DE102010022551A1 - Roller bearing e.g. main rotor bearing, for wind-power plant, has inner and outer rings and rolling members comprising different material compositions, so that rings and members have same service life for different mechanical loads - Google Patents

Abstract

The bearing (1) has rolling members (5) i.e. tapered rollers (6), arranged between outer and inner rings (3, 4) and formed as composite rollers or hollow rollers. The inner and outer rings and the rolling members comprise material compositions different from each other, so that the rings and the rolling members have same service life for all different mechanical operation loads. The rolling members have differentiated material structure such that the rolling members are adapted to maximum service life of the inner- and/or outer rings by its construction with respect to its service life.

Description

Field of the invention

The invention relates to a roller bearing arranged between an outer ring and an inner ring rolling elements, wherein at least one of the components inner ring, outer ring or rolling element has a material composition which is different from the material composition of one of the other components inner ring, outer ring or rolling elements.

Background of the invention

Rolling, especially large diameter tapered roller bearings, as used for example as rotor bearings of wind turbines, are subject to high and high stresses, which can lead to failure of individual components of the bearing and thus the failure of the entire bearing. It was observed that due to different curvatures, diameters and widths of the main components claimed outer ring, inner ring and rolling elements in particular the inner ring and the highest and the rolling elements are subject to the lowest mechanical stresses.

Proposals have already been made to achieve a longer useful life of rolling bearings by using particularly wear-resistant materials for the stationary bearing ring, for example in US Pat DE 100 62 036 C2 ,

From the DE 197 33 101 A1 a rolling bearing is known in which the inner ring and the rolling elements are made of materials which have a different proportion of Cu equivalents compared to the material of the outer ring.

There are already known solutions in which the rolling elements are made of a different material than that of the inner ring and the outer ring. So is out of the DE 197 29 450 A1 a rolling bearing for magnetically mounted vacuum pumps known in which the bearing balls formed rolling elements of a ceramic material and the outer ring and the inner ring made of a high-alloy chromium steel.

The above proposals allow a certain increase in the service life of individual components and a degree of coordination of the service life of the components, but they can not solve the basic problem that the inner ring - even with a slightly higher service life - many more reaches the end of its service life than the outer ring or the rolling elements.

Object of the invention

The invention has for its object to provide a rolling bearing, which does not have the disadvantages of different lengths of service life of the bearing components, and therefore has an optimized service life.

Summary of the invention

The invention is based on the finding that the maximum service life of a roller bearing should be based on the maximum service life of the strongest in this respect bearing component, and that the weaker in this respect bearing components should be designed so that their maximum service life reaches the service life of the strongest bearing component ,

Further, the invention is based on the finding that the task can be solved if in particular the rolling elements of the tapered roller bearing are designed so that they are structurally adapted to the service life of the bearing rings in terms of their maximum service life.

The invention is therefore based on a rolling bearing arranged between an outer ring and an inner ring rolling elements, wherein at least one of the components inner ring, outer ring or rolling element has a material composition which is different from the material composition of one of the other components inner ring, outer ring or rolling elements. To achieve the object, it is provided that the outer ring, the inner ring and the rolling elements are designed such that they each have largely the same service life despite the different mechanical operating loads.

By this procedure, either the service life of the entire bearing can be raised to the maximum service life of the strongest in this respect bearing component, or it can, with low demands on the total service life of the bearing, that bearing component costs and / or space to be weakened weakened, which due to usual operating loads and / or due to its geometry in itself has advantages in terms of its maximum life compared to the other bearing components.

In a further development of the invention can be provided that the outer ring, the inner ring and the rolling elements each consist of coordinated such different material compositions that the service life of these bearing components is at least largely identical.

According to another embodiment of the invention, its advantages can also be achieved in that the outer ring, the inner ring and the rolling elements are structurally designed so that the service life of these bearing components is at least largely identical.

