DE10137296B4 - Retaining element for fixing a machine part - Google Patents

Abstract

retaining element (1) for fixing a machine part (2), in particular a Warehouse, in a housing (3), wherein the holding element (1) at least one threaded portion (4) for fixing the retaining element (1) on the housing (3), characterized by at least one on at least one side (5), in particular on a plane surface, of the holding element (1) in an annular manner the axis (6) of the threaded portion (4) extending recess (7, 8th).

Description

The Invention relates to a holding element for fixing a machine part, in particular a bearing, in a housing, wherein the retaining element at least one threaded portion for fixing the retaining element on the housing having.

retaining elements or holding plates of the type mentioned are known. Especially in transmissions in motor vehicles, the need for storage of a Shaft rolling bearings in a housing part be arranged and fixed there, ensuring that under all operating circumstances is that the bearing is firmly in the housing is held. For this purpose, annular holding elements made of sheet metal known to have a plurality of threaded portions distributed over the circumference; By means of screws, these retaining element are fixed, so that the roller bearing has a secure hold.

A holding element for fixing a machine part of the type mentioned is from the DE 15 75 609 C1 known. The retaining element is screwed without further precautions by means of an incorporated threaded portion with the housing. This has the consequence that the thickness of the retaining element must be sufficient so that the thread does not tear.

The weakness of the thread in the holding element is in the DE 74 21 880 U1 recognized, which is why it is provided in a generic holding element, that the holding element is provided at the relevant point with an expansion sleeve. This is inserted into a corresponding recess in the retaining element.

In disadvantageously, the production of a holding element of the generic type a high manufacturing effort. Is problematic in this case, in particular, that the threaded portion, usually through a forming process is formed from the material of the holding element, does not have sufficient strength. In operation, it can therefore happen that tears the thread and the retaining element his Task can not fulfill anymore. Furthermore, the generic holding elements usually a high notch stress, which also leads to a premature fatigue to lead can.

Of the Invention is therefore based on the object, a holding element of to develop the aforementioned type such that overcome these disadvantages become. In particular, it should be possible make the threaded portion very stable, without being special production engineering measures requirement. Both static and dynamic strength the threaded portion in the holding element should be so high that under all typical load cases a runaway the thread is excluded. Furthermore, it should above all one Attention should be directed to the manufacture of the retaining element in a very simple and thus more economical Way can be done.

The solution this object by the invention is characterized by at least one on at least one side, in particular on a plane surface of the Retaining element annular around the axis of the threaded portion extending recess. These concentric with the axis of the threaded portion extending recess can be V-shaped with advantage be formed, it being found to be particularly advantageous has that of the axis of the threaded portion facing portion the V-shaped recess at a shallower angle than the opposite portion the depression. Alternatively, the recess may be in cross section but also a roundish shape, especially that of a bow, exhibit.

With the inventive concept is achieved that an advantageous material compression by Attachment of a bead running concentrically around the thread axis (Depression), which has several advantages: The material is positive by solidification in terms of strength affected. Furthermore, "pushes" the einzubringende Beading material in the direction of threads, so that - in comparison to conventional Solutions - an additional Thread can yield the tear strength of the threaded section significantly increased.

According to one Continuing education is provided that the height of the recess at least 3%, preferably at least 5%, of the thickness of the body. of Holding element, ie the thickness of the sheet, from which the holding element is made, amounts. This allows the advantages described in a special way use.

Of the Thread portion further preferably has a greater length as the thickness of the main body of the holding element. Of the thickness of the main body of the holding member superior Part of the threaded portion is preferably formed frusto-conical, where the cone angle is at least 5 °.

Manufacturing advantages result if it is further provided that the recess is introduced by a flow molding process. As a result, it comes in a special way to the ge wanted material compaction around the area of the threaded section.

The Thickness of the main body the retaining element at the location of the recess or the depressions is advantageously at least 5% less than the thickness of the basic body of the holding element. This achieves a so-called "membrane effect": the threaded section is with less bending stiffness to the remaining body of the Retaining element connected, so that movements or vibrations during later Use of the holding element easier absorbed or compensated can be.

