The present disclosure relates generally to torque converters and more specifically to the connection of an inertia ring to a turbine in a torque converter.
Inertia rings could potentially be MIG welded to the turbine shell, but MIG welding could produce a weld that protrudes into other components and may need additional processing to machine the weld back. The inertia ring could also potentially be machined from solid as part of the turbine shell, but MFS is not a mass production cost effective design.
A torque converter is provided. The torque converter includes a turbine including a turbine shell and a plurality of turbine blades fixed to the turbine shell by tabs of the turbine blades. The turbine shell includes a rounded blade supporting portion supporting the turbine blades. The torque converter also includes an inertia ring and a connector fixing the inertia ring to the turbine shell. Some of the turbine blade tabs fix the connector to the turbine shell. A method of constructing a torque converter is also provided.
A method of constructing a torque converter is also provided. The method includes fixing a connector to an inertia ring; providing a turbine shell including a rounded blade supporting portion including a plurality of circumferentially spaced first slots; aligning second slots of the connector with first slots of the turbine shell; and passing some tabs of turbine blades through the first slots and the second slots to connect the turbine blades and the connector to the rounded blade supporting portion by bending the tabs passed through the first slots and the second slots against an engine-side surface of the connector.
The present invention is described below by reference to the following drawings, in which:
The disclosure provides an inertia ring connected to a mounting plate with an extruded rivet. The mounting plate is fixed to the turbine shell by tab rolling.
Turbine shell 22 includes a rounded blade supporting portion 28, which is shaped as an annular bowl, for contacting engine side edges of turbine blades 26. Blade supporting portion 28 forms and outermost circumference 30 of turbine shell 22. Radially inside of blade supporting portion 28, turbine shell 22 includes an annular inner radial extension that is connected to a damper assembly. The damper assembly, in a known manner, is positioned axially between a radially extending section of the front cover and turbine 20 and is configured for transferring torque from turbine 20 to a transmission input shaft. Torque converter 10 also includes a lockup clutch connected to the damper assembly configured for locking the front cover to turbine 20 via the damper assembly during operation of torque converter 10. The lockup clutch may include a clutch plate and piston that is axially slidable to force the clutch plate into a further surface to lock the lockup clutch.
Torque converter 10 is also provided with an inertia ring 32 that extends radially outside of outermost circumference 30 of turbine shell 22. Inertia ring 32 add inertia to turbine 22 to help NVH during the clutch lockup. Inertia ring 32 is fixed to turbine shell 22 by connector 34, which is in the form of a connection ring. Connection ring 34 is stamped from the same blank as another piece of torque converter 10 and is then formed down to more closely contour an outer surface 22a of turbine 22. More specifically, connection ring 34 includes a radially outer section 35 that extends radially and perpendicular to the center axis of torque converter 10 and a radially inner section 37 that extends at an obtuse angle with respect to outer section 35 to contour to outer surface 22a. Outer section 35 of connection ring 34 is in contact with and connected to inertia ring 32 and inner section 37 of connecting ring 34 is in contact with and connected to outer surface 22a of turbine shell 22.
Inertia ring 32 includes a base 36 having an L-shaped cross-section. Base 36 includes a radially extending ring section 38 that is connected to connection ring 34 and an axially extending ring section 40 extending from an outer circumference of radially extending ring section 38 toward the transmission such that a rim 41 of axially extending ring section 40 is aligned directly radially outside of blade supporting portion 28. As shown in
Radially extending ring section 38 is fixed to connection ring 34 by a plurality of circumferentially spaced extruded rivets 46 that are formed from radially extending section 38. Extruded rivets 46 each include a shaft 48 that extends through a respective hole 50 in outer section 35 of connection ring 34 and a head 52 contacting a turbine-side radially extending surface 35a of outer section 35. A punch may be used to extrude section of ring section 38 to form a plurality of extruded protrusions, leaving an indentation 54 in an engine-side radially extending surface 38a of ring section 38. In a preferred embodiment, the extruded protrusions are extruded during the formation of inertia ring 32 by stamping. The extruded protrusions are then inserted into holes 50 in connection ring 34 and heads 52 are formed by stamping the ends of extruded protrusions that extend out of holes 50. Extruded rivets 46 hold outer section 35 of connection ring 34 against a turbine-side radially extending surface 38b of inner ring section 38.
Connection ring 34 can be made up of ring segments that may or may not form a complete ring. Each segment may have one or more slots 56 for receiving a blade tab 24 and/or holes 50 for fixing to inertia ring 32.
As shown in
Next, tabs 24 are rolled, in the traditionally manner that blades 26 are connected to turbine shell 22, such that tabs 24 are each bent and a free end or tip 24a of each tab 24 is forced toward engine-side surface 34b of connection ring 34 until a planar face 24b of each tab 24 contacts engine-side surface 34b, as shown in
In the preceding specification, the invention has been described with reference to specific exemplary embodiments and examples thereof. It will, however, be evident that various modifications and changes may be made thereto without departing from the broader spirit and scope of invention as set forth in the claims that follow. The specification and drawings are accordingly to be regarded in an illustrative manner rather than a restrictive sense.