IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0003348
(2009-07-09)
|
등록번호 |
US-8671683
(2014-03-18)
|
국제출원번호 |
PCT/US2009/050076
(2009-07-09)
|
§371/§102 date |
20110110
(20110110)
|
국제공개번호 |
WO2010/006149
(2010-01-14)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Michael Best & Friedrich, LLP
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
16 |
초록
▼
A butterfly valve for a turbocharger system in which the leak path through the valve is controlled by keeping the clearance between either a shaft of the valve and two bushings small or the clearance between the bushings and the counter bores in the valve element small, and making the other clearanc
A butterfly valve for a turbocharger system in which the leak path through the valve is controlled by keeping the clearance between either a shaft of the valve and two bushings small or the clearance between the bushings and the counter bores in the valve element small, and making the other clearance larger.
대표청구항
▼
1. A series sequential turbocharger system being coupled to an engine, the turbocharger system comprising: a low pressure turbocharger having a low pressure compressor and a low pressure turbine, the low pressure compressor being rotatably coupled to the low pressure turbine, and the low pressure co
1. A series sequential turbocharger system being coupled to an engine, the turbocharger system comprising: a low pressure turbocharger having a low pressure compressor and a low pressure turbine, the low pressure compressor being rotatably coupled to the low pressure turbine, and the low pressure compressor being in fluid communication with an intake manifold of the engine, and the low pressure turbine being in fluid communication with an exhaust manifold of the engine;a high pressure turbocharger having a high pressure compressor and a high pressure turbine, the high pressure compressor being rotatably coupled to the high pressure turbine, the high pressure compressor being in fluid communication with the intake manifold of the engine, and the high pressure turbine being in fluid communication with the exhaust manifold of the engine;a butterfly valve for controlling a gas stream in the turbocharger system, the butterfly valve having: a housing with a valve passageway through which the gas stream passes from a first end of the valve to a second end of the valve, the valve passageway including: a shaft axis;bores on opposite sides of the passageway, the bores being aligned along the shaft axis with one another;lap seating surfaces on opposite sides of the passageway facing opposite ends of the valve, the shaft axis being between the lap seating surfaces;a butterfly valve element in the valve passageway between the bores, the butterfly valve element having counter bores;two bushings, each bushing being received in a different one of the bores and extending from the bore inwardly into a different one of the counter bores of the butterfly valve element;a shaft extending along the shaft axis and in each of the bushings so as to journal the shaft relative to the housing; andwherein there is a first slip fit creating a first rotary joint between the bushings and the counter bores and a second slip fit creating a second rotary joint between the shaft and the bushings, and one of the slip fits is closer than the other to insure the butterfly valve element seats flatly against the seating surfaces. 2. The turbocharger system of claim 1, wherein the first slip fit is a close running fit and the second slip fit is a looser fit than the first slip fit. 3. The turbocharger system of claim 2, wherein the first slip fit has a first interface length and the second slip fit has a second interface length, and wherein the first interface length is less than the second interface length. 4. The turbocharger system of claim 1, wherein the second slip fit is a close running fit and the first slip fit is a looser fit than the second slip fit. 5. The turbocharger system of claim 1, wherein a majority of the clearance provided by the slip fits is between the shaft and the bushings. 6. The turbocharger system of claim 1, wherein a majority of the clearance provided by the slip fits is between the bushings and the counter bores. 7. The turbocharger system of claim 1 wherein the housing and the butterfly valve element are cast steel, the shaft is stainless steel, and the bushings are steel. 8. The turbocharger system of claim 1, wherein the first end of the butterfly valve is in fluid communication with an inlet of the high pressure compressor and the second end of the butterfly valve is in fluid communication with an outlet of the high pressure compressor. 9. The turbocharger system of claim 1, wherein the first end of the butterfly valve is in fluid communication with an inlet of the high pressure turbine and the second end of the butterfly valve is in fluid communication with an outlet of the high pressure turbine. 10. The turbocharger system of claim 1, further comprising a plurality of butterfly valves. 11. A butterfly valve for controlling a gas stream of an internal combustion engine, comprising: a housing with a valve passageway through which the gas stream passes from one end of the valve to the other end of the valve, the valve passageway including: a shaft axis;bores on opposite sides of the passageway, the bores being aligned along the shaft axis with one another;lap seating surfaces on opposite sides of the passageway facing opposite ends of the valve, the shaft axis being between the lap seating surfaces;a butterfly valve element in the valve passageway between the bores, the butterfly valve element having counter bores on opposite sides of the butterfly valve element aligned along the shaft axis;two bushings, each bushing being received in a different one of the bores and extending from the bore inwardly into a different one of the counter bores of the butterfly valve element;a shaft extending along the shaft axis and in each of the bushings so as to journal the shaft relative to the housing; and wherein there is a first slip fit creating a first rotary joint between the bushings and the counter bores and a second slip fit creating a second rotary joint between the shaft and the bushings, and one of the slip fits is closer than the other to insure the butterfly valve element seats flatly against the lap seating surfaces. 12. The butterfly valve of claim 11, wherein the first slip fit is a close running fit and the second slip fit is a looser fit than the first slip fit. 13. The butterfly valve of claim 11, wherein the first slip fit has a first interface length and the second slip fit has a second interface length, and wherein the first interface length is less than the second interface length. 14. The butterfly valve of claim 11, wherein the second slip fit is a close running fit and the first slip fit is a looser fit than the second slip fit. 15. The butterfly valve of claim 11, wherein a majority of the clearance provided by the slip fits is between the shaft and the bushings. 16. The butterfly valve of claim 11, wherein a majority of the clearance provided by the slip fits is between the bushings and the counter bores. 17. The butterfly valve of claim 11, wherein the housing and the butterfly valve element are cast steel, the shaft is stainless steel, and the bushings are steel.
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