DE102020107839A1 - Bearing arrangement - Google Patents

Abstract

Bearing arrangement comprising an axial bearing (17) with a cage (1) and rolling elements (3) mounted thereon, as well as a first and a second component (8, 19), which are rotatably mounted relative to one another via the axial bearing (17), characterized that an annular groove (10) is provided on a component (8), which has an undercut (14) on the outer circumference (11) or on the inner circumference (12), and that the cage (1) has several on the outer circumference (4) or snap elements (5) provided on the inner circumference (15) which are snapped into the undercut (14) and are axially secured in the groove (10).

Description

The invention relates to a bearing arrangement comprising an axial bearing with a cage and rolling elements held thereon, as well as a first and a second component which are rotatably mounted relative to one another via the axial bearing.

Such a bearing arrangement with an axial bearing is used in a wide variety of fields of application. A transmission application in which two transmission elements have to be axially rotatably mounted relative to one another may be mentioned merely as an example. Such a thrust bearing usually has a cage with rolling elements held on it in the form of needles or rollers, as well as two running disks, each of which has a raceway, mostly hardened and running track quality, on which raceways the rolling elements roll. To prevent it from falling apart, the cage is usually clipped to at least one, and possibly also two, running disks, which makes handling and assembly easier.

Due to the increasing compacting of the gear assembly, for example, and the associated reduction in the available installation space, it is sometimes necessary to integrate only the cage equipped with the rolling elements as the axial bearing, or installation space is only provided for the integration of a simple raceway disk designed as a thrust washer on which the cage cannot be clipped. This means that either the cage has to be assembled as an individual part or two separate individual parts. Problems can arise from this, especially with overhead installation, since the lack of axial fixation of the fitted cage and possibly the thrust washer in front of it means that the cage and possibly the thrust washer fall out of the assembly position again. Even in the case of a quasi-vertical assembly of the cage and possibly the axial disk, there is the problem that this or these can slip into the resulting gap between the two components, which can move slightly axially to each other, due to the weight force, especially in the load-free state.

An example of a thrust bearing consisting of the equipped cage and a running disk in the form of an angular disk is shown in JP 2012159091 A described where on the cylindrical axial flange of the angle disk inwardly directed snap projections, on which the cage snaps with its outer circumference, are provided.

The invention is therefore based on the problem of specifying a bearing arrangement which is improved in comparison.

To solve this problem, in a bearing arrangement of the type mentioned, the invention provides that an annular groove is provided on a component, which has an undercut on the outer circumference or on the inner circumference, and that the cage has several snap elements provided on the outer circumference or on the inner circumference, which are snapped into the undercut, is axially secured in the groove.

In the case of the bearing arrangement according to the invention, the cage is axially fixed directly to one of the two components via a snap-in or latching connection. For this purpose, the respective component itself, which is not a bearing washer or thrust washer or the like, but a correspondingly solid component such as a housing component or a shaft or a gear, etc., is provided with a groove, the term "groove “In the present case, both a fold that is open on the inner circumference or on the outer circumference or a groove that is closed radially on both sides is to be understood. In any case, this groove has an undercut either on the outer circumference or on the inner circumference. Depending on whether the groove is undercut on the outer or inner circumference, the cage is provided with several snap elements, for example radially protruding snap noses or the like, depending on the position on the outer circumference or on the inner circumference. These snap elements now snap into the undercut, that is, they reach under the undercut shoulder so that the cage is axially fixed on the component itself. This means that the cage and component can no longer fall apart, so that the component including the cage can be easily mounted in any position, including upside down.

At least three snap elements are preferably provided on the cage, three such snap elements being sufficient in principle for secure axial fixation, although the number of snap elements is not limited to this. As described, the snap elements are designed as simple radial projections or lugs, which can easily be formed on the cage made of metal or plastic as part of the cage production.

The embodiment of the invention is preferred in which the groove is radially delimited on the outer and inner circumference, the undercut being provided on the outer circumference of the groove and accordingly the snap elements being provided on the outer circumference of the cage, while the cage is guided on the inner circumference of the groove. The groove is thus introduced axially, while the undercut or clearance extends radially. This means that the snapping takes place on the outer circumference while the inner circumference of the groove causes the radial inner guide. The snapped cage has a certain radial play that is limited by the shoulder that defines the inner circumference of the groove.

