DE19918296A1 - Socket bearing has housing with holder bore containing solid aluminum/ magnesium/alloy holder ring - Google Patents

Abstract

The socket bearing (1) has an outer race ring (2) and inner bearing needles (6), and is located in a bore (9) in a housing (10). The bore contains a solid holder ring (8), and the bearing is held in a ring aperture (7) by press fit. A securing element (11) is held in a ring groove (12,13) in housing and ring. Alternatively the ring may have a rib, or it may be glued into the housing bore. The outer race ring is formed as a needle bush. The housing is or aluminum or magnesium, resp. alloy, e.g. a cast alloy of the type G-AlSi or G-alSiMg.

Description

Field of application of the invention

The invention relates to a sleeve bearing consisting of at least one outer ren race and a number of La arranged within the race like needling, the sleeve bearing in a receiving bore of a housing is recorded.

Background of the Invention

Such sleeve bearing, the hardened, but not ground, machined fene outer rings have long been known. Such Generic stock is, for example, in the Albert / Köttritsch textbook "Rolling Bearings", Springer-Verlag Vienna, New York, 1987, on page 29, over wrote.

Such generic sleeve bearings must now by expensive measures are fixed in the mounting hole of a housing. This can be done, for example, such that the sleeve bearing with a radial outward-facing flange is provided over its mounting hole stanchions and fastening screws are fixed to the housing wall. Such Flanges make a sleeve bearing unnecessarily expensive to manufacture. There, as the expert knows, such sleeve bearings by tight fit in the housing hole get the necessary geometric shape, are also on the up  hole in the housing makes high demands on roundness poses. In addition, there is a risk with light metal housings that The sleeve bearing does not become round by pressing it into the mounting hole can achieve, since this is then expanded.

Summary of the invention

The invention is therefore based on the object of a sleeve bearing arrangement to develop that meets the installation situation of a massive warehouse.

According to the invention, this task is performed according to the characterizing part of Claim 1 solved in that in the receiving bore of the housing massive receiving ring is arranged, in the receiving opening, the sleeve Senlager is held by means of an interference fit.

In this way, a functional, ready-to-use structural unit is formed as a sleeve bearing and solid mounting ring, the solid mounting ring showing the following advantages:
On the one hand, it ensures the necessary geometric roundness of the sleeve bearing regardless of the location hole in the housing. On the other hand, in contrast to the sleeve bearing according to claim 2, it can be designed with means for securing seats in the housing and can thus be held in a simple manner. This solution is particularly suitable as a niche solution for smaller quantities, since solid bearings can be replaced by existing catalog-shaped sleeve bearings and the solid mounting ring. The receiving ring is in any case easier to manufacture than a solid bearing, since it does not have to have any lateral rims for guiding the rolling elements. In addition, such a receiving ring can be machined more easily since, in contrast to the bearing ring of a solid bearing, it is machined in the soft state and does not need to be hardened. In addition, the receiving ring allows that existing sleeve bearings can be used for different installation spaces.

The concrete means of securing the massive receiving ring in the Housing emerge from claims 3, 4 and 5.

So it is provided according to claim 3 that the receiving ring on its jacket surface is provided with a circumferential first groove in which a fuse element is snapped in by a circumferential second groove in the housing se is included. According to claim 4, the receiving ring can also on his Shell surface at least with a rib running in the axial direction hen be so that when pressed into the mounting hole of the housing a secure hold is given by crushing the material. Also is the befe according to the mounting ring in the mounting hole of the housing Claim 5 possible by gluing. This has the advantage that that too Circumferential walking is prevented.

According to further features according to claims 6 and 7, the outer Race be designed as a needle sleeve or as a needle sleeve and the housing made of aluminum or magnesium or their alloys be made.

Finally, claim 8 shows that the housing is made of a cast alloy type G-AlSi or G-AlSiMg. Leave the G-AlSi alloys best shed, are versatile and particularly suitable for complicated, thin-walled or pressure-tight castings, medium ones Strength and elongation can be achieved with good chemical resistance. By adding just a few tenths of a percent magnesium, the G-AlSi-Le Alloys can be hardened and thus achieve significantly higher strength values, in particular the 0.2 proof stress doubles.

The invention is explained in more detail using the following exemplary embodiment.

Brief description of the drawing

The single figure shows a bearing arrangement according to the invention in part Longitudinal section.

Detailed description of the drawing

The bearing arrangement shown in the figure consists of the sleeve bearing 1 , the non-cutting outer race 2 has two inward boron de 3 and 4 , the 5 guided needle 6 in a cage lead in the axial direction. This sleeve bearing 1 is received by the receiving opening 7 of the solid receiving ring 8 and thus receives its required geometric shape. The massive receiving ring 8 is in turn from the receiving bore 9 on the housing 10 comprises. As the figure further shows, the sleeve bearing 1 and solid mounting ring 8 existing bearing arrangement in the housing 10 is held by a securing element that the bearing arrangement prevents the axial migration and copes with the axial forces to be transmitted without damage, with a tangential wandering of the female member 8 around the bearing axis 14 in the housing 10, however, cannot be prevented. The securing element is ausgebil det as a slotted snap ring 11 which is received on the one hand by the first groove 12 in the receiving ring 8 and on the other hand by the second groove 13 in the housing 10 .

Reference numerals

1

Sleeve bearing

2nd

outer race

3rd

Board

4th

Board

5

Cage

6

Bearing needle

7

Receiving opening

8th

massive receiving ring

9

Location hole

10th

casing

11

Snap ring

12th

first groove

13

second groove

14

axis

Claims (8)

1. sleeve bearing ( 1 ) consisting of at least one outer race ( 2 ) and a number of within the race ( 2 ) arranged Lagerna needles ( 6 ), the sleeve bearing ( 1 ) in a receiving bore ( 9 ) of a housing ( 10 ) is accommodated, characterized in that in the receiving bore ( 9 ) of the housing ( 10 ) a solid receiving ring ( 8 ) is arranged, in the receiving opening ( 7 ) the sleeve bearing ( 1 ) is held by means of an interference fit. 2. sleeve bearing ( 1 ) according to claim 1, characterized in that the receiving ring ( 8 ) with means for securing tightness in the housing ( 10 ) is provided. 3. sleeve bearing ( 1 ) according to claim 1, characterized in that the receiving ring ( 8 ) on its outer surface is provided with a circumferential first groove ( 12 ) into which a securing element ( 11 ) is snapped, by a circumferential second groove ( 13 ) is accommodated in the housing ( 10 ). 4. sleeve bearing ( 1 ) according to claim 1, characterized in that the receiving ring ( 8 ) is provided on its outer surface at least with one in the axial direction ( 14 ) extending rib. 5. sleeve bearing ( 1 ) according to claim 1, characterized in that the receiving ring ( 8 ) in the receiving bore ( 9 ) of the housing ( 10 ) is glued. 6. sleeve bearing ( 1 ) according to claim 1, characterized in that the outer outer race ( 2 ) is ausgebil det as a needle sleeve or as a needle bush. 7. sleeve bearing ( 1 ) according to claim 1, characterized in that the Ge housing ( 10 ) is made of aluminum or magnesium or their alloys. 8. sleeve bearing ( 1 ) according to claim 1, characterized in that the Ge housing ( 10 ) is made of a cast alloy of the type G-AlSi or G-AlSiMg.