DE102006044637A1 - Hinge bearing i.e. sliding bearing, has inner ring supported by clamping ring that is arranged at front side of inner ring, where clamping ring has rectangular cross section and is provided with chamfer, which is turned towards outer ring - Google Patents

Abstract

The hinge bearing (1) has an inner ring (3) supported in an outer ring (2), where the rings are designed as separate rings and are provided with a set of outer ring parts (5) and/or inner ring parts (6). The ring (3) is supported by a separated clamping ring (4) that is arranged at a front side of the ring (3). The clamping ring has a rectangular cross section and is provided with a chamfer, which is turned towards the ring (2).

Description

Field of the invention

The The invention relates to a joint bearing with an outer ring and with a in this movably mounted inner ring.

Background of the invention

A joint bearing is for example from the DE 90 11 842 U1 known. This spherical plain bearing is a backlash-free radial spherical plain bearing.

Object of the invention

Of the Invention is based on the object of specifying a spherical plain bearing, that is, even when running as a large warehouse, especially characterized by a high ease of installation and maintenance.

Summary of the invention

These The object is achieved by a spherical plain bearing with the features of claim 1. This joint bearing has as a radial spherical plain bearing an outer ring and one in this in the sense of a slide bearing movably guided inner ring. Either the inner ring as well as the outer ring are formed as split rings. Regarding the division of bearing rings is generally referred to publication no. WL 43 165 DA of the FAG Kugelfischer AG Schweinfurt ("Split FAG spherical roller bearings") Subject of this However, publications are only rolling bearings. In contrast to this the bearing is designed according to claim 1 as a sliding bearing. additionally to the circumferentially divided bearing rings, i. to preferred from two ring parts assembled outer ring and inner ring, is at least one clamping ring present, which also as a split ring is trained. By means of at least one clamping ring the items of the inner ring held together, where they are in the Usually be fixed on a shaft.

In Preferred embodiment are two clamping rings on each one Front side of the inner ring arranged. Integrally formed with the inner ring Flanges at the ends can in each case form a groove into which the individual parts of the clamping ring are inserted. The faces of the clamping rings are aligned with the end faces of the inner ring. The cross section of each Clamping ring is preferably substantially rectangular, with a first deviation from the rectangular shape possibly on the flange of the inner ring is present. Another deviation from the rectangular shape is on the the first deviation diametrically opposite edge of the clamping ring preferably formed in the form of a chamfer. This chamfer is the outer ring facing, wherein a pivoting of the outer ring relative to the inner ring possible is. In other words: the symmetry axis of the outer ring is pivotable relative to the axis of symmetry of the inner ring, wherein a stop of the outer ring or a permanently connected to this part of the chamfer of the inner ring given is.

Of the outer ring preferably faces the inner ring at its end faces Recesses, in each of which a sealing ring is arranged. When swiveling the outer ring relative to the inner ring can attach these sealing rings to the chamfers of the clamping rings. Every sealing ring is preferably by a flange on the end face of the outer ring secured against axial displacement.

To An advantageous development is on the inside of the inner ring and / or on the outside of the outer ring a friction lining fixed to the inner ring or with the outer ring connected. This friction lining ensures that there are no unwanted relative movements across from a connection component, for example a shaft, on which the inner ring is fixed by means of the clamping rings occur.

following is an embodiment of Invention explained in more detail with reference to a drawing. Herein show:

Short description of the drawing

1 partially a spherical plain bearing in perspective, and

2 and 3 the joint bearing after 1 in sectional views.

Detailed description of the drawing

The 1 to 3 show a joint bearing 1 , which essentially consists of an outer ring 2 , An inner ring mounted in this slide bearing 3 as well as two clamping rings 4 composed. Each of the rings 2 . 3 . 4 is divided in the circumferential direction, so that a total of two outer ring parts 5 , two inner ring parts 6 and a total of four clamping ring parts 7 available. The inner ring 3 , which is made of each extending over 180 ° inner ring parts 6 is rotatably on a shaft 8th arranged, not to the components of the hinge bearing 1 counts. For fixing the inner ring 3 on the wave 8th are the clamping ring parts 7 with circumferentially extending screws 9 screwed. With fully assembled spherical plain bearings 1 protrude the screws 9 not over the contours of the clamping ring 4 out.