Also It has a positive effect on the durability and longevity of the product Threaded section, if its thread by a rolling or rolling process is introduced.

• – Bei der Wärmebehandlung des in Rede stehenden Halteelements ist keine Rissgefahr zu befürchten. Dem wird durch die hohe Materialverdichtung begegnet.
• – Gleichermaßen ergibt sich durch den diesbezüglich günstigen Fließpress-Umformvorgang eine geringe Kerbspannung am fertigen Halteelement.
• – Besonders vorteilhaft wird nunmehr ein weiterer Gewindegang durch die Materialanhäufung durch die eingeprägten Sicken gebildet; dieser verleiht dem Gewindeabschnitt eine höhere Ausreißfestigkeit. Die Festigkeit des Gewindes ist also erhöht.
• – Durch die erzielte Kaltverfestigung durch Fließpressen wird generell eine höhere Zugfestigkeit im Material induziert.
• – Aufgrund der vorgenannten Ausgestaltung ergibt sich auch eine höhere Dauerschwingfestigkeit im Betrieb des Halteblechs.
• – Auch im Gewindegrund herrscht eine stärkere Materialanhäufung bzw. eine Materialverdichtung vor, so dass die Gefahr von Rissen im Gewindegrund reduziert ist. Auch kann das Gewindespiel besser eingehalten werden, da sich im Bereich des Gewindeabschnitts insgesamt eine massivere Ausgestaltung ergibt.
• – Vor allem ist das erfindungsgegenständliche Halteelement in besonders einfacher Weise durch lediglich einen Umform-Arbeitsgang herstellbar. Dies bedeutet im Verhältnis zu vorbekannten Lösungen eine wesentliche Verbesserung der Herstellung derartiger Teile und damit eine ökonomischere Fertigung.

With the solution according to the invention various advantages are achieved:

• - In the heat treatment of the holding element in question no risk of cracking is to be feared. This is countered by the high density of material.
• - Similarly, results from the low extrusion stress forming process in this regard, a low notch stress on the finished holding element.
• - Particularly advantageous now another thread is formed by the accumulation of material by the embossed beads; this gives the threaded portion a higher tear resistance. The strength of the thread is therefore increased.
• - Through the achieved work hardening by extrusion is generally induced a higher tensile strength in the material.
• - Due to the aforementioned embodiment also results in a higher fatigue strength in the operation of the holding plate.
• - Even in the case of a thread, there is a greater accumulation of material or a material compaction, so that the risk of cracks in the thread base is reduced. Also, the thread play can be better adhered to, since in the region of the threaded portion results in a more solid overall design.
• - Above all, the inventive holding element can be produced in a particularly simple manner by only one forming operation. This means in relation to previously known solutions a significant improvement in the production of such parts and thus a more economical production.

In the drawing is an embodiment of Invention shown. Show it:

1 schematically the cross section through a car transmission in the shaft bearing,

2 schematically the side view of a holding element for fixing a bearing in the transmission according to 1 .

3 schematically the section through the inserted into the housing holding plate in the region of the thread.

In 1 can be seen as by means of a holding element 1 from sheet metal, which has a flat basic contour and is otherwise annular, a machine part in the form of a rolling bearing 2 in a housing 3 is fixed. The housing 3 has a bore for receiving the bearing outer ring. After assembly of the warehouse 2 becomes the retaining element 1 put on and fixed with a screw connection. For this purpose, the holding element 1 threaded sections 4 on, which are distributed equidistantly over the annular base contour of the holding element; Preferably three threaded sections are used (offset each 120 °).

The retaining element is as such again in section in 2 shown. Here it can be seen in particular that the threaded sections 4 (in 2 is only a section 4 to see) axially the basic contour of the holding element 1 overtop.

Details of the configuration of the retaining element go out 3 out.

The outward facing plane 5 (Side) of the retaining element 1 Is aligned in the present case with the axial end of the outer ring of the bearing 2 , In this plane surface 5 is a ring-shaped depression 7 introduced in the form of a bead by extrusion, concentric about the axis 6 of the threaded portion 4 runs around. At the opposite plan side of the holding element 1 is equally a deepening 8th introduced in concentric bead shape.