In this context, it may be provided that the outer ring and the inner ring of the rolling bearing have a maximum service life aligned with the predicted useful life of the rolling elements. This can be done in such a way that the predicted service life of the inner ring corresponds approximately to ten times the service life of conventional generic inner rings, and that the predicted service life of the outer ring corresponds approximately to four times the service life of common generic outer rings of rolling bearings.

By this construction is advantageously achieved that the service life of the rolling bearing is significantly increased overall, since, for example, the service life of the otherwise first failing inner ring corresponds to the service life of the rolling elements. In other words, the service life values are matched to the strongest component by different choice of material, so that now even the weakest component - which is consistently the inner ring - has the same service life expectancy as the strongest component, which is usually the rolling elements ,

The invention is based on a variant of a rolling bearing designed as a tapered roller bearing with arranged between an outer ring and an inner ring rolling elements in the form of tapered rollers, wherein at least one of the components inner ring, outer ring or rolling element has a material composition, which of the material composition of at least one of the other Components inner ring, outer ring or rolling element is different. In this tapered roller bearing is provided according to the invention that the tapered rollers have a differentiated material structure, such that they are adapted by their construction with respect to their maximum service life to the maximum service life of the inner ring and / or the outer ring.

By this construction, the service life of the tapered roller bearing is optimized because, for example, the service life of the otherwise first failing inner ring now corresponds to the service life of the rolling elements. In other words, the service life values are matched to the weakest bearing component, so that now even the weakest bearing component, which is usually the inner ring, has the same service life expectancy as the strongest component, which is consistently the rolling elements. This is achieved in particular by the structure or structural design of the tapered rollers, which deviates from the structure or the material of the inner ring and the outer ring.

In addition, it can be provided that the tapered rollers are each formed as a composite role with a composite of different materials.

In another practical embodiment of the invention it is provided that the tapered rollers are each formed as a hollow roller. This variant can be supplemented by the hollow roller consists of at least two coaxially pressed tubes, wherein an inner circumferential surface of a radially outer tube over its entire surface on an outer circumferential surface of a radially inner tube, and in which the radially inner tube has an axial bore.

Finally, an embodiment of the invention is particularly advantageous, which is characterized in that the tapered roller bearing is used as the main rotor bearing a wind turbine.

Brief description of the drawings

The invention will be explained in more detail below with reference to the accompanying drawings. Therein, the single figure shows a radial section through an embodiment of a tapered roller bearing according to the invention.

Detailed description of the drawing

The tapered roller bearing 1 is a single row tapered roller bearing 2 trained and serves as a main rotor bearing of a wind turbine, not shown. The tapered roller bearing 1 has an outer ring 3 and an inner ring 4 on, between which a number of rolling elements 5 in the form of tapered rollers 6 are arranged. The tapered rollers 6 are in a cage 7 held and roll with their peripheral surfaces on one on the inside of the outer ring 3 formed conical outer raceway 8th and on one on the outside of the inner ring 4 molded conical inner race 9 from.

The tapered roller bearing 2 has an overall diameter D and a total width T. The inner ring 4 has an inner diameter d, an outer diameter d1 and a width B, wherein the width B is smaller than the total width T. The outer ring 3 has a width C which is smaller than the width B of the inner ring 4 and smaller than the total width T is.

Due to different curvatures caused by the employed tapered rollers 6 and through the different diameters and widths of tapered roller bearings 2 , Inner ring 4 and outer ring 3 arise for the components inner ring 3 , Outer ring 4 and rolling elements 5 . 6 different calculated service life values. For a conventional tapered roller bearing, the calculated service life of the inner ring 4 assumed with the value 1, the value for the service life of the outer ring is 2.5 and for the tapered rollers 6 trained rolling elements 5 a service life with a value of 10. The inner ring 4 achieved by fatigue first its end of life.

To achieve that these components have an approximately equal service life, is due to the structural design of the tapered rollers 6 the maximum service life of the same so on the maximum service life of the bearing rings 3 . 4 tuned that compared to conventional tapered roller bearings, the maximum service life of the tapered rollers 6 for example, by a factor of 10 with respect to the service life of the inner ring 4 and by a factor of 4 with respect to the outer ring 3 is reduced.

