DE102017128800A1 - roller bearing - Google Patents

Abstract

The invention relates to a roller bearing (1), comprising an outer ring (2) with a substantially hollow spherical outer ring raceway (3) and an inner ring (4) with a likewise substantially spherically spherical, complementary inner ring raceway (5), and between these hollow spherical raceways ( 3, 5) arranged rolling bodies (6), which have crowned profiles, wherein the radius of curvature (D3) of the outer ring raceway (3) not equal to the distance (DA) of the outer diameter of the outer ring raceway (3) from the rotation axis (WA) of the roller bearing (1) is. According to the invention, it is provided that the radius of curvature (D3) of the outer ring raceway (3) is smaller than the distance (DA) of the outer diameter of the outer ring raceway (3) from the axis of rotation (WA) of the roller bearing (1).

Description

The invention relates to a roller bearing, comprising an outer ring with a substantially hollow spherical outer ring raceway and an inner ring with a likewise substantially spherical, complementary inner ring raceway, and arranged between these hollow spherical raceways rolling elements, which have spherical profiles, wherein the radius of curvature of the outer ring raceway unequal to the distance the outer diameter of the outer ring raceway of the rotational axis of the roller bearing is.

Such a roller bearing is from the DE 196 12 589 A1 known. It is a bearing in X-arrangement of a planetary gear, which is provided with two spaced-apart tapered roller bearings. The barrel-shaped needles of this roller bearing are curved with a large radius and formed with respect to their diameter considerably longer. The raceways of both tapered roller bearings are circularly curved and have their center each radially outward of the raceway diameter and axially between the inner side surface and the axial center of the respective tapered roller bearing. As a result, the storage with minimal dimensions is slightly pivotable and axially resilient. The degree of pivoting is determined by the deliberately intended radial play in the normal position. The carrying capacity of this tapered roller bearing is sufficient for the stated application and a cross-over and blocking the barrel-shaped needles is not given because of their large length.

Against this background, the invention has the object to design a generic roller bearing so that a higher load capacity of the roller contact on the outer and inner ring raceways on the pressure ellipses is increased and at the same time a lateral and blocking of the rolling elements is prevented.

This object is achieved by a roller bearing with the features of claim 1. Advantageous developments are mentioned in the dependent claims.

Accordingly, the invention relates to roller bearings, comprising an outer ring having a substantially hollow spherical outer ring raceway and an inner ring with a likewise substantially spherically spherical, complementary inner ring raceway, and with arranged between these hollow spherical raceways rolling elements, which have spherical profiles, wherein the radius of curvature of the outer ring raceway unequal to the distance the outer diameter of the outer ring raceway of the rotational axis of the roller bearing is.

In this roller bearing is provided according to the invention that the radius of curvature of the outer ring raceway is smaller than the distance of the outer diameter of the outer ring raceway from the axis of rotation of the roller bearing.

This geometric design of the roller bearing according to the invention is thus such that the radial center of the radius of curvature of the outer ring raceway between the bearing center line or bearing rotation axis and the inner ring raceway is arranged. As a result, the rolling elements become barrel rollers and the rolling elements can be controlled via the pressure ellipses on the inner ring and outer ring contact, so that the cross-over and blocking is prevented. The carrying capacity of the roller contact is thus significantly higher than in the tapered roller bearing with barrel-shaped needles according to the cited prior art.

According to an advantageous development of the features of the invention having roller bearing is provided that the distance of the center of curvature of the radius of curvature of the outer ring raceway of the rotational axis of the roller bearing is greater than 0.01 times the distance of the outer diameter of the outer ring raceway of the rotational axis of the roller bearing.

Further, it is preferably provided that the distance of the center of curvature of the radius of curvature of the outer ring raceway of the rotational axis of the roller bearing is less than the difference between the distance of the outer diameter of the outer ring raceway from the axis of rotation of the roller bearing and the diameter of the rolling elements.

Depending on whether the roller bearing according to the invention is formed with axes of rotation of the rolling elements parallel to the axis of rotation of the roller bearing or as tapered roller bearings with a pressure angle of the rotational axes of the rolling elements with respect to the axis of rotation of the tapered roller bearing, it can be provided that the center of curvature of the outer ring raceway is within a range of the axial center of the roller bearing extends to a side surface of the roller bearing designed as a roller bearing on the one hand and on the other hand between the roller bearing pivot axis and the inner ring.

As an additional security against a transverse position and blocking of the rolling elements, these can be guided in a cage.

Preferably, the rolling elements are designed as barrel rollers whose axial length is equal to or greater than twice the diameter of these rolling elements, whereby a large load capacity of the roller contact is achieved.

According to another advantageous development of the features of the invention having roller bearing can be provided that the Schmiegungsverhältnis the outer ring raceway to the crowned Wälzkörperprofil the rolling elements is the same size as the Schmiegungsverhältnis the inner ring raceway to crowned Wälzkörperprofil and thereby 101% and 101%

Alternatively, it can be provided that the Schmiegungsverhältnis the outer ring raceway is closer to the spherical rolling element of the rolling elements than at the inner ring raceway and thereby 101.5% and 103%.

