A turbocharged engine includes an internal combustion engine and a variable geometry turbocharger. The turbocharger is adjustable to operate efficiently under various engine operating and environmental conditions. The turbocharger includes a turbine and compressor, with the compressor including a co
A turbocharged engine includes an internal combustion engine and a variable geometry turbocharger. The turbocharger is adjustable to operate efficiently under various engine operating and environmental conditions. The turbocharger includes a turbine and compressor, with the compressor including a compressor housing, an impeller rotatably mounted in the housing, and an adjustable diffuser vane assembly. The diffuser vane assembly includes a plurality of pivotal diffuser vanes spaced about the impeller and a vane rotation drive that interconnects the vanes and permits simultaneous adjustment of the diffuser vanes to improve the efficiency and operating range of the turbocharger. The diffuser vane assembly also includes a vane locking drive operable to engage the pivotal vanes and prevent vane movement during turbocharger operation.
대표청구항▼
1. A variable geometry turbocharger configured to provide compressed air flow, said variable geometry turbocharger comprising: a turbocharger housing presenting a compressor chamber with an inlet and a diffuser,a rotatable impeller positioned in the compressor chamber; andan adjustable diffuser vane
1. A variable geometry turbocharger configured to provide compressed air flow, said variable geometry turbocharger comprising: a turbocharger housing presenting a compressor chamber with an inlet and a diffuser,a rotatable impeller positioned in the compressor chamber; andan adjustable diffuser vane assembly including a plurality of diffuser vanes positioned in the diffuser and circumferentially spaced about the impeller, said diffuser vanes being pivotal relative to the impeller to define an adjustable vane angle relative to the impeller,said adjustable diffuser vane assembly including a vane-locking drive operably coupled to the diffuser vanes, said vane-locking drive being shiftable into and out of a locked configuration in which the vane-locking drive holds the diffuser vanes to restrict vane angle adjustment,said turbocharger housing presenting a turbine chamber,said turbocharger housing including first and second housing sections, with the first housing section being positioned between the turbine chamber and the compressor chamber,said second housing section being spaced from the first housing section, with the housing sections cooperatively defining at least part of the diffuser,said second housing section being shiftably mounted relative to the first housing section and attached to the vane-locking drive to shift into and out of the locked condition along an axial direction,said second housing section engaging the diffuser vanes in the locked condition to restrict vane angle adjustment,said turbocharger housing including a compressor scroll section,said second housing section being shiftably mounted between the scroll section and the first housing section, and operable to slide toward the first housing section into a vane holding position that corresponds to the locked condition,said first and second housing sections engaging the diffuser vanes in the vane holding position. 2. The variable geometry turbocharger as claimed in claim 1, said vane-locking drive including a drive motor mounted to the compressor scroll section,said drive motor attached to the second housing section and configured to shift the second housing section along the axial direction. 3. The variable geometry turbocharger as claimed in claim 2, said drive motor comprising a pneumatic cylinder that includes a cylinder housing mounted to the compressor scroll section and a piston mounted to the second housing section. 4. The variable geometry turbocharger as claimed in claim 1, said vane-locking drive including a spring configured to bias the second housing section into the locked condition. 5. The variable geometry turbocharger as claimed in claim 1, said impeller being rotatable to draw air flow from the inlet and discharge air flow into the diffuser,said second housing section extending from the inlet along the impeller to serve as an impeller shroud. 6. The variable geometry turbocharger as claimed in claim 1, each of said diffuser vanes pivotally attached to the second housing section. 7. The variable geometry turbocharger as claimed in claim 6, said adjustable diffuser vane assembly including a drive ring supported by the second housing section,said drive ring attached relative to the diffuser vanes and configured to adjust the vane angle of the diffuser vanes by rotating relative to the diffuser vanes when the vane-locking drive is out of the locked condition. 8. The variable geometry turbocharger as claimed in claim 7, said adjustable diffuser vane assembly including a plurality of vane rotation elements mounted on the second housing section and each in engagement with and configured to rotate a corresponding diffuser vane and adjust the vane angle. 9. The variable geometry turbocharger as claimed in claim 1, said adjustable diffuser vane assembly including a rotating drive ring supported by at least one of the housing sections,said drive ring attached relative to the diffuser vanes and configured to adjust the vane angle of the diffuser vanes. 