DE1066813B - - Google Patents

Description

GERMAN

Rollers or needles in radial bearings do not absorb any axial forces. There are therefore next to radial bearings Thrust washers or thrust roller bearings are provided. Axial needle cages have also been used recently used similar to a sliding washer. The raceways of such bearings are often from the bore jacket and adjacent end face formed. It applies to simple elements and to the smallest Building space a functional storage, in particular for the radial roller or needle bearing to create axial and radial guidance for the cage of the axial bearing.

Discloses a storage, in which the needles of the radial bearing anlau- against the annular end of a _cage; fen, which is expanded radially to a cage of the thrust rolling bearing. The cage ring, which is enlarged at the front, is firmly connected to the opposing stirring of the radial needle sigger by means of a rivet>; Since the cage front ring of the radial bearing is combined with the cage of the axial bearing to form an ao unit in the known design, the rolling conditions are particularly poor for the axial bearing .: A bearing is also known in which the axial forces act directly on the rolling elements of an axial bearing are transmitted and wherein the rolling elements of the axial bearing are arranged in the axis of the rolling elements of the radial bearings.

It is also known a bearing in which a radial roller bearing and an axial roller bearing in complete Execution are arranged side by side and with the existing cages of the two bearings not run against each other at all.

Furthermore, a bearing is known in which the outer race is provided with a fixed rim that is used for Support of the rolling elements of the axial bearing in the manner of an angular contact ball bearing and its cage as cylinder-like ring is formed, against the end face of which the cage ring of the radial bearing run can. The rolling elements of the axial bearing are for the most part in the area of the inner and outer Radial bearing career.

In a bearing for vertically standing waves, it is also known that the rolling elements of an axial ball bearing take over the axial support of a radial bearing.

The invention now relates to a storage in which the axial power transmission from an axial bearing with disc cage and the radial power transmission from a rimless radial needle or roller bearing happens, wherein the disc cage of the axial bearing is arranged approximately at right angles to the axis of the radial bearing is.

For a storage of this type, the invention proposes that the needle or roller ring of the storage

Applicant:

Industriewerk Schaeffler o.H. G., Herzogenaurach

And dife rolling elements starts radial bearing axially directly or indirectly against an end-face annular surface of the disc cage of the thrust bearing as against a lateral rim of the thrust bearing radially outside the outer Läufbahn of ¹ Radial Jagers · or · lie within the inner race of the radial bearing.

By arranging the rolling elements of the axial bearing 'outside the outer raceway of the radial bearing "A particularly favorable absorption of axial forces is achieved, because in this arrangement the rolling elements of the axial bearing are at a relatively large distance from the axis and because it continues as a result is possible to use a larger number of rolling elements.

In the case of radial bearings with a cage, there is an axial run-up of the end face of the cage of the radial bearing the end face of the cage of the thrust bearing instead.

Although there is a reduced relative speed between the contacting surfaces, must the contact surface of the cage of the axial bearing according to the loads occurring and the start-up conditions be designed. With direct approach of the needles it will be necessary for steel cages that To harden the face. It must also be in the form and location, the starting conditions and the dimensioning of the radial bearing must be adapted. The contact surface on the cage of the axial bearing is z. B. designed in such a way that the radial distance between the inner diameter and the window face is equal to or greater than that Wall thickness of the cage of the radial bearing at its end face. If the rolling elements start up directly, the named radial distance, which results in the frontal contact surface on the cage of the axial bearing, adapted to the face of the rolling elements.

A major advantage of the invention is that the cage of the axial bearing with its inner The outer surface is guided directly on the shaft or on the extended inner raceway of the radial bearing can be. The processing of this area hardly requires any additional effort. It can do the

Claims (2)

Outer surface of the shaft ·, or des. Inner ring can be used directly. An external centering would be an additional centering surface on the housing with the known difficulties in the. Machining, require a hole. Further details of the invention are illustrated in the drawings, for example. It shows Fig. 1 in longitudinal section the mounting of a gear, '' ■:;?: -. - '"* a' '' Λ Fig. 2 in longitudinal section the bearing of a swivel castor, Fig. 3 in longitudinal section the bearing with an axial ball bearing with cage The function of the gearwheel results in axial forces which are absorbed by an axial needle bearing 4. The raceways 5 ″ and the raceway 6 of the axial bearing are formed by the bore and the adjacent end face of the gearwheel. The cage 7 of the A ^ iaWaSers. is guided in its bore 8 on the shaft 3. The cage 9 of the radial bearing runs in an axial direction against the end face 10 of the cage 7 of the axial bearing. An.-The radial width of the end face 10 as the contact surface of the cage 7 on the cage of the axial bearing is designed so that the distance from the bore to the frontal boundary surfaces of the window corresponds to the contact conditions of the radial cage or radial needle ring is adapted. In many cases, as shown in FIG. 2, it is necessary to absorb the axial forces in both directions. against the end face 15 of the cage 16. Between the two needle roller and cage assemblies there is a fixed stop flange 17. Particularly in the case of lower forces, an axial ball ring can also replace an axial needle bearing so that the needle roller bearing 18 runs against the end surface 19 of the ball cage 20 and the run-up of the needle roller assembly 21 against the end face 22 of the ball cage 23. 1. Storage in which the axial power transmission from an axial bearing with a disc cage and the radial power transmission from a rimless radial needle or roller bearing happens, wherein the disc cage of the axial bearing is arranged approximately at right angles to the axis of the radial bearing, characterized in that the needle or . Roller ring of the radial bearing axially directly or indirectly against an end face of the ring surface The disc cage of the axial bearing runs against a side rim and the rolling elements of the axial bearing radially outside the outer raceway of the radial bearing or within the inner raceway of the radial bearing. ... 2. Storage according to claim!, Characterized in that the rolling bodies of the radial bearing in are guided in a cage and the end face of the cage against an end face of the disc cage of the axial bearing starts up. Considered publications:
German Patent No. 445 280;
U.S. Patent Nos. 2,641,516, 2,430,359; ^v French patents nos. 1 103 560, 731 895. 1 sheet of drawings