EP1321201A2 - Method of manufacturing by hydroforming - Google Patents

Abstract

The deforming process involves inserting a blank between tool parts, closing the deforming tool, deforming under pressure and stamping out a through aperture in the component wall. This is achieved by the use of an insert element (6) to create the through aperture and leaving it in place for plastic deformation to join it positively to the component.

Description

The present invention relates to a manufacturing method according to the preamble of claim 1.

DE 197 19 426 A1 describes the production of a hollow body by the method of hydroforming described. There a component blank, e.g. on Steel tube, between two tool halves of a hydroforming tool inserted. The two ends of the component blank are then closed and a pressure medium is introduced into the interior of the component blank. By The tube is pressurized according to the inner contour of the hydroforming tool deformed. In the hydroforming tool are additional tools integrated. In one embodiment is in a tool half of the internal high-pressure forming tool, a punching tool is arranged with punched holes or openings in the hydroforming component become. With this internal high pressure forming tool or the integrated one Additional tools can therefore be used in addition to the actual internal high-pressure deformation of the component blank further processing steps be performed.

Components manufactured by internal high pressure forming are versatile, especially in the automotive sector. For example, in the current convertible model of the BMW 3 series, the windscreen crossmember and the A-pillars "Internal high pressure forming components" manufactured. On these hydroforming components must now again fasteners to connect with other components may be provided. The connection with other components is made so far usually by welding and screwing techniques. In the Threaded screw technology are done in a separate step "Threaded inserts" inserted into the internal high-pressure formed components or bolts welded onto the hydroforming components. However, this is with considerable effort.

The object of the invention is to provide a manufacturing process with the whole general "connecting elements" in a simple manner on hydroforming components are attachable.

This object is solved by the features of claim 1. advantageous Refinements and developments of the invention are in the subclaims remove.

The basic principle of the invention is immediately after the manufacture of the Internal high pressure forming component, i.e. in the hydroforming tool Connection or fastening element in the hydroforming component punch in and then the connecting or fastening element deform that it is form-fitting with the hydroforming component connected is.

The connecting or fastening element is expressed in simplified terms as "Punching tool" for punching a through opening in the wall of the Internal high pressure forming component used. Then the connection or fastening element plastically deformed similar to a blind rivet and thereby firmly connected to the hydroforming component. Since the connection or Fastener acts as a "punching tool" when "setting", it points preferably a higher strength than the material of the Innenhochdruckumformbauteils.

The fastening element can, for example, be a cup nut with an internal thread his. Similar to a blind rivet, a mandrel can be provided, which in the Bottom of the pot nut is screwed. After "punching" the pot nut in the wall of the hydroforming component is the cup nut by means of a pressed together on the mandrel and on an edge of the pot nut. The pot nut deforms and "flows" in the radial direction, which creates a positive connection with the hydroforming component results. After reaching a predetermined tensile force or specified mandrel length is removed, i.e. unscrewed.

Alternatively, the fastening element can also be deformed in a different way be positively connected to the hydroforming component. Essential is mainly that the fastener as a "punching tool" acts and with still in the hydroforming tool Internal high pressure forming component is punched.

According to a development of the invention, it is provided that the fastening element, which can also be called an "insert element", in a side view is asymmetrical. Here, "asymmetrical" means that the fastening or insert element in an end peripheral region has phase-like bevel. The phased bevel has the purpose that when "pressing" or punching the fastener into the Wall of the internal high-pressure formed component of the "punching slugs" "inwards" is bent and does not tear off. The punching slug thus remains on Internal high. So it is not punched out. For hollow components it is often difficult to get loose punch slugs out of the cavity find out. Vehicle components in particular are loose in the cavity punching slugs located are not acceptable for noise or safety reasons.

Preferably, the fastener or insert element has on the "set side", i.e. a circumferential projecting on the outside of the hydroforming component Edge on. The fastener or insert is then so far in stamped the wall of the hydroforming component that the protruding Edge abuts the outer wall of the hydroforming component.

After the subsequent plastic deformation of the fastening component this is inseparably connected to the internal high-pressure forming component.

A major advantage of the invention is that in a single "integrated" process step thread inserts or threaded bolts for medium and heavy screw connections in the Internal high pressure forming component can be introduced. Since that Internal high pressure forming component when setting the thread inserts or Threaded bolt remains in the hydroforming tool is a very accurate Positioning the thread inserts and threaded bolts and thus a very Process-safe fastening suitable for large series production possible. in the Difference from the prior art, where "connecting elements" outside the Hydroforming tool "set" in a separate operation , the hydroforming component does not need to be clamped again and be positioned because it is in the assembly of the "connecting elements" in the Internal high pressure forming tool remains.

The invention is explained below using an exemplary embodiment. The Figures 1 - 6 show the individual in a highly simplified schematic representation "Phases" when setting a "connecting element", here one Threaded pot nut is.

