IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0491863
(2009-06-25)
|
등록번호 |
US-8546716
(2013-10-01)
|
우선권정보 |
EP-06405545 (2006-12-27) |
발명자
/ 주소 |
- Nufer, Juerg
- Kriegel, Martin
- Hunger, Olaf
- Perela, Marialuisa
|
출원인 / 주소 |
|
대리인 / 주소 |
Buchanan Ingersoll & Rooney PC
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
5 |
초록
▼
A gas-blast circuit breaker is disclosed which includes a first contact and a second contact which can move relative to one another along a longitudinal axis. A blowout volume is arranged around the first contact. The blowout volume can be connected via a gas channel to an arc zone, in order to blow
A gas-blast circuit breaker is disclosed which includes a first contact and a second contact which can move relative to one another along a longitudinal axis. A blowout volume is arranged around the first contact. The blowout volume can be connected via a gas channel to an arc zone, in order to blow out an arc which is struck when the first contact is disconnected from the second contact. The blowout volume can be bounded radially on an outside by a separating element which separates the blowout volume from a low-pressure area. A flow opening, which allows a gas exchange, can lead in a radial direction from the low-pressure area into the blowout volume.
대표청구항
▼
1. A gas-blast circuit breaker comprising: a first contact;a second contact for making an electrically conductive connection to the first contact, with the first contact being movable relative to the second contact along a longitudinal axis;a blowout volume including a compression area, which is con
1. A gas-blast circuit breaker comprising: a first contact;a second contact for making an electrically conductive connection to the first contact, with the first contact being movable relative to the second contact along a longitudinal axis;a blowout volume including a compression area, which is connected to an arc zone for receiving a pressure build-up and for blowing out an arc with quenching gas;a cylinder-piston arrangement in the compression area of the blowout volume;an exhaust volume for receiving and cooling gas;a low-pressure area, which is separated by a separating element from the blowout volume and in which gas pressure is maintained approximately constant during a switching process; anda plurality of parallel flow openings formed in the separating element, at least one of which cannot be closed, for providing a gas exchange between the low-pressure area and the compression area of the blowout volume through an area of the separating element which separates the compression area of the blowout volume from the low-pressure area in a radial direction with respect to the longitudinal axis. 2. The gas-blast circuit breaker as claimed in claim 1, wherein a flow direction through the flow opening runs essentially in the radial direction. 3. The gas-blast circuit breaker as claimed in claim 1, comprising: an intermediate element arranged in the blowout volume for subdividing the blowout volume into a heating area which is directly connected to the arc zone, and the compression area, with the flow opening into the compression area. 4. The gas-blast circuit breaker as claimed in claim 1, comprising: a further flow opening which can be closed and including a purging valve formed as a non-return valve which opens when gas pressure on a low-pressure area of the further flow opening is higher. 5. The gas-blast circuit breaker as claimed in claim 1, wherein the separating element is movable during opening and during closing of the electrically conductive connection. 6. The gas-blast circuit breaker as claimed in claim 1, wherein the flow opening opens directly into the low-pressure area. 7. The gas-blast circuit breaker as claimed in claim 3, comprising: a first channel formed between the compression area and the heating area for gas flow from the compression area into the heating area; andan intermediate valve formed as a non-return valve for closing the first channel when pressure in the heating area is higher than pressure in the compression volume. 8. The gas-blast circuit breaker as claimed in claim 7, wherein the flow opening is a first flow opening, the circuit breaker comprising: a second flow opening formed as a connecting channel, with the connecting channel and the first channel being formed in a common assembly, anda valve for closing the connecting channel and a valve for closing the first channel. 9. The gas-blast circuit breaker as claimed in claim 8, wherein the flow opening and first channel are arranged in a common assembly. 10. The gas-blast circuit breaker as claimed in claim 1, wherein the exhaust volume is adjacent in the longitudinal direction to the blowout volume on a side of the gas-blast circuit opposite the arc zone, and wherein the piston of the cylinder-piston arrangement for separates the blowout volume in a sealed manner from the exhaust volume, andwherein the separating element is formed by the cylinder of the cylinder-piston arrangement. 11. The gas-blast circuit breaker as claimed in claim 1, wherein the exhaust volume is connected to the low-pressure area via a gas return. 