DE19912618A1 - Partially reinforced components such as metal or polyethylene foam component, e.g. a camshaft or tubular component, comprises one or more reinforcing elements fixed on and/or in the component by foaming - Google Patents

Abstract

A partially reinforced component, comprises one or more reinforcing elements fixed on and/or in the component by foaming. An Independent claim is also included for production of a partially reinforced component by placing one or more reinforcing elements in a mould having the contour of the component to be produced and then foaming material about the or each reinforcing element so that it is fixed on and/or in the component to form a functional unit. Preferred Features: The reinforcing element may project partially from the component to form a fastener and/or may have a roughened surface and/or an opening or recess for receiving a fastener. The foamed component may have a stronger and less porous surface layer, especially of metal or ceramic, formed by a sheet, hollow body or foil which defines the outer contour of the component. The hollow body is an internally high pressured formed workpiece. The reinforcing element may have a tube, bush, rod or plate shape or any other functional shape. The foaming temperature is below the melting temperature of the reinforcing element and the optionally provided surface layer and the mould may be a reusable mould or may form part of the component.

Description

The invention relates to a component with partial Reinforcement and a process for its production the preamble of the 1st and 20th claims.

According to DE 40 18 360 C1 and DE 41 01 630 A1 is a method known for the production of porous metal bodies, in which a foaming of a blowing agent Metal or alloy at a temperature in which the propellant decomposes, more advantageous Way at a temperature near the Melting temperature of the metal to be foamed or above or in the area of the solidus-liquidus interval the alloy used. The foaming can be free or done in a form. It is also possible to use cavities Foam metal foam. The production of a component Made of metal or ceramic with a dense outer shell and porous Core and a corresponding manufacturing process is in DE 43 38 458 A1 proposed. The outer shell consists of sintered powder material and the core has sintered Hollow spheres, which are layered in layers and for Core center are getting bigger.  

A disadvantage of all methods is that a z. B. very much thin-walled foamed component or a foamed Only a small part without additional wall Has rigidity and resilience and that it doesn't is possible in the component fasteners to bring in that withstand an increased load.

The object of the invention is to provide a component with partial Reinforcement and a process for its manufacture develop, which makes it possible at a low Weight of the component to increase its resilience and / or the introduction of fasteners in and / or to enable foamed components.

This object is achieved with the features of the 1st and 20th claim solved.

According to the invention, the component has at least one Reinforcing element, which by foaming on and / or is fastened in the component.

It is preferably used as the material for foaming Metal foam and / or PE foam application.

The reinforcing element can be made entirely of foam be enclosed or partially or circumferentially from the Step out the component. For an intimate connection to the foam to ensure the reinforcing element on his Surface roughened and / or recesses and / or Have breakthroughs.  

The reinforcing element can either improve the Stiffness and the security against rotation of the component serve however, it is also possible in the reinforcing element Introduce fasteners that a larger Withstand load as if this z. Tie Metal foam can be introduced. In advantageous Training, it is also possible to use the reinforcing element Form fastener. So z. B. the end a partially emerging reinforcing element be provided with an external or internal thread. The foam embedded reinforcement element can also be in the manner of a Socket with or without thread to accommodate further Connection parts should be designed.

The component can continue to partially or circumferentially have a layer on its surface, the strength of which is higher than the strength of the foamed material. The porosity of the edge area can be less than that the core area of the component.

The temperature required for foaming is advantageously below the melting temperature of the Reinforcing element. To ensure this will be used Production of the metal foam preferably at low Temperatures melting metals or alloys used.  

If the wall of the component is covered by a sheet metal Body, a hollow body or a film is formed whose melting temperature is also higher than that of Foaming temperature.

The outer layer of the component can be made of a metallic Material or ceramic.

The outer contour of the component is preferably by a reusable form. However, it is also possible that the outer contour completely or partially by the contour of the sheet-metal body and / or by the contour of the hollow body is specified.

The hollow body can, for example, as a high pressure formed workpiece. The Wall thickness of the sheet or the hollow body can be very be small. The necessary functional stiffness and the component is secured against twisting by the Foaming and if necessary by introducing Reinforcing elements. The reinforcing elements can the function of fasteners at the same time take. Furthermore, it is possible to Reinforcing elements only for partial reinforcement to use for the introduction of fasteners.

The reinforcing element can be tubular, bush-shaped, be rod-shaped or plate-shaped, or a  other shape according to the function of the Have component.

There can also be several reinforcement elements in the Type of reinforcement.

