DE19731284A1 - Hollow bearer, especially A=column of motor vehicle - Google Patents

Abstract

The hollow bearer (11), which is responsive to bending, has inside it a number of stiffening elements (16) which connect the opposite wall regions of the bearer to each other. This stabilises the cross section of the bearer. The spacing (d1-dx) of the individual stiffening elements is set to correspond the bend response over the length of the bearer. The stiffening elements are in the form of bulkhead walls running perpendicularly to the neutral line (18) of the bearer.

Description

The invention relates to a hollow support according to the preamble of the saying 1.

Such a hollow beam is known from DE 36 21 697 C2, which acts as an impact beam ger is designed for a side door of a motor vehicle. The inside Stiffening elements connect the pressure belt on the outside of the impact beam gers with the inside door tension belt, so that an increase in rigidity is achieved becomes. The stiffening elements are, for example, a honeycomb structure or a composite of pipe pieces. From DE 24 10 228 B2 are in addition, zigzag-shaped stiffening elements for an impact beam a motor vehicle door known.

The object of the invention is to further develop the known hollow beam in order a high bending stiffness and a low tendency to buckle with low weight to reach.

This object is solved by the features of claim 1. Compared to the known hollow beams, in which the stiffening element in the form of a hanging element over part of the length or the entire length of the Hollow beam is formed, are defi in the hollow beam according to the invention preferred places several stiffening elements according to the fact  The bending stress occurring above the longitudinal extent of the beam (and the resulting stress on buckling). The appearing The bending stress naturally also determines the spacing of the reinforcement tion elements from the ends of the hollow beam. This results in a targeted Distribution of the stiffening elements with the advantage of being as small as possible Total weight with a slight inclination of the cross section to buckle or Dents.

The known bending supports mentioned above are primarily with regard to one high energy absorption capacity for the targeted reduction of collision energy designed. The hollow beam according to the invention, however, is for an application as Bending beam designed with a tension belt on the side facing the force and a pressure belt on the side facing away from the power. After such bending beams mainly fail due to failure of the pressure belt, is due to the targeted Arrangement of the stiffening elements a reduction in the buckling lengths of the Druckgurtes achieved in such a way that the remaining kink lengths on unkri table values can be reduced. The number and positioning of the stiffening elements can be calculated.

Bulkheads according to claim 2 are of low material and thus weight effort to bring into a hollow beam. By aligning the bulkheads the bulkheads are made as good as possible perpendicular to the neutral fiber of the hollow beam Lich, namely "radial" to the opposite wall areas of the Tied hollow beam. Such an arrangement also offers advantages at WECH blinding force application directions when the two opposite wall areas che alternately both under tension and pressure.

A hollow beam is known from DE 41 13 711 A1, the bulkhead walls of which run approximately perpendicular to the opposite wall areas. The be Known hollow beam is used for energy conversion when force is applied in Rich tion perpendicular to its longitudinal extent. The bulkheads are at least off curved in sections to allow the bulkheads to be bent in a targeted manner Force transmission towards the bulkhead. The difference is a deformation in the bulkheads of the hollow beam according to the invention  desirable because they have the task of increasing the cross section of the hollow beam obtained in order to stabilize the hollow beam. The bulkheads of the known ten hollow beam, however, which are also arranged at equal distances from each other net, do not reduce the free kink length.

Claim 3 describes the idealized embodiment of a one-sided tensioned bending beam, in which according to the bending moment curve Distance of the bulkheads with increasing distance from the force application place increases. This ensures a constant stiffness over the length of the hollow beam is achieved without the need to increase the wall thickness of the bending beam over its longitudinal extent, as is the case with the bulkhead missing walls or equidistant bulkheads would be necessary.

Claim 4 describes a possible application of the invention to columns or Posts of motor vehicles. In particular the A pillar of a motor vehicle can by a hollow beam designed according to the invention with low Ge important and high rigidity. In the event of a rollover, A pillar of a motor vehicle in the area of connection to the roof structure high Lateral forces initiated. For this reason, the A-pillar must have one accordingly have high bending stiffness so as not to buckle under this load. The stiffness of the A-pillar is particularly important for those that are open at the top Vehicles. The inventive design of an A-pillar with high Buckling stiffness regardless of the direction of loading becomes high stiffness regardless of the different possible forms of stress on one Rollover reached.

The invention is explained in more detail below with the aid of schematic representations tert. It shows:

Fig. 1 is a cantilever clamped with the representation of the moment and stress curve and

Fig. 2 walls formed as an A-pillar hollow support with internal bulkhead.

Fig. 1 shows a hollow beam 1 clamped on one side with a total length l _ges , on the free end portion 2 a force F acts. The top wall area of the hollow beam 1 is subjected to tension in the present load case (tension belt 3 ), while the bottom wall section acts as a compression belt 4 . For illustration, the stress curve σ is shown in the cross section of the hollow beam 1 . Accordingly, the moment M = F × l assumes the Biegebeanspru monitoring of the hollow beam 1 in the direction of the Einspannungsstelle 5 of the hollow-core slab 1 linearly. The stress within the tension belt 3 and the compression belt 4 is symbolized by arrows 8 and 9 .

By inserting a stiffening element in the form of a bulkhead 6 , the free buckling length l * of the hollow beam 1 can be reduced. The effect of the bulkhead 6 is clearly illustrated by the arrows 7 , which symbolize a flow of force from the pressure belt 4 to the tension belt 3 .

Fig. 2 shows a hollow beam 11 which is ausgebil det as an A-pillar of a motor vehicle. Several stiffening elements in the form of bulkheads 16 , which are arranged perpendicular to the neutral fiber 18 of the hollow beam 11 , reduce the free buckling length of the A-pillar 11 . The distance d ₁ to d _x between the individual bulkheads 16 decreases with increasing distance from the power line 12 . As a result, a high bending stiffness is achieved with little use of material.

The bulkheads can be welded or glued into the Hollow beams can be used. The material of the bulkheads is according to the Strength requirements and depending on the connection technology selected to coordinate the material of the hollow beam. So there are many bulkheads Cases made of the same material as the hollow beam. Likewise, in a hollow Beams made of steel, for example, bulkheads made of aluminum or plastic (with appropriate material thicknesses).

Claims (4)

1. Hollow beam with at least one internal stiffening element that connects opposite wall areas of the hollow beam to each other, characterized in that the stiffening element ( 6 ) or the stiffening element ( 16 ) according to the bending stress occurring with defined distances (d ₁ to d _x ) to the end sections of the hollow support ( 1 ; 11 ) and / or to one another. 2. Hollow beam according to claim 1, characterized in that the stiffening elements ( 6 ; 16 ) are formed by bulkhead walls which are perpendicular to the neutral fiber ( 18 ) of the hollow beam ( 1 ; 11 ). 3. Hollow beam according to claim 1 and / or 2, characterized in that the hollow beam ( 11 ) is clamped on one side, with a force introduction point at its free end section ( 12 ), the distance (d ₁ to d _x ) between the stiffening elements ( 16 ) decreases with increasing distance from the force application point ( 12 ). 4. Hollow beam according to one of the preceding claims, characterized in that the hollow beam forms a column, in particular an A-pillar ( 11 ) of a motor vehicle.