An engine assembly comprising a cylinder head, turbocharger in fluid communication with the cylinder head and exhaust conduit in fluid communication with the turbocharger and method of making the assembly using a single human assembler includes: mounting the turbine to the cylinder head; using a fir
An engine assembly comprising a cylinder head, turbocharger in fluid communication with the cylinder head and exhaust conduit in fluid communication with the turbocharger and method of making the assembly using a single human assembler includes: mounting the turbine to the cylinder head; using a first assembly aid to form a slidable joint between the exhaust conduit and head; using a second assembly aid to form a movable joint between the turbine and exhaust conduit and align the turbine outlet flange and exhaust conduit inlet flange; using a third assembly aid to pilotingly engage the flanges; disposing a clamp about the turbine outlet flange and the exhaust conduit inlet flange; tightening the second assembly aid sufficiently to form an immovable joint; tightening the clamp to form a sealed joint between the flanges; and tightening the first assembly aid to form a fixed joint.
대표청구항▼
1. A method of making an engine assembly, comprising: a cylinder head having an exhaust port and an exhaust port mounting flange disposed proximate the exhaust port; a turbocharger having a turbine, the turbine having a turbine housing, the turbine housing comprising a turbine inlet and turbine outl
1. A method of making an engine assembly, comprising: a cylinder head having an exhaust port and an exhaust port mounting flange disposed proximate the exhaust port; a turbocharger having a turbine, the turbine having a turbine housing, the turbine housing comprising a turbine inlet and turbine outlet, the turbine inlet configured to receive an exhaust flow from the exhaust port and fluidly communicate the exhaust flow through the turbine housing to the turbine outlet, the turbine inlet comprising a turbine inlet mounting flange that is removably mounted on and in sealed engagement with the exhaust port mounting flange, the turbine outlet comprising a turbine outlet mounting flange; an exhaust conduit, the exhaust conduit comprising an exhaust conduit inlet, the exhaust conduit inlet configured to receive the exhaust flow from the turbine outlet, the exhaust conduit inlet comprising an exhaust conduit inlet mounting flange that is removably mounted on and in sealed engagement with the turbine outlet flange; a first assembly aid disposed between the exhaust conduit and the cylinder head; a second assembly aid axially disposed between the turbine housing proximate the turbine outlet and the exhaust conduit proximate the exhaust conduit inlet and configured to provide alignment of the turbine outlet mounting flange and exhaust conduit inlet mounting flange; a third assembly aid disposed circumferentially about and configured to provide nested engagement of the turbine outlet and the exhaust conduit inlet; and a clamp configured for sealing attachment of the exhaust conduit inlet mounting flange to the turbine outlet mounting flange, wherein the first assembly aid comprises a joint between the cylinder head and the exhaust conduit, the second assembly aid comprises a first joint between the turbine and the exhaust conduit and the third assembly aid comprises a second joint between the turbine and the exhaust conduit; using a single human assembler, comprising: removably and sealably mounting the turbine inlet mounting flange to the exhaust port mounting flange;using the first assembly aid to form a slidable joint and dispose the exhaust conduit on the cylinder head;using the second assembly aid to form a movable joint between the turbine housing and the exhaust conduit and movably align and dispose the turbine outlet mounting flange on the exhaust conduit inlet mounting flange;using the third assembly aid to pilotingly engage the turbine outlet mounting flange and the exhaust conduit inlet mounting flange;circumferentially disposing the clamp about the turbine outlet mounting flange and the exhaust conduit inlet mounting flange;tightening the second assembly aid sufficiently to form an immovable joint between the turbine housing and the exhaust conduit;tightening the clamp to form a sealed joint between the turbine outlet mounting flange and the exhaust conduit inlet mounting flange; andtightening the first assembly aid to form a fixed joint and dispose the exhaust conduit on the cylinder head. 2. The method of claim 1, wherein the first assembly aid comprises: one of a threaded stud protruding from or a threaded bore into the cylinder head;a head bracket attached to the exhaust conduit having a bore that is configured to capture the stud and preposition the exhaust conduit adjacent to the cylinder head; andone of a threaded nut for attachment to the threaded stud or a threaded bolt for attachment to the threaded bore configured to secure the bracket to the cylinder head, wherein using the first assembly aid to form a slidable joint and dispose the exhaust conduit on the cylinder head comprises finger-tightening one of the threaded nut to the threaded stud or the threaded bolt to the threaded bore sufficiently to secure the bracket to the cylinder head and form the slidable joint. 3. The method of claim 1, wherein the second assembly aid comprises: an axially extending threaded stud attached to the turbine housing proximate the turbine outlet mounting flange and protruding toward the exhaust conduit and configured for aligned engagement with, and attachment of, the exhaust conduit; anda turbine bracket attached to the exhaust conduit having a bore that is configured to capture the threaded stud and preposition the exhaust conduit mounting flange and exhaust conduit inlet mounting flange for sealing engagement; anda threaded nut that is configured to secure the bracket to the threaded stud, wherein using the second assembly aid to form a movable joint between the turbine housing and the exhaust conduit and movably align and dispose the turbine outlet flange on the exhaust conduit inlet flange comprises finger-tightening the threaded nut to the threaded stud sufficiently to secure the bracket to the turbine housing and form the slidable joint. 