10. A variable geometry turbocharger configured to provide compressed air flow, said variable geometry turbocharger comprising: a turbocharger housing presenting a compressor chamber with an inlet and a diffuser,a rotatable impeller positioned in the compressor chamber; andan adjustable diffuser vane assembly including a plurality of diffuser vanes positioned in the diffuser and circumferentially spaced about the impeller, said diffuser vanes being pivotal relative to the impeller to define an adjustable vane angle relative to the impeller;said adjustable diffuser vane assembly including a rotating drive ring attached relative to the diffuser vanes and configured to adjust the vane angle of the diffuser vanes,said turbocharger housing presenting a turbine chamber,said turbocharger housing including first and second housing sections, with the first housing section being positioned between the turbine chamber and the compressor chamber,said second housing section being spaced from the first housing section, with the housing sections cooperatively defining at least part of the diffuser,said drive ring supported by the second housing section,said adjustable diffuser vane assembly including a plurality of vane rotation elements mounted on the second housing section and each in engagement with and configured to rotate a corresponding diffuser vane and adjust the vane angle,said vane rotation elements in engagement with the drive ring and configured to be shifted by the drive ring at the same time to adjust the vane angles,said vane rotation elements each including a rotatable disc mounted in the second housing section, with the rotatable disc and the corresponding diffuser vane being interconnected so that the diffuser vane pivots as the disc rotates. 11. The variable geometry turbocharger as claimed in claim 10, said interconnected rotatable disc and diffuser vane being pivotal about respective axes that are offset from one another and being slidably interconnected to cooperatively form a linkage, with an amount of angular disc movement producing a different amount of angular vane movement. 12. The variable geometry turbocharger as claimed in claim 11, said diffuser vane being pivotal through a range of angular movement to vary the compressed air flow. 13. The variable geometry turbocharger as claimed in claim 10, said drive ring and said rotatable discs being slidably interconnected, with pivotal movement of the drive ring causing pivotal movement of the rotatable discs. 14. The variable geometry turbocharger as claimed in claim 13, said drive ring presenting a plurality of circumferentially spaced cam surfaces,said rotatable discs each including a follower portion in sliding engagement with a corresponding cam surface. 15. The variable geometry turbocharger as claimed in claim 10, said rotatable impeller being rotatable to draw air flow from the inlet and discharge air flow into the diffuser,said second housing section extending from the inlet along the impeller to serve as an impeller shroud. 16. A variable geometry turbocharger configured to provide compressed air flow, said variable geometry turbocharger comprising: a turbocharger housing presenting a compressor chamber with an inlet and a diffuser,a rotatable impeller positioned in the compressor chamber; andan adjustable diffuser vane assembly including a plurality of diffuser vanes positioned in the diffuser and circumferentially spaced about the impeller, said diffuser vanes being pivotal relative to the impeller to define an adjustable vane angle relative to the impeller;said adjustable diffuser vane assembly including a rotating drive ring supported by the turbocharger housing for rotational movement relative thereto,said adjustable diffuser vane assembly including a plurality of vane rotation elements each shiftably attached to a respective diffuser vane so that shifting movement of the vane rotation elements relative to the respective diffuser vanes causes corresponding pivotal movement of diffuser vanes,said drive ring being in driving engagement with the vane rotation elements to pivot the diffuser vanes as the drive ring is rotated. 17. The variable geometry turbocharger as claimed in claim 16, said turbocharger housing presenting a turbine chamber,said turbocharger housing including first and second housing sections, with the first housing section being positioned between the turbine chamber and the compressor chamber,said second housing section being spaced from the first housing section, with the first and second housing sections cooperatively defining at least part of the diffuser,said drive ring and said vane rotation elements being shiftably supported by the second housing section. 18. The variable geometry turbocharger as claimed in claim 17, said drive ring and said vane rotation elements being slidably interconnected, with pivotal movement of the drive ring causing pivotal movement of the vane rotation elements. 19. The variable geometry turbocharger as claimed in claim 18, said drive ring presenting a plurality of circumferentially spaced cam surfaces,said vane rotation elements each including a follower portion in engagement with a corresponding cam surface. 