DE702175C - Spherical roller bearings - Google Patents

Description

The invention relates to single and multi-row spherical roller bearings with spherically shaped rollers. The known roller bearings of this type have the disadvantage that the rollers are easy tilt, d. H. that their axes assume a position crossed to the bearing axis. It Attempts have already been made to remedy this deficiency by adding to one of the raceways Guide surfaces for the rollers are arranged. However, such bearings are very difficult to manufacture and do not give any Ensure that the rollers are prevented from tilting. It is also known at Spherical roller bearings with barrel-shaped rollers the raceway of the inner ring with two themselves equip in the middle angular cutting paths, so that the roles in several Be supported above levels. It has but it has been shown that the spherical rollers still tilt even with such roller bearings can. Such bearings in a two-row arrangement also show the disadvantage that as a result of the formation of the running surface of the inner rings, a lateral displacement of the Pairs of rollers is prevented when axial pressures occur, so that then only- each one of the rows of rollers carries, which reduces the permissible load by 50%. According to the invention, the specified deficiencies are made by the combination of the following known features eliminated:

1. the running surface of the outer ring is spherical,

2. the running surfaces of the inner ring are divided into a channel,

3. The mainly spherical rollers are laterally tapered, with only the spherical parts on the outer race and the tapered side parts on the channel surfaces of the inner race, 4 »

4. The opening angle of the channel is so large that the reverse turning moment is greater is as the edging moment.

The advantage of this design of the roller bearings is that shoulders that a. Edges of the rolls cause them to be completely avoided. This means that the roller bearing is ready for recording suitable for axial pressures without

the role tilts and without causing a great deal of friction, as it used to be between Roll and shoulder occurred. The curvature of the crowned part is adapted to the curvature of the outer running surface, while the The curvature of the tapered side parts corresponds to the curvature of the inner race.

In the case of double-row roller bearings of the embodiment according to the invention, in further ίο Forming a guide ring arranged between the two rows of rollers, the non-positive rests against both rows of rollers. As a result, the two rows of rollers move evenly, so that both always come into play. The individual features listed in the claim are known per se, but will the beneficial effect is only achieved through the union of all these characteristics, so that the Side shoulders can be omitted. In the drawing, the invention is for example shown.

In both figures, 1 is the outer race, 2 is the roller, 3 is the inner race.

In Fig. Ι a single row spherical roller bearing is shown, which has a central spherical part 4 and tapered parts 5 and 6 symmetrically arranged on both sides. The inner race is provided with running surfaces 7 and 8 inclined at an angle to one another, while the outer running surface 9 is continuously spherical. The center of curvature of this outer running surface is 10, as is the center of curvature of the central part 4 of the roller. So both have the same curvature. On the other hand, the center of curvature of the channel-shaped part 7 is at 11, as is the center of curvature of the tapered part 5, so that these two parts also have the same curvature. The opening angle of the two treads 7, 8 forming a groove for the parts 5, 6 of the rollers 4 is so large that the reversing moment on the inner ring 3 according to the resultant of the forces P at the bottom left in FIG. 3 is greater than the edging moment on the outer ring 1 according to the resultant of the forces P ^{1 at the} top right in Fig. 3 of the drawing.

In Fig. 2 , a double row bearing is shown. The two rows of rollers are designed with their associated running surfaces exactly like the bearing according to FIG. 1. The bearing support ring 12 is located between the two rows of rollers. At 13 is the center of curvature of both the spherical roller parts and the outer running surface. At 14 are the centers of curvature of the tapered side parts.

Claims (5)

Claims: i. Single or multi-row spherical roller bearings, characterized by the combination of the following known features: 1. the running surface of the outer ring is spherical, 2. the running surfaces of the inner ring are divided into a channel, 3. The mainly convex rollers are laterally tapered, whereby only the spherical parts on the outer race and the tapered side parts on the groove surfaces of the inner race to run, 4. the opening angle of the gutter is so large that the reverse turning moment is greater than the edging moment. 2. Roller bearing according to claim 1, characterized in that the curvature of the convex part of the curvature of the outer ring and the curvature of the Side parts corresponds to the curvature of the trough-shaped inner raceway. 3. Roller bearing according to claim 1 and 2, characterized in that the tapered Roll parts are conical. 4. Roller bearing according to claim 1, characterized in that in per se known Align the centers of curvature for the tapered roller parts outside of the center plane of the rollers lie. 5. spherical roller bearing according to claim 1 or the following with two rows of rollers, characterized by using a known per se, arranged between the two rows of rollers and on both Rows of rollers with a friction-locked guide ring. 1 sheet of drawings BERLIN. PRINTED IN ECR