EP3703880A1

EP3703880A1 - Method for producing an overlapping connection, and body component for a vehicle

Info

Publication number: EP3703880A1
Application number: EP18800063.2A
Authority: EP
Inventors: Thomas GULDI; Timo ENGLERT
Original assignee: Audi AG
Current assignee: Audi AG
Priority date: 2017-11-03
Filing date: 2018-10-31
Publication date: 2020-09-09
Also published as: WO2019086508A1; US20220266329A1; US11358205B2; US20210197245A1; US11759841B2; CN111295253A; DE102017219534A1

Abstract

The invention relates to a method for producing an overlapping connection (2), wherein at least two overlapping components (10, 20) are connected together via a folded flange (30), and a first edge (11) of a first component (10) is folded about a second edge (22) of a second component (20) in order to form the folded flange (30). The invention also relates to a body component (1) for a vehicle, comprising such an overlapping connection (2), and to an embossing tool (40A) for such a body component (1). According to the invention, the folded flange (30) is equipped with at least one connection region (32) on which the embossing tool (40A) embosses the first component (10) through the second component (20) at at least one embossing point (34), and displaced material of the first component (10) passes into the second component (20) and produces a formfitting connection.

Description

Method for producing an overlapping connection and

Body component for a vehicle

DESCRIPTION:

The invention relates to a method for producing an overlap connection according to the preamble of patent claim 1. Furthermore, the invention relates to a body component for a vehicle according to the preamble of claim 6 and an embossing tool according to the preamble of patent claim 10.

Methods for producing lap joints in which at least two overlapping components are joined together via a seam flange are known in numerous variations. To form the folding flange, a first edge of a first component can be folded over a second edge of a second component.

In addition, body components for vehicles, with at least two components, which are connected via an at least one folding flange having lapping pungs connection with each other, known in numerous variations. The folding flange has a first edge of a first component, which is folded over a second edge of a second component.

From DE 10 2013 006 362 A1 a method for producing a generic body component, in particular a vehicle door is known. In the method, an adhesive is applied in a folded region between an inner body part and an outer skin part and then an edge region of the outer skin part around a corresponding edge region of the inner skin Body part folded over. Before applying the adhesive at least one elevation is formed at the edge region of the inner body part. This survey can be embossed by a stamping tool in the inner body part.

From DE 10 2015 004 496 A1 a method for producing an overlap connection is known, in which at least two partially overlapping metallic components are welded together by means of a laser, wherein by means of the laser generates a pulsed laser beam and the components are joined by means of several welding points. The respective welding times per welding point are greater than 1 s and less than 1 ms. Before welding, one component can be folded over around the other component. A disadvantage is to be regarded in such methods and body components of the circumstance that a folding flange created by the folding of a first edge of a first component to a second edge of a second component relative movements of the components can not reliably prevent each other.

The invention is based on the object to provide a method for producing an overlap connection, which reduces relative movements between the interconnected by the overlap connection components.

In addition, the invention is based on the object to provide a body component with at least two interconnected by an overlap connection components and an embossing tool for embossing such a body component, which has a high reproducible component quality.

These objects are achieved by a method having the features of patent claim 1 and by a body component having the features of claim 6 and by an embossing tool having the features of Patent claim 10 solved. Advantageous embodiments with expedient developments of the invention are specified in the dependent claims. In order to provide a method for producing an overlapping connection, which reduces relative movements between the components connected to one another by the overlapping connection, at least one connecting region is formed at the folding flange, on which an embossing tool embosses the first component through the second component at at least one embossing point, whereby displaced material of the first component is impressed first component dips into the second component and produces a positive connection.

In order to provide a body component having at least two components connected to one another by an overlapping connection, which has a high reproducible component quality, a seaming flange of the overlapping joint comprises at least one connecting region at which a first component is embossed at at least one embossing point by a second component, wherein displaced material of the first component is immersed in the second component and produces a positive connection.

In order to provide an embossing tool for embossing such a body component, the embossing tool has a scraper and at least one relatively movably arranged to the scraper carrier on which a single point or a double point is arranged.

An overlap connection is understood in the following to mean a connection in which at least two components overlapping one another are connected to one another at least via a folding flange. In the following, the folding flange is understood to mean a frictional connection between at least two components, in which case a first edge of a first component is folded over around a second edge of a second component. As a result, the second edge of the second component is at least partially enclosed by the first edge of the first component.

