DE102010009026A1 - Method for manufacturing punching rivet joint for connecting thin-walled components during construction of automobile structure, involves plastically deforming metal sheet component with shaft that is expanded - Google Patents

Abstract

The method involves punching a hollow punching rivet (16) over an upper stamp (20) by thin-walled components (10, 12) to be connected, and expanding the punching rivet in a lower stationary die (22) in a counter-position. A thin-walled, closed metal sheet component (18) formed of stainless steel or aluminum is arranged between the die and one of the neighboring thin walled components and is plastically deformed with a rotationally symmetric, cylindrical shaft (16b) that is expanded. The metal sheet component is formed as a blank whose outer diameter corresponds to triple diameter of the shaft. Independent claims are also included for the following: (1) a device for producing a punching rivet joint, comprising an automatic feeding device (2) a punching rivet joint.

Description

The invention relates to a method for producing a stamped rivet connection according to the preamble of claim 1, a device for carrying out the method according to the preamble of claim 7, a stamped rivet connection according to the preamble of claim 8, a punch rivet for producing a stamped rivet connection according to the preamble of claim 11 and a use of a plastically deformable component for producing a stamped connection according to the preamble of claim 12.

Punch rivet joints are widely used, for example, in the automotive industry for joining thin-walled components, in particular aluminum sheets. An advantage of such rivet connections is that the rivet itself drills through the sheet metal components and forms a durable rivet connection with spreading of the rivet shank during plastic deformation of the sheet metal components resting against a die of the riveting tool. The procedure so far is for example in the DE 199 12 460 C2 based on the local 1a and 1b explained.

In the mentioned DE 199 12 460 C2 is further stated that such a Stanznietverbindung is problematic if the thin-walled components to be joined are plastically deformable, for example, in the use of fiber composites such as CFRP, etc. This should be remedied according to the teaching of this document that during pressing the rivet of the pressing movement is superimposed on a rotational movement about its longitudinal axis, whereby structurally damaging stresses of the components should be largely avoided.

The object of the present invention is to propose a method and a punched rivet connection, in particular for the vehicle or automobile body, by means of which reliable stamped rivet connections can be produced while maintaining a simple riveting tool. Furthermore, an advantageous for fast production times device for performing the method should be specified.

The solution of this problem is achieved with the features of the independent claims. Advantageous developments are the subject of the dependent claims.

According to the invention, a plastically deformable component, preferably a plate-like or thin-walled and / or closed-executed plastically deformable sheet-metal component, which is plastically deformed with the spreading shaft of the punched rivet, is enclosed between the die and the adjacent component. Thus, the actual punch riveting process is displaced with a corresponding plastic deformation of the rivet and the enclosed component on the area below the components to be connected and made a permanent, secure rivet. The enclosed component can be a strip for several riveted joints or made of individual components of any external configuration. Basically, both solutions require only a local arrangement of plastically deformable components in the area of the penetration of the components to be connected, so that the solution according to the invention can also be realized in a weight-saving manner. Decisive is the assurance of a reliable clamping between the spreading rivet shank and the resulting deformation of the component on the opposing die of the riveting tool.

Preferably, the plastically deformable component embodied, for example, as a sheet-metal component can be designed as a blank whose outer diameter corresponds at least to three times the diameter of the shank of the punched rivet. This ensures a sufficient support surface at the rivet connection between the components to be joined and the plastically deformable component with a favorable, uniform stress distribution in the plastically deformable component.

As a plastically deformable component, a steel sheet or a light metal sheet with a thickness of, for example, 2 mm or more may be used, depending, inter alia, on the strength of the riveted joint to be demanded and on external environmental influences. For applications that are highly susceptible to corrosion, sheet metal components, for example, can also be used as sheet metal components. Furthermore, as solid rivets, rivet rivets, preferably however, inter alia for reasons of weight, semi-hollow punch rivets can be used as punch rivets.

Furthermore, it is proposed that the length of the hollow shank portion of the punched rivet is selected such that spreading of the shank takes place at least substantially only within the plastically deformable component, whereby structural damage to the components to be joined together and, for example, not plastically deformable, for example made of CFK, GFK, etc., avoided and the durability of the riveted joint is even further risigerbar.

Finally, in order to achieve a fast and largely automated riveting operation, it is proposed that an automatic feeding device for the plastically deformable components be provided on the die of the riveting tool, for example supplying one component per punch rivet connection, at least substantially in axial alignment aligned with the punch of the riveting tool on the die.

The advantages associated with the device according to the invention, the stamped rivet connection according to the invention, the punch rivet according to the invention and the use according to the invention correspond to those which have already been explained above, in particular in connection with the procedure. With these solutions according to the invention, it is thus possible to use stamped riveted joints everywhere in automobile construction or in vehicle construction, where reinforced non-plastically deformable or non-plasticizable materials, such as, for example, GFRP and CFRP, are used. This can be dispensed with in particular in connection with these components on the use of costly and complex connection techniques, such as blind rivets or screws, for the sometimes complex Vorlochoperationen are necessary and also to note and compensate for positional tolerances.

An embodiment of the invention is explained in more detail below. The schematic drawing shows a cross section through a stamped rivet on two thin-walled, plastically non or hardly deformable components made of CFK, which is designed with a Halbhohlstanzniet and an inserted plate-like sheet metal component.

According to the drawing, a first thin-walled component 10 made of CFRP (made of carbon fiber reinforced plastic) and a second, thin-walled component 12 made of CFRP by a punched rivet connection 14 firmly connected.

The punched rivet joint consists of a semi-hollow punch rivet 16 , the larger-diameter head 16a and a rotationally symmetrical, cylindrical shaft 16b having. Through a frontally open recess 16c is the shaft 16b made hollow over a defined amount to its spreading during the production of the punched rivet 14 to influence specifically.

