DE102011006747A1 - Tapered roller bearing has annular-shaped thermal compensation elements that are arranged on front-side surfaces of inner and outer rings - Google Patents

Abstract

The bearing (1) has tapered rollers (6) that are located between the raceways (3,5) of inner and outer bearing rings (2,4). The annular-shaped thermal compensation elements (9,11) are arranged on the front-side surfaces (8) of inner and outer rings. The front-side surfaces of inner and outer rings are radially projected in outward and inward directions. A start board for tapered roller is located on the projection region of inner and outer rings.

Description

Field of the invention

The invention relates to a tapered roller bearing, with a bearing inner ring and a bearing outer ring and tapering rollers rolling on tapered raceways therebetween, and with an acting on an end face of the bearing inner ring or the bearing outer ring annular thermal compensation element.

Background of the invention

A tapered roller bearing with a thermal compensating element is for example from the DE 197 34 998 B4 known. This tapered roller bearing has a device for adjusting the axial clearance, in which an adjusting element is arranged between an axially displaceable bearing ring and a retaining element acting as an abutment. This adjusting element consists of a material which undergoes a length growth via a structural transformation as a result of the operating temperature of the tapered roller bearing and thus causes an adjustment of the axial clearance. This adjusting element can act on the bearing outer ring or the bearing inner ring and be arranged in paired tapered roller bearings between the bearing outer rings or the bearing inner rings.

In another known tapered roller bearing with an annular thermal compensating element, which in the DE 691 31 756 T2 is described, the thermal compensating element is arranged in a recess of the bearing outer ring or the bearing inner ring and thus requires a corresponding design in conjunction with an additional mechanical machining of the bearing outer ring or the bearing inner ring.

The tapered roller bearings according to this prior art have on the inner ring at least one material-uniformly manufactured stop board for the tapered rollers on which the tapered rollers on its side with the large diameter axially.

Object of the invention

Against this background, the invention has the object to improve a tapered roller bearing of the type mentioned so that is waived on starting rims on the bearing inner ring and the bearing outer ring.

Summary of the invention

The invention is based on a tapered roller bearing, with a bearing inner ring and a bearing outer ring and between rolling on tapered raceways tapered rollers, and with an acting on an end face of the bearing inner ring or the bearing outer ring annular thermal compensation element. To achieve the object, it is provided in this tapered roller bearing, that the compensation element projects radially beyond the end face of the bearing inner ring radially outwardly or the end face of the bearing outer ring and forms a stop board for the tapered rollers in the projecting area.

This design ensures that both the bearing inner ring and the bearing outer ring can be made bordlos, resulting in a significant reduction in manufacturing costs and thus the manufacturing cost. In addition, it is achieved that a certain clearance or a specific preload of the tapered roller bearing, which are adjusted during assembly, remain, even if the components of the tapered roller bearing or the surrounding or thereby mounted machine parts heat differently during operation and therefore expand differently. Namely, if no thermal compensation element provided, it may be that in particular the bearing inner ring of the tapered roller bearings has a higher temperature than the bearing outer ring, since the heat dissipation through the housing, in which the bearing outer ring is arranged faster than for the bearing inner ring. These temperature differences cause the set preload or the set bearing clearance to change during operation. However, the maximum service life of such a rolling bearing can only be achieved with a certain preload or a predetermined bearing clearance, so that changes in the set preload or the bearing clearance due to the operating conditions lead to a reduction in the service life. These disadvantages are avoided by the inventive design of the tapered roller bearing, which also causes a reduction in the manufacturing cost of the tapered roller bearing

In a preferred embodiment of the tapered roller bearing according to the invention, the annular compensation element is on arranged the end face with the large diameter of a at least on this side bordlosen bearing inner ring

