DE4204988C1 - Sliding-contact bearing for radial and axial load - has two portions securely held together but with ability to move relatively within strictly defined limits - Google Patents

Abstract

On the inner edge of the axial bearing portion (2) a number of fixing clips (5) are flanked by splay fingers (6). The clips enter a recess (13) in the edge (7) of the radial bearing portion (3) whose end is shaped into a niche (8) overlapped axially by a hook-shaped projection (9). When the two portions (2,3) are assembled together, the fingers are deformed permanently into the niche behind the hook. USE/ADVANTAGE - Secure fixing of the axial plain bearing to the radial bearing is guaranteed, with defined limitation of the relative mobility, in a few simple and safe steps.

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 thrust bearing parts, wherein each axial bearing part has at least two retaining tabs has its inner peripheral edge, each in one in the area of the arcuate or circular Recess made at the edge of the radial bearing part engages, with at least one retaining tab as Fastening strap with at least one spreading finger is flanked by one in the assigned Fastening recess of the radial bearing part formed undercut engages.

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 2 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 developed 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 corresponding to the insertion recesses Dovetail shape, it is necessary the bearing half shell is elastic by compressing it deform so far that the mounting inserts be inserted into the mounting recesses 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.

BP 2 98 953 B1 therefore also contains a second Possibility of inserting the Fastening inserts in the insertion recesses in Considered that a medium Fastening insert 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 Fastening operations difficult and brings the Risk of damage to the radial bearing part yourself. 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.

From the later published older German patent application DE 41 40 277 A1 is already a composite Radial-axial plain bearings known, in which one serving as a mounting bracket of the Thrust bearing part in a on the peripheral edge of the Radial bearing part formed, closed Holding opening inserted and subsequently closed, via the Radial bearing part overlapping lugs is formed. Safe, permanent mounting and defined limitation of the axial play of the Axial bearing part compared to the radial bearing part be ensured, however, that requires Formation of the lugs on the fastening tab high Precision and special caution against damage of the bearing parts.

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.

According to the invention, this object is achieved by that the retaining tabs are at a mutual angular distance protrude radially inward, and that the Undercut by one on the edge of the Fastening recess formed hook-shaped Projection in the axial direction of the radial bearing part is covered.

Compared to spreading fingers and expanding a fastening tab in the form of a dovetail, offers this lateral spreading of the spreading finger and insertion in a recording niche the advantage that Dimensional accuracy and defined limitation of Agility already during the prefabrication of the Bearing parts with the required high precision without any difficulty can be set up. The assembly of the radial bearing part and Axial bearing part and spreading the spreading finger are particularly special simple work steps that are not elastic at all Deformation on the bearing parts themselves required make and no risk of damage to the Condition storage parts.

Can be particularly advantageous in the context of the invention be provided that the spreading finger or fingers in Flanking circumferential direction of the thrust bearing part arranged next to the mounting bracket and over their entire length by a cut or a Slot is separated from the fastening tab or  are. As a result, the lateral spreading of the or the spreading finger is particularly simple and safe possible without any deformation on the To have to make mounting bracket yourself.

The axial bearing part can within the scope of the invention or more additional retaining tabs than Have guide lugs without spreading fingers, which each at least partially, preferably however completely, axially closed holding opening is assigned to the edge of the radial bearing part. Such Guide tabs do not only improve that Cohesion of the bearing parts but also the defined limitation of the mutual Mobility of the bearing parts.

In a preferred embodiment of the invention has each axial bearing part in the apex area of its radial inner edge and a guide tab both sides in, preferably the same, Angular distance to each a mounting tab, where each mounting bracket at least on the of the Holding tab facing away from the side with a spreading finger is flanked. In this embodiment particularly good conditions for mutual Bracket and limited mobility of Radial bearing part and axial bearing part reached. The Assembly of the parts to the assembled Radial-axial plain bearing is simple and inexpensive to carry out. To go further the mutual axial mobility of Axial bearing part and radial bearing part defined to limit and the radial mobility of the Axial bearing part on the radial bearing part as small as possible to keep it within the scope of the invention Axial bearing part in the apex area of its inner edge  with a radially inward opposite the inner edge projecting edge be formed, the extends to both sides of the retaining tab. This The investment edge lies in an arcuate area to the edge of the radial bearing part and thereby offers secure support of the Axial bearing part on the radial bearing part.

In another embodiment of the invention, this can Thrust bearing part to one side of his Vertex area at an angular distance of one Retaining tab and to the other side of the Vertex area at an angular distance Have fastening tab.

In a further embodiment of the invention can be provided that the thrust bearing part too both sides at an angular distance from his Vertex area each has a mounting tab. These two latter embodiments can each according to the intended area of application of the respective composite radial-axial plain bearing selected will. In these latter two embodiments can be provided that the respective Fastening tab is assigned a spreading finger which is preferably at the top of the Axial bearing part facing away from the Fastening tab is arranged. An increased Stability of the axial bearing part on Radial bearing part can be used in the latter two Embodiments may be provided that the Fastening tab on both sides with one Flanking fingers are flanked, each of which is in spread apart condition into one Recording niche of the fastening tab receiving recess engages.

