread of the clutch pin, and the locking pin is included in the first end of the through hole by mounting the second thread of the threaded shank of the locking pin to the first end of the through hole using the tightening slot of the locking pin, and subsequently, the clutch pin is tightened into the second end of the through hole using the tightening slot of the clutch pin, to couple the third thread of the locking pin to the second end of the coil spring, and thereby allowing the clutch pin to be set in the through hole to reciprocate in the radial direction of the rotating shaft by a centrifugal force of the rotating shaft and an elastic force of the coil spring. 6. A variable capacity rotary compressor, comprising: upper and lower compression chambers having different capacities; a rotating shaft passing through the upper and lower compression chambers; upper and lower eccentric cams provided on the rotating shaft to be eccentric from the rotating shaft in a same direction; upper and lower eccentric bushes fitted over the upper and lower eccentric cams, respectively, to be eccentric from the rotating shaft in opposite directions; a slot provided at a predetermined position between the upper and lower eccentric bushes; a locking pin to engage with a first or second end of the slot, according to a rotating direction of the rotating shaft, to change a position of the upper or lower eccentric bush to a maximum eccentric position; and a clutch to engage with the slot at a position opposite to the locking pin, thus preventing the upper and lower eccentric bushes from slipping over the upper and lower eccentric cams, respectively, wherein the locking pin is mounted to a first end of a through hole which is provided at a predetermined position of the rotating shaft between the upper and lower eccentric cams, and the slot is included at the predetermined position between the upper and lower eccentric bushes to receive an outside end of the locking pin therein, and has a length to allow an angle between a first line extending from the first end of the slot to a center of the rotating shaft and a second line extending from the second end of the slot to the center of the rotating shaft to be approximately 180째, the clutch comprises a clutch pin set in a second end of the through hole to reciprocate in a radial direction of the rotating shaft and an elastic member provided in the through hole to elastically biasing the clutch pin so that the clutch pin retracts into the through hole when the rotating shaft stops rotating, and the clutch pin comprises a body part having a diameter which is larger than a width of the slot, a locking part projected from an outside end of the body part, and having a diameter which is smaller than the width of the slot, and a first thread projected from an inside end of the body part. 7. The variable capacity rotary compressor according to claim 6, wherein the locking pin comprises: a head to engage with the slot; and a threaded shank extending from the head, and comprising: a second thread mounted to the first end of the through hole through a screw-type fastening method, to mount the locking pin to the through hole; and a third thread projected from an inside end of the second thread. 8. The variable capacity rotary compressor according to claim 7, wherein the elastic member comprises a coil spring, the coil spring being set in the through hole to be coupled at first and second ends of the coil spring to the first thread of the clutch pin and the thread part of the locking pin, respectively, and being extended by a centrifugal force which is generated by a rotation of the rotating shaft so that the clutch pin is projected out of the through hole to make the locking part of the clutch pin be locked by the slot, to thereby prevent the upper or lower eccentric bush from slipping.
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