DE3800314A1 - Sliding bearing with permanent lubrication for supporting running-gear components in motor vehicles - Google Patents

Abstract

The sliding bearing has a permanent lubrication and an elastomer body (12) between a rigid inner bush (1) and a rigid outer receptacle (14) and furthermore has a radial flange (2) connected to the inner bush (1), the inner bush (1) and the radial flange (2) having applied to them, in a firmly adhering manner, a plastic (3), the outer surface of which has recesses (4) filled with lubricant and is surrounded by a sliding bush (5) arranged in a firmly adhering manner in the elastomer body (12), one end of which sliding bush has an outward step (6) which overlaps the radial flange (2) of the rigid inner bush (1). Arranged on the opposite side of the radial flange (2) to the outward step (6) is a slip-on type flange (10), the circumference of which is firmly connected to the rim of the outward step of the sliding bush (5). <IMAGE>

Description

The invention relates to a slide bearing with a duration lubrication and an elastomer body between one rigid inner sleeve and a rigid outer Recording for the storage of chassis parts in Motor vehicles, which the generic characteristics the preamble of claim 1 and is referred to as a fluid block.

Bearings of this type primarily transmit radial ones Loads, however, are also more axial to absorb Suitable loads and can be without adverse effects Consequences for the gimbal shifting of the camp force connected by the bearing compensate vehicle parts.  

A bearing of those touched by the invention is known Genus from GB-PS 10 41 820, in which the Elasto but body between the rigid inner sleeve and an intermediate sleeve is arranged on the The outer surface of the plastic with the lubricating grease receiving recesses so that the The sliding bush is on the outside and directly in the rigid Recording that is used for example from a another jack or an eye in one Motor vehicle part exists. Such plain bearings are with a radial flange on one side formed so that from one side into a Recording, for example in a recording eye of a Motor vehicle part, can be pressed. The Known training of these plain bearings can only the transfer of axial forces in the direction of Press fit, so that these plain bearings in the Direction changing axial forces only for use can come if the arrangement of the plain bearings in pairs with opposing press-in direction of the two plain bearings of a pair.

The object of the invention is an education of Plain bearings with the generic features in such a way that a plain bearing may have axial forces in both Can transmit directions. This task solves the Invention by features according to the characteristics of Claim 1.  

While axial forces in one direction in conventionally by expanding the levels Sliding sleeve and the radial flange of the rigid Inner bushing can be transferred, the plain bearing according to the invention by the flange ring in Connection with the radial flange also in axial forces the opposite direction so that the plain bearing alone with its good storage properties can be used, for example with only one-sided steering arms of the chassis one Motor vehicle. With only a few to be expected Axial forces is an additional attachment of the Slide bearing not required in the mount, however, with larger axial forces is an additional one Provide cap with which the bearing against the receiving part is screwed so that the Radial flange between the cap and the female Part is clamped and can slide.

The drawing shows exemplary embodiments of a slide camp with the features of the invention. It shows

Fig. 1 is a partial plan bearings in elevation and partly in section of an axis,

Fig. 2 is an end view of the sliding bearing according to Fig. 1,

Fig. 3 shows a modified embodiment of a plain bearing partly in view and partly in section through an axis plane and

Fig. 4 is an end view of the sliding bearing in accordance with FIG. 3.

The inner bushing 1 which can be connected to the undercarriage part has at one end a radial flange 2 , which is usually formed in one piece with the inner bushing. The exemplary embodiment in FIGS . 1 and 2 shows the arrangement of the plastic or elastomer 3 directly on the outer surface of the inner bushing 1 . On its surface there are depressions 4 which are filled with grease in a manner known per se. This plastic covers or envelops the surface of the cylindrical part of the inner bush 1 and also of the radial flange 2 . A sliding sleeve 5 surrounds the plastic 3 with the lubricating grease placed in recesses 4 , so that the sliding friction between the plastic 3 and the sliding sleeve 5 takes place. The slide sleeve 5 is provided on the side of the radial flange 2 with a step extension 6, which merges into a cylindrical rim portion 7 and the radial flange 2 with the plastic coating 3 engages. In the region of the radial flange 2 and also at the opposite end of the rigid inner bush 1 3 sealing lips are molded 8 and 9, on the one hand to prevent the oozing out of lubricating grease from the indentations 4 and the penetration of dirt and moisture from the outside to the plastic in the sliding zone. On the outside of the radial flange 2 , a flange ring 10 is arranged, which also has a cylindrical edge 11 on the circumference, which is designed to be complementary to the edge part 7 of the sliding sleeve 5 , so that the two mesh and are shaped by radial deformations, for example by flanging or Rolling, can be firmly connected. The sliding sleeve 5 is vulcanized in the embodiment according to FIGS . 1 and 2 with an elastomer body 12 , and this elastomer body 12 is either pressed directly into an eye of another motor vehicle part or by means of a further bushing into this eye during assembly of the sliding bearing. An additional seal 13 is provided between the rigid inner bushing 1 and the elastomer body 12 at the end opposite the radial flange in order to obtain an additional labyrinth seal.

The exemplary embodiment in FIG. 3 shows the arrangement of the elastomer body 12 within a rigid outer bush 14 , which engages in the eye of the motor vehicle part when the bearing is pressed in. The constructional design of the plain bearing shown in FIGS. 3 and 4 corresponds to the description of the embodiment according to FIGS. 1 and 2, but the bore of the liner 1 is disposed asymmetrically to the axis of the rigid outer sleeve 14, as in particular from the front view in Fig. 4 results. This results in a simple adjustment of the change in length of a handlebar into which such a socket is pressed.

The cap 10 could also be located within the flange 7 , so that the flange 7 is rolled onto the cap 10 during assembly.

Claims (4)

1. Plain bearings with permanent lubrication and an elastomeric body between a rigid inner bush and a rigid outer receptacle as well as a radial flange connected to the inner bush, in which a plastic with good sliding properties is adhered to the inner bush and the radial flange, the outer surface of which has recesses filled with lubricant and is enclosed by a sliding bushing arranged in the elastomer body, one end of which has a step extension that overlaps the radial flange of the rigid inner bushing, characterized in that on the side of the radial flange ( 2 ) opposite the step extension ( 6 ), a flange ring ( 10 ) is arranged, the periphery of which is firmly connected to the edge ( 7 ) of the step extension ( 6 ) of the sliding sleeve ( 5 ). 2. Plain bearing according to claim 1, characterized in that the flange ring ( 10 ) and the sliding bush ( 5 ) have complementary interlocking cylindrical lugs ( 7 , 11 ) which are connected to each other by radial deformation. 3. plain bearing according to claims 1 and 2, characterized in that the plastic ( 3 ) on the rigid inner sleeve ( 1 ) in the region of the radial flange ( 2 ) of the inner sleeve ( 1 ) and at the other end molded sealing lips ( 9 ). 4. plain bearing according to claims 1 to 3, characterized in that the bore of the rigid inner bushing ( 1 ) is arranged asymmetrically to the outer receptacle.