Embodiments of the invention are in following explained with reference to the drawing.

Show it:

Figure 1 is a perspective view of the assembled radial-axial sliding bearing of a first embodiment.

FIG. 2 shows a plan view of an axial bearing part according to FIG. 1 before assembly;

Fig. 3 is a plan view of a thrust bearing according to Figure 1 in an assembled state with a radial bearing part.

Fig. 3a, b enlarged details according to IIIa or IIIb of Fig. 3;

FIG. 4 shows a view of a developed radial bearing part according to FIG. 1;

Figure 5 is a perspective view of the composite radial-axial slide bearing in a second embodiment.

FIG. 6 shows a plan view of the axial bearing part and a radial bearing part cut at the edge in the case of a radial-axial bearing part according to FIG. 5;

Fig. 7 is a perspective view of the assembled radial-axial sliding bearing in a further embodiment and

Fig. 8 is a plan view of the thrust bearing part with a cut edge of the journal bearing part in a composite radial-axial slide bearing according to Fig. 7.

The examples shown in the drawings are radial-axial sliding bearings 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 circumferential edge inwardly pointing retaining tabs 5 and guide tabs 4 which engage in corresponding recesses on the edge 7 of the radial bearing part 3 .

In the example of FIGS. 1 to 4 the thrust bearing part with a central guide plate 4 and is provided to flanking an angular distance of about 30 degrees or more with two mounting plates 5. Between the central guide bracket 4 and the flanking fastening brackets 5 , a bearing edge 15 protruding from the inner circumference of the axial bearing part 2 is formed. The guide tab 4 engages in a closed holding opening 11 , while 5 mounting recesses 13 are provided on the edge 7 of the radial bearing part 3 for the two mounting tabs 5 . The inner edge 11 a of the closed holding opening 11 and the base edge 13 a of the fastening recesses 13 are aligned with one another.

As can be seen particularly from FIG. 2, each fastening tab 5 is connected to the retaining strap 4 opposite side flanked by a spreader pin. 6 Between the spreading fingers 6 and the fastening tab 5 is formed a slot 5 extending up to the base of the fastening tab to be able to introduce the spreading apart of the spreading finger 6 of the mounting bracket 5 a corresponding tool.

As shown in FIG. 4, each of the fastening recesses 13 has at its end facing away from the central, closed holding opening 11 a receiving recess 8 , which is covered axially outwards by a hook-shaped projection 9 such that one in the receiving recess 8 on the hook-shaped projection 9 base edge 13 is formed a mounting recess 13 of substantially parallel abutment edge for the expansion fingers.

The dimensions of the closed holding opening 11 are with respect to the dimensions of the guide plate 4 such that the guide plate 4 has a certain play 16 in the circumferential direction of the bearing and a small amount in the axial direction of the bearing in the closed holding opening. Likewise, the dimensions of the mounting recess 13 and the receiving recess 8 are such that the mounting tab 5 and the spreading finger 6 have 17 play in the assembled state of the radial-axial sliding bearing.

To assemble a radial-axial plain bearing in the embodiment according to FIGS. 1 to 4, the axial bearing part 2 in the state shown in FIG. 2 is first inserted somewhat obliquely to the end edge of the radial bearing part 1 and in the apex area with the guide tab 4 in the closed holding opening 11 introduced at the edge of the radial bearing part until the abutment edge 15 comes on the outer peripheral surface of the radial bearing part 3 . Then the thrust bearing part 2 is pivoted so that its two fastening tabs 5 and spreading fingers 6 enter the fastening recesses. The spreading fingers 6 are then spread apart from the respective fastening tab 5 and inserted into the corresponding receiving recess 8 with permanent bending deformation. The thrust bearing part 2 is thus permanently and securely attached to the radial bearing part and, through the play of the guide tab 4 in the closed holding opening 11 and the play of the fastening tabs 5 in the fastening recess 13 and the play of the spreading fingers 6 in the receiving recesses 8, one for assembly and the other Operation of the bearing suitable mobility with respect to the radial bearing part. During the operation of the radial-axial slide bearing 1 , relative movements of the axial bearing part 2 with respect to the radial bearing part 3 cannot undo the bending deformation of the spreading fingers 6 , since the contact edge of the hook-shaped projection 9 parallel to the base edge 13 a of the fastening recess 13 has no wedge effect and otherwise the mobility of the axial bearing part 2 on the radial bearing part 3 is limited by the play provided for the guide plate 4 in the holding opening 11 and the fastening plates 5 in the fastening recesses 13 .

In the embodiment of the radial-axial sliding bearing 1 according to FIGS. 5 and 6 to be used for special applications, the axial bearing part 2 has only two tabs projecting radially inwards on the inner edge, namely a guide tab 4 and a fastening tab 5 . Correspondingly, a closed holding opening 11 and an axially open fastening recess 13 are provided in the edge region 7 of the radial bearing part 3 . For the formation of the receiving recess and the hook-shaped projection on the fastening recess 13 for molding the spreading finger 6 , the same features are provided as explained above in connection with FIGS. 1 to 4. The same also applies to the play 16 of the guide bracket 4 in the holding opening 11 and the game 17 of the fastening bracket 5 in the fastening recess 13 .