Finally, it can be provided that the Schmiegungsverhältnis the outer ring raceway to the spherical rolling element profile of the rolling elements is greater than on the inner ring raceway and thereby 103% and 101.5%.

• 1 einen radialen Teilschnitt durch ein erfindungsgemäßes Rollenlager in einer ersten Ausführungsform, und
• 2 einen radialen Teilschnitt durch ein als Schrägrollenlager ausgeführtes Rollenlagers gemäß einer zweiten Ausführungsform.

The invention will be explained below with reference to two embodiments illustrated in the accompanying drawings. In this drawing shows

• 1 a partial radial section through a roller bearing according to the invention in a first embodiment, and
• 2 a radial partial section through a designed as a tapered roller bearing roller bearing according to a second embodiment.

In the drawing, like elements of the two embodiments of the roller bearing are provided with the same reference numerals and letter designations.

1 thus shows a roller bearing 1 with an outer ring 2 which has a substantially hollow spherical outer raceway 3 has, and with an inner ring 4 which also has a substantially hollow spherical, complementary inner ring raceway 5 Has. Between the inner ring 4 and the outer ring 2 are trained as barrel rollers rolling elements 6 arranged on the mentioned raceways 3 . 5 can roll off. With the reference number W _A is the rolling bearing pivot axis, on which the axial center 7 of the roller bearing 1 is drawn. The outer ring raceway 3 has a radius of curvature D ₃ on, whose radial center of curvature M _A in the axial center 7 of the roller bearing 1 at an axial distance from a side surface 8th of the inner ring 4 and with a radial distance A from the rolling bearing axis of rotation W _A is drawn. The radial center of curvature _MJ the radius of curvature D ₅ the inner ring raceway 5 also in the axial center 7 of the roller bearing 1 , but outside the outer diameter of the outer ring 2 ,

Visible is the radius of curvature D ₃ the outer ring raceway 3 less than the distance D _A the outer diameter of the outer ring raceway 3 from the axis of rotation W _A of the roller bearing 1 , In addition, in this roller bearing 1 provided that the distance A the radial center of curvature M _A the radius of curvature D ₃ the outer ring raceway 3 from the axis of rotation W _A of the roller bearing 1 is greater than 0.01 times the distance D _A the outer diameter of the outer ring raceway 3 from the axis of rotation W _A of the roller bearing 1 ,

It can also be seen that the distance A the radial center of curvature M _A the radius of curvature D ₃ the outer ring raceway 3 from the axis of rotation W _A of the roller bearing 1 is less than the difference between the distance D _A the outer diameter of the outer ring raceway 3 from the axis of rotation W _A of the roller bearing 1 and the diameter Dw of the rolling elements 6 ,

The trained as barrel rollers rolling elements 6 can by means of a only in 2 shown cage 15 be guided, but can be run as a barrel rollers rolling elements 6 Control via the pressure ellipses on the inner and outer ring contact so that a lateral position and blocking of the same is prevented, at the same time a higher load capacity of the roller contact is achieved.

The trained as barrel rollers rolling elements 6 have an axial length which is equal to or greater than twice the diameter of the rolling elements 6 , A cage guide is in the running as a barrel rollers rolling elements 6 if necessary, if their axial length is comparatively low.

The assembly of the roller bearing according to the invention can preferably take place via a filling arc analogous to a conventional ball bearing.

As with all roller bearings and the roller bearing according to the invention 1 a raceway profile that is curved in axial section, which is why the raceways 3 . 5 of the outer ring 2 and the inner ring 4 have a slightly larger radius than the Wälzflächengeometrie the rolling elements 6 , This curvature difference in the axial plane is characterized by the osculation.

Depending on the application and stress of the roller bearing according to the invention 1 can the Schmiegungsverhältnis the outer ring raceway 3 to crowned Wälzkörperprofil equal to the Schmiegungsverhältnis the inner ring raceway 5 to be crowned Wälzkörperprofil, in particular 101% to 101%. The Schmiegungsverhältnis on the outer ring raceway 3 can also be narrower than at the Inner ring raceway 5 especially 101.5% to 103%. Finally, the Schmiegungsverhältnis on the outer ring raceway 3 be further than at the inner ring raceway, in particular 103% to 101.5%.

According to the roller bearing according to the invention 2 it is a tapered roller bearing 9 with a pressure angle α and with an outer ring 10 , whose outer ring raceway 11 around this pressure angle α opposite the roller bearing axis W _A is inclined. The same applies to the inner ring raceway 13 the local inner ring 12 , so that the axes of rotation of the rolling elements designed as barrel rollers 14 run correspondingly inclined. The trained as barrel rollers rolling elements 14 are in this embodiment by a cage 15 guided. The axial center 16 of the tapered roller bearing 9 is in 2 marked as well as the right side surface 17 of the inner ring 12 ,

The other names that with those of 1 match, have been retained. Accordingly, the dimensions for the embodiment according to apply 2 , For both embodiments applies that trained as barrel rollers rolling elements 6 . 14 via the pressure ellipses on the inner ring and outer ring contact can be controlled so that the transverse position and blocking of the same is prevented, and that the carrying capacity of the roller contact is significantly higher than the punctiform ball contact of a ball bearing.