The clamping rings 7 are each located on one end face 10 of the inner ring 3 , At each end 10 is integral with the inner ring 3 a flange 11 formed, whereby an annular groove 12 of the inner ring 3 is formed, in which the clamping ring 4 partially rests and is thus secured against axial displacement. The clamping ring 4 has a flange 11 adapted recess 13 which represents a deviation from its otherwise rectangular, namely square, basic form. Another deviation from the square basic shape of the clamping ring 4 is through a chamfer 14 given that of the recess 13 diametrically opposite and thus the outer ring 2 is adjacent. The chamfers 14 the clamping rings 4 are thus located at the axially inner, radially outer edges of the clamping rings 4 ,

Every chamfer 14 is a front page 15 of the outer ring 2 facing. The outer ring 2 indicates at its end faces 15 each one approximately rectangular in cross section recess 16 on. Axial between these recesses 16 there is a curved contact surface 17 of the outer ring 2 , on which in the sense of a sliding bearing a contact surface 18 of the inner ring 3 is applied. At the curved contact surface 18 of the inner ring 3 are also two sealing rings 19 in each case in one of the recesses 16 are held. To the sealing rings 19 opposite the outer ring 2 to secure against axial displacement is every recess 16 at the respective front side 15 through a one-piece with the outer ring 2 ie with the respective outer ring part 5 , formed flange 20 limited. Similar to the clamping ring parts 7 are also the outer ring parts 5 , which each extend over 180 °, screwed together, wherein in the 1 to 3 holes provided for this purpose 21 that extend in the tangential direction are visible.

On the inside of the inner ring 3 is optionally located in 3 Dashed line indicated friction lining 22 , This supports the rotationally fixed fixation of the inner ring 3 on the wave 8th , Analogously, the outer ring 2 advantageously firmly with a friction lining 23 connected, which forms a rotation against an unillustrated outer terminal component. The friction linings 22 . 23 include, for example, organic matrix material, reinforcing fibers, and filler. The joint bearing 1 is suitable for shaft diameters of more than 500 mm.

1

Spherical Plain bearings

2

outer ring

3

inner ring

4

clamping ring

5

Outer ring portion

6

Inner ring member

7

Clamping ring part

8th

wave

9

screw

10

front

11

flange

12

ring groove

13

recess

14

chamfer

15

front

16

recess

17

contact surface

18

contact surface

19

seal

20

flange

21

drilling

22

friction lining

23

friction lining

Claims (10)

Spherical plain bearing, with an outer ring ( 2 ) and in this mounted inner ring ( 3 ), characterized in that the outer ring ( 2 ) as well as the inner ring ( 3 ) as split rings, in each case a plurality of outer ring parts ( 5 ) or inner ring parts ( 6 ) are formed, wherein the inner ring ( 3 ) by at least one split clamping ring ( 4 ) is held together. Spherical bearing according to claim 1, characterized in that two clamping rings ( 4 ) are provided, which in each case at an end face ( 10 ) of the inner ring ( 3 ) are arranged. Spherical bearing according to claim 1 or 2, characterized in that the clamping ring ( 4 ) in an annular groove ( 12 ) of the inner ring ( 3 ) is present. Spherical bearing according to one of claims 1 to 3, characterized in that the clamping ring ( 4 ) has a substantially rectangular cross-section. Spherical bearing according to claim 4, characterized in that the clamping ring ( 4 ) one the outer ring ( 2 ) facing bevel ( 14 ) having. Spherical bearing according to one of claims 1 to 5, characterized in that the outer ring ( 2 ) at its end faces ( 15 ) the inner ring ( 3 ) facing recesses ( 16 ) having. Spherical bearing according to claim 6, characterized in that in the recesses ( 16 ) each have a sealing ring ( 19 ) is arranged. Spherical bearing according to claim 7, characterized in that the sealing ring ( 19 ) by a flange ( 20 ) on the front side ( 15 ) of the outer ring ( 2 ) is secured against axial displacement. Spherical bearing according to one of claims 1 to 8, characterized by a on the inside of the inner ring ( 3 ) arranged friction lining ( 22 ). Spherical bearing according to one of claims 1 to 9, characterized by a on the outer side of the outer ring ( 2 ) arranged friction lining ( 23 ).