EP1786637A1

EP1786637A1 - Hollow-bodied component and method for producing a component of this type

Info

Publication number: EP1786637A1
Application number: EP05786943A
Authority: EP
Inventors: Peter Hofmann
Original assignee: ZF Friedrichshafen AG
Current assignee: ZF Friedrichshafen AG
Priority date: 2004-09-07
Filing date: 2005-09-05
Publication date: 2007-05-23
Also published as: ZA200702585B; DE102004043658A1; US20080213037A1; MX2007002770A; JP2008512605A; KR20070061550A; US7722280B2; WO2006026963A1; BRPI0514968A; CN101014471A; DE102004043658B4

Abstract

The invention relates to a hollow-bodied component consisting of at least two die-cast shell elements (1, 2), which is suitable in particular for use as a steering component in motor vehicle running-gear assemblies. Said hollow-bodied component is characterised in that at least one respective connection zone (5, 6, 18, 19) is configured on the shell elements (1, 2) to be interconnected, one connection zone (5) consisting of at least one first contact area (7) with an essentially U-shaped cross-section that is located on the respective shell element (1) and the second connection zone consisting of at least one strut-type second contact area (8) that engages in the space in the U-shaped first contact area (7) and that is located on the respective other shell element (2). The connection zones (5, 6, 18, 19) are joined in a force fit in a cold welding process that uses a contact pressure (F1, F2), whose value is a multiple of the separating force components (Fr) that act on the connection zones (5, 6, 18, 19) during operation. The invention also relates to a method for producing a hollow-bodied component. The special configuration of the connection zones (5, 6) in conjunction with the cold welding in said zones permits the production of a cost-effective component, which, in contrast to prior art, has a reduced weight by a special adaptation of the wall thicknesses achieved in the aluminium die-casting process.

Description

Hollow body component and method for producing such a component

description

The invention relates to a hollow body component in particular for use as a handlebar component in motor vehicle chassis assemblies with the features mentioned in the preamble of claim 1 and a method for producing such a hollow body component according to the preamble of claim 13.

The construction of such hollow body components and their production process is characterized in the prior art in that the shell elements used for the hollow body components are usually connected to each other by positive connections such as screwing, riveting, rolling or crimping. These types of connection technique result from the fact that the die casting material commonly used for the shell elements, such as aluminum die casting, casting or casting by casting, is generally not weldable. Due to the possible production of solid and yet thin-walled components, however, the die casting and in particular the aluminum die casting of not insignificant importance, especially in motor vehicle construction.

However, the connection technique by means of the above-mentioned interlocking connections usually requires a considerable manufacturing effort, which makes a mass production often seem uneconomical from a cost point of view.

The object of the present invention with respect to the hollow body component is therefore to further develop such components in such a way that they can be produced less expensively and, nevertheless, can cope with all the requirements of such components in normal operating situations. With regard to the method according to the invention, the object is to provide a novel connection technology for such hollow body components.

These objects are achieved with respect to the hollow body component together with the generic features by the technical teaching disclosed in the characterizing part of claim 1.

It is essential to the invention that at least one connection region is formed on the shell elements to be connected, wherein a connection region of at least one arranged on the respective shell element, in cross-section substantially U-shaped first contact region and the second connection region of at least one in the space of the U -formed first contact region engaging ridge-shaped second contact region on the respective other shell element, which are cold-welded together by applying a contact force which is several times greater than the separating force acting on the connecting portions in the operating state, are non-positively welded together.

The special design of the connection areas in conjunction with the procedure of cold welding of the shell elements can be realized easily and inexpensively by means of modern casting technology and corresponding pressing devices. The particular idea of the invention consists, in particular, in the fact that the unwanted cold welding of materials in many areas is deliberately brought about for the present invention and thus used in a technologically beneficial manner.

With regard to the method according to the invention, the technical teaching results together with the generic features of the disclosed in the characterizing part of claim 13 technical teaching.

The production of the consisting of at least two die-cast shell elements hollow body component consists of two major steps, which consist in the fact that the shell elements to be connected are initially provided with at least one connection region during the die casting process, wherein the connection areas on the one hand from a arranged on a shell element, in cross-section substantially U-shaped first contact area and on the other hand from a in the space of the U in the form of a first contact area engaging, bar-shaped second contact area on the other shell element and that as a further method step, the connecting areas are applied after joining with a contact force which is greater by a multiple than acting in the operating state on the connecting portions of the shell elements separating force components.