In principle, if necessary, it is conceivable to first snap an axial disk into this groove, which is also fixed in the groove by means of corresponding snap elements, if this axial disk can be integrated on the one hand due to the installation space, and on the other hand the axial disk to form the raceway with the desired mechanical properties, i.e. appropriately hardened, is required. However, in order to keep the number of parts to be installed as low as possible and to keep the required axial installation space as small as possible, only the assembled cage is installed, which means that the groove bottom of the component on which the cage is snapped into place at the same time also forms a running surface or track on which the rolling elements run. This means that consequently only the cage is snapped into place with the rolling elements and on the one hand the component has the axial holding function via the resulting snap connection, but on the other hand the component also directly provides the raceway.

As described, the two components are preferably transmission elements, in particular transmission elements of a vehicle, the invention not being limited thereto with regard to the two components.

In addition to the bearing arrangement itself, the invention also relates to a method for assembling a cage equipped with rolling elements of an axial bearing on a component which has a groove having an undercut on the outer circumference or on the inner circumference, the cage having several snap elements on the outer circumference or on the inner circumference, which for Securing the cage on the component can be snapped into the undercut.

A cage with three snap elements is expediently used, two snap elements first being introduced into the undercut, after which the cage is pressed into the groove and the third snap element snaps into the undercut.

Furthermore, a component with a groove delimited on the outer circumference and on the inner circumference is preferably used, the undercut being provided on the outer circumference. Furthermore, a cage with snap elements provided on the outer circumference is used, which is guided on the inner circumference of the groove.

All of the features described for the bearing arrangement according to the invention also apply equally to the method, insofar as they are related to the method.

• 1 eine Prinzipdarstellung eines Käfigs einer erfindungsgemäßen Lageranordnung,
• 2 eine vergrößerte Teilansicht des Bereichs II aus 1,
• 3 eine Teilansicht einer erfindungsgemäßen Lageranordnung im Rahmen der Montage, und
• 4 die Anordnung aus 3 nach der Montage des bestückten Käfigs.

The invention is explained below on the basis of exemplary embodiments with reference to the drawings. The drawings are schematic representations and show:

• 1 a schematic representation of a cage of a bearing arrangement according to the invention,
• 2 an enlarged partial view of the area II from 1 ,
• 3 a partial view of a bearing arrangement according to the invention during assembly, and
• 4th the arrangement 3 after the assembly of the assembled cage.

1 shows a cage 1 for a bearing arrangement according to the invention to be described below. The cage 1 has a large number of individual pockets 2 (please refer 2 ), with one rolling element in each pocket 3 is used here in the form of roles or is snapped into place and thus held therein.

At the cage 1 , which can be made of metal or plastic, are radially on the outer circumference 4th protruding outward in the example shown three snap elements 5 in the form of simple, radial snap projections 6th , please refer 2 , educated. The snap elements 5 are arranged here offset by 120 ° symmetrically around the outer circumference. About these snap elements 5 the assembled cage is axially fixed 1 , which here forms the axial bearing as such, on one of the two components to be rotatably mounted on it. The number of snap elements can also be selected to be greater, in particular depending on the diameter, and the angle to one another can also be selected as desired, ie it can be equidistant, but does not have to be.

3 shows a schematic diagram as a partial view of a bearing arrangement according to the invention 7th , whereby 3 represents an assembly process. A portion of a first component is shown 8th , on which a recess 9 is provided in which a second component in the assembly position 19th that is in the in 4th shown assembly position is shown only in phantom, engages.

Inside this recess 9 is an axially introduced groove 10 formed on the outer circumference 11 as well as on the inner circumference 12th is limited radially via corresponding radial shoulders. The cage is in this groove 1 used, the groove bottom 13th at the same time as a raceway for the rolling elements 3 serves.

The outer circumference is used for axial fixation 11 the groove 10 with a radial undercut 14th provided that the inclusion of the snap elements 5 serves as in the 3 and 4th shown. The opposite shoulder or the inner circumference 12th is not deformed, it serves as a guide surface for the inner circumference 15th of the cage 1 , which will be discussed below.

As part of the assembly that takes place in 3 shown is the populated cage 1 first in the groove 10 used. Two of the three snap elements are positioned slightly at an angle 5 into the undercut 14th or radial release pushed. Then the populated cage 1 further axially into the groove 10 so that the snap element that has not yet snapped into place 5 on the inner peripheral wall of the recess 9 slides along until the snap element 5 into the undercut 14th snaps into place and the cage 1 finally in the groove 10 is mounted. Basically, the cage 1 even without a recess 9 be snapped into place on the component, the mating component then runs directly onto the rolling elements and has a smaller inside diameter and a larger outside diameter than the cage 1 on.