LIST OF REFERENCE NUMBERS

1

roller bearing

2

Outer ring of the roller bearing

3

Outer ring raceway of the outer ring 2

4

Inner ring of the roller bearing

5

Inner ring raceway of the inner ring 4

6

Rolling elements, barrel rollers

7

Axial center of roller bearing

8th

Side surface of the roller bearing

9

Tapered roller bearings

10

Outer ring of the tapered roller bearing

11

Outer ring raceway of the outer ring 10

12

inner ring

13

Inner ring raceway of the inner ring 12

14

Rolling elements, barrel rollers

15

Cage

16

Axial center of tapered roller bearing

17

Side surface of the tapered roller bearing

WA

Rolling axis of rotation

MA

Center of curvature of the radius of curvature D3 the outer ring raceway

THERE

Distance between the outer diameter of the outer ring raceway of WA

D3

Radius of curvature of the outer ring raceway

DW

Diameter of the rolling elements

A

distance WA to MA

MJ

Center of curvature of the radius of curvature D5 the inner ring raceway

D5

Radius of curvature of the inner ring raceway

D6

Radius of curvature of the roller designed as a barrel roller

α

contact angle

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 19612589 A1 [0002]

Claims (9)

Roller bearing (1, 9), comprising an outer ring (2, 10) with a substantially hollow spherical outer ring raceway (3, 11) and an inner ring (4, 12) with a likewise substantially spherical spherical, complementary inner ring raceway (5, 13), and arranged between these hollow spherical raceways (3, 5, 11, 13) rolling elements (6, 14) which have spherical profiles, wherein the radius of curvature (D3) of the outer ring raceway (3, 11) is different than the distance (DA) of the outer diameter of the outer ring raceway (3, 11) of the rotation axis (WA) of the roller bearing (1, 9), characterized in that the radius of curvature (D3) of the outer ring raceway (3, 11) is smaller than the distance (DA) of the outer diameter of the outer ring raceway (3 , 11) from the rotation axis (WA) of the roller bearing (1, 9). Roller bearing (1, 9) after Claim 1 , characterized in that the distance (A) of the radial center of curvature (MA) of the radius of curvature (D3) of the outer ring raceway (3, 11) from the axis of rotation (WA) of the roller bearing (1, 9) is greater than 0.01 times Distance (DA) of the outer diameter of the outer ring raceway (3, 11) from the axis of rotation (WA) of the roller bearing (1, 9). Roller bearing (1, 9) after Claim 1 or Claim 2 , characterized in that the distance (A) of the radial center of curvature (MA) of the radius of curvature (D3) of the outer ring raceway (3, 11) from the axis of rotation (WA) of the roller bearing (1, 9) is less than the difference between the distance (A) DA) of the outer diameter of the outer ring raceway (3, 11) of the rotation axis (WA) of the roller bearing (1, 9) and the diameter (DW) of the rolling elements (6, 14). Roller bearing (1, 9) according to one of Claims 1 to 3 , characterized in that the radial center of curvature (MA) of the outer ring raceway (3, 11) lies in a region extending from the axial center (7, 16) of the roller bearing (1, 9) to a side surface (8, 17) of the designed as a tapered roller bearing roller bearing (9) on the one hand and on the other hand between the roller bearing pivot axis (WA) and the inner ring (4, 12). Roller bearing (9) according to one of Claims 1 to 4 , characterized in that the rolling bodies (14) are guided by a cage (15). Roller bearing (1, 9) according to one of Claims 1 to 5 , characterized in that the rolling elements (6, 14) are designed as barrel rollers and have an axial length which is equal to or greater than twice the diameter of the rolling elements (6, 14). Roller bearing (1, 9) according to one of Claims 1 to 6 , characterized in that the Schmiegungsverhältnis the outer ring raceway (3, 11) to the spherical Wälzkörperprofil the rolling elements (6, 14) is the same size as the Schmiegungsverhältnis the inner ring raceway (5, 13) to the spherical rolling element profile and thereby each 101% and 101%. Roller bearing (1, 9) according to one of Claims 1 to 6 , characterized in that the Schmiegungsverhältnis on the outer ring raceway (3, 13) is narrower than on the inner ring raceway (5, 13) and thereby 101.5% and 103%, respectively. Roller bearing (1, 9) according to one of Claims 1 to 6 , characterized in that the Schmiegungsverhältnis on the outer ring raceway (3, 11) is greater than on the inner ring raceway (5, 13) and thereby 103% and 101.5%.

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