Tripod joint
A tripod joint has an outer joint part with three circumferentially distributed, axis-parallel recesses forming circumferentially distributed opposed tracks. An inner joint part has a star-shaped cross-section and three circumferentially distributed arms engaging the recesses in the outer joint part. The arms support roller assemblies. When torque is transmitted with the joint in an extended position, the resultant K.sub.1 of the forces acting from the inner joint part directly on a roller forms a shorter perpendicular distance from the joint axis than the resultant K.sub.2 of the counter forces acting from the outer joint part on the roller, so that, when torque is introduced into the joint, at any angle of articulation of the operating range, the roller is subject to a tilting moment.
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Claims
2. A tripod joint according to claim 1, wherein one or more supporting faces are in the recess and on one of the elements of the roller assembly, so that on the half of the recess which is subjected to loads when torque is introduced, the roller assembly displaced by the tilting moment is supported on said supporting faces which, with reference to the joint axis, are located on the radial outside of the roller assembly, whereas on the half of the recess which is not subjected to loads when torque is introduced, said roller assembly is supported on faces which, with reference to the joint axis, are located on the radial inside of the roller assembly.
3. A tripod joint according to claim 1, wherein when the roller assembly is not displaced, a free radial space is between the elements of the roller assembly and the recess supporting faces.
4. A tripod joint according to claim 2, wherein the supporting faces and counter faces are formed by the tracks in the recesses, which, in cross-section through the joint, deviate from the cross-sectional shape of the outer surfaces of the rollers.
5. A tripod joint according to claim 1, wherein said arm is cylindrical and an inner ring with an internally cylindrical surface is axially movable relative to the arm axis, said inner ring including a spherical outer surface engaging an at least part-spherical inner surface of the roller carrier assembly which is pivotably held on the inner ring relative to the arm axis and the roller is rotatably held on the roller carrier assembly.
6. A tripod joint according to claim 5, wherein a needle bearing is provided between the roller carrier assembly and the roller.
7. A tripod joint according to claim 1, wherein the arm has a part-spherical head roller carrier assembly with a cylindrical inner aperture so as to be axially movable relative to the arm axis and pivotable relative to the arm axis and that a roller is rotatably held on the roller carrier assembly.
9. A tripod joint according.Iadd.to.Iaddend.claim 1, wherein said arm is cylindrical, an internally cylindrical inner ring with an externally spherical surface is rotatably positioned on said arm, a roller with an internally cylindrical inner surface is on the inner ring and is axially displaceable relative to the arm axis and pivotable relative to the arm axis.
10. A tripod joint according to claim 9, wherein a needle bearing is arranged between the arm and the inner ring.
12. A tripod joint according to claim 11, wherein, with reference to the joint axis, one or more supporting faces are in the recess and on one of the elements of the roller assembly, so that on the recess half subjected to loads, when torque is introduced, the roller displaced by the tilting moment is supported radially inwardly on the roller assembly on first outer joint part supporting faces, and on the recess half not subjected to loads when torque is introduced, said roller is supported radially outwardly on the roller assembly on second outer joint part supporting faces.
13. A tripod joint according to claim 12, wherein, with reference to the joint axis, a free radial space is between the elements of the roller assembly and the supporting faces of the recess so that when the roller is tilted under the influence of the tilting moment, it is possible, on the radial outside of the roller assembly, to exclude contact between the roller assembly and the recess half subjected to loads when torque is introduced and on the radial inside of the roller assembly between the roller assembly and the recess half not subjected to loads when torque is introduced.
14. A tripod joint according to claim 11, wherein, with reference to the arm axis, the supporting faces of the roller assembly which, under the influence of the tilting moment, contact with the respective recess have a smaller diameter than the surfaces of the roller in the region of contact with the track.
16. A tripod joint according to claim 15, wherein a needle bearing is arranged between the roller carrier assembly and the roller.
18. A tripod joint according to claim 17, wherein a needle bearing is provided between the roller carrier assembly and the roller.
19. A tripod joint according to claim 11, wherein said arm is cylindrical and rotatably holds an internally cylindrical inner ring with an externally spherical surface, the roller having an internally cylindrical surface being guided on the inner ring so as to be axially displaceable relative to the arm axis and pivotable relative to the arm axis.
20. A tripod joint according to claim 19, wherein a needle bearing is arranged between the arm and the inner ring.
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Type: Grant
Filed: Apr 10, 1996
Date of Patent: Mar 23, 1999
Assignees: Lohr & Bromkamp GmbH (Offenbach Main), GKN Automotive AG (Lohmar)
Inventors: Michael Ricks (Bad Vilbel), Norbert Hofmann (Rodgau), Friedhelm John (Hanau-Steinheim), Werner Krude (Neunkirchen-Wolperath), Dieter Jost (Troisdorf), Peter Harz (Hennef), Jorg Bensinger (Dornstetten)
Primary Examiner: Anthony Knight
Law Firm: Harness, Dickey & Pierce, P.L.C.
Application Number: 8/630,367
International Classification: F16D 300;