The present invention relates to constant velocity joints and, more particularly, concerns constant velocity joint assemblies having improved construction.
Constant velocity fixed ball joints in the form of counter track joints, have an outer joint part with outer tracks, an inner joint part with inner tracks, torque transmitting balls which are received in pairs of tracks consisting of outer tracks and inner tracks, and a ball cage with cage windows in which the balls are held in a common plane and are guided on to the angle-bisecting plane when the joint is articulated. In such joints, first outer tracks, together with first inner tracks, form first pairs of tracks whose control angles open in a first axial direction, and second outer tracks, together with second inner tracks, form second pairs of tracks whose control angles open in a second axial direction. The control angles are defined as angles between the tangents at the ball contact points in the tracks when the joint is in the aligned condition. The present invention concerns counter track joints having four first outer tracks and four second outer tracks which alternate and are uniformly circumferentially distributed. In the inner joint part, there are provided four first inner tracks and four second inner tracks which alternate and are uniformly circumferentially distributed. The first outer tracks and the first inner tracks, together, form first pairs of tracks which, when the joint is in the aligned condition, widen in a first direction. The second outer tracks and the second inner tracks, together, form second pairs of tracks which, when the joint is in the aligned condition, widen in an opposite direction. A ball is held in each of the pairs of tracks. The annular cage comprises eight circumferentially distributed cage windows which each accommodate one of the balls and hold the balls, in their entirety, in a common plane by means of their centers.
Counter track joints, in general, are known from DE 100 60 119 A1 of the applicant, wherein the counter track joints are illustrated and described as having six torque transmitting balls. Rzeppa fixed joints with identical pairs of tracks with six torque transmitting balls wherein, for assembly reasons, the cage windows have different circumferential lengths, are described in U.S. Pat. No. 5,509,856 also owned by the application herein. From JP 2001232945A there are known Rzeppa fixed joints with identical pairs of tracks which comprise eight balls and wherein at the outer ball tracks, at the aperture end, there are provided assembly pockets for inserting balls when the joint is over-articulated.
There are certain disadvantages associated with the assembly of constant velocity joints wherein first the outer joint part, cage and inner joint part are joined in one of the ways commonly known. That is, typically, the balls are inserted by over-articulating the joint, i.e. articulating the inner joint part and cage relative to the outer joint part, thus enabling a cage window of the ball cage to project from the outer joint part and permitting a ball to be inserted into the cage window from the radial outside. When the cage windows are already largely filled with balls, the so-called method of over-articulating—because of the relative circumferential movement of the balls in the cage relative to one another—requires a circumferential cage window length which is needed during assembly only, but not under operational conditions of the joint. In other words, the maximum operating angle of articulation does not dictate the cage window length. Rather, the extended cage window length is necessary only for assembly. Such lengthening of the cage windows in the circumferential direction leads to a reduction in the web width between the cage windows in the circumferential direction, and thus to a weakening of the ball cage. Experience shows that, in operation, the cage constitutes a potentially frangible component which should be designed so as to be as strong as possible. Thus, there exists a need for an eight-ball counter track joint having improved cage strength or durability.
The present invention provides a counter track joint with eight balls wherein the strength of the cage has been increased as compared to known designs. In particular, the present joint provides that, at an aperture of the outer joint part, the second outer ball tracks of the outer joint part comprise widened assembly regions for inserting second balls into second cage windows from the radial outside, while the first cage windows are already fully filled with first balls and with the second cage windows axially projecting from the outer joint part as a result of the joint being over-articulated.
According to a particular embodiment, four first cage windows associated with the first pairs of tracks comprise a greater length (L1) in the circumferential direction than four second cage windows which are associated with the second pairs of tracks and comprise a length (L2) which is adapted to the operating angle of articulation of the joint.
As a result of the inventive widened assembly regions at the ends of the second outer ball tracks, it is possible to insert the balls of a second group of balls when the cage is articulated only slightly beyond the maximum operating angle of articulation relative to the outer joint part. Advantageously, the first cage windows for an already inserted first group of balls need to be increased only slightly beyond their circumferential length required for operational purposes. The cage windows for the second group of balls can comprise a shorter circumferential length because the balls inside these windows are not displaced relative to one another during assembly. During assembly, as the balls of the second group are positioned on the articulation axis of the joint on the one hand, and on the articulation plane of the joint on the other hand, they merely require the minimum length needed for articulation purposes within the operating range of articulation. It is thus possible to widen the webs between the cage windows considerably, thereby increasing the strength of the cage in operation. The load bearing capacity of the inventive joint is thus also increased.
According to a further advantageous embodiment which requires particularly large widened assembly regions, four first cage windows associated with the first pairs of tracks, comprise a length L1 in the circumferential direction which corresponds to the length L2 of four second cage windows associated with the second pairs of tracks. The lengths are adapted to the operating angle of articulation of the joint, but include only a small excess dimension. In this embodiment, the assembly process is the same as described above, with one advantage being that the cage can be inserted as desired, relative to the first and second pairs of tracks.
According to another advantageous embodiment which is also illustrated, the outer joint part is provided with a base, at its end which is axially opposed to the aperture. More particularly, a driveshaft can be removably inserted into the inner joint part in this embodiment.
According to a further embodiment which is also illustrated, a driveshaft is firmly connected to the inner joint part and, at the end of the aperture, the inner joint part comprises inwardly recessed track run-outs for the second inner tracks.
Other advantages and features of the invention will also become apparent upon reading the following detailed description and appended claims, and upon reference to the accompanying drawings.
For a more complete understanding of this invention, reference should now be made to the embodiments illustrated in greater detail in the accompanying drawings and described below by way of examples of the invention.
A) in an axial view of the joint aperture;
B) in a section A-A according to
C) in a longitudinal section B-B according to
A) in an axial view of the outer joint part;
B) in section B-B according to
C) with the cage shown in the form of an enlarged detail.
A) in an axial view of the outer joint part;
B) in the longitudinal section A-A according to
C) in the cross-section F-F through the ball cage according to
A) in an axial view of the outer joint part;
B) in the longitudinal section A-A of
C) in the cross-section F-F through the ball cage according to
A) in an axial view of the joint; and
B) in a longitudinal section through the joint.
In the following figures, the same reference numerals are used to refer to the same components in the various views. Also, in the following description, various operating parameters and components are described for several embodiments. These parameters and components are included as examples and are not meant to be limiting.
The three individual illustrations of
Below, the individual illustrations of
In
The different illustrations of
While the invention has been described in connection with several embodiments, it should be understood that the invention is not limited to those embodiments. Thus, the invention covers all alternatives, modifications, and equivalents as may be included in the spirit and scope of the appended claims.
Number | Date | Country | Kind |
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103 04 156.7 | Feb 2003 | DE | national |