The assembly situation is in 4th shown. Here it becomes clear that in every radial position of the cage 1 including the rolling elements 3 an axial fixation of the equipped cage 1 in the groove 10 given is. The inner circumference 15th of the cage 1 lies on the inner circumference 12th the groove 10 on, that is, there is radial guidance there. At this maximum radial misalignment of the cage 1 inside the groove 10 it is evident that there is sufficient coverage d between which the undercut 14th limiting shoulder 16 and the snap element 5 given. Accordingly, the equipped cage is above this 1 , which in this case is the axial bearing 17th forms, axially on the first component 8th secured, so it cannot fall out during assembly, even overhead assembly.

Like the assembly illustration according to 4th shows the rolling elements roll 3 on the groove bottom 13th , which forms a running surface, i.e. directly on the first component 8th itself. Also the second component 19th points with its face 18th a career on which the rolling elements can be seen 3 roll over. That means that in the present case the one with the rolling elements 3 stocked cage 1 the axial bearing on its own 17th forms.

Although the undercut in the embodiment shown 14th on the outer circumference of the groove 10 is formed, accordingly also the snap elements 5 on the outer circumference 4th of the cage 1 are formed, there is of course the possibility of the snap on the inner circumference 12th and 15th to realize. In this case the undercut would be 14th on the inner circumference 12th the groove 10 and the snap elements 5 on the inner circumference 15th of the cage 1 formed while the outer circumference 11 the groove as a guide surface for the cage 1 would serve.

With the two components 8th , 19th it is preferably a transmission element of any type, in particular a vehicle transmission.

List of reference symbols

1

Cage

2

bag

3

Rolling elements

4th

Outer circumference

5

Snap element

6th

Snap projection

7th

Bearing arrangement

8th

Component

9

Recess

10

Groove

11

Outer circumference

12th

Inner circumference

13th

Groove bottom

14th

Undercut

15th

Inner circumference

16

shoulder

17th

Thrust bearings

18th

Face

19th

Component

d

Overlap

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was 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.

Patent literature cited

• JP 2012159091 A [0004]

Claims (8)

Bearing arrangement comprising an axial bearing (17) with a cage (1) and rolling elements (3) mounted thereon, as well as a first and a second component (8, 19) which are rotatably mounted relative to each other via the axial bearing (17), characterized that an annular groove (10) is provided on a component (8), which has an undercut (14) on the outer circumference (11) or on the inner circumference (12), and that the cage (1) has several on the outer circumference (4) or snap elements (5) provided on the inner circumference (15) which are snapped into the undercut (14) and are axially secured in the groove (10). Bearing arrangement according to Claim 1 , characterized in that at least three snap elements (5) are provided on the cage (1). Bearing arrangement according to Claim 1 or 2 , characterized in that the groove is radially delimited on the outer and inner circumference (11, 12), the undercut (14) being provided on the outer circumference (11) and the snap elements (5) on the outer circumference (4) of the cage (1 ) are provided, while the cage (1) is guided on the inner circumference (12) of the groove (10). Bearing arrangement according to one of the preceding claims, characterized in that a running surface is formed on the component (8), forming the groove base (13), on which the rolling elements (3) run. Bearing arrangement according to one of the preceding claims, characterized in that both components (8, 19) are transmission elements, in particular of a vehicle transmission or a vehicle axle. Method for assembling a cage (1) equipped with rolling elements (3) of an axial bearing (17) on a component (8) which has a groove (10) on the outer circumference (11) or on the inner circumference (12) having an undercut (14) , wherein the cage (1) on the outer circumference (4) or on the inner circumference (15) has several snap elements (5) which are snapped into the undercut (14) to secure the cage (1) on the component (8). Procedure according to Claim 6 , characterized in that a cage (1) with three snap elements (5) is used, two snap elements (5) first being introduced into the undercut (14), after which the cage (1) is pressed into the groove (10) and the third snap element (5) snaps into the undercut (14). Procedure according to Claim 6 or 7th , characterized in that a component (8) with a groove (10) delimited on the outer circumference (11) and on the inner circumference (12) is used, the undercut (14) being provided on the outer circumference (11), and that a cage ( 1) is used with snap elements (5) provided on the outer circumference (4), which is guided on the inner circumference (12) of the groove (10).

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