DE10355407B3 - Bearing arrangement incorporates a bearing carrier which is made of sheet metal and is joined to the bearing by a shaped plastic component produced by an in-situ injection molding process - Google Patents

Abstract

The bearing arrangement incorporates a bearing carrier (3) which is made of sheet metal and is joined to the bearing (2) by a shaped plastic component (5) produced by an in-situ injection molding process in a space jointly formed by cutouts (4, 4', 4'') in the bearing carrier and in the bearing.

Description

The The invention relates to a bearing arrangement consisting of a bearing and a bearing carrier, wherein the bearing carrier is designed to be fixed to a machine part and wherein the bearing with the bearing carrier is permanently connected.

Bearing arrangements of this type are widely used in the art. For example, the DE 199 50 732 C1 Such a bearing arrangement in which a support member is permanently connected to a rolling bearing, so that the bearing support together with roller bearings forms a unit. The permanent bond between bearing carrier and roller bearings is accomplished here by a transformation.

Next the solution mentioned exist manifold Options, a bearing carrier with a rolling bearing connect to. Special requirements for economy the bearing assembly, d. H. to an economic production of the Arrangement and easy mounting, occur especially in mass production on, in particular, the car construction is mentioned. In car transmissions have to in big quantity roller bearing fixed on a bearing carrier and be built as a unit.

The DE 200 19 278 U1 discloses a bearing assembly with bearing support and associated with this rolling bearing, wherein the connection of these two components is made by a snap connection.

The US 3,451,736 describes the attachment of a rolling bearing in a housing, wherein after the placement of the rolling bearing in the housing in an annular gap between the bearing outer ring and housing liquid plastic material is injected.

Of the Invention is therefore the object of a bearing assembly of the type mentioned in such a way that an economic Production of the bearing assembly and a simple and inexpensive installation of the bearing in the bearing carrier possible is.

The solution this object by the invention is characterized in that the bearing carrier has a substantially planar contour and made of a flat Sheet metal and that the bearing and / or the bearing carrier at least one have radially directed incision, at least partially seen in the axial direction represents an undercut, wherein the connection between the bearing and the bearing carrier by means of a molding, in particular a plastic molding, which is produced during the bonding process of bearings and bearing carrier produced by in-situ injection molding, in the injection moldable material, especially molten Plastic material, in the incision and between bearing and bearing carrier predetermined axial and radial alignment of the two parts to each other is injected, and wherein in the lateral edge area of the camp, especially in the outer ring of the bearing, a recess is arranged, whose axial extent essentially corresponds to the thickness of the bearing carrier.

A first development provides that several moldings along a Circular path on the bearing carrier are arranged, each extending over a predetermined peripheral portion extend the circular path. This may in particular be provided that the moldings, in particular three, four, five or six moldings, equidistant are arranged on the circular path.

The Moldings can essentially on the radially inner side of a bore in the bearing carrier to be ordered.

It has proved its worth, that the bearing carrier two radially directed, circular has circumferential cuts, one of which in the lateral Edge area of the bearing carrier is arranged.

Of the Radially directed incision can be arranged in the outer ring of the bearing be.

to improved transmission axial forces can continue to be provided that the bearing, in particular the outer ring of the bearing, has a lateral abutment surface for the bearing carrier, at the bearing carrier in the state connected to the bearing.

Of the Radially directed incision in the bearing carrier can be characterized by a conical expanding punching breakout are formed, thereby simplifying Do an undercut for the axial fixation is formed.

The proposed bearing arrangement is characterized in that they very easy and thus inexpensive to manufacture, in particular the assembly process can be accomplished in a simple manner.

In particular, it can be provided in a concatenated process that initially the connection of bearing and bearing carrier by the proposed in-situ injection molding, wherein the relatively long main time for injection molding, including cooling of the plastic is used to all the necessary in a downstream station At final work, such as cleaning, final inspection, packaging, etc., can be carried out by the same operator who also operates the injection molding machine. This can save personnel costs.

