DE4041555A1 - Combined radial axial slide bearing - has protrusion on radial bearing part engaging in opening on fixing plate on axial bearing - Google Patents

Abstract

The combined radial-axial slide bearing has an axial bearing part with at least one radially inwardly protruding fastening plate (4a) with at least one opening (6a) whilst the radial bearing part (3) has at least one axially protruding attachment (7a) which fits into the opening (6a) of the fastening plate and which engages at least partially over the fastening plate in the edge area of the opening. Two such fastening plates can be provided at an angle of alph = 60 deg. as well as two associated attachments (7a). ADVANTAGE - Cost-effective production with easy assembly since the two bearing parts need only be fitted together in the axial direction without further work steps.

Description

The invention relates to a combined radial-axial sliding bearing in which the thrust bearing part at least one protruding radially inward Has fastening tab. The invention relates also a method for producing such Radial-axial plain bearing.

Such plain bearings are from a variety of Publications known. You have opposite a one-level education Radial-axial plain bearings have the advantage that for the Radial bearing part another material can be selected can as for the thrust bearing part, so that a optimal material adaptation to the respective Load ratio is possible.

In order to keep the wear on the bearing parts low, is the centering and fixing of the bearing parts of great importance to each other.

Combined are from DE-OS 26 38 996 Radial-axial plain bearings known in which the Axial bearing parts have lugs, which in the direction of Bearing axis must be bent and in corresponding, open to the outer radius Intervene bulges of the radial bearing part. The fact that the retaining lugs on the bearing bore of the bearing housing should support Retaining lugs are bent precisely. In the Large extent of the retaining lugs requires a complex bending process. Finally, the design of the Bulges do not securely fix the bearing parts in the axial direction.  

From EP 02 98 953 is a half bearing and a separate start-up known, with the Attachment of the thrust collar to the half-shell these with open to the outer edge Insert recesses is provided, the one in effective undercut in the axial direction form a dovetail. Corresponding these insertion recesses are on the collar Fastening approaches are provided, which in axial Exist in the direction of the angled tongues. To the To connect the thrust collar with the bearing shell the thrust collar in the radial direction on the Bearing half-shell attached and under simultaneous compression of the bearing half-shell, not only the spread of the bearing half-shell is lifted, but beyond that Bearing half shell must also be deformed. This can damage the bearing half shell to lead.

From DE-OS 33 45 652 is a flanged Half bearings known for use in engines. The Connection between the semi-cylindrical Bearing shell and the collar is done by hooking of radially protruding, offset approaches in Shape of a convex prism in corresponding profiled bulges open towards the outer edge of the radial bearing part. These bulges are located on the arched edges of the bowl. Here, certain angular positions of the Bulges and the radially protruding approaches get noticed. A disadvantage of this type of Connection is the elaborate production because the formation and arrangement of the prisms and the Bulges in addition to the angular positions tight tolerances must be observed. The Prisms are also embossed or  milled. When reassembling that too Radial bearing part beyond the normal dimension be deformed. If after installing the flanged half bearing the spread of the Bearing shell is lifted, are the thrust bearing parts no longer fixed and can be removed from the bearing shell fall off.

GB 22 10 113 is a combined radial-axial slide known camp, where the Axial bearing part protruding radially inwards Has mounting tabs that are rectangular Have shape in the axial direction undercut recesses in the radial bearing part intervention. The manufacturing effort is very high large, as undercut grooves in the bearing shell must be introduced.

It is therefore an object of the invention to provide a combined Radial-axial plain bearings, as well as a method too to provide its manufacture, the Radial-axial plain bearings with just a few steps and so that it can be manufactured inexpensively and a secure fixation between the axial bearing part and Radial bearing part should be guaranteed.

This task is accomplished with a combined radial Axial plain bearing according to claim 1 and with one Method according to claim 5 solved. Beneficial Refinements are the subject of the dependent claims.

