DE19734998A1 - Adjustment for axial clearance of sloping roller bearings - Google Patents

Abstract

The adjusting element (9) made of not totally stabilized material such as martensitic steel is positioned between an axially movable bearing ring and an abutting holder element. The adjusting element is positioned between one of the bearing rings (4,5) and a holder element (8) placed in or on a bore (6) in the housing (3) or on the shaft (2).

Description

The invention relates to a device for adjusting the axial play of Angular contact bearings, in particular angular contact bearings arranged in pairs which between an axially displaceable bearing ring and one as an abutment acting holding element is arranged an adjusting element.

The play or preload of a bearing that has at least one angular bearing has another bearing or from two single row angular contact bearings, such as Angular contact ball bearings or tapered roller bearings, in the opposite arrangement, is adjusted during installation by moving one of the bearing rings axially (Queue). In operation, wear can occur in the storage and in the connecting parts occur that changes the employment status. A reduction in The service life of the bearing arrangement can be the consequence. With the known Bearing arrangements with angular contact bearings arranged in pairs becomes Setting the axial play or the preload between an axial adjustable bearing ring and a holding element as an adjusting element usually an axial springy ring of various training used. The setting is in depends essentially on the span of the holding element and the achievable Spring force of the adjusting element. If the spring force is limited, one is Backlash no longer achievable with increasing wear.  

It is also already known in pairs between the bearing rings arranged angular contact bearings a plastically deformable spacer to use. When assembling the bearing assembly, the spacer plastically deformed until the desired play or preload is reached (DE-PS 707 891). If there is any wear in the bearings, a additional game that has to be manually adjusted in a complex manner.

Furthermore, DE-AS 10 66 388 is an automatically acting Temperature-dependent device for regulating the bearing play in pairs arranged angular contact ball bearing or tapered roller bearing known, in which the regulating element consists of a material that is one of the rest Storage parts has different specific thermal expansion. This Device is relatively complicated and expensive and usually only resembles Temperature differences and no wear.

Finally, a wheel bearing arrangement with pairs Angular contact bearings are known, in which between the axial bearing play determining surfaces a wear layer of the thickness of the desired Wheel bearing play is provided, which after commissioning the with the Wheel bearing arrangement equipped vehicle due to the operational stress disappears within a short period of operation (DE-PS 37 13 224).

The object of the present invention is a device for adjusting the to create axial play that is simple and inexpensive.

This task is solved by the application of an adjusting element from one not fully stabilized material. There may be more Features of the invention around an unstabilized martensitic or around trade with a controlled residual austenite content of partially stabilized steel. This  Unstabilized or only partially stabilized steels have the property that they are in operation Transformation of the structure experienced a volume, in particular length growth. It was found that the bearing wear, which occurs in an (axial) Height change of the bearing affects the change in size due to Structural change of a partially stabilized steel for a certain one Corresponds to the residual austenite content and a certain operating temperature. this will exploited according to the invention to the in storage during use to compensate for inevitable wear and tear and that through wear readjusted bearing play to the desired value. this happens automatically and in a simple manner, without being manual Readjustment is required.

According to a further feature of the invention, the adjusting element can be between one of the bearing rings and one in a bore in the housing or on the shaft inserted or placed holding element.

If the angular contact bearings are arranged in pairs, there is another feature the invention the adjusting element depending on the arrangement of the angular contact bearings (X or O arrangement) between the two inner rings or the two outer rings be arranged.

Some embodiments of the invention are in the accompanying drawings shown:

Show it:

Fig. 1 is a tapered roller bearing having an outer ring acting on the adjusting element,

Fig. 2 is a tapered roller bearing having an inner ring acting on the adjusting element,

Fig. 3 is a pair of two tapered roller bearings with an adjusting element arranged between the outer rings and

Fig. 4 a two tapered roller bearings with bearing pair disposed between the inner rings engaging member.

The same parts are labeled with the same reference numerals.

In Fig. 1, a tapered roller bearing 1 is shown, which together with a second bearing, not shown, supports a shaft 2 in a housing 3 . The inner ring 4 of the tapered roller bearing 1 is fixedly attached to the shaft 2 . The outer ring 5 is seated in the bore 6 of the housing 3 and is thus axially displaceable. The outer ring is fixed axially with a cover 8 fastened to the housing 3 by means of screws 7 . Between the end face of the outer ring 5 and the cover 8 serving as a holding element, an adjusting element 9 is arranged, which consists of an unstabilized martensitic steel. During longer operation, when wear occurs in the bearing, this adjusting element 9 undergoes a change in length under structural change, which axially displaces the outer ring 5 in the bore 6 until the play caused by the wear in the bearing is compensated again.

In the embodiment of FIG. 2, the outer ring 5 is axially fixed in the housing 3 and the inner ring 4 is arranged axially displaceable on the shaft 2. The inner ring 4 is fixed by an axle nut 11 screwed onto a threaded shoulder 10 . Between the end face of the inner ring 4 and the axle nut 11 , an adjusting element 9 is inserted, which acts as described above.

In Fig. 3 is a bearing assembly comprising two taper roller bearings 12 and 13 in an O arrangement shown. The inner rings 14 and 15 are fixed on a shaft 2 , the outer rings 16 and 17 are arranged axially displaceably in a bore 6 of the housing 3 . The adjusting element 9 , which consists of an unstabilized martensitic steel, is arranged between the opposing end faces of the outer rings 16 and 17 .

In FIG. 4, a bearing with two tapered roller bearings 12, 13 in X-arrangement illustrated. The outer rings 16 and 17 are axially fixed in a bore 6 of the housing, the inner rings 14 , 15 are arranged axially displaceably on the shaft 2 . The adjusting element 9 is arranged between the mutually opposite end faces of the inner rings 14 , 15 .

Claims (5)

1. Device for adjusting the axial play of angular contact bearings, in particular angular contact bearings arranged in pairs, in which an adjusting element is arranged between an axially displaceable bearing ring and a holding element acting as an abutment, characterized in that the adjusting element ( 9 ) is made of a not fully stabilized material consists. 2. Device for adjustment according to claim 1, characterized in that the adjusting element ( 9 ) consists of an unstabilized martensitic steel. 3. Adjustment device according to claim 1, characterized in that the adjusting element ( 9 ) consists of a steel partially stabilized with a controlled residual austenite. 4. Adjustment device according to one of claims 1 to 3, characterized in that the adjusting element between one of the bearing rings ( 4 or 5 ) and one in a bore ( 6 ) of the housing ( 3 ) or on the shaft ( 2 ) inserted or attached holding element ( 8 , 11 ) is arranged. 5. Adjustment device according to one of claims 1 to 3, characterized in that the adjusting element ( 9 ) between the two inner rings ( 14 , 15 ) and the two outer rings ( 16 , 17 ) is arranged in paired arrangement of the angular contact bearings.