DE3530112A1 - Sliding bearing - Google Patents

Abstract

A radial and axial sliding bearing with two bearing braces resting against one another and forming sliding surfaces. The technical problem of the invention is to provide a sliding bearing which requires only a little machining and acts both as a radial and as an axial sliding bearing. Formed in the sliding surfaces (4) are mutually opposite channels (5), and a flexible, wear-resistant insert ring (3) capable of sliding fills the two channels (5). <IMAGE>

Description

The invention relates to a radial and axial plain bearing with two bearing rings forming abutting sliding surfaces.

Field of application of the invention are plain bearings for tables with rotating worktop or device plate. These plain bearings are with vertical axis of rotation aligned. The training of this camp as Rolling bearings require a lot of effort. The same applies to the training as a plain bearing since the bearing surfaces are machined very precisely must and since these storage areas are comparatively large.

The object of the invention is to provide a plain bearing, that requires little mechanical processing and both as Radial and axial plain bearings are effective.

This object is achieved according to the invention in that in the Sliding surfaces opposite grooves are formed and that a compliant, wear-resistant, slidable insert ring the fills both channels.

The plain bearing according to the invention differs in this respect from the prior art as the opposing channels together with the bearing ring are the load-bearing parts. That alone Channels require precise machining in terms of profile and in terms of dimensions. The compliant, wear-resistant inlet slightly fills the channels and supports the bearing parts against each other. The lubricity of the insert ring also provides in the loaded state movement of the bearing is guaranteed. The insert ring can look like this deform probably in the axial as well as in the radial direction, so that the Plain bearings in the radial and axial directions a support and Füh takes over the function. Even under the strain-related Verfor With the insert ring, the bearing can be rotated without restriction.  

For quick assembly of the insert ring it is provided that a channel starting from the outer surface of the bearing approximately tangential into the Gutter flows. After the insert ring is inserted into the channel, the insert ring can no longer move back into the channel, so that a special securing of the insert ring is not necessary. The The bearing ring fills the two channels so that the bearing rings do not more can be shifted against each other. The insert ring keeps in assembled condition, the two bearing rings together, so that an additional Lich bearing housing is omitted.

Is given a particularly symmetrical and even training one by the fact that that channel has a semicircular profile.

The insert ring can be particularly good at the construct Adaptive demands that the insert ring consists of polyamide.

It is also provided that the insert ring has a polyamide rod Circular cross section is. A section can be made from such a rod Cut the appropriate length well. Due to the flexibility of the Rod is a safe insertion possible.

This makes it a training of the plain bearing as a radial bearing aims that the sliding surfaces parallel to the axis of the plain bearing are directed and that the channel through the outer bearing ring enough. With this training, the insert ring takes on elastic Deformation also on axial forces. The insert ring closes a ver shift of the two bearing rings both in the radial direction and in the axial direction, so that here for assembly and cohesion the bearing next to the bearing rings and the insert ring no further Parts are required.

The rotational mobility of the plain bearing is limited by the fact that both bearing rings on the same circumferential path each have a stop lug have to limit the bearing rotation. This training is special especially advantageous for tables with a rotating worktop, if a continued rotation of the worktop must be switched off.

The plain bearing according to the invention has a variety of uses options for both support bearings and rotating bearings To store.

An embodiment of the invention is described with reference to FIG attached drawing explained in the represent

Fig. 1 is a view of the slide bearing parallel to the bearing axis and cut in half and

Fig. 2 is a plan view of Fig. 1, cut in half along the line II.

The plain bearing according to the invention comprises an inner bearing ring 1 and an outer bearing ring 2 and a bearing ring 3 . The two bearing rings 1 and 2 have opposing sliding surfaces 4 . The sliding surfaces 4 are aligned parallel to the axis of the bearing and represent peripheral surfaces, so that the sliding bearing is to be addressed as a radial bearing. Grooves 5 with a semicircular profile are formed within the sliding surfaces 4 , each extending over the circumference. A channel 6 opens tangentially into the troughs 5 and extends from the bearing outer surface within the outer bearing ring 2 .

In the inner region of the bearing rings 2 , an annular Hohlkam mer 7 is formed. In this protrude in each case on a same order aligned stop lugs 8 and 9 of the bearing rings into it. The stop lugs limit the bearing rotation to a desired circumferential arc. In addition, passages 10 are attached to the end face of the bearing rings in the area of this chamber. These passages 10 are distributed according to a predetermined pattern and are used for fastening the bearing rings to support parts, for. B. on a table top and on a countertop rotatable countertop. At least in a bearing ring, a larger passage 11 is provided, which enables the introduction of assembly tools for fastening screws that pass through the passages 10 .

The bearing rings 1 and 2 are castings such. B. made of light metal. The insert ring 3 consists of a resilient, wear-resistant material and is preferably a flexible polyamide rod. The bearing parts touch each other only in the region of the groove 5 , so that only the grooves 5 of the two bearing rings 1 and 2 require precise mechanical processing in the manufacture of the bearing. The bearing rings are loosely stacked on one another in the manner shown in the figures. In the channel 6 a section of a polyamide rod cut to the appropriate length is inserted to form the insert ring 3 . After the bearing ring 3 lies in the grooves 5 , the bearing ring completely fills the inner cross section of the grooves 5 and thus prevents a mutual displacement of the bearing rings in the radial and axial directions. The bearing rings are held together and secured without a bearing housing. It is only possible to rotate the bearing rings around the bearing axis. The insert ring 3 can no longer escape from the trough, since the insert ring is always guided within the trough during a displacement in the trough. It cannot be deflected into channel 6 .

The insert ring 3 absorbs bearing loads by elastic deformation. The insert ring 3 can be loaded both in the radial direction and in the axial direction. Due to the sliding ability of the bearing ring, bearing rotation is also possible under load.

Claims (7)

1. Radial and axial sliding bearing with two abutting sliding surfaces forming bearing rings, characterized in that in the sliding surfaces ( 4 ) opposing grooves ( 5 ) are ausgebil det and that a resilient, wear-resistant, slidable insert ring ( 3 ) the two grooves ( 3 ) fills out. 2. Plain bearing according to claim 1, characterized in that an outgoing from the bearing outer surface channel ( 6 ) opens approximately tangentially into the grooves ( 5 ). 3. plain bearing according to claim 1 or 2, characterized in that each channel ( 5 ) has a semicircular profile. 4. plain bearing according to one of claims 1 to 3, characterized in that the insert ring ( 3 ) consists of polyamide. 5. plain bearing according to claim 4, characterized in that the insert ring ( 3 ) is a polyamide rod with a circular cross section 6. Plain bearing according to one of claims 1 to 5, characterized in that the sliding surfaces ( 4 ) are aligned parallel to the axis of the plain bearing and the channel ( 6 ) extends through the outer bearing ring ( 2 ). 7. plain bearing according to one of claims 1 to 6, characterized in that both bearing rings ( 1, 2 ) each have a stop lug ( 8, 9 ) on a same circumferential path to limit the bearing rotation.