DE102013213638A1 - Bearing assembly and method for mounting a bearing assembly - Google Patents

Abstract

A bearing assembly comprises a roller bearing (2), which - bearing rings (4, 5), namely an inner ring (4) and an outer ring (5), - between the bearing rings (4, 5) arranged rolling elements (6), as well as a Assembly of the roller bearing (2) on a shaft suitable auxiliary assembly ring (3), which is arranged within the inner ring (4) and frictionally connected thereto and at least one provided for receiving a hydraulic fluid bore (8) and adjoining this inner side groove (9, 10).

Description

Field of the invention

The invention relates to a bearing assembly with a rolling bearing and a method for mounting such a bearing assembly.

Background of the invention

From the DE 10 2010 053 404 A1 is known a method for assembling machine parts. In the machine part may be a bearing inner ring of a spherical roller bearing, which is thin-walled and has a small axial extent compared to its diameter. The bearing ring has a conical bore and is mounted on a conical shaft. The sliding of the bearing ring on the shaft by means of several axially displaceable hydraulic piston.

The installation of a spherical roller bearing on a shaft is also the subject of DE 10 2006 040 774 A1 , During assembly, the inner ring of the spherical roller bearing widens slightly in the desired manner. To monitor the expansion is after the DE 10 2006 040 774 A1 an indicator ring is provided which surrounds a rim of the inner ring. For a hydraulic assembly grooves and holes are introduced in the shaft, which oil is supplied to facilitate assembly.

Another device for mounting a bearing ring on a conical shaft is for example from EP 1 775 490 B1 known. This device comprises measuring means for measuring the axial displacement of an annular piston. As measuring means a measuring pin is provided, which is axially displaceable in a housing.

Object of the invention

The invention is based on the object, compared to the cited prior art further developed means for mounting a roller bearing, in particular spherical roller bearing to provide.

Description of the invention

This object is achieved by a bearing assembly with the features of claim 1 and by a method for mounting such a bearing assembly with the features of claim 9. In the following in connection with the bearing arrangement explained embodiments and advantages of the invention apply mutatis mutandis to the assembly process and vice versa.

The bearing assembly includes in a conventional manner a roller bearing with at least one inner ring, at least one outer ring, collectively referred to as bearing rings, as well as between the bearing rings rolling rolling elements. According to the invention, a mounting auxiliary ring is pressed into the inner ring of the rolling bearing, which remains at this point even when the bearing assembly is completely assembled, that is to say radially inside the inner ring, and is placed on a shaft, in particular pressed on. The auxiliary assembly ring has at least one bore and at least one adjoining this groove on its inner circumference. The bore and the groove are provided during the assembly of the rolling bearing oil - generally: a hydraulic fluid - to press and thus widen the inner ring of the bearing.

The inner ring of the rolling bearing, however, is preferably free of any bore or groove that could serve to press in oil and thus widening of the inner ring. Likewise, in a preferred embodiment, the shaft on which the inner ring is pressed together with the mounting auxiliary ring, no such grooves or holes.

The invention is based on the consideration that when assembling a bearing inner ring by hydraulic means, not only a fluid pressure acting in the axial direction is produced, but, as is known in principle from the prior art, also an oil film is generated, which radially between each other is to be connected parts.

Surprisingly, it has been shown that the production cost is reduced overall, if no channels are introduced into already existing parts for the hydraulic expansion, but an additional part, namely mounting auxiliary ring, is provided. The additional radial space taken up by the auxiliary assembly ring does not seriously affect the overall dimensions of the bearing assembly. Preferably, the maximum wall thickness of the mounting auxiliary ring is less than the maximum wall thickness of the inner ring of the rolling bearing. The mounting auxiliary ring preferably has the same measured in the axial direction width as the inner ring and is pressed on its entire width - apart from any edge rounding or bevels - with the inner ring of the bearing.

The shaft can be designed either as a solid shaft or as a hollow shaft. The outer circumference of the shaft is preferably conical, as is the inner circumference of the auxiliary mounting ring. Likewise, in a preferred embodiment, both the outer periphery of the mounting auxiliary ring, and the inner circumference of the inner ring of the rolling bearing are conical shaped. Alternatively, designs can be realized in which the inner circumference of the inner ring as well as the outer circumference of the mounting auxiliary ring is cylindrical. In any case, the inner ring and the mounting auxiliary ring are permanently connected to each other before the assembly of the rolling bearing on the shaft permanently to a press fit.