To manufacture the component with a partial Reinforcement becomes at least one reinforcing element in one essentially the final contour of the component to be produced defining form inserted and positioned in this form and that is then foamed, so that the Reinforcing element in and / or attached to the component is that between the individual components functional unit is formed.

The component can either be removed from the mold, whereby this with a separating layer in the manner of a Metal foil is lined. The metal foil forms the Outer layer of the component created.

It is also possible to use the outer contour of the Foam component to be produced completely or partly through the wall of a sheet metal body or to form by the wall of a hollow body, which on Component remain, or the outer wall of the component form.

The process for foaming is process-specific required temperature below the temperature of the Reinforcing element and when using a film, one  sheet-shaped body or a hollow body for formation the outer contour also below the melting temperature of this Elements.

With the invention is a lightweight, torsionally rigid multifunctional component created. By the possible Decoupling between the reinforcement element and the outer shell good damping is achieved at the same time.

The basic stability of the component can be brought by the introduction the reinforcing elements can be increased significantly.

It is possible for the base body to be omitted as a component can. For example, it can only be a very thin one Shell completely or partially filled with metal foam the case serves decorative purposes or, if necessary, serves to protect against corrosion. In every partial Metal foam area can be a separate reinforcing element be arranged, but it is also possible that a only reinforcement element by all partially foamed areas protrudes and these one below the other Gives stability, which is not due to the thin shell alone would be given.

The metal foam or the PE foam can be any Enclose the shape of the stiffening element and this after fix the hardening. This makes it possible to Stiffness properties of a component the respective Easily adapt to requirements.  

The components according to the invention also have a good one Crash behavior. The design effort for Production of a component and any necessary Assembly work can be done through the diverse functionality can also be reduced to a minimum.

The invention is based on Exemplary embodiments and associated drawings explained. Show it:

Fig. 1: Form lined with foil with inserted reinforcing element and foamable semi-finished product before foaming;

Fig. 2: shape acc. Fig. 1 after foaming;

Fig. 3: component with a shell in the form of the film;

Fig. 4: Tubular hollow body open on both sides with the contour of a camshaft, and an inserted reinforcing element and foamable semi-finished products before foaming;

FIG. 5 component in the form of a camshaft after foaming;

Fig. 6: component in the form of a foam-filled hollow body with partially abutting on the wall reinforcing element;

Fig. 7: Component acc. Fig. 6 is screwed to the reinforcing member with plate;

Fig. 8: component with a foamed socket;

Fig. 9: component in the form of a foam-filled hollow body having from one to the other end substantially centrally therethrough reaching reinforcing member in the manner of a reinforcement;

Fig. 10: component with a reinforcing element in the form of a tube and a rod.

In Fig. 1, a foil lined 2 Form 1 is shown, corresponding to the inner office of the shape of the component to be produced. A reinforcing element 3 and a foamable semi-finished product 4 were inserted into the mold 1 via the cover 1.1 . The mold is now heated to close to the melting temperature of the foamable semi-finished product, whereby the foaming process is triggered and the metal foam 4.1 fills the mold 1 and encloses the reinforcing element 3 ( FIG. 2). After cooling, the lid can be opened and the component 5 can be removed.

The component 5 is encased by the film 2 (see FIG. 3) and has the reinforcing element 3 in the metal foam 4.1 .

A z. For example, by hydroforming produced thin-walled open ended tubular hollow body 6 with the outer contour of a camshaft shown in FIG. 4. In the central region, a reinforcement element 3 has been introduced, which is designed plug-shaped and is adapted in its outer diameter approximately to the inner diameter of the hollow body. Foamable semi-finished products were inserted on both sides of the reinforcement element. The component after foaming is shown in Fig. 5. The metal foam 4.1 has filled the hollow body 6 and assumed its contours. At the end of the component 5 shown on the left, an end piece 7 was additionally introduced, which also has a connection with the metal foam 4.1 . The end piece 7 additionally has a recess 7.1 into which the metal foam can penetrate. The thin-walled hollow body forms the outer shell of the component. The camshaft manufactured in this way is characterized by its low weight and sufficient rigidity. A component 5 in the form of a foamed parison 6 with partially abutting on the wall reinforcement member shown in FIG. 7. This component 5 equipped with a screw at the reinforcement member 3 by means of fastening elements 9 plate 8 is shown in FIG. 7. A component 5 with a foamed reinforcement element 3 in the form of Fig. 8 shows a socket; wherein the bush has a collar 3.1 in the direction of the core of the component 5 .

