A turbine assembly can include a turbine wheel, a shroud component, a turbine housing and a seal that includes a wall and a lower lip that that extends radially outwardly from the wall at an obtuse angle where the seal is disposed, at least in part, between an outer surface of the shroud component a
A turbine assembly can include a turbine wheel, a shroud component, a turbine housing and a seal that includes a wall and a lower lip that that extends radially outwardly from the wall at an obtuse angle where the seal is disposed, at least in part, between an outer surface of the shroud component and an inner surface of the turbine housing. Various other examples of devices, assemblies, systems, methods, etc., are also disclosed.
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1. A turbine assembly comprising: a turbine wheel that comprises a base, a nose, blades, and a rotational axis that extends from the base to the nose;a shroud component that comprises an axis aligned with the rotational axis of the turbine wheel, an inner shroud surface, a lower axial face, an upper
1. A turbine assembly comprising: a turbine wheel that comprises a base, a nose, blades, and a rotational axis that extends from the base to the nose;a shroud component that comprises an axis aligned with the rotational axis of the turbine wheel, an inner shroud surface, a lower axial face, an upper axial face and an outer surface that extends between the lower axial face and the upper axial face;a turbine housing that comprises an axis aligned with the rotational axis of the turbine wheel, a lower axial face, an upper axial face and an inner surface that extends between the lower axial face and the upper axial face; anda seal that comprises an axis aligned with the rotational axis of the turbine wheel,a wall disposed between the outer surface of the shroud component and the inner surface of the turbine housing, anda lower lip extending radially outwardly from the wall at an obtuse angle, the lower lip disposed, at least in part, between the lower axial face of the shroud component and the lower axial face of the turbine housing, wherein the lower lip of the seal contacts the lower axial face of the shroud component. 2. The turbine assembly of claim 1 wherein the seal comprises an upper lip that extends from the wall wherein the upper lip is disposed between the upper axial face of the shroud component and the upper axial face of the turbine housing. 3. The turbine assembly of claim 2 wherein the upper lip of the seal extends radially inwardly from the wall at approximately a right angle. 4. The turbine assembly of claim 1 wherein the seal comprises an upper, inwardly hooked portion that extends from the wall. 5. The turbine assembly of claim 1 wherein the seal comprises an upper, outwardly hooked portion that extends from the wall. 6. The turbine assembly of claim 1 wherein the wall of the seal comprises a bend that defines an upper wall portion axially above the bend and a lower wall portion axially below the bend. 7. The turbine assembly of claim 6 wherein the upper wall portion comprises a diameter that is less than a diameter of the lower wall portion. 8. The turbine assembly of claim 1 wherein the lower lip of the seal comprises a transition point defined as a transition between two oppositely sloped portions of the lower lip. 9. The turbine assembly of claim 1 wherein the wall of the seal contacts the inner surface of the turbine housing. 10. The turbine assembly of claim 1 wherein the wall of the seal comprises a diameter that exceeds a diameter of the inner surface of the turbine housing to provides for an interference fit between the seal and the turbine housing. 11. The turbine assembly of claim 1 wherein, for a relaxed state of the seal, the lower lip extends outwardly from the wall at an obtuse angle and wherein, for a compression state of the seal, the lower lip extends outwardly at a lesser, obtuse angle to the wall. 12. The turbine assembly of claim 1 wherein the seal contacts the turbine housing. 13. The turbine assembly of claim 1 wherein the seal is loaded via contacts with the shroud component and the turbine housing wherein the lower axial face of the turbine housing and the lower axial face of the shroud component load the seal. 14. The turbine assembly of claim 1 wherein the turbine housing defines, at least in part, a volute and wherein the lower axial face of the shroud component extends radially outwardly into the volute and wherein the lower lip of the seal extends radially outwardly into the volute. 15. The turbine assembly of claim 14 wherein the lower lip of the seal extends at an angle into the volute to shape, in part, the volute. 16. A method comprising: providing a center housing, a variable geometry cartridge, a turbine housing and a seal that comprises a wall and a lower lip extending radially outwardly from the wall at an obtuse angle;positioning the variable geometry cartridge with respect to the center housing;attaching the turbine housing to the center housing with the seal disposed between the variable geometry cartridge and the turbine housing to form a turbocharger and to thereby apply an axial load to the variable geometry cartridge via at least the lower lip of the seal;operating the turbocharger and expanding or contracting the seal between the variable geometry cartridge and the turbine housing; andmaintaining an axial load on the variable geometry cartridge to axially locate the variable geometry cartridge. 