4. The method of claim 1, wherein the third assembly aid comprises: a circumferential axially protruding pilot portion disposed on one of the turbine inlet mounting flange or the exhaust conduit mounting flange and a mating counterbore disposed on the other of the turbine inlet mounting flange or the exhaust conduit mounting flange, wherein using the third assembly aid to pilotingly engage the turbine outlet mounting flange and the exhaust conduit inlet mounting flange comprises inserting the protruding pilot portion into the counterbore. 5. The method of claim 1, further comprising disposing a gasket between the turbine outlet mounting flange and the exhaust conduit inlet mounting flange. 6. The method of claim 5, wherein the protruding pilot portion and counterbore are nested so as to eliminate direct impingement of an exhaust gas flow through them on the first gasket. 7. The method of claim 1, wherein the clamp is circumferentially disposed about one of the turbine outlet mounting flange or the exhaust conduit inlet mounting flange prior to using the second assembly aid. 8. The method of claim 1, wherein the clamp comprises an anti-rotation feature that limits rotation of the clamp during tightening the clamp to form a sealed joint between the turbine outlet flange and the exhaust conduit inlet flange. 9. The method of claim 8, wherein the anti-rotation feature comprises an axially extending tang that engages the turbine housing to limit rotation of the clamp during tightening. 10. The method of claim 1, further comprising disposing a gasket between the turbine inlet mounting flange and the exhaust port mounting flange prior to removably and sealably mounting the turbine inlet mounting flange and the exhaust port mounting flange. 11. An engine assembly, comprising: a cylinder head having an exhaust port and an exhaust port mounting flange disposed proximate the exhaust port;a turbocharger having a turbine, the turbine having a turbine housing, the turbine housing comprising a turbine inlet and turbine outlet, the turbine inlet configured to receive an exhaust flow from the exhaust port and fluidly communicate the exhaust flow through the turbine housing to the turbine outlet, the turbine inlet comprising a turbine inlet mounting flange that is removably mounted on and in sealed engagement with the exhaust port mounting flange, the turbine outlet comprising a turbine outlet mounting flange;an exhaust conduit, the exhaust conduit comprising an exhaust conduit inlet, the exhaust conduit inlet configured to receive the exhaust flow from the turbine outlet, the exhaust conduit inlet comprising an exhaust conduit inlet mounting flange that is removably mounted on and in sealed engagement with the turbine outlet flange;a first assembly aid disposed between the exhaust conduit and the cylinder head;a second assembly aid axially disposed between the turbine housing proximate the turbine outlet and the exhaust conduit proximate the exhaust conduit inlet and configured to provide alignment of the turbine outlet flange and exhaust conduit inlet mounting flange;a third assembly aid disposed circumferentially about and configured to provide nested engagement of the turbine outlet and the exhaust conduit inlet; anda clamp configured for sealing attachment of the exhaust conduit inlet mounting flange to the turbine outlet mounting flange, wherein the first assembly aid comprises a joint between the cylinder head and the exhaust conduit, the second assembly aid comprises a first joint between the turbine and the exhaust conduit and the third assembly aid comprises a second joint between the turbine and the exhaust conduit. 12. The engine assembly of claim 11, wherein the third assembly aid comprises a circumferential axially protruding pilot portion disposed on one of the turbine inlet mounting flange or the exhaust conduit mounting flange and a mating counterbore disposed on the other of the turbine inlet mounting flange or the exhaust conduit mounting flange. 13. The engine assembly of claim 12, further comprising a first gasket disposed between and contributing to the sealed engagement of the turbine outlet mounting flange and the exhaust conduit inlet mounting flange. 14. The engine assembly of claim 13, wherein the protruding pilot portion and counterbore are nested so as to eliminate direct impingement of an exhaust gas flow through them on the first gasket. 15. The engine assembly of claim 11, wherein the second assembly aid comprises: an axially extending threaded stud attached to the turbine housing proximate the turbine outlet mounting flange and protruding toward the exhaust conduit and is configured for aligned engagement with and attachment of the exhaust conduit; anda turbine bracket attached to the exhaust conduit having a bore that is configured to capture the stud and preposition the exhaust conduit mounting flange and exhaust conduit inlet mounting flange for sealing engagement; anda threaded nut that is configured to secure the bracket to the threaded stud. 16. The engine assembly of claim 11, wherein the first assembly aid comprises: one of a threaded stud protruding from or threaded bore into the cylinder head;a head bracket attached to the exhaust conduit having a bore that is configured to capture the stud and preposition the exhaust conduit adjacent to the cylinder head; andone of a threaded nut for attachment to the threaded stud or a threaded bolt for attachment to the threaded bore configured to secure the bracket to the cylinder head. 17. The engine assembly of claim 16, wherein the head bracket comprises a slot configured to enable the slidable movement of the exhaust conduit relative to the cylinder head to preposition the exhaust conduit adjacent to the cylinder head. 18. The engine assembly of claim 11, wherein the clamp comprises an anti-rotation feature. 19. The engine assembly of claim 18, wherein the anti-rotation feature comprises an axially extending tang that is configured to engage the turbine housing. 20. The engine assembly of claim 11, further comprising a gasket disposed between the turbine outlet mounting flange and the exhaust conduit inlet mounting flange.
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