As long as the inner ring of the bearing is still separated from the mounting auxiliary ring, the outer diameter of the mounting auxiliary ring is at least slightly larger than the inner ring of the rolling bearing. In the case of a conical design of the rings, this diameter relation applies to mutually corresponding cross sections of the inner ring on the one hand and the auxiliary mounting ring on the other hand, that is, for cross sections at the same axial location of the respective ring. In order to be able to press the inner ring with the mounting auxiliary ring, a temperature difference between the two rings, preferably by heating the inner ring, is expediently produced. The material of which the auxiliary assembly ring is made is not necessarily identical to the material of the inner ring or the material of the shaft. The same applies to the surface treatment of said parts. In particular, the mounting auxiliary ring may have a lower surface hardness than the inner ring and also a lower surface hardness than the shaft.

According to a preferred embodiment, the mounting auxiliary ring on a plurality of circumferential, mutually parallel grooves. The grooves can be produced for example by milling. Relative to a bearing inner ring central cutting, normal to the bearing axis center plane, the grooves can be arranged symmetrically or asymmetrically. In any case, hydraulic fluid can be pressed between the assembly auxiliary ring and the shaft in various axial regions of the bearing arrangement due to the plurality of annular grooves. Several grooves can be supplied with hydraulic oil via the same hole. On the front side of the auxiliary assembly ring can be pressed into this by a single hole or through several holes oil.

The advantage of the invention is, in particular, that a conventional spherical roller bearing, which has a solid, not weakened by grooves and / or bores inner ring on a shaft which is also free of grooves or holes, by means of an additional special component, namely mounting auxiliary ring easy to install is. Also, to facilitate the disassembly of the bearing assembly oil can be pressed into the mounting auxiliary ring.

Short description of the drawing

An embodiment of the invention will be explained in more detail with reference to a drawing. Herein show:

1 A bearing assembly with a spherical roller bearing and a mounting auxiliary ring in a sectional view,

2 a detail from 1 ,

Detailed description of the drawing

A total with the reference numerals 1 marked bearing assembly consists of a rolling bearing 2 , namely spherical roller bearings, and a mounting auxiliary ring 3 together. With regard to the basic structure of a spherical roller bearing is based on the cited prior art and by way of example to the documents DE 10 2009 041 269 A1 such as DE 10 2011 086 925 A1 directed.

Components of the rolling bearing 2 are an inner ring 4 , an outer ring 5 , as well as between the bearing rings 4 . 5 rolling rolling elements 6 , namely barrel rolling. The rolling elements 6 are arranged in two rows, each row of rolling elements 6 separated by a cage 7 is guided.

The mounting auxiliary ring 3 is located radially exactly inside the inner ring 4 and forms with this a press federation. The inner ring 4 and the mounting auxiliary ring 3 have the same in the axial direction of the bearing 2 measured width. The measured in the radial direction wall thickness of the mounting auxiliary ring 3 is significantly lower than the average wall thickness of the inner ring 4 ,

The mounting auxiliary ring 3 can either with the complete rolling bearing 2 to the in 1 be represented pressed dressing or initially only with the inner ring 4 then connected to the rolling bearing 2 to complete. In any case, that of the inner ring 4 separate assembly auxiliary ring 3 as long as both rings 3 . 4 have the same temperature, an outer diameter slightly larger than the inner diameter of the inner ring 4 is. The inner circumference of the inner ring 4 and the outer circumference of the mounting auxiliary ring 3 are mutually correspondingly slightly conical.

To have an assembly of inner ring 4 and mounting aid ring 3 to allow the temperature of the inner ring 4 , For example, by inductive heating, so far increased that the mounting auxiliary ring 3 in the inner ring 4 can be used. During the subsequent cooling of the mounting auxiliary ring 3 surrounding inner ring 4 the solid, permanent press fit between the inner ring 4 and the mounting auxiliary ring 3 ,

The mounting auxiliary ring 3 is of at least one in the axial direction, based on the axis of rotation of the rolling bearing 2 , extending bore 8th and two associated with this, annular circumferential grooves 9 . 10 traversed. The grooves 9 . 10 are here to the inner circumference of the mounting auxiliary ring 3 open. The on the inner circumference of the inner ring 4 adjacent outer circumference of the mounting auxiliary ring 3 is completely closed.

The wall thickness of the mounting auxiliary ring 3 is, apart from the grooves 9 . 10 , uniformly, each being in an axis of rotation of the rolling bearing 2 normal plane running grooves 9 . 10 the cross section of the mounting auxiliary ring 3 weaken only insignificantly. In addition, a cross-sectional weakening at this point of the bearing assembly 1 practically irrelevant for their total load capacity. The mounting auxiliary ring 3 Thus, on its inner circumference and on its outer circumference, parallel, completely closed or approximately closed walls, which each describe a truncated cone, are provided.