12. The gas-blast circuit breaker as claimed in claim 1, wherein the low-pressure area is arranged radially outside the blowout volume with respect to the longitudinal axis of the gas-blast circuit breaker. 13. The gas-blast circuit breaker as claimed in claim 3, wherein at least one of flow openings comprising: a purging aperture formed between the compression area and the exhaust volume; anda purging valve formed as a non-return valve for closing the purging aperture when pressure in the compression area is higher than pressure in the exhaust volume. 14. A gas-blast circuit breaker comprising: a first contact;a second contact for making an electrically conductive connection to the first contact, with the first contact and the second contact being movable relative to one another along a longitudinal axis;a blowout volume including a compression area, which is connected to an arc zone for receiving a pressure build-up and for blowing out an arc with quenching gas;a cylinder-piston arrangement in the compression area of the blowout volume;an exhaust volume for receiving and cooling gas;a low-pressure area, which is separated by a separating element from the blowout volume and in which gas pressure is maintained approximately constant during a switching process;a plurality of parallel flow openings formed in the separating element for providing a gas exchange between the low-pressure area and the compression area of the blowout volume though an area of the separating element which separates the compression area of the blowout volume from the low-pressure area in a radial direction with respect to the longitudinal axis,wherein one of the flow openings is a purging valve formed as a non-return valve arranged in or on the flow opening, which purging valve is formed as a non-return valve, which opens when the pressure in the compression area is lower than the pressure in the low-pressure area and which otherwise is closed. 15. The gas-blast circuit breaker as claimed in claim 14, wherein the purging valve is open when gas pressure is higher on a low-pressure area side of the flow opening. 16. The gas-blast circuit breaker as claimed in claim 14, wherein the purging valve and an overpressure valve are arranged as a dual-acting valve in or on the flow opening. 17. The gas-blast circuit breaker as claimed in claim 14, comprising: a further flow opening; andan overpressure valve arranged in or on the further flow opening for opening at a defined reduced pressure on a low-pressure area side of the further flow opening. 18. The gas-blast circuit breaker as claimed in claim 17, wherein the overpressure valve and/or the purging valve are/is arranged in the radial direction between the separating element and the longitudinal axis of the gas-blast circuit breaker. 19. The gas-blast circuit breaker as claimed in claim 14, comprising: an intermediate element arranged in the blowout volume for subdividing the blowout volume into a heating area which is connected directly to the arc zone, and the compression area, wherein the flow opening opens into the compression area. 20. The gas-blast circuit breaker as claimed in claim 17, comprising: an intermediate element arranged in the blowout volume for subdividing the blowout volume into a heating area which is directly connected to the arc zone, and the compression area, with the flow opening opens into the compression area. 21. The gas-blast circuit breaker as claimed in claim 14, wherein the separating element is movable during opening and during closing of the electrically conductive connection. 22. The gas-blast circuit breaker as claimed in claim 14, wherein the flow opening opens directly into the low-pressure area. 23. The gas-blast circuit breaker as claimed in claim 20, comprising: a first channel formed between the compression area and the heating area for gas flow from the compression area into the heating area; andan intermediate valve formed as a non-return valve for closing the first channel when pressure in the heating area is higher than pressure in the compression volume. 24. The gas-blast circuit breaker as claimed in claim 23, wherein the flow opening is formed as a connecting channel, with the connecting channel and the first channel being formed in a common assembly, the gas blast circuit breaker comprising: a valve for closing the connecting channel and a valve for closing the first channel. 25. The gas-blast circuit breaker as claimed in claim 14, wherein the exhaust volume is adjacent in the longitudinal direction to the blowout volume on a side of the gas-blast circuit opposite the arc zone, and wherein the piston of the cylinder-piston arrangement separates the blowout volume in a sealed manner from the exhaust volume, andwherein the separating element is formed by the cylinder of the cylinder-piston arrangement. 26. The gas-blast circuit breaker as claimed in claim 14, wherein the exhaust volume is connected to the low-pressure area via a gas return. 27. The gas-blast circuit breaker as claimed in claim 14, wherein the low-pressure area is arranged radially outside the blowout volume with respect to the longitudinal axis of the gas-blast circuit breaker.
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