The described method steps form the basis of a cost-effective manufacturing process, in which the process of cold welding of materials is. Erstmals used for the beneficial compound of components.

Particular embodiments of the hollow body component will become apparent from the dependent claims back to claim 1, with respect to the method according to the invention specific embodiments are set forth in the back to the claim 13 dependent claims.

It has proved to be advantageous in particular for the increased load capacity of the connecting regions in the operating state when the contact pressure is in the range of six to ten times separating force components, wherein additionally supporting the cross-sectional dimensions of the web-shaped second contact region of a shell element with the internal dimension of the space of the U-shaped first Contact area on the other shell element form a press-fit connection.

Since the casting technology manufacturing method of the shell elements makes a so-called Entformschräge necessary especially in the U-shaped first contact area of the shell elements, care should be taken in determining this Entformschräge that the substantially parallel legs of the contact area with a Entformschräge of 0.5 ° to 3 ° are provided. By this measure, a cold welding can be ensured over the entire contact area of the shell elements to be joined together.

The cold welding of the shell elements is also facilitated by an additional roughening of the surfaces coming to rest, resulting in higher cohesion forces arise at the same time.

A further expedient embodiment of the invention provides that a connecting region of two arranged on the respective shell element, in cross-section substantially U-shaped, juxtaposed first contact regions and the further connection region of at least two engaging in the interstices of the two U-shaped first contact areas , web-shaped second contact areas on the respective other shell element. Through this structural design, the load capacity of the connection areas and thus the overall construction increases.

Moreover, it may be advantageous within the scope of the invention if the shell elements to be connected are provided with at least one common form-locking coupling device. Such a coupling device provides an additional security aspect for the cases in which, due to exceptionally high separation force components on the shell components, the connecting regions which are connected to one another in accordance with the invention should reach their boundary region with regard to the absorption of forces.

The coupling device may consist in an advantageous embodiment of at least two arranged on each one of the shell elements to be connected substantially annular in cross-section terminal areas, being passed through the inner cavities of the annular openings of the terminal areas a terminal areas positively connecting plug-in element. The cross sections of the connection areas may be annular, wherein the connecting plug element is designed as a round bolt or as a bearing element.

A further advantageous embodiment of the coupling device provides that when forming the cross sections of the connection areas in circular shape, the connecting plug element is formed as an outer ring of a bearing component. Such bearing components are often necessary for connection of the hollow body components to chassis or body-side connections in the motor vehicle, so that at the same time the necessary bearings can be realized constructively by means of the coupling device.

In the following, an inventive hollow body component and the associated method for its production will be explained in more detail with reference to the accompanying drawings. 1 shows a perspective partial sectional view of a hollow body component for

Use as a handlebar component in motor vehicle chassis assemblies and Figure 2 shows an alternative cross-sectional design of the component of Figure 1 in pure

Cross-sectional view.

The hollow body component designated in its entirety by 3 corresponding to the attached Figure 1 consists of a first shell element 1 and a second shell element 2. The two shell elements 1, 2 enclose in the assembled state a rectangular cross-section cavity 4, wherein the connection of the shell elements 1, 2nd on opposite side surfaces of the rectangular cross-section in the longitudinally of the shell elements 1, 2 extending opposite nested connection regions 5 and 6 takes place. The connecting regions 5 located on the shell element 1 consist essentially of a contact region 7 that is substantially U-shaped in the first embodiment and the connecting regions 6 arranged on the second shell element 2 essentially of the web-shaped contact region 8. The contact region 8 engages in the intermediate space of the U-shaped contact region 7, so that the lateral surfaces of the contact region 8 come to rest against the inner surfaces of the two legs 9, 10 of the contact region 7.

The shaping of the contact regions 7, 8 on the respective shell elements 1, 2 takes place in the context of the molding of the shell elements by means of a die casting process. The die casting process offers a cost-effective option as a result of the possible with this manufacturing tolerances tight and also ensures by appropriate dimensional specifications that the cross-sectional dimensions of the web-shaped contact region 8 of the shell element 2 with the internal dimension of the gap of the U-shaped contact region 7 on the shell element 1 a press-fit connection can form. In addition, different wall thicknesses can be realized depending on the load of the hollow body component.