This collar 3.1 counteracts axial pull-out forces FA of the socket (reinforcing element 3 ). An outer side of the component 5 is closed off by a shaped sheet 9 . The other outer sides are formed by the outer surfaces of the metal foam. These were foamed in a form 1 indicated by dashed lines. The socket 3 was with its opening 3.2 down on the bottom of the mold 1 .

A component 5 in the form of a foamed hollow body 7 with a reinforcing element 3 extending from one end to the other end essentially in the manner of a reinforcement is shown in FIG. 9.

A tubular thin-walled component 5 is shown in FIG. 10. A reinforcing element 3 in the form of a foamed-in tube is shown on the left-hand side and a foamed-in rod is shown on the right-hand side. The reinforcing elements 3 protrude from the component 5 on both sides. A thread 3.3 is provided at the free end of the rod.

Claims (28)

1. component with partial reinforcement, characterized in that at least one reinforcing element is attached to and / or in the component by foaming. 2. Component according to claim 1, characterized in that as a material for foaming metal foam and / or PE Foam is used. 3. Component according to claim 1 or 2, characterized in that the reinforcing element partially or circumferentially the component comes out. 4. Component according to one of the claims from 1 to 3, thereby characterized in that the reinforcing element at its Surface is roughened and / or recesses and / or Has breakthroughs. 5. Component according to one of claims 1 to 4, characterized characterized in that the reinforcing element for Inclusion of one or more fasteners suitable is.   6. Component according to one of claims 1 to 5, characterized characterized in that the reinforcing element on his end partially emerging from the component as Fastening element is formed. 7. Component according to one of claims 1 to 6, characterized characterized in that it is partial or circumferential its surface has a layer whose Strength is higher than the strength of the foamed material. 8. Component according to one of claims 1 to 7, characterized characterized that there is a comparison in the marginal area has lower porosity to the core area. 9. Component according to one of claims 1 to 8, characterized characterized that the necessary for foaming Temperature below the melting temperature of the Reinforcing element lies. 10. Component according to one of claims 1 to 9, characterized characterized that the necessary for foaming Temperature below the melting temperature of the at the Surface of the component located layer.   11. Component according to one of claims 1 to 10, characterized characterized in that the layer by the wall of a sheet-shaped body is formed. 12. Component according to one of claims 1 to 10, characterized characterized in that the layer by the wall of a with at least one opening provided hollow body is formed. 13. Component according to one of claims 1 to 11, characterized characterized in that the layer is covered by a film is formed. 14. Component according to one of claims 7 to 12, characterized characterized in that the layer of a metallic Material or ceramic. 15. Component according to one of claims 1 to 13, characterized characterized in that its outer contour by the contour a shape to be foamed and / or by the contour of the sheet metal body and / or by the contour of the Hollow body is specified.   16. Component according to one of claims 1 to 15, characterized characterized in that in the reinforcing element at least one connecting element can be introduced. 17. Component according to one of claims 1 to 16, characterized characterized in that the hollow body as a high pressure formed workpiece is formed. 18. Component according to one of claims 1 to 17, characterized characterized in that the reinforcing element is tubular, bush-shaped, rod-shaped or plate-shaped is formed, or another shape corresponding to the has to be fulfilled function. 19. Component according to one of claims 1 to 18, characterized characterized in that several reinforcing elements in the Type of reinforcement are linked. 20. Process for the production of components with partial Reinforcements, characterized in that at least a reinforcing element in a substantially the Final contour of the component to be created defining shape inserted and positioned in this form and that then foaming the reinforcing element takes place so that the reinforcing element in and / or on  Component is attached so that between the individual Components form a functional unit. 21. The method according to claim 20, characterized in that the component can be removed from the mold. 22. Component according to claim 20 or 22, characterized characterized in that the form with a metal foil is lined, which after foaming the outer Shell of the component forms. 23. The method according to claim 20, characterized in that the outer contour of the foam to be produced Component completely or partially through the wall a sheet-shaped body is formed. 24. The method according to claim 20, characterized in that that the outer contour of by foaming generating component completely or partially the wall of a hollow body is formed. 25. The method according to any one of claims 20, characterized characterized that the form with a foil is lined, which after foaming the outer Shell of the component forms.   26. The method according to any one of claims 20 to 25, characterized in that for foaming required temperature below the temperature of the Reinforcing element lies. 27. The method according to any one of claims 20 to 26, characterized in that for foaming required temperature below the temperature of the sheet-shaped component, the hollow body and the film lies. 28. The method according to any one of claims 20 to 27, characterized in that the shape that in essentially determines the outer contour of the component Manufacturing multiple components is reusable or that the shape is part of the component created.