As a rule tapered roller bearings have different temperatures at the bearing inner ring and the bearing outer ring in the installed state and during operation. The outer bearing ring usually leads through the housing from a higher amount of heat to the environment, creating a temperature difference between the bearing rings. The bearing inner ring and the bearing outer ring thus expand differently, which has an effect on the internal geometry of the tapered roller bearing. The arrangement of the annular compensating element on the front side with the large diameter of an at least on this side bordlosen bearing inner ring can be achieved that the bias voltage change during operation of the tapered roller bearing by using a passive system in the form of the annular compensation element remains small Depending on whether the annular compensation element act on a bearing ring whose temperature is higher or lower than that of the other bearing ring, the annular compensation element may consist of a material with a larger or smaller thermal expansion coefficient than that of the bearing rings, so that a large freedom in the selection of the appropriate material for If the material of the thermal compensating element has a lower strength and / or surface hardness than the material of the bearing rings, which are usually made of bearing steel, it is advantageous if at least the region of the run-up board is provided with a contact surface reinforcement made of bearing steel.

Such an abutment surface reinforcement can be achieved, for example, in that the compensating element is designed as a disk made of a light metal or a light metal alloy, while the ramp surface reinforcement consists of an annular roller bearing steel insert. This contact surface reinforcement can be positively, frictionally or non-positively connected to the disc-shaped compensating element.

According to another embodiment which can be produced without cutting in a simple way, the compensating element may consist of two U-shaped rings pushed axially with their legs and a filling of synthetic material, wherein at least the U-shaped ring resting against the end face of the bearing inner ring consists of roller bearing steel ,

In this embodiment causes the filling of synthetic material at a temperature increase, an axial enlargement of the compensating element and thus a balance of the bearing preload and / or the bearing clearance.

With the present invention, a cost-effective production of a cordless tapered roller bearing in conjunction with a thermal compensating element, which takes over the function of a starting board, can be achieved. In addition, the invention allows a cost effective extension of the service life of tapered roller bearings due to a substantially constant bias or a constant set bearing clearance during operation at different temperatures.

Short description of the drawing

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

1 a radial section through a tapered roller bearing according to a first embodiment of the invention, and

2 a partial radial section through a tapered roller bearing according to a second embodiment of the invention.

Detailed description of the drawing

An in 1 illustrated tapered roller bearing 1 consists of a bearing inner ring 2 with a tapered track 3 a bearing outer ring 4 with a tapered track 5 and in between on those tapered tracks 3 . 5 rolling tapered rollers 6 in a cage 7 are guided. The bearing inner ring 2 and the bearing outer ring 4 are executed without run-up shelves, resulting in a simplified and cost-effective production results because the raceways 3 . 5 let it work without any offset by means of a grinding wheel.

At an axial end face 8th at the large diameter of the bearing inner ring 2 is an annular thermal compensating element 9 on, which may for example consist of light metal or a light metal alloy and accordingly has a thermal expansion coefficient which is about twice as large as the thermal expansion coefficient of the bearing inner ring 2 , which usually consists of a bearing steel.

Because of the frontal area 8th of the bearing inner ring 2 opposite end face 15 of the thermal compensating element 9 rests against a shaft shoulder, not shown, causes a temperature increase of the shaft, not shown, and / or the bearing inner ring 2 a temperature increase of the thermal compensating element 9 and thus an increase in volume of the thermal compensating element 9 , which also in the axial direction to the bearing inner ring 2 extends and shifts this. In this way, a reduction of a predetermined bearing preload or an increase in a predetermined bearing clearance is compensated, so that a predetermined bearing preload or a predetermined bearing clearance regardless of temperature differences between the bearing inner ring 2 and the bearing outer ring 4 to be maintained.

Since light metals or light metal alloys have lower strength and hardness and thus lower wear resistance than a bearing steel, the thermal compensation element 9 with a contact surface reinforcement 10 provided from bearing steel. This tread reinforcement 10 is in a recess of the thermal compensating element 9 in the area of a large face of the tapered rollers 6 arranged and with the thermal compensation element 9 positively, frictionally or non-positively connected. Also the thermal compensation element 9 can with the bearing inner ring 2 be positively connected, frictionally engaged or non-positively. The ramp surface reinforcement 10 is at her to the tapered rollers 6 pointing side geometrically formed so that a small part of the large front side of each tapered roller 6 Plan on the tread reinforcement 10 is applied.