After completion of the die casting process, the shell elements 1 and 2 are put together to form the hollow body component 3. The further method step for connecting the shell elements 1, 2 consists in applying a contact force to the respective nested connection regions 5 and 6 corresponding to the arrows Fi and F2 in the attached figure 1. The contact forces Fi and F2 are dimensioned such that they are in the range of six to ten times a separating force component Fr, which acts in the operating state corresponding to the arrow Fr on the connecting portions 5 and 6 of the hollow body component 3.

For the strength of the connection between the shell elements 1 and 2, it may be advantageous if the surfaces of the abutting contact areas 7 and 8 are roughened before joining.

In addition, the legs 9 and 10 of the contact area 7, which are arranged substantially parallel, should be produced with a draft angle of 0.5 ° to 3 °. A certain Entformschrägung is necessary for the production of the U-shaped contact area 7 on the shell element. The said Entformschräge guaranteed on the one hand a easy demolding and beyond a problem-free investment of the surfaces of contact area 7 and 8 together.

In order to meet further increased safety requirements for the described hollow body component, this is provided in accordance with an advantageous development of this with a designated in its entirety by 11 coupling device.

In this case, the coupling device 11 consists of a connection region 12, which is annular in cross-section and is arranged on the shell element 1, and a connection region 13 located on the shell element 2, which likewise has an essentially annular shape. The annular regions 12 and 13 are respectively connected via webs 14 and 15 with the shell elements 1 and 2. Both connection regions 12 and 13 are formed so that their respective central longitudinal axis forms a common center line 16.

To the coupling device 11 also includes a plug-in element 17, which is inserted into the cavities of the terminal portions 12 and 13. In the accompanying illustration, the plug-in element is designed as an outer ring of a bearing component, with the aid of which the hollow body component 3 can be fixed to a body-side or chassis-side connection of a motor vehicle.

Of course, the configuration of the coupling device 11 may also be effected by means of other cross sections, provided that it is ensured that the associated plug-in element 17 connects the respective connection regions 12 and 13 of the associated shell elements 1 and 2 in a form-fitting manner.

In the illustration of Figure 2, an alternative cross-section of a hollow body component according to the invention is shown. The component consists of two shell elements 22 and 23, which each have mating connection areas 18 and 19 at opposite narrow sides.

The connection region 18 consists of two on the respective shell element 23 arranged, in cross-section substantially U-shaped, juxtaposed first contact regions 20 and the further connection region 19 of at least two engaging in the interstices of the two U-shaped first contact regions 20, web-shaped second contact regions 21 on the respective further shell element 22nd

On the opposite side of the shell elements, the respective connection areas 18 and 19 are reversed.

LIST OF REFERENCE NUMBERS

1 first shell element

2 Second shell element

3 hollow body part

4 cavity

5 connection area

6 connection area

7 contact area

8 contact area

9 thighs

10 thighs

11 coupling device

12 connection area

13 connection area

14 footbridge

15 footbridge

16 midline

17 plug element

18 connection area

19 connection area

20 contact area

21 contact area

22 First shell element

23 Second shell element

Claims

Hollow body component and method for producing such a component Patent claims

1. hollow body component, in particular for use as a handlebar component in motor vehicle chassis assemblies with at least two shell elements made of die-cast material, characterized in that at the connecting shell elements (1, 2) in each case at least one connecting region (5, 6, 18, 19) is formed, wherein a Connecting region (5) of at least one on the respective shell element (1) arranged in cross-section substantially U-shaped first contact region (7) and the second connection region of at least one in the space of the U-shaped first contact region (7) engaging, web-shaped second contact region (8) on the respective further shell element (2), wherein the connection regions (5, 6, 18, 19) by applying a contact force (Fi, F2) which is several times greater than that in the operating state on the Connection areas (5, 6, 18, 19) acting separating force components (Fr), frictionally together with each other cold are ripped.

