DE4225000C1 - Composite plain bearing for radial and thrust loads - has expansion fingers alongside inner holding lugs on thrust section allowing free movement in peripheral direction - Google Patents

Abstract

The outermost holding lugs (5) in the peripheral direction on each thrust-ring section (2) are each flanked by one or more expansion fingers (6). These fingers are so bent in the peripheral direction that it and the lug have a small amount of free movement in the opening (8) in the peripheral direction. The length of the opening in this direction can be such that the lug and finger can be inserted without bending the radial-load section (3). ADVANTAGE - Easy assembly while strictly limiting relative movement.

Description

The invention relates to a composite Radial-axial plain bearings with half-shell or bush-shaped radial bearing part and one-sided or partially ring-shaped Thrust bearing part or set of part-ring shaped Thrust bearing parts, each thrust bearing part at least two at angular intervals has holding tabs projecting radially inwards, each in an arcuate area Attached edge of the radial bearing part Engage recesses. The invention also relates to a method of making such Radial-axial plain bearing.

Compound radial-axial plain bearings are made a variety of previous publications known. They have a one-piece design Radial-axial plain bearings (flange bearings) have the advantage that a different material than for the radial bearing part can be chosen for the thrust bearing part and so an optimal material adaptation to the respective Load ratios is possible. To the Wear of the bearing parts when assembled Keeping radial-axial plain bearings low is the key Centering and fixing the bearing parts to each other of great importance, being a certain Mobility of the thrust bearing part compared to that Radial bearing part alone for mounting the Plain bearing is desired.

Such is known from EP 02 98 953 B1 Bearing half shell and separate start collar composite radial-axial plain bearing known,  in which to attach the thrust collar to the Bearing half shell with these open towards the outer edge Insert recesses is provided, the one in effective undercut in the axial direction form a dovetail. According to this Insertion recesses are on the collar Fastening approaches are provided, which in axial Exist in the direction of the angled tongues. With these Known radial-axial plain bearings have to do this Retaining tabs can be very long and with high precision be bent. To the alliance with the To connect the bearing shell, the thrust collar in radial direction on the bearing half-shell attached. If all attachment approaches one corresponding to the insertion recesses Dovetail shape, it is necessary the bearing half shell is elastic by compressing it deform so far that the attachment approaches in the mounting recesses are introduced can. Aside from being elastic by this Deformation Damage to the shape and the Coating of the bearing half-shell can occur is such an elastic deformation at all with bearing half shells but not with bearing bushes possible.

EP 02 98 953 B1 therefore describes a second Possibility of inserting the Attachment approaches in the insertion recesses in Considered that a medium Attachment approach initially rectangular and with pre-formed spreading fingers is formed and these spreading fingers after attaching the Collar to the half shell in the Dovetail shape of the insertion recess be expanded. This widening in  Dovetail shape is in the bent Attachment approaches difficult and brings the danger damage to the radial bearing part. They also offer a dovetail shape curved parts of a mounting bracket only conditional strength and security as they inside the dovetail-shaped Insert recess only as wedge-shaped holding elements act that with relative movements of the Start collar deformed with respect to the radial bearing part and thereby more and more in the insertion recess be relaxed.

DE 41 40 277 A1 is a composite Radial-axial plain bearings known, in which the Axial bearing part with a central fastening tab and has two guide plates at an angular distance, in closed holding openings on the edge of the Intervene in the radial bearing part. After assembling of the bearing parts, the mounting bracket with a central, outward-facing depression, so that holding lugs are formed which over the End edges of the holding opening in the circumferential direction reach out. Spreading fingers are not provided.

In contrast, the object of the invention is a composite radial-axial plain bearing create with which on the one hand the safe Fixing the axial bearing part on the radial bearing part  with a defined limitation of the mutual Mobility of the bearing parts is guaranteed and on the other hand, a particularly simple assembly of Axial bearing part and radial bearing part with only a few simple and safe for the bearing parts Work steps becomes possible.

This task is characterized by the features of the claim 1 and with regard to the method by the features of claim 9 solved. Advantageous configurations are the subject of the subclaims.

Compared to spreading fingers and expanding a fastening tab in the form of a dovetail offers this lateral spreading of the spreading finger in the circumferential direction the advantage that the Dimensional accuracy and defined limitation of Mobility especially in the axial direction with the prefabrication of the bearing parts required high precision without any  Difficulties can be set up. The Assembling radial bearing parts and Thrust bearing part and the subsequent bending of the Spreading fingers are particularly simple Work steps that have no elastic deformation make necessary on the bearing parts themselves and no risk of damage to the bearing parts condition. By the fact that the extension of the Holding opening in the circumferential direction preferably as large is that holding tab and spreading finger without Bending of the radial bearing part in the holding opening are also insertable when assembling Radial bearing part and axial bearing part an elastic Deformation of the radial bearing part avoided, so that no damage in this process step either of a bearing part can occur. Depending on the size of the Holding opening must be after plugging the Spreading fingers more or less strongly from the Retaining tab can be bent away to the in Desired fixation of both circumferential direction Ensure stock parts.

