DE3736140A1 - Wheel bearing for motor vehicles - Google Patents

Abstract

In a wheel bearing, the transmission of heat to the bearing when welding the components is greatly reduced in a simple manner and a compact design achieved by virtue of the fact that a radial free space (8) is provided between the hub (2) and the pin (6) of the synchronising joint (5). <IMAGE>

Description

The invention relates to a wheel bearing according to the preamble of claim 1.

A wheel bearing of the specified type is from the FR-PS 24 99 910 can be seen. The one shown here Execution has an essential after part. When welding the hub to the lathe Steering creates a lot of heat. This will transferred to the rolling bearing without hindrance, because the hub in between is a good one Heat conductor. This can already happen at the manufacture of storage to damage the Camp, which in turn creates the risk of early bearing failure.

A similar version is in DE-OS 36 08 346 cited. In the versions shown therein the outer inner ring is also thermally not adequately protected. Despite attaching axial clearances comes because of the proximity of the Weld a high proportion of the heat for Warehouse. There is also a large axial Space requirements.

It is therefore an object of the invention to have a wheel position tion according to the preamble of claim 1 further improve that transfer of Heat on the rolling bearing strong in a simple manner is reduced and there is a compact storage results.  

This task is characterized by the features in drawing part of claim 1 solved. The Claims 2 to 4 receive further explanations.

So that the heat transfer to the warehouse is as low as possible is between the bore of the hubs and the Extension pin of the constant velocity joint or Retaining rings in the area of the weld a radial Free space provided. This freedom only leaves an indirect transition from heat to the camp too. Another advantage is that the annular Free space brings weight savings. Farther causes the hub to heat up less than the extension pin. When cooling takes place therefore a stronger one in the area of the weld Shortening the extension pin as the hub. This in turn causes the joint or the Retaining ring on the front, especially on the hubs section acts on which the separated interior ring sits. The hub is therefore over the entire Length under axial pressure, causing the Stress on the hub is reduced. The on external forces are exerted on the hub mostly tensile forces that first of all have this inner Reduce pressure forces before they are less green increased but reduced tensile forces in the hub Come into effect.

This fact becomes essential improved if you look at the weld at the Provides the end face of an extension pin, which is about as long as the width of the warehouse. The much warmer spigot during welding causes, when cooling, that External part of the swivel has a high axial Exerts pressure on the hub.  

If in this case the length of the pin is greater is its average diameter is a Expansion screw effect, which reduces the risk of breakage of the Pin is greatly reduced.

The stability of the hub is increased in that to the career of the interior integrated with the hub all around a conical or rounded transition is provided. This is done by attaching the on this page without attachment to a hub shoulder arranged, separate inner ring causes. In order to the risk of breakage of the Hub also lowered. Furthermore, the favorable pressure forces on the entire hub practiced.

The radial and axial displacement of sweat place in the area within the storage furthermore has the advantage that a compact unit that also weighs is cheap.

The invention is illustrated by two figures explained.

Fig. 1 shows a partial cross section through the driven wheel bearing of a motor vehicle.

Fig. 2 shows a partial cross section through the non-driven wheel bearing of a motor vehicle.

The wheel bearing consists, among other things, of an integrated flange with an outer ring 1 , a hub 2 on which an inner ring is integrated and on which a separate second inner ring 3 of a double-row bearing 4 with two rows of balls 4 'is arranged, and a constant velocity joint 5 . The constant velocity joint 5 has a pin 6 protruding into the hub 2 , which is welded to a base 7 of the hub 2 on its end face. In order to keep the heat from the bearing 4 as far as possible, a radial clearance 8 is provided between the hub 2 and the pin 6 of the constant velocity joint 5 . The weld 9 is thus far from the bearing 4 despite the compact structure. This is reinforced by the fact that the pin 6 has a length which corresponds approximately to the width of the bearing 4 . In order to increase the expansion screw effect of the pin 6 , its length is approximately 1.5 times as large as its diameter.

All of these measures have another important effect. When welding, namely, the hub portion 2 'heats up less than the elastic pin 6th When cooling, there is therefore a greater shortening of the pin 6 than the hub portion 2 '. Characterized an axial pressure on the hub portion 2 'is exerted from the front side 5 ' of the constant velocity joint 5 , which contributes to a favorable stress on the hub 2 .

So that the risk of breakage of the hub 2 is further reduced, a rounded transition 10 is provided between the separate inner ring 3 and the hub 2 . This significantly reduces the notch effect at this point. Since the inner ring 3 with its inner end faces the transition 10 with a gap 11 , almost the entire axial pressure can be exerted on the hubs 2 in a desired manner.

In the non-driven wheel mounting according to Fig. 2 of the constant velocity joint is in place, a retaining ring 12 is provided. The separate inner ring 3 is supported on this. In addition, it causes the desired pressure build-up in the hub 13 by coming to rest on its end face 13 'when cooling with its shoulder 12 '. The weld 14 is located at the end of the pin 15 of the retaining ring 12 and on the end face of a projection 16 which is attached to the bottom 13 '' of the hub 13 . As a result, the gap 17 is lengthened somewhat and the heat transfer is made more difficult.

Claims (4)

Wheel bearings for motor vehicles consisting of a double row angular contact bearing, an outer ring, a hub with an integrated and a separate inner ring and a welded to the hub constant velocity joint or a correspondingly attached retaining ring are provided and the constant velocity joint or the retaining ring with an end face abuts on the end face of the separate inner ring of the bearing and the hub, characterized in that between the hub ( 2 , 13 ) or the projection ( 16 ) attached to the bottom ( 13 ′ ') thereof and that in the hub ( 2 , 13 ) projecting pin ( 6 , 15 ) of the constant velocity joint ( 5 ) or retaining ring ( 12 ) a ra dialer clearance ( 8 , 17 ) is provided. 2. Wheel bearing according to claim 1, characterized in that the weld ( 9 , 14 ) on the end face of a pin ( 6 , 15 ) of the constant velocity joint ( 5 ) or retaining ring ( 12 ) is located, wherein the pin ( 6 , 15th ) has a length that corresponds approximately to the width of the double row bearing ( 4 ). 3. Wheel bearing according to claim 2, characterized in that the length of the pin ( 6 , 15 ) is greater than its average diameter. 4. Wheel bearing according to claim 1, 2 or 3, characterized in that in the region of the inner end face of the inner ring ( 3 ) on the hub ( 2 ) a tapered or rounded transition ( 10 ) to the raceway of the other bearing is provided and that the inner end face of the inner ring ( 3 ) faces this transition ( 10 ) with an axial gap ( 11 ).