DE20306508U1 - Bearing system comprises mounting with U-shaped cross-section whose outer surface is fastened to machine casing while its inner surface fits around bearing, inner surface and top of bearing being embedded in plastic - Google Patents

Abstract

Bearing system comprises a mounting (6) made from sheet metal which has a U-shaped cross-section. Its outer surface (7) is fastened to the machine casing (13), while its inner surface (8) fits around the bearing (1). This surface and the top of the bearing are embedded in a plastic casting (15) whose axial length is several times the radial gap between the surface and the bearing.

Description

The invention relates to a bearing arrangement from a bearing and from a bearing bracket for fastening the bearing on a machine part.

When attaching a bearing The problem sometimes arises on a machine part that the Machine part and the bearing are radially spaced from each other and therefore a direct fixation of the bearing on the machine part is not possible. In this regard, it is already known between the bearing and the machine part insert an intermediate ring, its wall thickness on the radial distance between the bearing and the machine part is coordinated.

Furthermore, from GB-PS 1 028 191 a mounting part for a bearing outer ring known with which the outer peripheral surface of the Bearing to a radial distance from a wall surface Hole in which the bearing is to be mounted can. The mounting part has a disc with a variety of yielding fingers, which are supported on the bearing outer ring. The Disc is supported in turn in the hole. In one variant, they are supported the fingers in the hole and the washer on the bearing outer ring from.

The DE 101 00 465 A1 discloses a ball bearing holding member for holding a ball bearing in a housing. The holding part is ring-shaped and has elastically yielding tabs, each of which rests with its inner sides against the ball bearing and with its outer sides against a bore surface and thus fixes the ball bearing at a radial distance from the bore surface.

From the DE 199 50 732 C1 it is known to insert an elastomer material into a receiving space between a bearing and a machine part and to press a sleeve between the machine part and the elastomer material and thereby to generate pressure on the elastomer material.

The known measures are suitable in each case to bridge the Distance between the bearing and the machine part, however, are up to the massive intermediate ring with regard to the achievable positioning accuracy of the bearing relative to the machine part and allow no radial adjustment of the bearing relative to the machine part.

The invention has for its object a mechanical fixation of a bearing on a radially spaced apart Train machine parts so that precise positioning of the bearing, in particular also possible in the radial direction is.

This task is accomplished through a bearing arrangement solved with the combination of features of claim 1.

The bearing arrangement according to the invention consists of a bearing and a bearing bracket for fastening the bearing to a machine part. The bearing bracket is formed as a sheet metal part and has a first fastening section for fastening the bearing bracket on the machine part. Furthermore, the bearing bracket has one second mounting section on the bearing in a radial Distance encloses sleeve-shaped. The bearing arrangement according to the invention is characterized in that the second mounting portion of the bearing bracket and a Part of the bearing embedded in a rigid plastic body are and thereby mechanically connected to each other, the axial extension of the plastic body is many times larger than the average radial distance between the second attachment portion of the bearing bracket and the camp.

The invention has the advantage that the camp during the assembly is adjusted both axially and radially relative to the bearing bracket and in a desired one Position can be fixed. Given the relatively small radial Expansion of the plastic body let yourself a comparatively high precision and mechanical stability when attaching the bearing to the bearing bracket. Another Advantage, particularly when using the bearing arrangement according to the invention of paramount importance in electrical machines is that the bearing of the machine part is electrical is isolated. This allows any storage damage, by an inadmissible Current continuity can be effectively prevented.

In a preferred embodiment the axial extension of the plastic body at least six times as big as the mean radial distance between the second fastening section of the bearing bracket and the camp. This geometry allows the precision and mechanical stability of the fixation of the bearing on the bearing bracket too meet very high requirements. Furthermore is it is advantageous that the plastic body on both sides axially over the Bearing survives and radially overlapped with the bearing. In this way, a positive connection between the bearing and the plastic body manufactured and thereby effectively secured the bearing in the axial direction.

The plastic body can be integral with the Bearing and / or the second attachment portion of the bearing bracket connected be so that the fixation of the bearing on the bearing bracket is high Withstands loads. In particular, the plastic body can be injection molded be made. The manufacture of the plastic body is thereby inexpensive possible and there is a big one Range of potential materials for the manufacture of the plastic body for Available. The plastic body is preferably produced from a plastic material, that a filler contains. This has the advantage that the plastic body has a high strength and dimensional accuracy can be trained. As a filler Glass fibers are particularly suitable.

The second mounting section of the camp In some areas, the carrier can be designed as a radially inwardly directed flange. This results on the one hand in a radial connection between the plastic body and the bearing bracket and on the other hand counteracts tiling of the plastic in the axial direction and thus increases the mechanical stability of the plastic body. The flange is particularly effective when it overlaps radially with the bearing.

The first attachment section of the bearing support points in a preferred embodiment a cylindrical one seat on. This has the advantage that the bearing bracket is reliable in a very simple manner Machine part can be fixed, for example by pressing with an overlap in a cylindrical bore of the machine part.

The invention is illustrated below of the embodiment shown in the drawing.

The single figure shows an embodiment of the bearing arrangement according to the invention in a sectional view. The bearing arrangement has a ball bearing 1 on that from an inner ring 2 , an outer ring 3 and between the inner ring 2 and the outer ring 3 rolling balls 4 consists. Through the ball bearing 1 becomes a wave 5 rotatably mounted in the inner ring 2 is pressed. The bearing arrangement also has a bearing bracket 6 with a U-shaped cross section. The bearing bracket 6 has an outer tube section 7 and an inner tube section 8th on that over a radial section 9 are interconnected. The inner pipe section 8th is bent radially inwards in some areas, so that a radially inward flange 10 is formed radially with the outer ring 3 overlaps. The outer pipe section 7 , the inner pipe section 8th with the flange 10 and the radial section 9 are made in one piece as a common sheet metal part. The outer surface of the outer pipe section 7 is as a seat 11 trained and with an overlap in a hole 12 of a housing 13 up to one shoulder 14 pressed.