In the drawing are embodiments of Invention shown. Show it:

1 in a three-dimensional view of a bearing assembly with bearing carrier and two bearings held by this,

2 the section through the bearing assembly according to section I-II according to 1 .

3 in the 2 detail in the upper left corner marked by a circle,

4 a first alternative embodiment of the bearing assembly and

5 a further alternative embodiment of the bearing assembly.

In 1 is a bearing arrangement 1 to see that from a bearing carrier 3 There are two camps 2 wearing. The sketched bearing arrangement 1 In this case, it is used in a passenger car transmission and supports two shafts arranged parallel to one another.

As from the synopsis of 1 and 2 can be seen, the bearing carrier points 3 a substantially planar contour, ie it consists essentially of a flat sheet formed sheet.

So that the camp or the 2 in the axial direction A and radial direction R relative to the bearing carrier 3 can be determined, the bearing carrier 3 a bore or circular recess 7 on, from the enlarged view according to 3 you can see. In the two lateral edge areas 8th and 9 of the bearing carrier 3 are radially directed cuts 4 ' and 4 '' incorporated, which - viewed in the axial direction A - represent an undercut. Accordingly located in the outer ring 10 of the camp 2 a radially directed incision 4 , which, viewed in the axial direction A, represents an undercut.

For the preparation of the bearing assembly 1 , ie for the connection of the bearing carrier 3 with the warehouse 2 or the camps 2 , which will be between bore 7 and radially directed incisions 4 ' respectively. 4 '' of the bearing carrier 3 and the radially directed incision 4 in the outer ring 10 of the camp 2 resulting space after the exact positioning of the bearing 2 relative to the bearing carrier 3 filled with plastic by an in situ injection molding process, ie the liquid plastic is injected into the gap between the bearing carrier and bearing. After injection molding lies a plastic molding 5 before, that in the cured state certain forces between bearings 2 and bearing carrier 3 can transfer. In particular, the plastic molding ensures accurate positioning between bearings 2 and bearing carrier 3 ,

In this case, the plastic molding extends 5 not along the entire circumference of the hole 7 , but only over selected peripheral sections. This is on 1 and the circular path outlined there 6 pointed out the course of the mean radial position of the plastic moldings 5 marked. How out 1 can be seen, are along the circular path 6 equidistant distributes four plastic molded parts provided to the bearing 2 relative to the bearing carrier 3 establish. In many cases, the forces to be transmitted are between bearings 2 and bearing carrier 3 not very large, and it essentially depends on maintaining a mounting fuse between these two parts until the bearing assembly is finally installed. In this case, in 1 four plastic moldings 5 provided in 2 by way of example, where, on the other hand, the rest of them are between bearings 2 and bearing carrier 3 forming annular groove remains unfilled.

Are larger forces between bearings 2 and bearing carrier 3 An embodiment comes into question, as in the 4 and 5 you can see. According to this embodiment, it is provided that the bore 7 has a smaller diameter than the outer diameter of the outer ring 10 of the camp 2 , In the outer ring 10 is a lateral stop surface 11 for the bearing carrier 3 educated. At this stop surface 11 becomes the bearing carrier 3 applied before the in situ injection molding process and then filled the resulting circumferential annular groove at said plurality of circumferential locations by injection molding.

The radially directed incision 4 can - as is the case according to 5 shows - also be formed by that the bore 7 in the bearing carrier 3 is formed by a stamping process, wherein over part of the thickness of the bearing carrier 3 a conically increasing punching breakout 4 ''' formed. This provides for the preparation of an axial securing the required undercut in the bearing carrier 3 represents.

For all training variants shown is that in the warehouse 2 and especially in its outer ring 10 in the lateral edge area 12 of the camp 2 (please refer 4 ) a cross-section substantially rectangular recess 13 can be incorporated their axial extent substantially the thickness d of the bearing carrier 3 equivalent.