In a corresponding manner, a shaft, not shown, on which the bearing assembly 1 to mount, slightly conical shaped. Neither the inner ring 4 nor the wave thus have weakenings of their cross-section produced by bores or grooves. In particular, in the manufacture of the bearing assembly 1 not in a complicated way cross-bores or grooves in mechanically very heavily loaded, made of case-hardened steel bearing parts are produced. Rather, in contrast to solutions according to the prior art, such weakenings of the cross section in the form of the bore 8th and grooves 9 . 10 completely in the mounting auxiliary ring 3 laid.

When mounting the bearing assembly 1 On the shaft, oil passes through the at least one parallel to the axis of symmetry of the inner ring 4 and thus the entire rolling bearing 2 extending bore 8th into the grooves 9 . 10 pressed. In this way, an oil film between the inner circumference of the mounting auxiliary ring 3 and the shaft generates and the inner ring 4 of the rolling bearing 2 slightly widened. Especially with large-dimensioned bearings, as used for example in wind turbines, provides the mounting auxiliary ring 3 for a considerable simplification of the assembly of the bearing assembly 1 ,

LIST OF REFERENCE NUMBERS

1

 bearing arrangement

2

 roller bearing

3

 Auxiliary mounting ring

4

 inner ring

5

 outer ring

6

 rolling elements

7

 Cage

8th

 drilling

9

 groove

10

 groove

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 102010053404 A1 [0002]
• DE 102006040774 A1 [0003, 0003]
• EP 1775490 B1 [0004]
• DE 102009041269 A1 [0018]
• DE 102011086925 A1 [0018]

Claims (10)

Bearing arrangement, with a rolling bearing ( 2 ), which - bearing rings ( 4 . 5 ), namely an inner ring ( 4 ) and an outer ring ( 5 ), - between the bearing rings ( 4 . 5 ) arranged rolling elements ( 6 ), and with one for mounting the rolling bearing ( 2 ) on a shaft suitable assembly auxiliary ring ( 3 ), which within the inner ring ( 4 ) is arranged and non-positively connected thereto and at least one intended for receiving a hydraulic fluid bore ( 8th ) and to this subsequent inside groove ( 9 . 10 ) having. Bearing arrangement according to claim 1, characterized in that the rolling bearing ( 2 ) is multi-row. Bearing arrangement according to claim 2, characterized in that the rolling bearing ( 2 ) is designed as a spherical roller bearing. Bearing arrangement according to one of claims 1 to 3, characterized in that the mounting auxiliary ring ( 3 ) the same width measured in the axial direction as the inner ring ( 4 ) and on the entire width with the inner ring ( 4 ) of the rolling bearing ( 2 ) is compressed. Bearing arrangement according to one of claims 1 to 4, characterized in that the mounting auxiliary ring ( 3 ) a plurality of circumferential, mutually parallel grooves ( 9 . 10 ) having. Bearing arrangement according to one of claims 1 to 5, characterized in that the inner ring ( 4 ) is conically shaped on its inner circumference. Bearing arrangement according to claim 6, characterized in that the mounting auxiliary ring ( 3 ) is conically shaped both on its inner circumference and on its outer circumference. Bearing arrangement according to one of claims 1 to 7, characterized in that the maximum wall thickness of the mounting auxiliary ring ( 3 ) is less than the maximum wall thickness of the inner ring ( 4 ). Method for assembling a bearing arrangement, comprising the following steps: - a roller bearing ( 2 ), which has an inner ring ( 4 ), an outer ring ( 5 ), as well as between the inner ring ( 4 ) and the outer ring ( 5 ) arranged rolling elements ( 6 ) is provided, - an assembly auxiliary ring ( 3 ), which has at least one bore ( 8th ) and an adjoining thereto inside groove ( 9 . 10 ) and whose outer diameter is slightly larger than the inner diameter of the inner ring ( 4 ) is provided, - the inner ring ( 4 ) and the mounting auxiliary ring ( 3 ) are connected to form a press fit, - the assembly auxiliary ring ( 3 ) is mounted on a shaft, with the hole ( 8th ) of the assembly auxiliary ring ( 3 ) Hydraulic fluid is introduced, with which the auxiliary assembly ring ( 3 ) is widened. Method according to claim 9, characterized in that the inner ring ( 4 ) before assembly with the mounting auxiliary ring ( 3 ) is heated.

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