DE8202674U1 - Axial fastening device for a machine element - Google Patents

Description

FAG BUDGET FISHERMAN GEORG SCHAEFER & CO. R-RS-1-654a-wa-gu 8720 Schweinfurt 2 Jan. 7, 1982

Axial fastening device for a machine element

The innovation relates to an axial fastening device for a machine element, in particular a roller bearing ring, on a shaft or in the housing under axial preload with the help of a ring on one side with its face in a groove made in the shaft or in the housing and on the other S-Lte is applied to the clement to be fastened.

An arrangement of the type mentioned above is known from DE-OS 22 04 831. Here the fastening ring comes to rest in the area of the rounding of the rolling bearing race. Although this results in a relatively secure fastening, in addition to the axial component, there is also a radial component from the pretensioning force. This fact is not disadvantageous if only low preload forces are exerted on the element to be fastened. Unfortunately, this is not always the case. Often, permanent axial preloads of several tons have to be applied. This is particularly necessary when two roller bearings are placed next to each other that alternately have to absorb high axial forces. In such cases, the radial component is then a major disadvantage. ^{The rolling layers,} which are usually thin for weight reasons, are then radially deformed or tilted in an impermissible manner. There are changes in play and thus premature bearing failure. There be ^. During assembly of the fastening ring, axial forces usually still occur that are higher than the remaining ones, the corresponding race can even burst and the bearing can be destroyed .

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It is therefore the object of the invention to provide a means of attachment to be further improved of the type mentioned above so that even with high axial preloads none Radial forces or tilting moments are exerted on the machine element to be fastened, with a view to Tolerances a certain adjustment is possible and a safe execution is still achieved.

The solution is given in the characterizing part of the first claim. Claims 2 and 3 contain particular ones Refinements.

Characterized in that the fastening ring with its end face comes to rest on an axial surface, there is no longer any risk of undesirable radial forces acting on it fastening element are exerted, even with the high axial forces. These are incidentally held in the respectively desired tolerance range that the fastening ring is approximately V-shaped in partial cross-section is trained and does not come to rest anywhere. With the resulting increased plasticity and a With a certain elasticity, the effects of manufacturing tolerances can be minimized. Especially those often The high axial forces that have already been planned are not increased in an impermissible manner. One even with a slotted one Ring secure fixing device results from the fact that the axial contact surface is arranged in a ring recess is. The assembly is hardly made difficult. The fastening ring, however, is at least partially different from the one to be fastened Part surrounded that it is very well fixed in all operating conditions.

In a preferred manner, the support surface of the ring recess should open outwards. This will help at deep Recesses an adaptation to the V-ring and an easier insertion of the fastening ring during assembly achieved.

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The innovation is carried out on the basis of a partial cross-section a roller bearing, which is mounted on a shaft, explained in detail.

The single figure shows a shaft 1 on which a two-row angular contact ball bearing 2 with two inner rings 3 and 4 is placed. On the one hand, the inner rings 3 and the fixed shaft collar 1 'are axially fixed here in a known manner. On the other side of the two-row angular contact ball bearing 2 there is a groove 5 in the shaft 1. The approximately V-shaped ring 6 is inserted into this. This is slotted so that it can be introduced into the groove 5 via the shaft shoulder 7. With its one end face it rests against an axial surface 5 ^{1 of} the groove 5, while its second end face 6 ¹ comes to rest against an axial surface 8 ^{1 of} the annular recess of the inner ring 4.

It is obvious that in the embodiment shown here only axial forces can be exerted on the inner rings 3 and 4 when the fastening ring 6 is shown in FIG Way is pressed under axial oversize with the help of a tool in the groove 5. The assembly is thereby facilitates that the bore surface 9 of the annular recess 8 opens to the outside, because this makes it much easier to insert the ring 6. The V or .Λ. -shaped Execution causes increased plasticity and a

certain elasticity of the fastening ring 6, whereby the effects of manufacturing tolerances are minimized. 30th

Claims (3)

1 FAG KUGELFISCHER GEORG SCHAEFER S CO. R-RS-1-654a-wa-gu Schweinfurt "Jan. 27, 1982 -1- claims 1. Axial fastening device for a machine element, in particular a roller bearing ring on a shaft or in the housing under axial preload with the help of a ring, ter on one side with its end face in a groove made in the shaft or in the housing and on the other side on the to be fastened rests, characterized in that the slotted fastening ring (6) faces with its end face (6 ') an axial surface (8 ¹ ), which is arranged in an annular recess on the element (4) to be fastened, and in partial cross-section approximately V -shaped, whereby this V-shaped part does not come into contact with either the casing or the bore side. 2. Fastening device according to claim 1, characterized in that the fastening ring (6) in part] is approximately A-shaped cross-section. 3. Fastening device according to claim 1 or 2, characterized in that the bore surface (9) opens the ring recess (8) to the outside.