Bearings – Rotary bearing – Antifriction bearing
Reexamination Certificate
2000-11-10
2002-07-09
Hannon, Thomas R. (Department: 3682)
Bearings
Rotary bearing
Antifriction bearing
C384S536000
Reexamination Certificate
active
06416229
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to an angular contact ball bearing, and in particular to an angular contact ball bearing for mounting a steering shaft of an automotive vehicle, said bearing comprising an inner bearing ring, an outer bearing ring and bearing balls arranged between the inner and outer bearing rings, the inner bearing ring being received by an elastic tolerance ring of a polymeric material comprising radially outward directed retaining lugs that engage around the inner bearing ring so that an inseparable assembly is formed.
BACKGROUND OF THE INVENTION
Such angular contact ball bearings support axial forces only in one direction and therefore have to be placed against a second bearing. These bearings are preferentially used as steering bearings because they have only a small moment of friction and a relatively high rigidity while being simple to mount and economic as well.
One such angular contact ball bearing of the pre-cited type as frequently used for the mounting of steering shafts is known from DE 38 08 556 A1. The inner ring of this bearing is received by a plastic tolerance ring which engages around the inner ring by a radial projection. At the other axial end of the inner ring, there is arranged a spring element in the form of a spring washer that is retained in the tolerance ring by a locking washer which is likewise secured in the tolerance ring by a radially inward directed projection. In this way, a pre-stressed assembly is formed out of the rolling bearing and the retaining and tensioning elements. Thus a single component is obtained that can be pre-assembled by simple axial slipping-on during assembly.
Such angular contact ball bearings have the drawback that if the pressure angle is large i.e., if there exists an optimal combination of the moment of friction and the basic load rating with a tolerance ring having a small clamping angle with which a maximum angle of axial fixing of the steering shaft and a stiff spring characteristic of the steering are realized, a critical range is produced in the spring characteristic of the steering at low loads. This results in that, in the range of 10% of the maximum load, the steering already effects a turn of almost 30% of the maximun steering angle due to a tilting of the inner bearing ring.
OBJECTS OF THE INVENTION
It is therefore an object of the invention to provide an angular contact ball bearing with an increased resistance to a tilting of the inner bearing ring.
This and other objects and advantages of the invention will become obvious from the following detailed description.
SUMMARY OF THE INVENTION
The invention achieves the above objects by the fact that the inner bearing ring comprises two spaced apart points of contact, B and C, and the outer bearing ring comprises one point of contact A, and the point of contact C of the inner bearing ring is formed only after a tilting of the inner bearing ring has taken place.
A bearing configured according to the invention has a stiffer spring characteristic because the tilting of the inner bearing ring is almost completely eliminated. This is effected by the second point of contact C of the inner bearing ring which, however, comes into contact with the bearing ball only when a tilting of the inner bearing ring takes place. If the inner bearing ring does not tilt, the bearing of the invention behaves like a normal angular contact ball bearing i.e., only the two diagonally opposed points of contact, A and B, exist between the bearing ball and the bearing rings.
According to one advantageous feature of the invention, the angular contact ball bearing has a pressure angle of 40° to 50° and a clamping angle of 15° to 25°. The stated pressure angle results in an optimal combination of the moment of friction and the basic load rating. If the pressure angle is reduced too strongly, not only is the basic load rating increased due to the pre-stress, but also the friction. The stated clamping angle range of the tolerance ring ensures a maximum axial fixing which, in its turn, increases the stiffness of the spring characteristic. The larger the clamping angle, the easier it is for the tolerance ring to be pressed out, so that the point of support between the inner bearing ring and the tolerance ring changes and this results in an undesired radial movement of the bearing.
According to a further feature of the invention, each end of the raceway section of the inner bearing ring merges into an axially extending portion that continues into a radially extending portion. Thus the two radially extending portions and the raceway section assure the formation of an inseparable assembly i.e., the bearing cannot fall apart.
According to still another feature of the invention, the outer bearing ring comprises a step which continues into an axially extending portion of larger diameter that ends in a radially outward directed flange. This division of the outer bearing ring into two parts by the step has a double advantage.
Firstly, when the outer bearing ring is fabricated by drawing, the tool for making the outer bearing ring can be matched individually to the shape of the raceway of the bearing balls and to the axially extending portion of the outer bearing ring. This has the positive effect on the bearing that any desired osculation can be achieved without regard to the axially extending portion i.e., independently of the outer diameter. Secondly, there is no negative effect on the raceway of the bearing balls when the angular contact ball bearing is pressed into the stationary steering tube with large tolerances because pressing-in is effected only with the axially extending portion of larger diameter.
According to another feature of the invention, the bearing rings of the angular contact ball bearing are made by shaping without chip removal. It is quite obvious that bearing rings can be manufactured very economically by this manufacturing technology.
According to still another feature of the invention, the retaining lugs of the tolerance ring engage around the inner bearing ring in a region of the raceway section that includes the points of contact B and C and is bent inwardly into a concave shape. In accordance with a further feature of the invention, the tolerance ring is divided into a number of segments by incisions so that it is possible to assemble the complete assembly without any problem by snapping.
According to still another feature of the invention, the retaining lugs of the tolerance ring merge into an axially extending first portion of the tolerance ring which continues into a second portion that ascends at a clamping angle &bgr;, a vertex of the inwardly bent concave raceway section of the inner bearing ring being arranged in the transition between the first and the second portion of the tolerance ring. This configuration of the tolerance ring assures a secure axial fixing.
Finally, according to still another feature of the invention, the tolerance ring of the angular contact ball bearing is made of a polymeric material that can conduct electric current. In this way, electric current for actuating the signal horn or for releasing the airbag can be conducted from the steering shaft to the steering tube through the rolling bearing. For this purpose, the electric conductivity of the polymeric material is raised to match that of a metal. This is achieved, for example, by adding carbon or steel fibers or soot particles to the polymeric material. This has the advantage that the conductivity of the tolerance ring exists already during the fabrication process so that an after-treatment of the finished plastic component is not required. The conductivity of the polymeric material can, however, also be established by a metallic coating that may be deposited by galvanic, chemical or PVD methods. Galvanic methods require a conducting layer to be deposited on the plastic after this has been cleaned and roughened, deposition of the metal being effected in the form of ions from watery solutions by the application of an electric tension. In chemical or currentless
Bierman, Muserlian and Lucas
Hannon Thomas R.
INA Walzlager Schaeffler oHG
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