DE102010046295B4 - Crash structure for a vehicle body - Google Patents

Abstract

Crash structure (1) for a vehicle body, comprising
- A first hollow profile (2), and
- A connected to the first hollow profile reinforcing element (3), characterized in that
a second hollow profile (4) extending longitudinally parallel to the first hollow profile (2) is connected to the reinforcing element (3),
- The reinforcing element (3) is designed as a hollow profile with two longitudinally extending, spaced-apart longitudinal surfaces (5a, 5b),
- For the connection of the first and second hollow profile (2, 4) with the reinforcing element (3), the distance of the two longitudinal surfaces (5a, 5b) is selected such that in each case in the transverse direction of the longitudinal surfaces (5a, 5b) of the reinforcing element (3) first and second hollow profile (2, 4) is received on the edge side between the two longitudinal surfaces (5a, 5b), and
- Between the two longitudinal surfaces (5a, 5b) of the reinforcing element (3) at least one stiffening element (6) is provided.

Description

The invention relates to a crash structure for a vehicle body according to the preamble of patent claim 1.

As is known, crash structures in motor vehicles are predominantly constructed in the form of profiles, so that the longitudinal forces introduced into this structure during a crash are reduced by wrinkling. The energy absorption capacity of the material used and the profile cross sections determine the minimum crash length. However, since the crash length is also determined by the design and the package, there is often the need to reduce more energy in the shorter term, this being achievable through larger profile cross-sectional areas and / or through the use of higher energy conversion materials.

Thus, for example, a fiber composite material, such as CFRP (carbon fiber reinforced plastic), has a 2 to 3 times higher energy absorption than a comparable aluminum structure. However, this only applies if the load is introduced axially. With oblique load introduction, as occurs in practice, FVK structures tend to buckling, while metal structures, however, have a significantly higher plasticizing capacity and therefore do not break immediately in case of overload.

From the DE 10 2007 027 622 A1 is a side skirts of a motor vehicle body with a composite of two partial shells box section made of metal, which is reinforced by a connected with this box profile structural part made of fiber-reinforced plastic. Such a structural part can be arranged both within the box profile and outside of it and connected to it. An improved stiffening should arise in particular when the structural part is connected as a profile outside of the box profile with the same and to form another box section.

The DE 103 37 151 A1 describes a node structure of a formed as a hollow profile with a rectangular cross-section first profile and a second profile, which consists of two parallel, opposing straps and these two straps connecting parallel webs. These two profiles are aligned with their profile directions perpendicular to each other. The first profile is separated into two parts, wherein the resulting opposite profile ends abut the parallel aligned webs perpendicular to the longitudinal direction. The two straps of the second profile have over the webs on each protrusion, which serve as flanges for connection to each part of the separate first profile.

The object of the invention is to provide a crash structure for a motor vehicle with a significantly higher energy consumption, so that thereby a weight reduction by wall thickness and Crashlängenreduzierung can be achieved.

This object is achieved by a crash structure having the features of patent claim 1.

• - ein zum ersten Hohlprofil längsparallel verlaufendes zweites Hohlprofil mit dem Verstärkungselement verbunden ist,
• - das Verstärkungselement als Hohlprofil mit zwei in Längsrichtung verlaufenden zueinander beabstandete Längsflächen ausgebildet ist,
• - zur Verbindung des ersten und zweiten Hohlprofils mit dem Verstärkungselement der Abstand der beiden Längsflächen im Wesentlichen derart gewählt ist, dass jeweils in Querrichtung der Längsflächen des Verstärkungselementes das erste und zweite Hohlprofil randseitig zwischen den beiden Längsflächen aufgenommen wird, und
• - zwischen den beiden Längsflächen des Verstärkungselements wenigstens ein Versteifungselement vorgesehen ist.

In such a crash structure for a vehicle body, which comprises a first hollow profile and a reinforcing element connected to the first hollow profile, it is provided according to the invention that

• a second hollow profile running longitudinally parallel to the first hollow profile is connected to the reinforcing element,
• - The reinforcing element is designed as a hollow profile with two longitudinally spaced longitudinal surfaces extending in the longitudinal direction,
• - Is selected for connecting the first and second hollow profile with the reinforcing element, the distance between the two longitudinal surfaces substantially such that in each case in the transverse direction of the longitudinal surfaces of the reinforcing element, the first and second hollow profile is received on the edge side between the two longitudinal surfaces, and
• - At least one stiffening element is provided between the two longitudinal surfaces of the reinforcing element.

