The present invention relates generally to torque converters and more specifically to a torque converter thrust washer.
U.S. Publication No. 2015/0184701 A1 and CA 745520A disclose torque converter thrust washers.
A thrust washer for a torque converter is provided. The thrust washer includes an inner circumferential surface, an outer circumferential surface and a first axial surface extending from the inner circumferential surface to the outer circumferential surface. The axial surface includes a plurality of arcuate sections and a plurality of grooves circumferentially between the arcuate sections. Each of the arcuate sections includes an arcuate axial surface including a first section, a second section and a third section. The first and third sections extend circumferentially away from the second section in opposite directions and extend axially inward from the second section. A torque converter and a method for forming at least one torque converter are also provided.
A torque converter is also provided. The torque converter includes the thrust washer and a stator arranged axially adjacent to the thrust washer.
A method of forming at least one torque converter is also provided. The method includes forming a first thrust washer to include an inner circumferential surface, an outer circumferential surface and a first axial surface extending from the inner circumferential surface to the outer circumferential surface. The axial surface includes a plurality of arcuate sections and a plurality of grooves circumferentially between the arcuate sections. Each of the arcuate sections includes an arcuate axial surface including a first section, a second section and a third section. The first and third sections extend circumferentially away from the second section in opposite directions and extend axially inward from the second section. The method also includes arranging the first thrust washer axially adjacent to a stator of a first torque converter.
The present invention is described below by reference to the following drawings, in which:
A bidirectional hydrodynamic thrust washer is disclosed including two tapered segments on either side of the flat surface. The tapered regions, angled oppositely, angle from radially extending grooves to the highest flat section, thus making the washer useful for rotation in both clockwise and counter-clockwise directions. The thrust washer may be used in torque converter interface locations such as between stator and impeller, stator and turbine, or flange and cover. The bidirectional hydrodynamic thrust washer advantageously has a narrow axial profile, useful for applications in which axial space is limited.
Arcuate sections 18 each include an arcuate axial surface 26 axially offset from strips 22. Arcuate axially surfaces 26 further away from second axial surface 28 than are strips 22. Arcuate axial surfaces 26 are axial thrust surface segments and together form an axial thrust surface of thrust washer 10. Second axial surface 28 extends perpendicular to a center axis 29 of thrust washer 10, which is aligned on a center axis of rotation of the torque converter during use. Inner and outer circumferential surfaces 12, 14 extend parallel to center axis 29. Arcuate axial surfaces 26 each extend from inner circumferential surface 12 to outer circumferential surface 14 and each extend circumferentially from one first wall 24a to one second wall 24b. Each arcuate axial surface 26 is formed by three circumferential surface sections—a first inclined surface section 30, a flat surface section 32 and a second inclined surface section 34. Each section 30, 32, 34 extends radially from inner circumferential surface 12 to outer circumferential surface 14.
First inclined surface section 30 tapers axially outward away from a first circumferential edge 36 thereof, which is coincident with an axially outermost edge 38 of wall 24a, to a second circumferential edge 40 thereof, which is coincident with a first circumferential edge 42 of flat surface section 32. Accordingly, arcuate section 18 is axially thicker at second circumferential edge 40 of first inclined surface section 30 than at first circumferential edge 36 of first inclined surface section 30. Flat surface section 32 is not axially inclined and extends from its first circumferential edge 42 to a second circumferential edge 44 thereof without extending axially. In other words, flat surface section 32 is parallel with second axial surface 28 and perpendicular to center axis 29. At flat surface section 32, arcuate 18 has a constant thickness. Second inclined surface section 34 tapers axially inward away from a first circumferential edge 46 thereof, which is coincident with second circumferential edge 44 of flat surface section 32, to a second circumferential edge 48 thereof, which is coincident with an axially outermost edge 50 of wall 24b. Accordingly, arcuate section 18 is axially thicker at first circumferential edge 46 of second inclined surface section 34 than at second circumferential edge 48 of inclined surface 18. In order to fix thrust washer 10 to an axial surface of a stator via a connector, for example a rivet or bolt, each strip 22 is provided with a through hole 51 extending axially therethrough for receiving one of the connectors.
Each arcuate section 18 is symmetrically formed with respect to a circumferential center 52 of flat surface section 32, with first and second inclined surface sections 30, 34 both being tapered axially inward from flat surface section 32 toward the respective adjacent groove 20. The axially inward taper configuration of sections 30, 34 allows thrust washer 10 to be used for axially contacting both rotational directions.
Stator casting 80 includes a body 86 receiving one-way clutch 82 and a plurality of blades 88 on an outer circumference of body 86. Stator 78 includes an impeller-side axial surface 90 defined by a surface of body 86 and a turbine-side axial surface 92 defined by a surface of centering plate 84. In this embodiment, thrust bearing 10 is fixed to stator 78 at impeller-side axial surface 90 by for example connectors 94 extending through holes 51 in thrust washer 10. Second axial surface 28 is in flush contact with impeller-side axial surface 90 and first axial surface 16 faces impeller shell 66. Specifically, the thrust surface of thrust washer 10, i.e., arcuate axial surfaces 26, axially faces an axial surface of a radially extending portion 96 of impeller shell 16 that is between a rounded portion 98 supporting blades 100 of impeller 68 and a hub 102 of impeller 68. Thrust washer 10 on impeller-side axial surface 90 is arranged and configured so as to maintain a hydrodynamic film that prevents the axial thrust surface of thrust washer 10 from contacting impeller shell 66.
The bi-directionality of thrust washer 10 allows thrust washer 10 to be used in other arrangements within torque converter 60, with the thrust surface facing either front cover 62 or facing rear cover 64. Accordingly, as shown in
In another example,
In other embodiments, instead of connectors 94, thrust washer 10 may be attached to stator 78, turbine 70 or impeller 68 by different connectors, for example snap fit connectors and/or include an anti-rotation connectors, which may be integral with the snap fit connectors or located separately. The anti-rotation connectors may be a pin or a knob on thrust washer 10 able to take more load and arranged as a pin-in-hole type arrangement with an adjacent surface or plane of stator 78, turbine 70 or impeller 68.
It should be understood that the arrangements of thrust washers 10 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.
Number | Name | Date | Kind |
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6231309 | Popoola | May 2001 | B1 |
6502994 | Jackson | Jan 2003 | B2 |
20090159388 | Scordino | Jun 2009 | A1 |
20150184701 | Lindemann et al. | Jul 2015 | A1 |
Number | Date | Country |
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745520 | Nov 1966 | CA |
Number | Date | Country | |
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20170159781 A1 | Jun 2017 | US |