In a known manner, a component blank, e.g. a pipe blank between two Tool halves 1, 2 of an internal high pressure forming tool inserted. Then the two ends (not shown) of the component blank locked. A pressure medium is then in an interior of the component blank brought in. By pressurizing the interior of the component, what happens here Arrow 3 is indicated, the component blank is deformed and comes into contact with the Inner contour of the hydroforming tool, which is in the Figures 1 to 6 schematically indicated internal high pressure forming component 4 results. In is a recess 5 in a tool part or in a tool half 2 provided, in which a fastening element 6 is introduced. The The fastener is a cup nut with an internal thread. At that Internal high-pressure forming component 4 facing the end face of the pot nut, i.e. in the Area of the bottom of the pot nut, a phase-like bevel 7 is provided. The pot nut 6 is therefore asymmetrical in a side view.

At its other end, the pot nut 6 has a circumferential projecting Edge 8 on. Furthermore, a so-called pull mandrel 9 is provided, which is extends into the interior of the pot nut 6.

In Figure 1, the pot nut 6 is with one end face on the outside of the Wall of the hydroforming component 4.

Then the pot nut 6 by a punching mechanism, not shown here, which is also integrated in the hydroforming tool 2 can be punched into the wall of the hydroforming component 4, which in Figures 2-6 is shown. The wall of the hydroforming component 4 is punched through the end face 10 of the pot nut, but not circulating. Because of the bevel 7 provided on the pot nut 6 is namely ensures that a resulting punching slug 11 is bent inwards and is not punched out. The punching slug 11 thus remains on Internal high pressure forming component 4.

As can be seen from Figures 5 and 6, the pot nut 6 is so far in the Wall punched in the hydroforming component 4 that the peripheral edge 8 on the outside of the wall of the Inner high pressure forming component 4 is present.

As can be seen from FIG. 6, the cup nut 6 is plastically deformed in the last step. Similar to a blind rivet, the mandrel 9 is pulled outwards. With a counterholder, not shown here, is placed on the edge 8 of the pot nut 6 applied a counterforce. The bottom of the pot nut 6 thus becomes the inside the wall of the hydroforming component 4 pulled. The pot nut 6 deforms plastically, the edge region of the pot nut 6 radially after flows outside. This creates a bead 12 on the inside of the wall of the Inner high pressure forming component 4 is present. The pot nut 6 is now form-fitting and permanently connected to the internal high pressure forming component 4. After reaching A predetermined tensile force or tensile length can pull mandrel 9 from the pot nut 6 can be removed.

The pot nut 6 can now be used as a fastening element for screwing on others Components to the hydroforming component 4 are used.

As an alternative to the exemplary embodiment shown here, a nut can also be used a continuous internal thread can be provided, in which the mandrel for Put the nut is screwed.

Furthermore, an insert element could be used in which the mandrel follows the "setting" remains on the insert element. The mandrel can be, for example Have external thread, on which another component is then screwed.

Claims (10)

Manufacturing process with the following steps: a) inserting a component blank between tool parts of a hydroforming tool, b) closing the hydroforming tool, c) forming the component blank by means of a pressure medium into an internal high-pressure forming component, d) punching a through opening in a wall of the hydroforming component, the hydroforming component remaining in the hydroforming tool and the punching being carried out via a recess provided in the hydroforming tool, characterized in that the through opening is punched with an insert element (6) which, after punching, remains in the through opening and is plastically deformed and thereby positively connected to the internal high-pressure forming component (4). Manufacturing method according to Claim 1, characterized in that the insert element (6) is asymmetrical in a side view, a phase-like bevel (7) being provided on an end face of the insert element (6). Manufacturing method according to one of claims 1 or 2, characterized in that the insert element (6) has a circumferential projecting edge (8) and that the insert element (6) is pressed into the through opening to the extent that the edge (8) comes on abuts an outside of the hydroforming component (4). Manufacturing method according to one of claims 1 to 3, characterized in that the insert element (6) has a pulling mandrel (9) which is provided for the plastic deformation of the insert element (6). Manufacturing method according to one of claims 1 to 4, characterized in that the material of the insert element (6) has a higher strength than the material of the hydroforming component (4). Manufacturing method according to one of claims 1 to 5, characterized in that the insert element (6) is a pot nut. Manufacturing method according to claim 6, characterized in that the pulling mandrel (9) extends into the interior of the pot nut. Manufacturing method according to claim 7, characterized in that the pulling mandrel (9) is screwed into the bottom of the pot nut. Manufacturing method according to one of claims 1 to 5, characterized in that the insert element (6) is a nut with a continuous internal thread into which the mandrel (9) is detachably screwed. Manufacturing method according to one of Claims 1 to 5, characterized in that a pulling mandrel (9), which has an external thread, is permanently connected to the insert element (6).

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