DE202005007904U1 - Axially and radially loaded rolling bearing, especially tapered roller bearing, has respective slots in outer and inner race and are displaced in relation to one another by between 90 and 180 degrees - Google Patents

Abstract

The axially and radially loaded rolling bearing (1), especially a tapered roller bearing, consists of rolling bodies installed between an outer race (2) and inner race (4), whereby the outer race and also the inner race has a slot (3,5). The first and second slots are displaced in relation to one another by between 90 and 180 degrees. The first slot and/or the second slot is inclined to the bearing's longitudinal axis by a respective angle, with the angles of inclination being the same or different.

Description

The Invention relates to an axially and radially resilient rolling bearing, in particular tapered roller bearing, which consists of an outer ring and an inner ring and arranged therebetween rolling elements.

Around to guarantee the required concentricity errors and stiffnesses have to the requirements for the fitting dimensions of shaft and hub exactly be respected. If one sets e.g. Tapered roller bearings because of the good Bias adjustability in joints with nonlinear structures one, the must Sollpassungsmaße with more joining play be provided. This can cause that despite high axial preload an undesirable radial play between Inner ring and shaft and between outer ring and hub available can be, whereby the required bearing parameters can not be achieved are.

Out DE 254 628 A1 is a radially and axially resilient bearings for small rotation angle is known in which the outer ring laterally to the power transmission direction has a parallel or angularly extending to the bearing axis slot, which is always in the gap between two non-frictional rolling elements. During axial clamping, the outer ring widens and thus attaches firmly to the surface of the receiving bore. A tolerance compensation to a shaft on which the inner ring is seated, can not be done. A radial bearing, which has a bearing outer ring and a bearing inner ring, between which roll two cylinder sets, is in DE 198 27 859 A1 described. Between the two cylinder sets a center board is arranged, which receives the axial forces of the cylinder sets. The center board is slotted parallel or at an angle to the bearing axis. With this bearing, it is also not possible to compensate for tolerances to the shaft and the hub. A use of these bearings in structures that require a greater tolerance compensation is therefore not possible.

task The invention is an axially and radially resilient rolling bearing, in particular to develop tapered roller bearings, which compensates a big one Add game guaranteed between inner ring and shaft and between outer ring and hub and thus also on nonlinear structures, which for assembly reasons larger radial Add game require, can be used.

These Task is with the characterizing features of the first protection claim solved.

The axially and radially resilient bearings, in particular Tapered roller bearing, has an outer ring and an inner ring and intervening rolling elements, the outer ring is provided with a first slot and according to the invention also the Inner ring has a second slot.

Of the first slot and the second slot are in relation to the bearing longitudinal axis 90 to 180 degrees, preferably 180 degrees, arranged offset to one another, about the carrying capacity of the camp not to restrict.

Around a bumpless overrun the slots through the rolling elements to guarantee, are the first slot at an angle α advantageously also the second slot at an angle β to the bearing longitudinal axis inclined. It is also advantageous if the inclination direction of Slits in opposite directions is.

Of the Inclination angle α of First slot and the angle of inclination β of the second slot are preferred however, it is also possible to have different angles of inclination provided.

Of the Inclination angle α of first slot and the inclination angle β of the second slot with respect to on the bearing axis is 5 to 50 degrees, preferably 45 degrees.

The Invention will be described below with reference to an embodiment and associated drawings explained in more detail. It demonstrate:

1 : Top view of a rolling bearing 1 in the form of a tapered roller bearing,

2 : Section AA acc. 1 .

3 : Longitudinal section through the outer ring 2 in the area of the first slot 3 .

4 : Side view of the outer ring 2 from the direction of the first slot 3 .

5 : Longitudinal section through the inner ring 4 in the area of the second slot 5 .

6 : Side view of the inner ring 4 from the direction of the second slot 5 .

7 : Installation example of the rolling bearing according to the invention.

In 1 is the top view and in 2 the section AA acc. 1 a rolling bearing 1 (Tapered roller bearing) with a bearing axis A shown. The rolling bearing 1 consists of an outer ring 2 , an inner ring 4 and conical rolling bodies interposed therebetween 6 , The inner ring 4 has a groove on the outer diameter 4.1 on ( 2 . 5 . 6 ), which the rolling elements 6 axially limited. In the outer ring 2 is a first slot 3 arranged. In the inner ring 4 is 180 degrees to the bearing axis A offset to the first slot 3 a second slot 5 ,

3 shows the longitudinal section through the outer ring 2 in the area of the first slot 3 and 4 the side view of the outer ring 2 from the direction of the first slot 3 , Out 4 it can be seen that here is the first slot 3 with respect to the bearing longitudinal axis A at an angle α of 45 degrees is inclined.

The longitudinal section through the inner ring 4 in the area of the second slot 5 shows 5 and the side view of the inner ring 4 from the direction of the second slot 5 is in 6 shown. The second slot 5 is with respect to the bearing longitudinal axis A at an angle B of 45 degrees, ie opposite to the first slot 3 ( 4 ) inclined.

The schematic diagram of an installation example of a rolling bearing according to the invention 1 (Tapered roller bearing) is 7 removable. Two rolling bearings 1 sit mirror images of each other with their outer ring 2 in a hub 10 and with her inner ring 4 on a wave 20 , Every camp 1 points in the outer ring 2 a first slot 3 and in the inner ring 4 a second slot offset by 180 degrees 5 on. Both bearings 1 are through one between the outer rings 2 sitting mid-range 30 spaced apart. The two camps 1 are between two (thrust bearings / clamping rings ?? 40 ) axially clamped by means of screws S. Due to the axial bias, the outer ring sets 2 on the inner diameter of the hub 10 and the inner ring 4 on the outer diameter of the shaft 20 on, which is reliably compensated for the existing radial clearance. Thus, even with a low bearing preload joining games can be removed and gives a low-friction and very stiff joint with high concentricity and good mountability. The staggered arrangement of the first and the second slot, the bearing capacity of the bearing is not affected.

Claims (7)

Axial and radial load bearing roller bearings, in particular tapered roller bearings, consisting of an outer ring ( 2 ) an inner ring ( 4 ) and arranged therebetween rolling elements ( 6 ), wherein the outer ring ( 2 ) with a first slot ( 3 ), characterized in that the inner ring ( 4 ) a second slot ( 5 ) having. Axially and radially resilient rolling bearing according to claim 1, characterized in that the first slot ( 3 ) and the second slot ( 5 ) Are arranged 90 to 180 degrees offset from each other. Axially and radially resilient rolling bearing according to claim 1 or 2, characterized in that the first and the second slot ( 3 . 5 ) are arranged offset to the bearing longitudinal axis (A) by 180 degrees. Axially and radially resilient rolling bearing according to one of claims 1 to 3, characterized in that the first slot ( 3 ) at an angle (α) and / or the second slot ( 5 ) is inclined at an angle (β) to the bearing longitudinal axis (A). Axially and radially resilient rolling bearing according to one of claims 1 to 4, characterized in that the inclination direction of the slots ( 3 . 5 ) is in opposite directions. Axially and radially resilient rolling bearing according to one of claims 1 to 5, characterized in that the inclination angle (α) of the first slot ( 3 ) and the angle of inclination (β) of the second slot (FIG. 5 ) is the same or different. Axially and radially resilient rolling bearing, according to one of claims 1 to 6, characterized in that the inclination angle (α) of the first slot ( 3 ) and the angle of inclination (β) of the second slot (FIG. 5 ) is 5 to 50 degrees with respect to the bearing axis (A).