DE102004001747A1 - Motor vehicle bodywork has upper and lower longitudinals and spring force guides adjacent to wheel housings connected to longitudinals - Google Patents

Abstract

The motor vehicle bodywork shell has upper (16) and lower (18) longitudinal reinforcements supporting suspension spring load transfer guides connected between them at each wheel housing (14). The load transfer guides are strip shaped reinforcements (22) for stiffening the bodywork inside the force transfer guide areas (20).

Description

The The invention relates to a vehicle body with a bodyshell structure, which in a respective front wheelhouse area an upper Side members and has a lower side member, wherein the bodyshell structure in the respective wheel arch area an associated force introduction area for one Contains wheel spring, according to the generic term of claim 1.

A vehicle body of the type mentioned is for example from the DE 195 06 160 A1 known. In this document, a frame structure for motor vehicles is disclosed, with a front frame as part of the frame construction and with node elements for connecting individual frame elements. The frame members and the node elements are made by hydraulic hydroforming and joined by means of connectors. The front frame can be plugged into two upper and two lower side members, the joining direction lying approximately in the intended direction of travel of the vehicle.

It Object of the invention is a vehicle body of the above mentioned type to suggest a shell structure with relatively high Includes stiffness in the force application area for a wheel spring.

to solution The object is a vehicle body with the features of the claim 1 proposed. The vehicle body is characterized by that the bodyshell structure in the respective wheel arches a the upper Side member and the Connecting lower side member, strive shaped and partially the wheel house contour in the vehicle longitudinal direction and in vehicle height direction limiting Having stiffening element for stiffening the bodyshell structure within the associated Load input portion. The stiffening element thus serves for increase the deformation stiffness of the bodyshell structure in the force application area a wheelhouse area for a wheel spring. This is achieved in that the stiffening element the upper side member and the lower side member in the corresponding Radhausbereich connects, where it is strut-shaped. The strut shape is such that a part of the wheel arch contour in the vehicle longitudinal direction and in vehicle height direction (if necessary in addition also in vehicle transverse direction) defined by the stiffening element becomes. The stiffening element is thus partially a wheel arch contour Replica shell construction element, which is used to stiffen the associated force application area the bodyshell structure with the upper side member connects to the lower side member in the form of a geometrically adapted strut. Due to the strut shape the stiffening element is the installation space in the corresponding front Radhausbereich the shell structure is not significantly reduced, wherein at the same time diverse possibilities for the connection of vehicle aggregates to the bodyshell structure in the area be created of the stiffening element.

With Advantage is the stiffening element in a front end of the upper longitudinal member with connected to the same. The stiffening element thus provides an extension of the upper longitudinal member in Vehicle longitudinal direction and in driving tool height direction it is connected with its other end to the lower side member is. The front end area of the upper longitudinal member is located in one associated front wheel arch area of the bodyshell structure.

The Stiffening element is preferably a carrier element for at least a vehicle functional unit. The vehicle function unit can a wash water tank and / or a compressor and / or a Kühlflüssigkeitsausgleichbehälter and / or a coolant line and / or an electrical line. This can be provided that the vehicle function unit is non-destructively separable and in particular by means of a screw connection and / or plug connection and / or Clamping connection is attached to the stiffening element. Such Vehicle body is characterized by a relatively high inherent rigidity in respective front wheel arch area (force introduction area for wheel spring) as well as by the possibility a particularly compact positioning of one or more vehicle functional units in the region of the stiffening element, wherein the vehicle functional units possibly also be attached directly to the stiffening element.

Corresponding a preferred embodiment the stiffening element is tubular and in particular with a edge profile shaped cross section educated. Leave by means of such a stiffening element sufficiently large deformation stiffnesses or achieve inherent stiffness of the shell structure in the front wheel arch areas.

With Advantage is the stiffening element a hydroformed Cast-in part. The hydroforming of a shell component is on known and allows the realization ei ner particularly favorable Geometry adaptation of the stiffening element to the desired wheel arch contour of Bodyshell structure.