In the following, at least one region on the folding flange is understood by the joining region, in which embossing in at least one embossing point creates an additional form-fitting connection between the at least two components. In this case, an embossing tool can pierce the outside through the folding flange and emboss the first component through the second component.

Below the body component is understood below an assembly which has at least two interconnected by the overlap connection components. In the following, a relative movement can be understood to mean a displacement of one of the two components against the other component after folding. This relative movement can be caused after folding during assembly by various external influences, such as the handling of the body component by an industrial robot, outside the mounting site by shock during transport, thermal expansion in an oven or manual handling when mounting the component to a vehicle body.

Advantageously, by folding and embossing a simple inexpensive connection combination of the frictional connection of the folding flange and the positive connection can be implemented by embossing. In this case, no additional connecting elements such as rivets, holes, etc. are required in one of the two components, whereby an additional need for coordination during assembly can be advantageously avoided. In addition, can be dispensed by embossing on a complex expensive welding process in an advantageous manner. Due to the fact that embossing takes place only after folding, it can be ensured that both components are connected to one another in an interengaging manner by embossing, wherein the components are displaced against each other advantageously difficult or can be completely prevented. This allows a transport of the connected components or a further processing of the connected components directly after folding and embossing done. In addition, the embossing can be applied to steel components and aluminum, which are often used in vehicle construction. The dimensions of the single point or the double point of the embossing tool are chosen so that the second component is not completely penetrated during the embossing process. This can be prevented in an advantageous manner that arise on an underside of the first component, which may correspond to a visible surface, bulges.

In an advantageous manner, body components with a folding flange, which has at least one additional connecting region, may have no or only minor relative movements between the components which are connected to one another in this way. As a result, a consistent body component quality can advantageously be made possible and fluctuations in the process chain can be reduced.

In an advantageous embodiment of the method according to the invention, a single point of the embossing tool can sequentially emboss at least two embossing points in the at least one connecting region of the folding flange into the first component. By the two embossing points, which are preferably set in close proximity to each other, an anti-rotation and a point strength can be increased in the corresponding connection area in an advantageous manner.

In an alternative embodiment of the method according to the invention, a double point of the embossing tool can simultaneously emboss two adjacent embossing points in the at least one connecting region of the folding flange into the first component. By simultaneously setting two embossing points, the assembly time can be reduced in an advantageous manner. In addition, an anti-rotation and a point strength can be increased by the two embossing points in the corresponding connection area in an advantageous manner. In a further advantageous embodiment of the method according to the invention, a plurality of connecting regions can be formed at a predetermined distance from one another at the folding flange. The distance between the connecting regions can be adapted, for example, to the dimensions of the interconnected components or to the dimensions of the folding flange.

In a further advantageous embodiment of the method according to the invention, an adhesive may be applied between the first edge of the first component and the second edge of the second component prior to folding, which forms a material connection between the two components. This cohesive connection can advantageously further improve the stability and the strength of the lap joint. In addition, the adhesive can cure without a relative movement between the first component and the second component takes place, since they are sufficiently fixed by the positive engagement produced by embossing until the adhesive has cured. As a result, a hardening process in an oven can advantageously be at least reduced or completely eliminated, or a longer waiting time for hardening can be dispensed with, so that the component combination can be further processed directly.

In an advantageous embodiment of the body part according to the invention, the body component can be designed as a vehicle door. The vehicle door may in this case correspond to a front flap, a side door and / or a tailgate.

In a further advantageous embodiment of the body part according to the invention, the first component can be designed as an outer panel and the second component as an inner panel. In addition, the first component and the second component can be at least partially executed as a steel and / or aluminum component. The two components can be reliably connected to one another via the folding flange with the connecting areas. The advantages and preferred embodiments described for the method according to the invention also apply to the body component according to the invention. The features and feature combinations mentioned above in the description as well as the features and feature combinations mentioned below in the description of the figures and / or in the figures alone can be used not only in the respectively specified combination but also in other combinations or in isolation, without the scope of To leave invention. Thus, embodiments are also included and disclosed by the invention, which are not explicitly shown or explained in the figures, however, emerge and can be produced by separated combinations of features from the embodiments explained.

Embodiments of the invention are illustrated in the drawings and are explained in more detail in the following description. In the drawing, like reference numerals designate components that perform the same or analog functions. Hereby show:

Fig. 1 is a schematic block diagram of an inventive

Method for producing an overlapping connection, and

Fig. 2 is a schematic sectional view of a detail of a body part according to the invention during an embossing process with a first embodiment of an embossing tool according to the invention.