2. Hollow body component according to claim 1, characterized in that a connecting region (18) of two arranged on the respective shell element (22), in cross-section substantially U-shaped, juxtaposed first contact regions (20) and the further connection region (19) at least two, in the intermediate spaces of the two U-shaped first contact regions (20) engaging, web-shaped second contact regions (21) on the respective further shell element (23).

3. hollow body component according to claim 1 or 2, characterized in that the applied contact pressure (Fi, F2) is in the range of six to ten times the separation force component (Fr).

4. hollow body component according to one of claims 1 to 3, characterized in that the cross-sectional dimensions of the web-shaped contact region (8, 21) of a shell element (2) with the internal dimension of the intermediate space of the U-shaped contact region (7, 20) on the other shell element (1 ) forms a press-fit connection.

5. Hollow body component according to one of claims 1 to 4, characterized in that that the substantially parallel legs (9, 10) of the U-shaped contact region (7, 20) have a Entformschräge in the range of 0.5 ° to 3 ° ,

6. hollow body component according to one of claims 1 to 5, characterized in that the surfaces of the contact areas (7, 8, 20, 21) are roughened before the assembly of the shell elements (1, 2).

7. hollow body component according to one of claims 1 to 6, characterized in that the connecting regions (5, 6) are formed circumferentially on the respective shell elements.

8. Hollow body component according to one of claims 1 to 7, characterized in that the shell elements to be connected (1, 2) are provided with at least one common positive coupling device (11).

9. hollow body component according to claim 8, characterized in that that the coupling device (11) consists of at least two on each one of the shell elements to be connected (1, 2) arranged substantially in cross-section connecting portions (12, 13), wherein through the cavities the annular openings of the connection regions (12, 13) is passed through a plug-in element (17) which connects the connection regions (12, 13) in a form-fitting manner.

10. Hollow body component according to claim 9, characterized in that the cross sections of the connection regions (12, 13) are annular, and the connecting plug element (17) is designed as a round bolt.

11. Hollow body component according to claim 9, characterized in that the cross sections of the connection regions (12, 13) are annular, and that the connecting plug element (17) is designed as an outer ring of a bearing component.

12. Hollow body component according to one of claims 1 to 11, characterized in that the shell elements to be connected (1, 2) are made of die-cast aluminum material.

13. Method for producing a hollow body component consisting of at least two shell elements made of die-cast material, which is suitable in particular for use as a handlebar component in motor vehicle chassis assemblies, characterized in that the shell elements (1, 2) to be connected during the die casting process each having at least one connection region (5 , 6, 18, 19) are provided, wherein the connecting portions (5, 6, 18, 19) on the one hand from a on a shell element (1) arranged in cross-section substantially U-shaped contact region (7) and on the other hand from a in the Intermediate space of the U-shaped contact region (7) engaging, web-shaped contact region (8) on the other shell element (2) and the connecting portions (5, 6) after assembly with a contact pressure (Fi, F2) are applied, which is larger by a multiple is as the operating state on the connecting portions (5, 6) of the shell elements (1 , 2) acting release force components (Fr).

14. The method according to claim 13, characterized in that the connecting regions (5, 6, 18, 19) on the one hand of two on a shell element (l) arranged in cross-section substantially U-shaped, juxtaposed contact areas (20) and on the other hand two in the intermediate spaces of the U-shaped contact areas (20) engaging, web-shaped contact areas (21) on the other shell element (2).

15. The method according to claim 13 or 14, characterized in that the contact pressure (Fi, F2) is in the range of six to ten times the separation force component (Fr).

16. The method according to any one of claims 13 to 15, characterized in that the cross-sectional dimensions of the web-shaped contact regions (8, 21) of a shell element (2) with the internal dimension of the intermediate space of the U-shaped contact region (7, 20) on the other shell element (1 ) form a press-fit connection.

17. The method according to any one of claims 13 to 16, characterized in that the substantially parallel legs (9, 10) of the U-shaped contact region (7, 20) made with a Entformschräge in the range of 0.5 ° to 3 ° become.

18. The method according to any one of claims 13 to 17, characterized in that the surfaces of the contact regions (7, 8) are roughened before assembly.

19. The method according to any one of claims 13 to 18, characterized in that the shell elements to be connected (1, 2) are provided with at least one common positive coupling device (11).