The Stiffening element can each end a flange-like Have connection area, for the realization of a low-force transmission Connection of the stiffening element to the upper and lower Side member of the Bodyshell structure.

The Stiffening element can with the upper side rail and with the lower side rail means resistance spot welds be connected. This joining process allows the production of a reliable and relatively fast and preferably automated connection between the stiffening element and the side members of the Bodyshell structure. Alternatively, the stiffening element by means of a screw connection connected to the corresponding longitudinal members become.

According to one potential Embodiment can the vehicle bodywork for Each Radhausbereich a selbigen raumbegrenzendes shielding exhibit. The shielding element may for example consist of a suitable Plastic or be made of a metallic material. In this case, the shielding serves for rohskeitigen limitation of corresponding wheel housing area and preferably has no carrier function or does not make a significant contribution to increasing the inherent rigidity of Shell structure, especially in the corresponding front wheel arch area.

Further Advantages of the invention will become apparent from the description.

The Invention is based on a preferred embodiment, with reference explained in more detail on a schematic drawing.

there demonstrate:

1 a schematic perspective view of a front wheel arch area of a shell structure of a vehicle body;

2 a further schematic perspective view of the wheelhouse of the 1 ;

3 a schematic perspective view of a part of the shell structure of 1 with fixed vehicle functional units;

4 a schematic perspective view of a connecting portion on an upper side member of the shell structure of 1 on an enlarged scale and

5 a schematic perspective view of a connecting portion with a lower side member of the shell structure of 1 on an enlarged scale.

The 1 and 2 show in each case a schematic perspective view of a wheel arch area 14 a bodyshell structure 12 a vehicle body 10 in the present embodiment of a motor vehicle. In the illustrated wheelhouse area 14 it is the front left wheelhouse area of the bodyshell structure 12 the vehicle body 10 , The bodyshell structure 12 contains in the wheelhouse area 14 an associated upper side member 16 and an associated lower side rail 18 , In this wheelhouse area 14 is also a force introduction area 20 for an associated wheel spring (not shown in the figures) provided. The upper side member 16 and the lower side member 18 are by means of egg stiffener 22 for stiffening the bodyshell structure 12 within the force application area 20 connected. The stiffening element 22 is designed as a stiffening strut and partially limits the wheel arch contour between the upper side member 16 and the lower side member 18 in the vehicle longitudinal direction X, in the vehicle transverse direction Y and in the vehicle height direction Z. Here, the stiffening element 22 in a front end region of the upper side member 16 connected to selbigem and extending in extension of the upper side member 16 curved according to the desired wheel arch contour down to the level of the lower longitudinal member 18 with which the stiffening element 22 is also connected. At the height of the lower side member 18 the stiffening element extends 22 additionally in vehicle transverse direction Y, since the upper side member 16 and the lower side member 18 are arranged offset from each other both in vehicle height direction Z and in the vehicle transverse direction Y. The stiffening element 22 is thus substantially L-shaped, with a longitudinal ridge 32 and a crossbar 34 , where the longitudinal ridge 32 essentially in the XZ plane and the crosspiece 34 extends substantially in the XY plane. The longitudinal bar 32 is to limit the desired wheel arch contour in the front wheel arch area 14 correspondingly curved. The stiffening elements 22 are with respect to the extension direction of the crosspiece 34 relative to the longitudinal ridge 32 depending on the vehicle side of the front wheel arch area 14 (left or right) formed differently, since the transverse webs 34 must extend in mutually substantially opposite directions.

As in 3 shown, the stiffening element 22 in addition to its stiffening function for the bodyshell structure 12 also as a carrier element for one or more Fahrzeugfunktionsag aggregates 23 be used. Such vehicle functional aggregates 23 For example, a washing water tank 24 , a coolant line 26 or alternatively or additionally suitable, in the front wheelhouse area 14 be aggregates to be arranged. Such other units may be, for example, a compressor and / or a coolant reservoir and / or an electrical line. In the embodiment of 3 are two separate wash water tanks 24 shown in the front wheelhouse area 14 are arranged. This can be the vehicle functional units 23 non-destructively separable and in particular by means of a screw connection and / or plug connection and / or clamping connection to the stiffening element 22 or on adjacent structural elements of the bodyshell structure 12 be attached.