Fig. 3 is a schematic detail of an embossing point

1 is a schematic sectional view of a section of a body component according to the invention during an embossing Operation with a second embodiment of an embossing tool according to the invention.

5 is a schematic sectional view of a detail of the embossing tool according to the invention from FIG. 4.

As can be seen from FIG. 1, in the illustrated exemplary embodiment of a method 100 according to the invention for producing an overlap connection 2, at least two overlapping components 10, 20 are connected to one another via a folding flange 30 in a method step S120. In this case, a first edge 11 of a first component 10 is folded over a second edge 22 of a second component 20 to form the seaming flange 30. According to the invention, in a method step S130, at least one connecting region 32 is formed on the folding flange 30, on which an embossing tool 40 embosses the first component 10 at at least one embossing point 34 through the second component 20, wherein displaced material of the first component 10 dips into the second component 20 and makes a positive connection.

As is further apparent from FIGS. 2 to 4, the exemplary embodiments of a body component 1 for a vehicle according to the invention in the illustrated detail each have at least two components 10, 20, which are connected to one another via an overlapping connection 2 having at least one folding flange 30 a first edge 1 1 of a first component 10 is folded over a second edge 22 of a second component 20. According to the invention, the seaming flange 30 of the lap joint 2 of the body component 1 according to the invention comprises at least one connecting region 32, on which the first component 10 is stamped on at least one stamping point 34 by the second component 20, wherein displaced material 15 of the first component 10 is immersed in the second component 20 and produces a positive connection.

In an alternative embodiment, not shown, of the body component 1 according to the invention, the first edge 1 1 of the first component 10 can be folded over by more than a second component 20. As a result, for example, three components can be connected to one another by a lap joint 2 according to the invention to form a body component 1.

2 and 3, the first embossing tool 40A used for the method 100 according to the invention in the illustrated first embodiment has a carrier 42A guided in a scraper 44, on which a single point 43 is arranged. As further seen in Figures 4 and 5, in an alternate second embodiment, embossing tool 40B includes a carrier 42B carried in stripper 44 on which is disposed a dual tip 43B comprising two individual tips. The scraper 44, after embossing, allows the first component 10 and the second component 20 to be detached from the single point 43 or the dual point 43B of the embossing tool 40A, 40B. This can be dispensed with unwashed components 10, 20 on an additional lubrication. In addition, the illustrated embossing tools 40A, 40B each have an abutment 46. The folding flange 30 rests with an underside 38 on the counter-layer 46. An upper side 36 of the folding flange 30 faces the single point 43 or the double point 43B. The upper side 36 and the lower side 38 of the folding flange 30 are each formed by the first edge 1 1 of the first component 10, which surrounds the second edge 22 of the second component 20. The single tip 43 or the double tip 43B of the embossing tools 40A, 40B impresses from above through the first component 10 into the second component 20 without completely penetrating the second component 20.

In an alternative embodiment of the method 100 according to the invention, the embossing tools 40A, 40B can also have more than two individual tips 43 respectively. In addition, the embossing tools 40A, 40B may each have a C-bracket, which may be handled by an industrial robot. Thus, many embossing points 34 can be introduced flexibly and with only one embossing tool 40A, 40B into the body component 1 according to the invention.

In the illustrated embodiment of the method according to the invention, the embossing tool 40A with the single tip 43 successively in the connection region 32 one or more embossing points 34. In a preferred embodiment of the inventive method 100, the single tip 43 of the embossing tool 40A successively sets two embossing points 34 in the at least one In an alternative embodiment of the inventive method 100, the embossing tool 40B with the double tip 43B simultaneously uses two adjacent embossing points 34 in the at least one connecting region 32. In this case, the double tip 43B can multiply two embossing points 34 in a connecting region 32, so that the connection region 32 can have a multiple of two embossing points.

In the method 100 according to the invention, a plurality of connecting regions 32 are formed at the folding flange 30 at a predetermined distance from one another. The number and the distances of the connecting regions 32 are selected as a function of the dimension of the folding flange 30.

As is further apparent from Fig. 1, in the illustrated embodiment of the method 100 according to the invention prior to folding an adhesive 2.2 between the first edge 1 1 of the first component 10 and the second edge 22 of the second component 20 is applied, which forms a material connection.