To make plugging together easier and around especially a too large holding opening avoid what is particularly important when the holding opening far from the center of the Radial bearing part is provided, is or are the spreading fingers are not immediately next to the associated holding tab arranged, but Retaining tab and spreading fingers are over one Interspace separated, which is preferred corresponds approximately to the strength of the spreading finger. This opens up the possibility that the Spreading fingers before putting together Radial bearing part and axial bearing part for each assigned retaining tab can be bent. The space requirement of  The tab and spreading finger will be when plugging together thereby reduced in an advantageous manner.

The holding openings are preferably rectangular designed so that to train the Holding openings only require simple tools are. The thickness of the retaining tab and spreading finger is also in the axial direction to the width of the Receiving openings matched so that retaining tab and Spreading fingers not just a fixation in Circumferential direction, but also a fixation of both Bearing parts to each other in the axial direction guarantee. Depending on the training of the Radial bearing part, it is advantageous if the tab and the spreading finger is flush with the holding opening complete, so that this does not have the Radial bearing surface of the radial bearing part protrude. In particular the length of the spreading finger is taking into account the turn on it vote.

According to a preferred embodiment only the two outer retaining tabs Spread fingers assigned, being in the middle between the two outer retaining tabs one without assigned spreading fingers is provided. Here has it turns out to be sufficient if the outer retaining tabs of only one Flanking fingers are flanked, which is preferred adjacent to the one lying in the circumferential direction Side of the retaining tab is arranged. These Arrangement of holding tab and spreading finger offers compared to an arrangement in which the spreading finger arranged adjacent to the outside of the retaining tab is the advantage that the tool for bending the Spreading fingers after putting together  Radial bearing part and axial bearing part without problems on Spreading fingers can be applied and also the Direction of the force to be applied with respect to the Overall arrangement of the radial bearing part and Thrust bearing part is cheap.

The inventive method for producing a Radial-axial plain bearing provides that at Prefabrication of radial bearing part and axial bearing part the retaining tabs and the retaining tabs flanking spreading fingers are punched out and the corresponding holding openings are also formed will. At least before you put them together Spreading fingers that extend in the circumferential direction Flank the inner side of the retaining tab, in the space towards the mounting bracket bent over to make it easy to put together to enable both components. After this Assemble with the retaining tabs and the Spreading fingers in the respectively assigned holding opening then the spreading fingers become like this bent far away from the associated retaining tab that Retaining tab and spreading fingers with little play on Edge of the holding opening and thus a Ensure fixation in the circumferential direction.

Exemplary embodiments of the invention explained in more detail below with reference to the drawings.

It shows

Fig. 1 is a perspective view of the composite radial-axial slide bearing,

Fig. 2 is a plan view of a thrust bearing in addition to the radial bearing part according to Fig. 1 prior to assembly,

Fig. 3 is a plan view of an axial bearing part according to FIG. 1 in the assembled state with a radial bearing part

Fig. 3a, b detailed enlargement according IIIa and b Fig. 3,

Fig. 4 is a view of a developed radial bearing part according to FIG. 1 and

Fig. 5 is a section through the radial bearing part along the line VV of the view shown in Fig. 4.

The drawings shown in the drawings are a radial-axial sliding bearing 1 , the radial bearing part 3 of which is designed in the form of an essentially semi-cylindrical bearing shell. The axial bearing part 2 is formed by a semi-annular thrust washer attached to the curved end edge 7 of the radial bearing part 3 on one or both sides. The axial bearing part 2 has, on its inner peripheral edge, radially inwardly pointing retaining tabs 5 which engage in corresponding holding openings 8 on the edge 7 of the radial bearing part 3 .

In the example of FIGS. 1 to 4, the axial bearing part is provided with a central retaining tab 4 and flanking it with two retaining tabs 5 at an angular distance of approximately 60 ° or more.

As can be seen particularly from FIG. 2, each holding tab is flanked by an expansion finger 6 on the side facing the holding tab 4 . An intermediate space 9 is formed between the spreading finger 6 and the associated holding tab 5 , so that the spreading finger 6 can be bent toward the holding tab 5 . In addition, the intermediate space 9 serves to insert a corresponding tool for spreading the spreading finger from the holding tab 5 without problems and to be able to attach it to the spreading finger 6 .