In this way is a tapered roller bearing 1 created, in which the main components outer ring 3 , Inner ring 4 and rolling elements 5 in each case have a very different service life compared to the respective other components, but this results in a total of the same total useful life of all components.

For this purpose, the tapered rollers 6 a differentiated material structure, ie, the structure of the tapered rollers 6 deviates from the structure of the inner ring 4 and the outer ring 3 from. Here, the structure of the tapered rollers 6 be designed so that it is designed as a sandwich role, that is designed as a composite role with a composite of different materials. So can the tapered roller 6 For example, have a core of a relatively soft material and an outer shell of a hard material.

But it is also possible not shown in the figure, in itself from the DE 10 2006 057 874 A1 known construction, in which the tapered rollers 6 are each formed as a hollow roller and, for example, consist of at least two coaxially pressed into each other tubes. In this case, an inner circumferential surface of a radially outer tube lies completely on an outer circumferential surface of a radially inner tube. A radially inner tube in this case has a weight-reducing axial bore.

LIST OF REFERENCE NUMBERS

1

Tapered roller bearings

2

Single row tapered roller bearing

3

outer ring

4

inner ring

5

rolling elements

6

Tapered roller

7

Cage

8th

Outer race

9

Inner raceway

B

Width of the inner ring

C

Width of the outer ring

d

Inner diameter of the inner ring

d1

Inner diameter of the inner ring

T

Overall width of the tapered bearing

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 10062036 C2 [0003]
• DE 19733101 A1 [0004]
• DE 19729450 A1 [0005]
• DE 102006057874 A1 [0028]

Claims (9)

Roller bearing ( 1 ) with between an outer ring ( 3 ) and an inner ring ( 4 ) arranged rolling elements ( 5 ), wherein at least one of the components inner ring ( 4 ), Outer ring ( 3 ) or rolling elements ( 5 ) has a material composition which of the material composition of one of the other components inner ring ( 4 ), Outer ring ( 3 ) or rolling elements ( 5 ) is different, characterized in that the outer ring ( 3 ), the inner ring ( 4 ) and the rolling elements ( 5 ) are designed such that they each have largely the same service life despite the different mechanical operating loads. Rolling bearing according to claim 1, characterized in that the outer ring ( 3 ), the inner ring ( 4 ) and the rolling elements ( 5 ) each consist of matched such different material compositions that the service life of these bearing components ( 3 . 4 . 5 ) is at least largely identical. Rolling bearing according to claim 1, characterized in that the outer ring ( 3 ), the inner ring ( 4 ) and the rolling elements ( 5 ) are constructively designed so that the service life of these bearing components is at least largely identical. Rolling bearing according to one of claims 1 to 3, characterized in that the outer ring ( 3 ) and the inner ring ( 4 ) one to the pre-calculated service life of the rolling elements ( 5 ) have a maximum useful life. Rolling bearing according to claim 4, characterized in that compared to a conventional rolling bearing, the constructively predetermined service life of the inner ring ( 4 ) increased tenfold and the constructive predetermined life of the outer ring ( 3 ) is quadrupled, and that the constructively predetermined service life of the inner ring ( 4 ) compared to the constructively predetermined service life of the outer ring ( 3 ) is raised by a factor of 2.5. Rolling bearing according to one of the preceding claims, characterized in that the rolling bodies ( 5 ) as tapered rollers ( 6 ) are formed, which have a differentiated material structure, such that these by their construction with respect to their service life to the maximum service life of the inner ring ( 4 ) and / or the outer ring ( 3 ) are adjusted. Rolling bearing according to claim 6, characterized in that the tapered rollers ( 6 ) are each formed as a composite role with a composite of different materials. Rolling bearing according to claim 6 and / or 7, characterized in that the tapered rollers ( 6 ) are each formed as a hollow roller. Rolling bearing according to claim 8, characterized in that the hollow roller consists of at least two coaxially pressed into each other tubes, wherein an inner circumferential surface of a radially outer tube over its entire surface bears against an outer circumferential surface of a radially inner tube.

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