Below the two thin-walled components 10 . 12 is a thin-walled, closed sheet metal component 18 made of metal, for example made of stainless steel, steel or aluminum.

The sheet metal component 18 is exemplified here as a flat Ronde with a material thickness of about 2 mm and an outer diameter of, for example, at least three times the diameter of the rivet shank 16b made and forms together with the semi-hollow punch rivet 16 as can be seen and described below, the punch rivet connection 14 ,

The punched rivet connection 14 is made in a riveting tool, of which only partially the upper, deliverable in the axial direction punch 20 and the lower stationary die 22 can be seen.

The semi-hollow punch rivet 16 becomes like the arrow 24 indicated the stamp 20 supplied before the start of the riveting process (for example, via a belt or hose supply of a known type).

Likewise the matrix becomes 22 as with the arrow 26 indicated the sheet metal component 18 fed via a suitable belt or hose feed, which then in a first, annular trough 22a the matrix 22 in axial alignment with the overlying stamp 20 of the riveting tool is guided.

Then, with appropriate positioning of the components to be joined 10 . 12 the semi-hollow punch rivet 16 whose head 16a in a corresponding recess of the stamp 20 is held, move down, first, the shaft 16b of the semi-hollow punch rivet 16 with its sharp-edged peripheral edges through the components 10 . 12 drills and then with the spread of the hollow shaft portion, the sheet metal component 18 into the second, defined well 22b the matrix 22 into deformed.

By the design of the here a crowning 22c having deepening 22b in connection with the configuration of the semi-hollow punch rivet 16 becomes apparent in the drawing, an undercut forming clamping between the plastically deforming sheet metal component 18 and the punched rivet made of steel 16 educated.

After the riveting process with defined, final contact pressure of the punch 20 this is driven back and the firmly interconnected components 10 . 12 can from the recess 22b . 22a the matrix 22 be removed.

The invention is not limited to the illustrated embodiment. The sheet metal component 18 may also be designed as a sheet metal strip and several punched rivet connections 14 take up. Instead of a blank, other outer configurations of the sheet metal component may also be used 18 or other plastically deformable, sufficient strength materials.

The plate-like or thin-walled components to be joined together 10 . 12 can also be formed from other, plastically non or not sufficiently deformable materials, for example from non-fiber reinforced plastics or from fabrics, etc.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 19912460 C2 [0002, 0003]

Claims (12)

A method for producing a stamped rivet connection, in particular in the automotive industry, in which a punch rivet is punched by an axially deliverable punch by at least two components to be connected and spread in counter-holding on a die, characterized in that between the die ( 22 ) and this adjacent component ( 12 ) a plastically deformable, preferably plate-like, component ( 18 ), in particular a sheet metal component, which is connected to the spreading shaft ( 16b ) of the punch rivet ( 16 ) plastically deformed. A method according to claim 1, characterized in that the plastically deformable component ( 18 ) is executed as Ronde whose outer diameter at least twice, most preferably at least three times the diameter of the shank ( 16b ) of the punch rivet ( 16 ) corresponds. Method according to claim 1 or 2, characterized in that as a plastically deformable component ( 18 ), a steel sheet or a light metal sheet, in particular with a thickness of at least 2 mm, is used. Method according to one of the preceding claims, characterized in that a hollow punch rivet ( 16 ) is used. Method according to one of the preceding claims, characterized in that the length of the hollow shaft portion (recess 16c ) of the punch rivet ( 16 ) is selected such that an expansion of the shaft ( 16b ) only within the plastically deformable component ( 18 ) he follows. Method according to one of the preceding claims, characterized in that at least the plastically deformable component ( 18 ) facing component ( 12 ) of the components to be interconnected ( 10 . 11 ) is made of a non-plastic or only slightly plastically deformable material. Device for carrying out the method according to one or more of the preceding claims, characterized in that on the die ( 22 ) of the riveting tool an automatic feeder (arrow 26 ) for plastically deformable components ( 18 ) is provided, the per punched rivet ( 14 ) a component ( 18 ), preferably supplied in such a way that the plastically deformable component ( 18 ) at least substantially in an axial alignment with the stamp ( 20 ) of the riveting tool is aligned. Punch rivet connection, in particular produced by a method according to one of claims 1 to 6, with at least two components connected to one another by means of at least one punch rivet, wherein the punch rivet penetrates the components to be connected to a shaft, characterized in that at least in the penetration region the at least one punch rivet ( 16 ) a plastically deformable, preferably plate-like, component ( 18 ) is arranged, which with the spreading shaft ( 16b ) of the respective punch rivet ( 16 ) plastically deformed and the punch rivet ( 16 ) holds in position. Punch rivet connection according to claim 8, characterized in that the plastically deformed component ( 18 ) bears against the assigned component in the area of penetration in a planar abutment connection and / or that the plastically deformable component ( 18 ) with reference to the components to be joined ( 10 . 12 ) is arranged only locally in the penetration area. Stanznietverbindung according to claim 8 or 9, characterized in that at least one of the components to be interconnected ( 10 . 12 ) is not or only slightly plastically deformable. Punch rivet, in particular for producing a self-piercing rivet connection according to one of claims 8 to 10, characterized in that the punch rivet ( 16 ) is formed in two parts and next to one, a shaft ( 16b ), the components to be interconnected ( 10 . 12 ) penetrating first punch rivet element ( 16 ), in particular a Halbhohlstanzniet, further at least one plastically deformable, preferably plate-like component ( 18 ), which is produced when the stamped rivet connection with the spreading shaft (FIG. 16b ) of the first punch rivet element ( 16 ) plastically deformed. Use of a plastically deformable component ( 18 ) for producing a stamped riveted joint according to any one of claims 8 to 10.

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