As is further apparent from FIGS. 2 to 4, in each case the first edge 11 of the first component 10 surrounds the second edge 22 of the second component 20 in FIG the illustrated embodiments of the inventive body part. 1 The connecting region 32 shown in FIGS. 2 and 3 has an embossing point 34, and the connecting region 32 shown in FIG. 4 has two embossing points 34. In an alternative exemplary embodiment (not illustrated) of the body component 1 according to the invention, the connection region 32 can have more than two embossing points 34. In addition, in the illustrated exemplary embodiments of the body component 1 according to the invention, an adhesive 2.2 is arranged between the first edge 11 of the first component 10 and the second edge 22 of the second component 20. The folding flange 30 can be arranged circumferentially on the body component 1 according to the invention and form a rounded end region of the body component 1 according to the invention. In this case, the connecting regions 32 can be arranged at a predetermined distance from one another on the folding flange 30. Alternatively, the folding flange 30 can only be arranged in regions on the body component 1 according to the invention. In this case, the body component 1 according to the invention can be designed as a vehicle flap or as another suitable body component 1.

In the illustrated embodiments of the bodywork component 1, the first component 10 is in each case designed as an outer panel and the second component 20 as an inner panel. In addition, the first component 10 and the second component 20 are at least partially designed as a steel and / or aluminum component. In this case, components having a high aluminum content are used when the body component 1 according to the invention is to have a low weight. Components with a high steel content are used in areas where the body component 1 according to the invention should have a high stability or rigidity.

By means of the method 100 according to the invention for producing an overlap connection 2, an overlapping connection 2 is created which permits only little or no relative movements between the connected components 10, 20. Body parts 1 with a plurality of components 10, 20 which are interconnected by such a lap joint 2, have a high reproducibility, since the relative movements between the components 10, 20 prevented or at least made more difficult.

LIST OF REFERENCE NUMBERS

body component

lap joint

adhesive

first component

first edge

displaced material

second component

second edge

seaming flange

connecting area

embossing point

top

bottom

A, 40B embossing tool

A, 42B carrier

Just great

B double top

scraper

counter support

0 Method for making an overlap connection

10, S120, S130 process step

Claims

CLAIMS:

Method (100) for producing an overlapping connection (2), in which at least two overlapping components (10, 20) are connected to one another via a folding flange (30), wherein for forming the folding flange (30) a first edge (11) of a first component (10) is folded over a second edge (22) of a second component (20),

characterized in that

at least one connecting region (32) is formed on the folding flange (30), on which an embossing tool (40A, 40B) embosses the first component (10) through the second component (20) at at least one embossing point (34), wherein displaced material (15 ) of the first component (10) dips into the second component (20) and produces a positive connection.

Method according to claim 1,

characterized in that

a single tip (43) of the embossing tool (40A) successively embosses at least two embossing points (34) in the at least one connecting region (32) of the folding flange (30) into the first component (10).

Method according to claim 1,

characterized in that

a double tip (42B) of the embossing tool (40B) simultaneously embosses two adjacent embossing points (34) in the at least one connecting region (32) of the folding flange (30) into the first component (10).

4. The method according to any one of claims 1 to 3,

characterized in that

a plurality of connecting portions (32) are formed at a predetermined distance from each other at the folding flange (30). Method according to one of claims 1 to 4,

characterized in that

an adhesive (2.2) between the first edge (1 1) of the first component (10) and the second edge (22) of the second component (20) is applied before folding, which forms a material connection.

Body component (1) for a vehicle, having at least two components (10, 20) which are connected to one another via an overlapping connection (2) having at least one folding flange (30), wherein a first edge (11) of a first component (10) folded around a second edge (22) of a second component (20),

characterized in that

the folding flange (30) has at least one connecting region (32) on which the first component (10) is stamped on at least one embossing point (34) by the second component (20), wherein displaced material (15) of the first component (10) dips into the second component (20) and produces a positive connection.

Body component according to claim 6,

characterized in that

the body component (1) is designed as a vehicle door.

Body component according to claim 6 or 7,

characterized in that

the first component (10) is designed as an outer panel and the second component (20) as an inner panel. Body component according to one of claims 6 to 8, characterized in that

the first component (10) and the second component (20) are at least partially designed as a steel and / or aluminum component.

10. embossing tool (40A, 40B) with a scraper (44) and at least one carrier (42A, 42B) arranged movable relative to the scraper (44),

characterized in that

a single point (43) or a double point (43B) is arranged on the carrier (42A).