Another embodiment of the radial-axial sliding bearing 1 to be used for special cases is shown in FIGS. 7 and 8. In this case, the thrust bearing part 2 has two tabs projecting radially inward on its inner edge, which are both mounting tabs 5 . In this example, the fastening tabs 5 are flanked on both sides by spreading fingers 6 . Accordingly, in contrast to the illustration in FIG. 4, the fastening recesses 13 made in the edge 7 of the radial bearing part 3 have a receiving recess at each end, each of which is covered by a hook-shaped projection. To assemble the radial-axial plain bearing, when attaching the axial bearing part 2 to the radial bearing part 3 , the two fastening tabs 5 of the axial bearing part 2 are inserted into the fastening recesses 13 of the radial bearing part 3 assigned to them. Then the spreading fingers 6 are spread out on both sides of the respective fastening tab and permanently bent into the respective receiving recess.

In all embodiments, the guide tabs 4 and the mounting tabs 5 and the spreading fingers 6 are designed such that they remain below the sliding surface 10 of the radial bearing part in the assembled state of the radial-axial sliding bearing 1 . The play 16 of the guide plate 4 in the holding opening 11 and the play 17 of the fastening plate 5 in the fastening recess 13 is significantly smaller than the dimensions of the receiving recess 8 and the spreading finger 6 . The game 16 , 17 offers a defined limited mutual mobility of the radial bearing part 3 and the axial bearing part 2 , but despite this mobility it is ensured that the spreading fingers 6 always and securely remain in their receiving recesses 8 .

Reference 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 on radial bearing part
8 photo niches
9 head start
10 sliding surface of the radial bearing part
11 a inner edge of 11
13 mounting recess
13 a base edge of 13
15 abutment edge
16 game
17 game

Claims (9)

1.Composed radial-axial sliding bearing with a shell-shaped or bush-shaped radial bearing part and a partial ring-shaped axial bearing part or set of partial ring-shaped axial bearing parts attached on one or both sides, each axial bearing part having at least two retaining tabs on its inner peripheral edge, each in one in the region of the arcuate or circular edge of the radial bearing part engage recess, at least one retaining tab is flanked as a fastening tab with at least one spreading finger which engages in an undercut formed in the associated fastening recess of the radial bearing bearing, characterized in that the retaining tabs ( 5 ) protrude radially inwards at a mutual angular distance and that the undercut is covered by a hook-shaped projection ( 9 ) formed on the edge of the fastening recess ( 13 ) in the axial direction of the radial bearing part ( 3 ). 2. Plain bearing according to claim 1, characterized in that the spreading finger or fingers ( 6 ) in the circumferential direction of the axial bearing part ( 2 ) flanking next to the fastening tab ( 5 ) and arranged over its entire radial length through a cut or a slot from the fastening tab ( 5 ) is or are separate. 3. plain bearing according to claim 1 or 2, characterized in that the axial bearing part ( 2 ) has one or more additional retaining tabs as guide tabs ( 4 ) without spreading fingers, each of which has an at least partially, but preferably completely axially closed, holding opening ( 11 ) at the edge ( 7 ) of the radial bearing part ( 3 ) is assigned. 4. Plain bearing according to claim 3, characterized in that each axial bearing part ( 2 ) in the apex region of its radial inner edge has a guide plate ( 4 ) and on both sides at preferably the same angular distance each has a fastening plate ( 5 ), each fastening plate ( 5 ) at least facing away from the guide plate (4) side is flanked by a spreader pin (6). 5. plain bearing according to claim 4, characterized in that the thrust bearing part ( 2 ) is formed in the apex region of its inner edge with a radially inward relative to the inner edge protruding abutment edge ( 15 ) which extends to both sides of the guide plate ( 4 ). 6. Plain bearing according to one of claims 1 to 3, characterized in that the axial bearing part ( 2 ) on one side of its apex area at an angular distance therefrom has a guide tab ( 4 ) and on the other side of the apex area at an angular distance a mounting tab ( 5 ). 7. A plain bearing according to claim 1 and 2, characterized in that the thrust bearing part (2) has on both sides in each case at angular distance from its apex region a respective fixing tab (5), one or two spreader pin (6) is assigned or are. 8. A plain bearing according to claim 6 or 7, characterized in that the respective fastening strap (5), a spreader pin (6) is associated, which is preferably located at the the apex region of the thrust bearing part (2) side of the mounting plate (5) facing away. 9. A plain bearing according to claim 6 or 7, characterized in that the fastening tab is flanked (5) on both sides by a spreader pin (6), each of which in auseinandergespreiztem state into a receiving recess (8) of the female fastening tab (5) Fastening recess ( 13 ) engages.