With such a crash structure according to the invention significantly higher energy absorption are possible in comparison to known crash structures, so that even if aluminum is used as a material for the two hollow sections, still a weight reduction is achieved.

The stiffening element of the crash structure according to the invention serves not only to stiffen the crash structure, but at the same time as a spacer of the two longitudinal surfaces of the reinforcing element, so that can be dispensed with separate spacers.

In one embodiment of the invention, the stiffening element in the transverse direction of the reinforcing element has a wave-shaped profiling. With such a structure of the stiffening element, the energy absorption of the crash structure is significantly increased again. Preferably, the profile amplitude of the stiffening element corresponds to the distance between the two longitudinal surfaces.

Preferably, the spaced longitudinal surfaces of the reinforcing element are substantially parallel to each other when the two Hollow sections in the longitudinal direction have a substantially rectangular cross-section. In the case of hollow profiles with side parts running conically in the longitudinal direction, longitudinal surfaces adapted accordingly thereto are spaced apart in the longitudinal direction so as to extend conically.

In a further embodiment of the invention, the stiffening element is connected to the curves with the side surfaces of the reinforcing element, preferably at its curves a flattening is provided, which is adhesively and / or mechanically connected flat with the side surfaces of the reinforcing element. This overall allows a simple and cost-effective production of the reinforcing element according to the invention, without sacrificing a high stiffening property of the entire crash structure.

Advantageously, according to an embodiment of the invention, the first and second hollow profile is formed as a rectangular profile, wherein the widths in the transverse direction of the reinforcing element correspond to the spacing of the side surfaces of the reinforcing element. In order to adapt to required energy absorption values for a reinforcing element different rectangular profiles can be used, which have the same dimensions only in the transverse direction of the reinforcing element.

In a preferred embodiment of the invention, all advantages of a hybrid component are achieved if the reinforcing element and / or the stiffening element is made of a fiber composite material, for example. CFK, especially if the first and second hollow profile of light metal, in particular aluminum is formed.

The invention will be described below with reference to an embodiment with reference to the only 1 described in detail, which shows a perspective view of a crash structure according to the invention.

The crash structure according to the invention 1 to 1 includes a first hollow profile 2 and a second hollow profile 4 , which are made with a square cross-section identical to light metal, in particular aluminum. These two hollow profiles 2 and 4 be by means of a reinforcing element 3 made of a fiber-reinforced plastic, for example. CFK longitudinally parallel to one another connected to each other.

The reinforcing element 3 consists of two parallel spaced longitudinal longitudinal surfaces 5a and 5b and are by means of a longitudinally extending stiffening element 6 , Which is also made of a fiber-reinforced plastic, for example. CFRP, with a wave-shaped profile cross-section at a distance. The distance in the transverse direction of the longitudinal surfaces 5a and 5b corresponds substantially to the width b of the first and second hollow profile 2 and 4 , so that in each case in the transverse direction of the two longitudinal surfaces 5a and 5b of the reinforcing element 3 whose edge areas between them the two hollow sections 2 and 4 record positively. The two longitudinal side surfaces 2a and 2 B or. 4a and 4b of the hollow profile 2 or. 4 are therefore partially in the range of their edges with a dimension c overlapping with the longitudinal surfaces 5a and 5b connected, for example by gluing and / or mechanical joining.

The stiffening element 6 with the wave-shaped profile in the transverse direction of the longitudinal surfaces 5a and 5b according to 1 two loops with a profile amplitude on, leaving the curves 7 , each with a flattening 8th are provided, flat with the insides of the two longitudinal surfaces 5a and 5b can be connected in compliance with the distance b, for example by gluing and / or mechanical joining.