According to the 4 and 5 is the stiffening element 22 each end with a flange-like connection area 28 . 30 Mistake. The flange-like connection area 28 serves for fastening the longitudinal web 32 of the stiffening element 22 at the upper cross member 16 while the connection area 30 for fixing the crosspiece 34 on the lower side member 18 serves. The fastenings of the stiffening element 22 on the upper side member 16 and on the lower side member 18 are each realized by means of a screw connection. Alternatively, resistance spot welds or other suitable connection system for attachment of the stiffening element 22 with the upper side member 16 and the lower side member 18 be provided.

The stiffening element 22 is tubular with an edge profile shaped cross-section. Such a stiffening element 22 can be made for example by means of hydroforming.

For every wheelhouse area 14 the vehicle body 10 a selbigen space-limiting shielding, for example, from a suitable plastic, can be provided. Also for attachment of the shielding element, the stiffening element 22 possibly serve as a carrier element.

The bodyshell structure 12 with the stiffening element 22 is characterized by the fact that operating forces and in particular Radfederkräfte can be safely absorbed, while a relatively large space in the front wheel arch area of the shell structure can be used at the same time. Furthermore, in the realization of the stiffening element (hollow profile) and the shielding element (plastic) lightweight concepts can be realized while ensuring a sufficiently high stability of the body shell structure or the vehicle body.

Claims (12)

Vehicle body ( 10 ) with a bodyshell structure ( 12 ), which in a respective front wheelhouse area ( 14 ) an upper side member ( 16 ) and a lower side member ( 18 ), wherein the bodyshell structure ( 12 ) in the respective wheel arch area ( 14 ) an associated force introduction area ( 20 ) for a wheel spring, characterized in that the bodyshell structure ( 12 ) in the respective wheel arch area ( 14 ) a the upper side member ( 16 ) and the lower side member ( 18 ) connecting, strut-shaped and partially the wheel arch contour in the vehicle longitudinal direction (X) and in vehicle height direction (Z) limiting stiffening element ( 22 ), for stiffening the bodyshell structure ( 12 ) within the associated force introduction range ( 20 ). Vehicle body according to claim 1, characterized in that the stiffening element ( 22 ) in a front end region of the upper longitudinal member ( 16 ) is connected to selbigem. Vehicle body according to one of the preceding claims, characterized in that the stiffening element ( 22 ) a carrier element for at least one vehicle functional unit ( 23 ). Vehicle body according to claim 3, characterized in that the vehicle functional unit ( 23 ) a washing water container ( 24 ) and / or a compressor and / or a coolant compensation container and / or a coolant line ( 26 ) and / or an electrical line. Vehicle body according to claim 3 or 4, characterized in that the vehicle functional unit ( 23 ) nondestructive and in particular by means of a screw connection and / or plug connection and / or clamping connection to the stiffening element ( 22 ) is attached. Vehicle body according to one of the preceding claims, characterized in that the stiffening element ( 22 ) is tubular. Vehicle body according to one of the preceding claims, characterized in that the stiffening element ( 22 ) has an edge profile profile. Vehicle body according to one of the preceding claims, characterized in that the stiffening element ( 22 ) is a hydroformed Rohbauteil. Vehicle body according to one of the preceding claims, characterized in that the stiffening element ( 22 ) at each end a flange-like connection region ( 28 . 30 ) having. Vehicle body according to one of the preceding claims, characterized in that the stiffening element ( 22 ) with the upper side member ( 16 ) and with the lower side member ( 18 ) is connected by means of resistance spot welds. Vehicle body according to one of the preceding claims, characterized in that it is suitable for each wheel housing area ( 14 ) Has a selbigen space-limiting shielding. Vehicle body according to claim 11, characterized in that that the shielding element is made of a plastic.