IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0832348
(2004-04-27)
|
우선권정보 |
KR-10-2003-0050696(2003-07-23) |
발명자
/ 주소 |
- Lee,In Ju
- Cho,Sung Hea
- Lee,Seung Kap
- Kim,Cheol Woo
|
출원인 / 주소 |
- Samsung Electronics Co., Ltd.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
7 인용 특허 :
6 |
초록
▼
A variable capacity rotary compressor to prevent an eccentric bush and a locking pin from being deformed or worn out due to a variance in a pressure of a compression chamber as a rotating shaft rotates. The compressor includes upper and lower compression chambers having different interior capacities
A variable capacity rotary compressor to prevent an eccentric bush and a locking pin from being deformed or worn out due to a variance in a pressure of a compression chamber as a rotating shaft rotates. The compressor includes upper and lower compression chambers having different interior capacities thereof, and a rotating shaft. Upper and lower eccentric cams are provided on the rotating shaft to be eccentric from the rotating shaft in a common direction. Upper and lower eccentric bushes are fitted over the upper and lower eccentric cams, respectively, with a slot provided at a position between the upper and lower eccentric bushes. The locking pin operates to change a position of the upper or lower eccentric bush to a maximum eccentric position. Further, surfaces of parts around first and second ends of the slot are heat-treated, thus increasing a hardness thereof.
대표청구항
▼
What is claimed is: 1. A variable capacity rotary compressor, comprising: upper and lower compression chambers having different interior capacities thereof; a rotating shaft passing through the upper and lower compression chambers; upper and lower eccentric cams provided on the rotating shaft; upp
What is claimed is: 1. A variable capacity rotary compressor, comprising: upper and lower compression chambers having different interior capacities thereof; 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 to change a position of the upper or lower eccentric bush to a maximum eccentric position, in cooperation with the slot; and a surface-treated part provided around each of first and second ends of the slot to increase a hardness thereof to prevent the first and second ends of the slot from being deformed or worn out when the locking pin collides with the first and second ends of the slot. 2. The rotary compressor according to claim 1, wherein the surface-treated part is provided through a localized heat treatment. 3. The rotary compressor according to claim 2, wherein the surface-treated part is provided through a high-frequency heat treatment to allow a surface of the surface-treated part to have the increased hardness while preventing an elongation of an interior of the surface-treated part from being reduced. 4. The rotary compressor according to claim 2, wherein the surface-treated part is fabricated to have a Rockwell Hardness of 45 or higher. 5. The rotary compressor according to claim 2, wherein the surface-treated part is fabricated to have a pearlite composition of 50% or more. 6. The rotary compressor according to claim 2, wherein an interior of the surface-treated part has an elongation of 15% or higher. 7. The rotary compressor according to claim 1, further comprising: a connecting part integrally connecting the upper and lower eccentric bushes, which are eccentric from the rotating shaft in opposite directions, to each other, wherein the locking pin projects from the rotating shaft between the upper and lower eccentric cams which are eccentric from the rotating shaft in a common direction, and the slot is formed around the connecting part to engage with the locking pin. 8. The rotary compressor according to claim 7, wherein the upper and lower eccentric bushes are integrated with the connecting part into a single structure through a forging process. 9. The rotary compressor according to claim 8, wherein the surface-treated part is provided through a localized heat treatment to allow a surface of the surface-treated part to have a Rockwell Hardness of 45 or higher while allowing an interior of the surface-treated part to have an elongation of 15% or higher. 10. The rotary compressor according to claim 9, wherein the surface-treated part is fabricated to have a pearlite composition of 50% or more. 11. The rotary compressor according to claim 7, wherein the upper and lower eccentric bushes are integrated with the connecting part into a single structure through a casting process. 12. The rotary compressor according to claim 11, wherein the surface-treated part is provided through a localized heat treatment to allow a surface of the surface-treated part to have a Rockwell Hardness of 45 or higher and an interior of the surface-treated part to have an elongation of 15% or higher. 13. The rotary compressor according to claim 12, wherein the surface-treated part is fabricated to prevent a chilled structure from being formed. 14. A variable capacity rotary compressor, comprising: upper and lower compression chambers having different interior capacities thereof; a rotating shaft passing through the upper and lower compression chambers; upper and lower eccentric cams mounted to the rotating shaft to be placed in the upper and lower compression chambers, respectively, the upper and lower eccentric cams being eccentric from the rotating shaft in a common 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 around a connecting part which connects the upper and lower eccentric bushes to each other; a locking pin projecting from the rotating shaft between the upper and lower eccentric cams and to engage with the slot, the locking pin operating to change a position of the upper eccentric bush or the lower eccentric bush to a maximum eccentric position according to a rotating direction of the rotating shaft; and a surface-treated part provided around each of first and second ends of the slot to increase a hardness thereof to prevent the first and second ends of the slot from being deformed or worn out when the locking pin collides with the first and second ends of the slot. 15. The rotary compressor according to claim 14, wherein the upper and lower eccentric bushes are integrated with the connecting part into a single structure through a forging process. 16. The rotary compressor according to claim 15, wherein the surface-treated part is provided through a localized heat treatment to allow a surface of the surface-treated part to have a Rockwell Hardness of 45 or higher and an interior of the surface-treated part to have an elongation of 15% or higher. 17. The rotary compressor according to claim 16, wherein the surface-treated part is fabricated to have a pearlite composition of 50% or more. 18. The rotary compressor according to claim 14, wherein the upper and lower eccentric bushes are integrated with the connecting part into a single structure through a casting process. 19. The rotary compressor according to claim 18, wherein the surface-treated part is provided through a localized heat treatment to allow a surface of the surface-treated part to have a Rockwell hardness of 45 or higher and an interior of the surface-treated part to have an elongation of 15% or higher. 20. The rotary compressor according to claim 19, wherein the surface-treated part is fabricated to prevent a chilled structure from being formed. 21. The rotary compressor according to claim 16, wherein the surface-treated part is made of one of cast iron and steel. 22. A variable capacity rotary compressor having upper and lower compression chambers, comprising: upper and lower eccentric cams rotatably provided in the upper and lower compression chambers, respectively; upper and lower eccentric bushes fitted over the upper and lower eccentric cams, respectively; a slot formed between the upper and lower eccentric bushes, and having first and second ends; a locking pin movable within the slot to configure the upper and lower eccentric bushes to provide a compression operation in one of the upper and lower compression chambers and to provide an idle operation in a remaining one of the upper and lower compression chambers; and a surface-treated part provided around each of the first and second ends of the slot to increase a hardness thereof to prevent the first and second ends of the slot from being deformed or worn out when the locking pin collides with the first and second ends of the slot. 23. The rotary compressor according to claim 22, wherein the upper and lower eccentric bushes are not rotated until the locking pin comes into contact with one of the first and second ends of the slot and when the locking pin contacts with the first or second end of the slot, the upper and lower eccentric bushes rotates in a first direction or a second direction according to which one of the first and second ends is contacted by the locking pin. 24. A variable capacity rotary compressor having upper and lower compression chambers, comprising: a slot having first and second ends; a locking pin movable between the first and second ends, and upper and lower eccentric bushes provided in the upper and lower compression chambers, respectively, and changeably configurable such that a compression operation is provided in one of the upper and lower compression chambers and an idle operation is provided in a remaining one of the upper and lower compression chambers according to a position of the locking pin; and a surface-treated part provided around each of the first and second ends of the slot to prevent the first and second ends of the slot from being deformed or worn out when the locking pin collides with the first and second ends of the slot.
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