The two flange-like end regions 9 of the stiffening element 6 be in the edge region of the two longitudinal surfaces 5a and 5b together with the hollow profiles 2 and 4 edge-locking with the longitudinal surfaces 5a and 5b of the reinforcing element 3 connected.

opposite 1 can the stiffening element 6 be formed with a different profiling, so for example. Only with one turn or in adaptation of the width of the longitudinal surfaces 5a and 5b with more than two turns. Furthermore, a stiffening element 6 also as the two longitudinal surfaces 5a and 5b connecting I-shaped web, or be formed with a Z- or X-shaped profiling.

Furthermore, the crash structure according to the invention leaves 1 also the use of different hollow profiles 2 and 4 to, only in their width b the clearance between the two longitudinal surfaces 5a and 5b must correspond. In this case, hollow sections are used, which have no rectangular profile in the longitudinal direction, but in which the side parts of such a hollow profile are conical. In such a case, the two longitudinal surfaces run 5a and 5b of the reinforcing element 3 adapted thereto also in the longitudinal direction conical to each other, wherein also the wave-shaped stiffening element 6 runs in the longitudinal direction accordingly. Even hollow profiles with a longitudinally arcuate cross-section can with a reinforcing element according to the invention 3 be connected, their longitudinal surfaces 5a and 5b and its stiffening element 6 in this case, each also extend in a circular arc in the longitudinal direction. Hollow profiles with a circular or an approximately circular cross-section can also be used in the crash structure according to the invention.

Finally, the invention is also advantageous in such hollow sections applicable, which have an irregular course in the longitudinal direction, for example. Have no constant course of the width of the hollow profile. At such a width profile are the two side surfaces 5a and 5b as well as the stiffening element 6 customized.

In particular, multi-chamber profiles or semi-open profiles, such as. U-shaped profiles can be used, the open side of such semi-open profiles on the not with the longitudinal surfaces 5a and 5b connected pages.

LIST OF REFERENCE NUMBERS

1

crash structure

2

first hollow profile

3

reinforcing element

4

second hollow profile

5a

Longitudinal surface of the reinforcing element 3

5b

Longitudinal surface of the reinforcing element 3

6

stiffener

7

Rounding the stiffening element 6

8th

Flattening at the curves 7

9

End portions of the stiffening element 6

Claims (9)

Crash structure (1) for a vehicle body, comprising - a first hollow profile (2), and - a reinforcing element (3) connected to the first hollow profile, characterized in that - a second hollow profile (4) running longitudinally parallel to the first hollow profile (2) the reinforcing element (3) is connected, - the reinforcing element (3) is formed as a hollow profile with two longitudinally extending, mutually spaced longitudinal surfaces (5a, 5b), - for connecting the first and second hollow profile (2, 4) to the reinforcing element ( 3) the distance of the two longitudinal surfaces (5a, 5b) is selected such that each in the transverse direction of the longitudinal surfaces (5a, 5b) of the reinforcing element (3) the first and second hollow profile (2, 4) at the edge between the two longitudinal surfaces (5a, 5b) is received, and - between the two longitudinal surfaces (5a, 5b) of the reinforcing element (3) at least one stiffening element (6) is provided. Crash structure after Claim 1 , characterized in that the stiffening element (6) in the transverse direction of the reinforcing element (3) has a wave-shaped profiling. Crash structure after Claim 1 or 2 , characterized in that the two longitudinal surfaces (5a, 5b) of the reinforcing element (3) parallel or conical to each other. Crash structure according to one of the preceding claims, characterized in that the profile amplitude of the stiffening element (6) corresponds to the spacing of the two longitudinal surfaces (5a, 5b). Crash structure after Claim 4 , characterized in that the stiffening element (6) at the curves (7) with the side surfaces (5a, 5b) of the reinforcing element (3) is connected. Crash structure after Claim 5 , characterized in that the stiffening element (6) at the curves (7) has a flattening (8), which are connected flat with the side surfaces (5a, 5b) of the reinforcing element (3). Crash structure according to one of the preceding claims, characterized in that the first and second hollow profile (2, 4) is formed as a rectangular profile, wherein the widths in the transverse direction of the reinforcing element (3) the distance of the side surfaces (5a, 5b) of the reinforcing element (3) correspond. Crash structure according to one of the preceding claims, characterized in that the reinforcing element (3) and / or the stiffening element (6) is formed from a fiber composite material. Crash structure according to one of the preceding claims, characterized in that the first and second hollow profile (2, 4) is formed from light metal.

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