Turbocharger assembly with compressed air cooled bearings
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02B-033/44
F01D-025/08
F01D-025/12
F04D-029/58
F04D-029/04
F02B-047/08
출원번호
US-0906999
(2013-05-31)
등록번호
US-9003793
(2015-04-14)
발명자
/ 주소
Begin, Louis
Edwards, Brian J.
Williams, Carnell E.
출원인 / 주소
GM Global Technology Operations LLC
대리인 / 주소
Quinn Law Group, PLLC
인용정보
피인용 횟수 :
2인용 특허 :
8
초록▼
A turbocharger assembly includes a compressor assembly, a turbine wheel, a shaft, a bearing assembly, and a cooling gas conduit. The compressor assembly includes a compressor impeller. The compressor impeller includes an outermost impeller edge and has a maximum cross-sectional dimension at the oute
A turbocharger assembly includes a compressor assembly, a turbine wheel, a shaft, a bearing assembly, and a cooling gas conduit. The compressor assembly includes a compressor impeller. The compressor impeller includes an outermost impeller edge and has a maximum cross-sectional dimension at the outermost impeller edge. The shaft interconnects the compressor impeller and the turbine wheel. The bearing assembly surrounds at least a portion of the shaft. The cooling gas conduit is disposed in fluid communication with the compressor assembly and the bearing assembly. At least a portion of the cooling gas conduit is disposed adjacent the outermost impeller edge such that the cooling gas conduit is configured to receive a portion of intake gases flowing along the outermost impeller edge and guide the portion of the intake gases toward the bearing assembly to cool the bearing assembly.
대표청구항▼
1. A turbocharger assembly comprising: a compressor assembly including a compressor impeller, the compressor impeller including an outermost impeller edge and having a maximum cross-sectional dimension at the outermost impeller edge;a turbine wheel;a shaft interconnecting the compressor impeller and
1. A turbocharger assembly comprising: a compressor assembly including a compressor impeller, the compressor impeller including an outermost impeller edge and having a maximum cross-sectional dimension at the outermost impeller edge;a turbine wheel;a shaft interconnecting the compressor impeller and the turbine wheel;a bearing assembly surrounding at least a portion of the shaft;a cooling gas conduit disposed in fluid communication with the compressor assembly and the bearing assembly, wherein at least a portion of the cooling gas conduit is disposed adjacent the outermost impeller edge such that the cooling gas conduit is configured to receive a portion of intake gases flowing along the outermost impeller edge and guide the portion of the intake gases toward the bearing assembly to cool the bearing assembly; andwherein the cooling gas conduit includes a first end portion and a second end portion, the first end portion is disposed adjacent the outermost impeller edge to facilitate entry of the portion of the intake gases into the cooling gas conduit, the first end portion includes a curved section configured to facilitate entry of the portion of the intake gases into the cooling gas conduit, and at least part of the first end portion overlaps the outermost impeller edge. 2. The turbocharger assembly of claim 1, wherein the compressor impeller defines a first impeller end and a second impeller end, and the first end portion is disposed adjacent the second impeller end such that the portion of the intake gases flows into the cooling gas conduit. 3. The turbocharger assembly of claim 1, further comprising a compressor backplate disposed adjacent the compressor impeller, wherein the cooling gas conduit is configured as a cooling gas opening extending through the compressor backplate. 4. The turbocharger assembly of claim 3, wherein the shaft is configured to rotate about a rotation axis, the cooling gas opening is elongated along an opening axis, and the opening axis is obliquely angled in relation to the rotation axis. 5. The turbocharger assembly of claim 3, further comprising a center housing coupled between the compressor assembly and the turbine wheel, wherein the compressor backplate is monolithically formed with the center housing. 6. The turbocharger assembly of claim 5, wherein the second end portion is disposed within the center housing. 7. The turbocharger assembly of claim 5, wherein the second end portion is disposed adjacent the bearing assembly such that the cooling gas conduit is configured to direct the portion of the intake gases into the bearing assembly. 8. A vehicle comprising: an engine including an intake manifold and an exhaust manifold; anda turbocharger assembly including:a compressor assembly disposed in fluid communication with the intake manifold and including a compressor impeller, the compressor impeller defining a first impeller end and a second impeller end;a turbine assembly disposed in fluid communication with the exhaust manifold and including a turbine wheel, the turbine wheel being closer to the second impeller end than to the first impeller end;a shaft interconnecting the compressor impeller and the turbine wheel;an air foil bearing assembly surrounding at least a portion of the shaft;a compressor backplate covering the second impeller end, the compressor backplate defining a plurality of cooling gas openings, each cooling gas opening extending through the compressor backplate and disposed in fluid communication with the compressor assembly and the air foil bearing assembly, wherein each cooling gas opening is configured to receive a portion of intake gases flowing along the compressor impeller and direct the portion of the intake gases toward the air foil bearing assembly to cool the air foil bearing assembly; andwherein the compressor impeller includes an outermost impeller edge and has a maximum cross-sectional dimension at the outermost impeller edge, at least part of each cooling gas opening is disposed adjacent the outermost impeller edge, the compressor backplate includes a plurality of inner backplate surfaces, each inner backplate surface defines at least one of the cooling gas openings, each inner backplate surface includes a curved section disposed adjacent the outermost impeller edge, and each curved section is configured to allow the portion of the intake gases to enter each cooling gas opening. 9. The vehicle of claim 8, wherein at least part of the curved section overlaps the outermost impeller edge. 10. The vehicle of claim 8, wherein at least one of the cooling gas openings is elongated along an opening axis, the shaft is configured to rotate about a rotation axis, and the opening axis is obliquely angled in relation to the rotation axis. 11. The vehicle of claim 8, further comprising a center housing coupled between the compressor assembly and the turbine assembly, wherein the compressor backplate is monolithically formed with the center housing. 12. The vehicle of claim 8, wherein at least one of the cooling gas openings is cylindrical. 13. A method of cooling an air foil bearing assembly comprising: compressing intake gases using a compressor assembly including a compressor housing, a compressor impeller located within the compressor housing and coupled to a shaft, and a compressor backplate coupled to the compressor housing, the compressor impeller defining an outermost impeller edge and having a maximum cross-sectional dimension at the outermost impeller edge, wherein the shaft is configured to rotate about a rotation axis; andguiding a portion of the intake gases flowing along the outermost impeller edge into the air foil bearing assembly via a cooling gas opening extending through the compressor backplate, wherein the cooling gas opening is elongated along an opening axis, and the opening axis is obliquely angled relative to the rotation axis. 14. The method of claim 13, further comprising guiding the portion of the intake gases through a bearing housing of the air foil bearing assembly to cool the air foil bearing assembly.
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이 특허에 인용된 특허 (8)
McAuliffe Christopher (Windsor CT) Dziorny Paul J. (Manchester CT), Bearing cooling arrangement for air cycle machine.
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