17. A turbocharger assembly comprising: a compressor wheel disposed in a compressor housing;a center housing that comprises a bore and a bearing system disposed in the bore, the compressor housing attached to the center housing;a shaft and turbine wheel assembly that comprises a shaft portion, a turbine wheel portion, and a rotational axis wherein the compressor wheel is attached to the shaft portion and the shaft portion is rotatably supported by the bearing system disposed in the bore of the center housing;a variable geometry cartridge positioned with respect to the center housing wherein the variable geometry cartridge comprises a shroud component that comprises an axis aligned with the rotational axis of the turbine wheel, an inner shroud surface, a lower axial face, an upper axial face and an outer surface that extends between the lower axial face and the upper axial face;a turbine housing attached to the center housing wherein the turbine housing comprises an axis aligned with the rotational axis of the turbine wheel, a lower axial face, an upper axial face and an inner surface that extends between the lower axial face and the upper axial face; anda seal that comprises an axis aligned with the rotational axis of the turbine wheel,a wall disposed between the outer surface of the shroud component and the inner surface of the turbine housing, anda lower lip extending radially outwardly from the wall at an obtuse angle, the lower lip disposed, at least in part, between the lower axial face of the shroud component and the lower axial face of the turbine housing, wherein the lower lip of the seal contacts the lower axial face of the shroud component. 18. A turbine assembly comprising: a turbine wheel that comprises a base, a nose, blades, and a rotational axis that extends from the base to the nose;a shroud component that comprises an axis aligned with the rotational axis of the turbine wheel, an inner shroud surface, a lower axial face, an upper axial face and an outer surface that extends between the lower axial face and the upper axial face;a turbine housing that comprises an axis aligned with the rotational axis of the turbine wheel, a lower axial face, an upper axial face and an inner surface that extends between the lower axial face and the upper axial face; anda seal that comprises an axis aligned with the rotational axis of the turbine wheel,a wall disposed between the outer surface of the shroud component and the inner surface of the turbine housing, anda lower lip extending radially outwardly from the wall at an obtuse angle, the lower lip disposed, at least in part, between the lower axial face of the shroud component and the lower axial face of the turbine housing, wherein the seal comprises an upper lip that extends from the wall and wherein the upper lip is disposed between the upper axial face of the shroud component and the upper axial face of the turbine housing. 19. The turbine assembly of claim 18 wherein the upper lip of the seal extends radially inwardly from the wall at approximately a right angle. 20. A turbine assembly comprising: a turbine wheel that comprises a base, a nose, blades, and a rotational axis that extends from the base to the nose;a shroud component that comprises an axis aligned with the rotational axis of the turbine wheel, an inner shroud surface, a lower axial face, an upper axial face and an outer surface that extends between the lower axial face and the upper axial face;a turbine housing that comprises an axis aligned with the rotational axis of the turbine wheel, a lower axial face, an upper axial face and an inner surface that extends between the lower axial face and the upper axial face; anda seal that comprises an axis aligned with the rotational axis of the turbine wheel,a wall disposed between the outer surface of the shroud component and the inner surface of the turbine housing, anda lower lip extending radially outwardly from the wall at an obtuse angle, the lower lip disposed, at least in part, between the lower axial face of the shroud component and the lower axial face of the turbine housing, wherein the seal comprises an upper, inwardly hooked portion that extends from the wall. 21. A turbine assembly comprising: a turbine wheel that comprises a base, a nose, blades, and a rotational axis that extends from the base to the nose;a shroud component that comprises an axis aligned with the rotational axis of the turbine wheel, an inner shroud surface, a lower axial face, an upper axial face and an outer surface that extends between the lower axial face and the upper axial face;a turbine housing that comprises an axis aligned with the rotational axis of the turbine wheel, a lower axial face, an upper axial face and an inner surface that extends between the lower axial face and the upper axial face; anda seal that comprises an axis aligned with the rotational axis of the turbine wheel,a wall disposed between the outer surface of the shroud component and the inner surface of the turbine housing, anda lower lip extending radially outwardly from the wall at an obtuse angle, the lower lip disposed, at least in part, between the lower axial face of the shroud component and the lower axial face of the turbine housing, wherein the seal comprises an upper, outwardly hooked portion that extends from the wall. 22. A turbine assembly comprising: a turbine wheel that comprises a base, a nose, blades, and a rotational axis that extends from the base to the nose;a shroud component that comprises an axis aligned with the rotational axis of the turbine wheel, an inner shroud surface, a lower axial face, an upper axial face and an outer surface that extends between the lower axial face and the upper axial face;a turbine housing that comprises an axis aligned with the rotational axis of the turbine wheel, a lower axial face, an upper axial face and an inner surface that extends between the lower axial face and the upper axial face; anda seal that comprises an axis aligned with the rotational axis of the turbine wheel,a wall disposed between the outer surface of the shroud component and the inner surface of the turbine housing, anda lower lip extending radially outwardly from the wall at an obtuse angle, the lower lip disposed, at least in part, between the lower axial face of the shroud component and the lower axial face of the turbine housing, wherein the wall of the seal comprises a bend that defines an upper wall portion axially above the bend and a lower wall portion axially below the bend. 23. The turbine assembly of claim 22 wherein the upper wall portion comprises a diameter that is less than a diameter of the lower wall portion.
Jinnai,Yasuaki; Nakagawa,Hiroshi; Mikogami,Takashi, Structure of scroll of variable-throat exhaust turbocharger and method for manufacturing the turbocharger.
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