The embodiment according to 2 has a thermal compensating element 11 on the two axially with their legs pushed into each other U-shaped rings 12 . 13 and a filling of synthetic material disposed therebetween 14 consists. Also this thermal compensation element 11 towers above the large diameter of the bearing inner ring 2 radially so far that a starting board for the tapered rollers 6 is formed. At least the one at the front 8th of the bearing inner ring 2 fitting U-shaped ring 13 exists for the same reasons as in the embodiment according to 1 from a rolling bearing steel to the stresses caused by the sliding rolling of the tapered rollers 6 to withstand the onboard without significant wear. The filling of synthetic material 14 has a thermal expansion coefficient which is greater than the other materials of the rolling bearing, so that also in the embodiment according to FIG 2 the same effect occurs as in the embodiment according to 1 ,

The invention is not limited to the illustrated embodiments according to FIGS 1 and 2 limited. So it is also possible, materials for the thermal compensation elements 9 . 11 use, which have a smaller coefficient of thermal expansion than the associated bearing ring, such as ceramic material, if required by the installation and temperature conditions. Furthermore, the thermal compensation element 9 . 11 also on the bearing outer ring 4 be arranged and move it axially according to the thermal conditions, with corresponding thrust rims the end face of the bearing outer ring 4 project radially inwards and the tapered rollers 6 lead there axially.

LIST OF REFERENCE NUMBERS

1

Tapered roller bearings

2

Bearing inner ring

3

Tapered track

4

Bearing outer ring

5

Tapered track

6

Tapered roller

7

Cage

8th

Face of the bearing inner ring

9

Thermal compensation element

10

Approach surface reinforcement

11

Thermal compensation element

12

U-shaped ring

13

U-shaped ring

14

Filling made of synthetic material

15

Face of the compensating element

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 19734998 B4 [0002]
• DE 69131756 T2 [0003]

Claims (8)

Tapered roller bearings ( 1 ), with a bearing inner ring ( 2 ) and a bearing outer ring ( 4 ) and in between on conical tracks ( 3 . 5 ) rolling tapered rollers ( 6 ), and with one on one end face ( 8th ) of the bearing inner ring ( 2 ) or the bearing outer ring ( 4 ) acting annular thermal compensation element ( 9 . 11 ), characterized in that the compensating element ( 9 . 11 ) the end face ( 8th ) of the bearing inner ring ( 2 ) radially outward or the end face of the bearing outer ring ( 4 ) projects radially inwards and in the protruding area a starting board for the tapered rollers ( 6 ). Taper roller bearing according to claim 1, characterized in that the annular compensating element ( 9 . 11 ) on the front side ( 8th ) with the large diameter of an at least on this side bordlosen bearing inner ring ( 2 ) is arranged. Tapered roller bearing according to claim 1 or 2, characterized in that the annular compensating element ( 9 . 11 ) of a material with a coefficient of thermal expansion greater or smaller than that of the bearing inner race ( 2 ) or the bearing outer ring ( 4 ) and / or a shaft on which the bearing inner ring ( 2 ) is arranged. Tapered roller bearing according to claim 1 or 2, characterized in that the annular compensating element ( 9 . 11 ) of a material with a coefficient of thermal expansion greater or smaller than that of the bearing inner race ( 2 ) or the bearing outer ring ( 4 ) and / or a housing in which the bearing outer ring ( 4 ) is arranged. Tapered roller bearing according to one of claims 1 to 4, characterized in that the region of the run-up board has a contact surface reinforcement ( 10 . 13 ) has bearing steel. Tapered roller bearing according to claim 5, characterized in that the compensating element ( 9 ) is formed as a disc made of a light metal or a light metal alloy, and that the contact surface reinforcement ( 10 ) consists of an annular roller bearing steel insert. Taper roller bearing according to claim 6, characterized in that the contact surface reinforcement ( 10 ) with the compensation element ( 9 ) is positively connected, frictionally engaged or non-positively connected Tapered roller bearing according to one of claims 1 to 4, characterized in that the compensating element ( 11 ) of two with their legs axially into one another pushed U-shaped rings ( 12 . 13 ) and a filling of synthetic material ( 14 ) and that at least the one at the end ( 8th ) of the bearing inner ring ( 2 ) fitting U-shaped ring ( 13 ) consists of bearing steel.

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