The radial bearing part has at least one in axial projection or tab with the fastening tab of the Axial bearing part interacts. The Fastening tab of the thrust bearing part points at least one opening into which the or Approaches of the radial bearing part when assembling  Engage the radial bearing part and the axial bearing part. The Approach is slightly opposite to that in the axial direction Fastening tab in front and is somewhat widened executed so that the approach at least partially the fastening tab in the edge area of the opening overlaps and thus a secure fixation in guaranteed axial direction.

The inventive design of Radial bearing parts and thrust bearing parts offers the Advantage that the assembly is extremely easy because the two bearing parts only in the axial direction must be put together without further Operations are required. Nor is it required, the radial bearing part during assembly compress or spread, whereby Damage to the sliding layer can occur.

Another advantage is that the Radial bearing part not by any Recesses is weakened. So it can on the formation of one of the sliding layer adjacent edge area of the radial bearing part to be dispensed with since there is no space for attachment of recesses of any kind required is. The ones extending in the axial direction Approaches do not affect the load share and the Bearing shell is better shaped. Besides, will the stability of the radial bearing part enlarged.

There are preferably two fastening tabs below an angle of about 60 ° on the thrust bearing part intended. Accordingly, that too Radial bearing part two approaches that in the Openings of the fastening tabs are inserted.

Because the composite radial-axial plain bearings  mechanically recorded and then installed, it can occur that the gripping tool the thrust bearing parts squeezes so strongly that installation is not is possible or is made more difficult. It is therefore from Advantage if between the two Fastening tabs on the axial bearing part one additional tab is provided, which is located on the edge of the Radial bearing part supports. This extra tab has no opening.

In order to save space, it is advantageous if the fastening tab is towards the radial bearing part is cranked. The mounting bracket is here arranged parallel to the thrust bearing part and over a connecting leg with the thrust bearing part connected.

For the production of the combined axial-radial sliding is the radial bearing part and the thrust bearing part manufactured, being the last Processing step the punching of the Fastening tab, or fastening tabs and whose openings are made on the thrust bearing part. On the radial bearing part, the or the axial Punched in the direction of the above approaches.

Then the thrust bearing part and that Radial bearing part assembled, the approach or the approaches in the or the openings of the Fastening tabs are inserted. Because the approaches opposite the mounting bracket in the axial direction something can stand out, the approaches through a suitable tool can be expanded so that the material displaced the fastening tab overlaps in the edge area of the opening. Here is to ensure that a mobile, safe Connection between the radial bearing part and the Axial bearing part is created.  

The widening of the approaches can be brought in through the introduction of one or more notches in the outside pointing edge of the approach.

For the most space-saving radial-axial sliding To produce bearings is done after punching the mounting bracket the mounting bracket cranked towards the radial bearing part.

Exemplary embodiments are as follows explained in more detail using the drawings. It shows

Fig. 1 is a view of an axial bearing,

Fig. 2 is a side view of a radial bearing part,

Fig. 3 is a section along the line III-III of that shown in Fig. 2 the radial bearing part,

Fig. 4 is an enlarged view of the connection between the thrust bearing and the radial bearing part,

Fig. 5 is an enlarged view of the connection of the axial bearing part and the radial bearing part in plan view

Fig. 6 is a plan view of a radial bearing part.

In Fig. 1, an axial bearing part 2 is shown, which has two mounting tabs 4 a and 4 b, which are arranged at an angle 2 α at the inner edge radially inwards projecting. Each of these mounting tabs 4 a and 4 b has a substantially rectangular shape. In the fastening tabs 4 a and 4 b, an opening 6 a and 6 b is introduced, which also have a rectangular shape. It is also possible to introduce more than one opening 6 a or 6 b into the fastening tabs 4 a and 4 b.

Between the two mounting tabs 4 a and 4 b, a further tab 5 is provided, which has no opening.