As shown in FIG. 3, the spreading fingers 6 are bent in the opposite direction compared to the illustration shown in FIG. 2, so that the retaining tab 5 and spreading fingers 6 have only a slight play in the circumferential direction in the associated holding opening 8 .

The dimensions of the closed holding openings 8 are in relation to the dimensions of the holding tabs 4 , 5 and the spreading fingers 6 such that only a slight play in the axial direction is permitted.

As shown in FIGS . 3a and 3b, the holding tabs 4 and 5 and the spreading fingers 6 are flush with the holding opening 8 . Depending on the design of the radial bearing part, the retaining tabs 4 , 5 and the spreading fingers 6 can also protrude inward relative to the edge region 7 .

As can be seen in FIGS . 4 and 5, the closed holding openings 8 have a rectangular shape.

To assemble a radial-axial sliding bearing 1 in the embodiment according to FIGS. 1 to 5, the axial bearing part 2 in the state shown in FIG. 2 is moved in the radial direction towards the radial bearing part, so that the retaining tabs 4 , 5 and the spreading fingers 6 engage in the associated holding openings 8 of the radial bearing part. Because of the bent spreading fingers 6 it is possible to insert them into the holding openings 8 without problems, without the radial bearing part having to be deformed in any way. After the radial bearing part 3 and the axial bearing part 2 have been plugged together, the spreading fingers 6 are bent so far that a fixation in the circumferential direction is ensured.

Reference symbol list:

1 radial-axial plain bearing
2 axial bearing part
3 radial bearing part
4 guide tab
5 fastening tab
6 spreading fingers
7 edge area of the radial bearing part
8 closed holding opening
9 space
10 sliding surface of the radial bearing part

Claims (9)

1.Composed radial-axial sliding bearing with half-shell-shaped or bush-shaped radial bearing part and one-sided or both-sided part-ring-shaped axial bearing part or set of part-ring-shaped axial bearing parts, each axial bearing part having at least two holding tabs projecting radially inwards at a mutual angular distance, each in one in the area of the arcuate edge of the radial bearing part engage the closed holding opening,
characterized by
that at least the outer retaining tabs in the circumferential direction of the axial bearing part ( 2 ) are each flanked by at least one spreading finger ( 6 ) which is bent so far in the circumferential direction that the retaining tab ( 5 ) and spreading finger ( 6 ) in the retaining opening ( 8 ) receiving them Have little play in the circumferential direction. 2. Plain bearing according to claim 1, characterized in that the extent of the holding opening ( 8 ) in the circumferential direction is so large that the retaining tab ( 5 ) and spreading fingers ( 6 ) can be inserted into the holding opening ( 8 ) without bending the radial bearing part ( 3 ). 3. Plain bearing according to claim 1 or 2, characterized in that the retaining tab ( 5 ) and spreading fingers ( 6 ) are separated from one another by an approximately corresponding thickness of the spreading finger ( 9 ). 4. Plain bearing according to one of claims 1 to 3, characterized in that the retaining tab ( 5 ) and spreading fingers ( 6 ) are flush with the holding opening ( 8 ). 5. plain bearing according to one of claims 1 to 4, characterized in that the holding openings ( 8 ) are rectangular. 6. plain bearing according to one of claims 1 to 5, characterized in that the outer retaining tabs ( 5 ) are flanked only on their inner side lying in the circumferential direction with a spreading finger ( 6 ). 7. plain bearing according to claim 6, characterized in that between the two outer retaining tabs ( 5 ) with associated spreading fingers ( 6 ) a centrally arranged guide tab ( 4 ) without an associated spreading finger ( 6 ) is provided. 8. plain bearing according to one of claims 6 or 7, characterized in that the angular distance of the outer retaining tabs ( 5 ) to the central guide tab ( 4 ) is 60 °. 9. A method for producing a radial-axial plain bearing with a half-shell-shaped or bush-shaped radial bearing part and one-sided or both-sided part-ring-shaped axial bearing part or set of part-ring-shaped axial bearing parts, in which the part-ring-shaped axial bearing part with retaining tabs projecting radially on the inner peripheral edge and the radial bearing part with recesses for receiving the retaining tabs of the thrust bearing part are prefabricated, characterized in that
that at least two rectangular, closed holding openings are punched from the inner circumferential edge of the axial bearing part and at least two essentially rectangular holding lugs and at least two spreading fingers flanking the outer holding lugs, forming an intermediate space from the holding lug, and in an axial edge region of the radial bearing part.
that at least the spreading fingers flanking the inner side of the holding tab in the circumferential direction are bent into the intermediate space to the holding tab,
that the thrust bearing part and the radial bearing part are assembled, the retaining tabs and the spreading fingers being inserted into the retaining openings and
that the spreading fingers are then bent so far away from the holding tab that the holding tab and spreading fingers rest against the edge of the holding opening with little play.