The preparation of the bearing assembly can be done very economically by the proposed approach. As explained, by appropriate design of the bearing carrier or the bearing can also be taken to ensure that high axial forces between bearings 2 and bearing carrier 3 are transferable.

Although in the context of the inventive solution preferably of plastic molded parts 5 is spoken, it is also quite possible to use a different material than plastic for the moldings. For example, it would be possible to envisage an injection-moldable metal such as aluminum. In the case of the use of plastic both thermoplastics and thermosets come into consideration. In the case of thermoplastic processing, the molten plastic material is injected and cured by cooling. In the case of thermoset processing, molten plastic material is injected in the same way, in which case hardening by the application of heat takes place.

1

bearing arrangement

2

camp

3

bearing bracket

4

radial directed incision

4 '

radial directed incision

4 ''

radial directed incision

4 '' '

radial directed incision (punching break)

5

Plastics molding

6

orbit

7

drilling

8th

lateral Edge area of the bearing carrier

9

lateral Edge area of the bearing carrier

10

outer ring

11

lateral stop surface for the bearing bracket

12

lateral Border area of the warehouse

13

recess

A

axial direction

R

radial direction

d

thickness of the bearing carrier

Claims (8)

Bearing arrangement ( 1 ) consisting of a warehouse ( 2 ) and a bearing carrier ( 3 ), the bearing carrier ( 3 ) is designed to be fixed to a machine part and wherein the bearing ( 2 ) with the bearing carrier ( 3 ) is permanently connected, characterized in that the bearing carrier ( 3 ) has a substantially planar contour and consists of a sheet-formed sheet metal and that the bearing ( 2 ) and / or the bearing carrier ( 3 ) at least one radially directed incision ( 4 ), which, viewed at least partially in the axial direction (A) represents an undercut, wherein the connection between bearings ( 2 ) and bearing carrier ( 3 ) by means of a molded part ( 5 ), which is used in the bonding process of bearings ( 2 ) and bearing carrier ( 3 ) is produced by in-situ injection molding, by injection-moldable material in the incision ( 4 ) and between bearings ( 2 ) and bearing carrier ( 3 ) is injected at a predetermined axial (A) and radial (R) alignment of the two parts to each other, and wherein in the lateral edge region ( 12 ) of the warehouse ( 2 ) a recess ( 13 ) is arranged, whose axial extent substantially the thickness (d) of the bearing carrier ( 3 ) corresponds. Bearing arrangement according to claim 1, characterized in that a plurality of molded parts ( 5 ), in particular plastic molded parts, along a circular path ( 6 ) on the bearing carrier ( 3 ) are arranged, each extending over a predetermined peripheral portion of the circular path ( 6 ). Bearing arrangement according to claim 2, characterized in that the molded parts ( 5 ), in particular three, four, five or six moldings ( 5 ), equidistant on the circular path ( 6 ) are arranged. Bearing arrangement according to one of claims 1 to 3, characterized in that the molded parts ( 5 ) substantially at the radially inner side of a bore ( 7 ) in the bearing carrier ( 3 ) are arranged. Bearing arrangement according to claim 4, characterized in that the bearing carrier ( 3 ) two radially directed, circular circumferential cuts ( 4 ' . 4 '' ), one of which in the lateral edge region ( 8th . 9 ) of the bearing carrier ( 3 ) is arranged. Bearing arrangement according to one of claims 1 to 5, characterized in that the radially directed incision ( 4 ) in the outer ring ( 10 ) of the warehouse ( 2 ) is arranged. Bearing arrangement according to one of claims 1 to 6, characterized in that the bearing ( 2 ), in particular the outer ring ( 10 ) of the warehouse ( 2 ), a lateral stop surface ( 11 ) for the bearing carrier ( 3 ), on which the bearing carrier ( 3 ) in the warehouse ( 2 ) connected state is present. Bearing arrangement according to one of claims 1 to 7, characterized in that the radially directed incision ( 4 ) in the bearing carrier ( 3 ) by a punching outbreak ( 4 ''' ) is formed.