20. The variable geometry turbocharger as claimed in claim 17, said vane rotation elements each including a rotatable disc mounted in the second housing section, with the rotatable disc and the corresponding diffuser vane being interconnected so that the diffuser vane pivots as the disc rotates. 21. The variable geometry turbocharger as claimed in claim 20, said interconnected rotatable disc and diffuser vane being pivotal about respective axes that are offset from one another and being slidably interconnected to cooperatively form a linkage, with an amount of angular disc movement producing a different amount of angular vane movement. 22. The variable geometry turbocharger as claimed in claim 21, said diffuser vane being pivotal through a range of angular movement to vary the compressed air flow. 23. The variable geometry turbocharger as claimed in claim 20, said drive ring and said rotatable discs being slidably interconnected, with pivotal movement of the drive ring causing pivotal movement of the rotatable discs. 24. The variable geometry turbocharger as claimed in claim 23, said drive ring presenting a plurality of circumferentially spaced cam surfaces,said rotatable discs each including a follower portion in sliding engagement with a corresponding cam surface. 25. The variable geometry turbocharger as claimed in claim 17, said rotatable impeller being rotatable to draw air flow from the inlet and discharge air flow into the diffuser,said second housing section extending from the inlet along the impeller to serve as an impeller shroud. 26. A variable geometry turbocharger configured to provide compressed air flow, said variable geometry turbocharger comprising: a turbocharger housing presenting a turbine chamber and a compressor chamber with an inlet and a diffuser,said turbocharger housing including first and second housing sections that cooperatively define at least part of the diffuser therebetween, with the first housing section being positioned between the turbine chamber and the compressor chamber;a rotatable impeller rotatably positioned in the compressor chamber to draw air flow from the inlet and discharge air flow into the diffuser,said second housing section extending from the inlet along the impeller to serve as an impeller shroud; andan adjustable diffuser vane assembly including a plurality of diffuser vanes positioned in the diffuser and circumferentially spaced about the impeller, said diffuser vanes being pivotal relative to the impeller to define an adjustable vane angle relative to the impeller,said adjustable diffuser vane assembly including a rotating drive ring shiftably mounted on the second housing section, said drive ring attached relative to and spaced from the diffuser vanes and configured to adjust the vane angle of the diffuser vanes. 27. The variable geometry turbocharger as claimed in claim 26, said adjustable diffuser vane assembly including a plurality of vane rotation elements each shiftably attached to a respective diffuser vane so that shifting movement of the vane rotation elements relative to the respective diffuser vanes causes corresponding pivotal movement of diffuser vanes,said drive ring being in driving engagement with the vane rotation elements to pivot the diffuser vanes as the drive ring is rotated,said drive ring and said vane rotation elements being shiftably supported by the second housing section. 28. The variable geometry turbocharger as claimed in claim 27, said drive ring and said vane rotation elements being slidably interconnected, with pivotal movement of the drive ring causing pivotal movement of the vane rotation elements. 29. The variable geometry turbocharger as claimed in claim 28, said drive ring presenting a plurality of circumferentially spaced cam surfaces,said vane rotation elements each including a follower portion in engagement with a corresponding cam surface. 30. The variable geometry turbocharger as claimed in claim 27, said vane rotation elements each including a rotatable disc mounted in the second housing section, with the rotatable disc and the corresponding diffuser vane being interconnected so that the diffuser vane pivots as the disc rotates. 31. The variable geometry turbocharger as claimed in claim 30, said interconnected rotatable disc and diffuser vane being pivotal about respective axes that are offset from one another and being slidably interconnected to cooperatively form a linkage, with an amount of angular disc movement producing a different amount of angular vane movement. 32. The variable geometry turbocharger as claimed in claim 31, said diffuser vane being pivotal through a range of angular movement to vary the compressed air flow. 33. The variable geometry turbocharger as claimed in claim 30, said drive ring and said rotatable discs being slidably interconnected, with pivotal movement of the drive ring causing pivotal movement of the rotatable discs. 34. The variable geometry turbocharger as claimed in claim 33, said drive ring presenting a plurality of circumferentially spaced cam surfaces,said rotatable discs each including a follower portion in sliding engagement with a corresponding cam surface.
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이 특허에 인용된 특허 (4)
Daudel,Helmut; L?ffler,Paul; Schenkel,Stephan; Spurk,Joseph, Compressor, particularly in an exhaust gas turbocharger for an internal combustion engine.
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