The invention concerns a bearing for fixing a steering shaft in a housing, said bearing comprising at least one outer bearing ring, an inner bearing ring arranged on the steering shaft and rolling elements in rolling contact with associated raceways, the inner bearing ring being secured on the steering shaft against axial displacement in at least one direction.
Bearing arrangements of the pre-cited type serve to fix a steering shaft in a steering housing and are known in the most different of constructions. Thus, for example, at page 14 of the Technical Product Information: “Wälzlager und Komponenten für KFZ-Fahrwerke” issued by INA Wälzlager Schaeffler oHG, a steering shaft bearing arrangement is illustrated in which a ball bearing and a needle bearing spaced therefrom fix a steering shaft in a housing. These bearings must support the steering shaft without lash, effectively damp noises and vibrations, possess high rigidity and be as free of friction as possible. A further important requirement concerns safety. In case of a crash involving a head-on collision, the permissible path of displacement of the steering shaft into the passenger cell must lie within very narrow limits. This requires that the bearings be firmly anchored on the steering shaft and secured against axial displacement. The forces that have to be taken up in case of a crash are in the order of about 11,000 N. The upper bearing shown in
It is therefore an object of the invention to provide a bearing for fixing a steering shaft in a housing that is simpler to manufacture and easier to mount. Another object of the invention is provide a simple and effective axial securing of the bearing.
The invention achieves the above objects according to the characterizing part of claim 1 by the fact that the inner bearing ring comprises, in at least one axial direction, an integrally formed cylindrical extension adjoining the raceway, and the inner bearing ring is pressed onto the steering shaft with this cylindrical extension which comprises through-holes through which a locking ring positively engages a groove of the steering shaft.
By this combination of the inner bearing ring being pressed onto the steering shaft and the snapping-in of the locking ring into the groove of the steering shaft, the steering shaft is optimally secured against axial displacement so that it cannot penetrate into the passenger compartment in case of a crash. Handling and mounting of such a complete bearing assembly is likewise facilitated because the locking ring is snapped into the inner ring and is thus inseparably retained on the bearing during transportation till the time of being installed in place by the customer.
Further advantageous features of the invention are described in sub-claims 2 to 5.
According to claim 2, the bearing is a lash-free four-point-contact ball bearing whose inner bearing ring is a non-machined part that comprises integrally formed cylindrical extensions adjoining the raceway in both axial directions, and in the region of the raceway, the inner bearing ring has a clear diameter that is larger than the clear diameter of the cylindrical extensions. A particular advantage of this configuration of the bearing is that when the inner bearing ring is pressed onto the steering shaft, its raceway cannot be damaged because pressing-on is effected via the integrally formed cylindrical extensions.
According to claim 3, the outer bearing ring is composed of two ring parts that are spaced apart by a gap and form partial raceways, the ring parts are supported on elastic insert rings and are received in a bushing having radially inward oriented rims.
The configuration of the locking ring is described in more detail in claim 4 according to which the locking ring is made of a spring steel and comprises a slot as also regions of different radial dimensions arranged in alternating sequence in peripheral direction, the regions having the smaller radial dimension engage the groove and the regions having the larger radial dimension are seated on the inner bearing ring. Due to this configuration, mounting is considerably facilitated because such a ring is simple to handle. It is possible to further control the force of displacement of the steering shaft in case of a crash by a proper choice of the peripheral dimension of the regions of smaller and the regions of larger diameter.
Finally, according to claim 5, the locking ring comprises at least three uniformly alternating successive regions of different radial dimensions.
The invention will now be described more closely with reference to one example of embodiment.
According to the prior art, the steering shaft 1, that is rotatable about its axis 18 and connects the steering wheel 2 to a steering gear, is retained by two spaced-apart rolling bearings, only the upper bearing 3 being shown in
The essentials of the invention are represented in
As already elaborated above, the essential part of the invention is the configuration of the inner bearing ring 8 and its fixing on the steering shaft 1. In contrast, the configuration of the rest of the bearing may differ. According to
It can be discerned in
Number | Date | Country | Kind |
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100 58 491.8 | Nov 2000 | DE | national |
Number | Date | Country | |
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Parent | PCT/EP01/11103 | Sep 2001 | US |
Child | 10447574 | May 2003 | US |