A plastic body is essential for the invention 15 in which the inner pipe section 8th including the flange 10 is fully embedded. Furthermore, the outer ring 3 in the area of its outer lateral surface and in the radially outer area of its axial end faces in the plastic body 15 embedded. The plastic body fills in particular the radial annular space between the outer lateral surface of the outer ring 3 and the inner lateral surface of the inner tube section 8th from and is in its axial extent many times larger than the mean radial extent of the annular space mentioned. In particular, the axial extent of the plastic body 15 more than six times the average radial extent of the annulus. The plastic body 15 is dimensionally stable and rigid and is produced by injection molding, the outer shape being determined by an injection mold, not shown in the figure. The outer shape of the plastic body 15 is characterized in particular by the fact that the plastic body 15 axially over the outer ring 3 protrudes and in the protruding area radially with the outer ring 3 overlaps. This creates a positive connection in the axial direction between the plastic body 15 and the outer ring 3 educated. A plastic, to which a filler has been added, is preferably used as the injection molding material. Glass fibers, for example, are suitable as fillers. The injection molding material integrally connects with the outer ring 3 and the bearing bracket 6 , Over the flange 10 is the plastic body 15 also with the bearing bracket 6 positively connected in the axial direction.

Through the injection molding of the plastic body 15 during the assembly of the ball bearing 1 in the bearing bracket 6 there is the possibility of the ball bearing 1 both in the axial direction and in the radial direction relative to the bearing bracket 6 to adjust and fix in a desired position. This has the consequence that the radial expansion of the annular space between the outer ring 3 and the inner pipe section 8th may vary in scope. However, this ensures that the outer ring 3 and the inner pipe section 8th do not touch anywhere. Because the plastic body 15 electrically insulated, it means that the wave 5 towards the housing 13 is electrically isolated and consequently by the ball bearing 1 no current flow can occur. This is important because a current flow through the bearing can result in serious bearing damage. The fastening of the deep groove ball bearing according to the invention 1 on the bearing bracket 6 thus enables, in addition to adjustability and high precision, an electrically insulated design for fastening the bearing to the housing 13 ,

Although the application shown in the figure will surely predominate in practice, it is in principle also possible to use the deep groove ball bearing in the manner according to the invention 1 by means of a correspondingly modified bearing bracket 6 to fix on a shaft that has a smaller diameter than the inner diameter of the inner ring 2 having. In this case, the outer ring 3 directly into the hole 12 of the housing 13 be pressed in. The bearing bracket 6 would be through the plastic body 15 with the inner ring 2 connected and would on the wave 5 be pressed on.

1

Deep groove ball bearings

2

inner ring

3

outer ring

4

Bullet

5

wave

6

bearing bracket

7

outer pipe section

8th

internal pipe section

9

radial section

10

flange

11

Seat surface (outer tube section 7)

12

drilling

13

casing

14

shoulder

15

Plastic body

Claims (10)

Bearing arrangement consisting of a bearing ( 1 ) and from a bearing bracket ( 6 ) to fix the bearing ( 1 ) on a machine part ( 13 ), the bearing bracket ( 6 ) is designed as a sheet metal part and has a first fastening section ( 7 ) for fastening the bearing bracket ( 6 ) on the machine part ( 13 ) and a second fastening section ( 8th ), the ( 1 ) encloses sleeve-like at a radial distance, characterized in that the second fastening section ( 8th ) of the bearing bracket ( 6 ) and a section of the warehouse ( 1 ) in a rigid plastic body ( 15 ) are embedded and are thereby mechanically connected to one another, the axial extent of the plastic body ( 15 ) is many times larger than the mean radial distance between the second fastening section ( 8th ) of the bearing bracket ( 6 ) and the warehouse ( 1 ). Bearing arrangement according to claim 1, characterized in that the axial extension of the plastic body ( 15 ) is at least six times the average radial distance between the second fastening section ( 8th ) of the bearing bracket ( 6 ) and the warehouse ( 1 ). Bearing arrangement according to one of the preceding claims, characterized in that the plastic body ( 15 ) axially on both sides over the bearing ( 1 ) protrudes radially with the bearing ( 1 ) overlaps. Bearing arrangement according to one of the preceding claims, characterized in that the plastic body ( 15 ) integral with the bearing ( 1 ) and / or the second fastening section ( 8th ) of the bearing bracket ( 6 ) connected is. Bearing arrangement according to one of the preceding claims, characterized in that the plastic body ( 15 ) is manufactured by injection molding. Bearing arrangement according to one of the preceding claims, characterized in that the plastic body ( 15 ) is made of a plastic material that contains a filler. Bearing arrangement according to claim 6, characterized in that the filler consists of glass fibers. Bearing arrangement according to one of the preceding claims, characterized in that the second fastening section ( 8th ) of the bearing bracket ( 6 ) in some areas as a radially inward flange ( 10 ) is trained. Bearing arrangement according to claim 8, characterized in that the flange ( 10 ) radial with the bearing ( 1 ) overlaps. Bearing arrangement according to one of the preceding claims, characterized in that the first fastening section ( 7 ) the bearing bracket has a cylindrical seat ( 11 ) having.