As can be further seen, the main body of the holding element 1 executed essentially with a thickness b. In the "inward" part of the threaded section 4 this axially projects beyond the main body of the holding element 1 what in the 3 with the reference number 9 is marked. This axially superior part 9 of the threaded portion 4 is frusto-conical executed; the frusto-conical outer contour of the section 9 is with 10 designated. The angle of the truncated cone is preferably at least 5 °. The entire extension of the threaded section 4 is denoted by L.

The recesses introduced by a flow-molding process 7 respectively. 8th have a height t. This is at least 3% of the thickness b of the main body of the holding element 1 , This results in the region of the depressions 7 respectively. 8th a thickness reduction of the main body of the holding element 1 , As 3 can be taken, the thickness d at the location of the wells 7 . 8th reduced in proportion to the thickness b of the body.

Thus the extrusion process for the introduction of the recess 7 , That is, the V-shaped depression, can be optimally, has the axis 6 of the threaded portion 4 facing section 11 the V-shaped recess on a shallower angle than the opposite portion 12 the depression 7 ,

The production of the retaining element takes place in a single forming operation. In this are both the bead-like depressions 7 as well as the depressions 8th imprinted. At the same time the frustoconical contour of the axially projecting part 9 generated. By the extrusion process results in the area of the threaded portion accumulation of material, which leads to - in relation to known retaining plates of the generic type - an additional thread is created, which gives the threaded portion a significantly higher strength.

1

retaining element

2

machinery

3

casing

4

threaded portion

5

Flat surface (side) of the retaining element 1

6

Axis of the threaded section 4

7

deepening (Crimp)

8th

deepening (Crimp)

9

axially projecting part of the threaded portion 4

10

frustoconical outer contour of section 9

11

facing Section of the V-shaped Beading

12

facing away Section of the V-shaped Beading

L

Length of the threaded section 4

b

Thickness of the main body of the retaining element 1

d

Thickness in the place of the depression 7 . 8th

t

Height of the recess

Claims (11)

Retaining element ( 1 ) for fixing a machine part ( 2 ), in particular a bearing, in a housing ( 3 ), wherein the retaining element ( 1 ) at least one threaded section ( 4 ) for fixing the retaining element ( 1 ) on the housing ( 3 ), characterized by at least one on at least one side ( 5 ), in particular on a plane surface of the retaining element ( 1 ) annularly about the axis ( 6 ) of the threaded portion ( 4 ) deepening ( 7 . 8th ). Retaining element according to claim 1, characterized in that the depression ( 7 ) is formed in cross-section V-shaped. Retaining element according to claim 2, characterized in that the axis ( 6 ) of the threaded portion ( 4 ) facing section ( 11 ) of the V-shaped recess ( 7 ) is at a shallower angle than the opposite portion (FIG. 12 ) of the depression ( 7 ). Retaining element according to claim 1, characterized in that the depression ( 8th ) has a roundish shape in cross-section, in particular the shape of an arc. Retaining element according to one of claims 1 to 4, characterized in that the height (t) of the recess ( 7 . 8th ) at least 3%, preferably at least 5%, of the thickness (b) of the main body of the holding element ( 1 ) is. Retaining element according to one of claims 1 to 5, characterized in that the threaded portion ( 4 ) has a greater length (L) than the thickness (b) of the main body of the retaining element ( 1 ). Retaining element according to claim 6, characterized in that the thickness (b) of the main body of the retaining element ( 1 ) outstanding part ( 9 ) of the threaded portion ( 4 ) a frustoconical outer contour ( 10 ) Has. Retaining element according to claim 7, characterized that the angle of the truncated cone is at least 5 °. Retaining element according to one of claims 1 to 8, characterized in that the recess ( 7 . 8th ) is introduced by a flow molding process. Retaining element according to one of claims 1 to 9, characterized in that the thickness (b) of the main body of the retaining element ( 1 ) in the place of depression ( 7 . 8th ) or depressions by at least 5% lower value (d). Retaining element according to one of claims 1 to 10, characterized in that the thread of the threaded portion ( 4 ) is introduced by a rolling or rolling process.