In FIG. 2, a radial bearing part is shown in side view 3. A section along the line III-III of the radial bearing part 3 shown in FIG. 2 can be seen in FIG. 3. As can be seen from these two figures, the radial bearing part has projections 7 a, 7 b and 9 a, 9 b projecting in the axial direction (see FIG. 6), which in the illustration shown here have the shape of essentially rectangular tabs. These approaches 7 a, 7 b are also attached at an angle 2 α on the outer edge of the radial bearing part 3 . As can be seen in FIGS. 3 and 6, no edge strip adjacent to the sliding surface 8 is required. The approaches 7 a, 7 b, 9 a, 9 b are in the immediate vicinity of the sliding surface 8 .

The extra flap 5 shown in FIG. 1 is located after the assembly of thrust bearing part 2 and the radial bearing part 3 on the edge 10 of the radial bearing part 3 to prevent Einwärtsklappen grab when the gripping tool.

In FIG. 4 a radial bearing part 3 and a thrust bearing part 2 is shown in the assembled condition, wherein the thrust bearing part 2 has the peculiarity that the fastening tab 4 is bent at the thrust bearing part 2 is arranged a. The fastening strap 4 is arranged parallel to a thrust bearing part 2, and connected through a connecting arm 12 with the thrust bearing. 2 In this way, space is saved in the connection area between the radial bearing part 3 and the axial bearing part 2 . If an additional middle tab 5 is provided, it is cranked in the same way as the fastening tab 4 a.

As can be seen in FIG. 4, the projection 7 a protrudes from the fastening tab 4 a in the axial direction, so that the projection 7 a can be widened by means of a suitable tool. This is shown in Fig. 5, which shows that two recesses 11 are made in the form of notches in the outwardly facing surface 13 , so that the displaced material overlaps the fastening tab 4 a in the edge region of the opening 6 a and thus an axial Fixation of both bearing parts guaranteed.

Reference symbol list

2 axial bearing part
3 radial bearing part
4 a, b mounting bracket
5 tab
6 a, b opening
7 a, b approach
8 sliding surface
9 a, b approach
10 rand
11 deepening
12 connecting legs
13 outer surface
α angle

Claims (7)

1. Combined radial-axial slide bearing, in which the axial bearing part has at least one radially inwardly projecting fastening tab, characterized in that the fastening tab ( 4 a, 4 b) has at least one opening ( 6 a) and that the radial bearing part ( 3 ) has at least one projection ( 7 a, 7 b) projecting in the axial direction, which is inserted into the opening ( 6 a) and at least partially overlaps the fastening tab ( 4 a) in the edge region of the opening ( 6 a). 2. plain bearing according to claim 1, characterized in that two fastening tabs ( 4 a, 4 b) at an angle of 2α = 60 °, and two associated approaches ( 7 a, 7 b) are provided. 3. plain bearing according to claim 1 or 2, characterized in that a further radially inwardly projecting tab ( 5 ) is attached to the axial bearing part ( 2 ), which is supported on the edge ( 10 ) of the radial bearing part ( 3 ). 4. Plain bearing according to one of claims 1 to 3, characterized in that the fastening tab ( 4 a, 4 b) of the axial bearing part ( 2 ) is arranged cranked towards the radial bearing part ( 3 ). 5. Process for making a combined Radial-axial plain bearing, in which Axial bearing part and radial bearing part prefabricated are characterized by that from the thrust bearing at least one in essential rectangular mounting bracket with at least one opening and out of the Radial bearing part at least one in the axial Is punched in the direction of the above approach, that the thrust bearing part and the radial bearing part be put together, the approach in the Opening of the fastening tab is inserted and that the approach is then expanded so that the material displaced the mounting tab in the Overlaps the edge area of the opening. 6. The method according to claim 5, characterized characterized in that after punching out the Mounting bracket the mounting bracket is cranked. 7. The method according to claim 5 or 6, characterized characterized in that facing outwards Edge of the neck at least one notch is introduced.