BODY MEMBER

Abstract

A body member (1; 41) has at least one outer sheet (2), an inner sheet (3) and a reinforcing structure (10) in a cavity (6) bounded by the inner sheet (3) and the outer sheet (2). The reinforcing structure (10) has at least three ribs (11-15) that extend from the outer sheet (2) toward the inner sheet (3). An expanded structural foam connects at least one of the two outer ribs (11, 15) to the inner sheet (3).

Claims

1. A body member comprising at least one outer sheet, an inner sheet and a reinforcing structure arranged in a cavity bounded by the inner sheet and the outer sheet, the reinforcing structure having at least three ribs extending from the outer sheet toward the inner sheet, the at least three ribs including at least two outer ribs, and an expanded structural foam connecting at least one of the two outer ribs to the inner sheet.

2. The body member of claim 1, wherein at least one of the ribs extending toward the inner sheet has free end spaced from the inner sheet.

3. The body member of claim 2, wherein the reinforcing structure has at least two ribs disposed between the two outer ribs and that have free ends spaced at different distances from the inner sheet.

4. The body member of claim 1, wherein at least one of the outer ribs is connected at a laterally outer side of the free end to the inner sheet by the expanded structural foam.

5. The body member of claim 1, wherein at least one of the outer ribs is connected at both ends to the inner sheet and to the outer sheet by the expanded structural foam.

6. The body member of claim 1, wherein the reinforcing structure is formed from a fiber-reinforced plastics material.

7. The body member of claim 1, wherein the inner sheet and the outer sheet are formed from metal and are connected to each other in a flat and/or punctiform and/or linear manner via corresponding flanges.

8. The body member of claim 1, wherein the reinforcing structure has at least one recessed receiving region for the structural foam.

9. The body member of claim 1, further comprising a metal reinforcing sheet that extends into at least one outer rib of the reinforcing structure.

10. The body member of claim 9, wherein the outer sheet and the reinforcing structure are connected to each other and are defined as a metal/plastics hybrid component.

11. A method for producing the body member of claim 1, comprising fitting the expandable structural foam in the form of beads onto the two outer ribs of the reinforcing structure before the structural foam in the body member expands to connect the outer sheet to the inner sheet via the reinforcing structure.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] FIG. 1 is a cross section of a body member according to a first embodiment with two expanding structural foam beads.

[0020] FIG. 2 shows the body member of FIG. 1 with expanded structural foam.

[0021] FIG. 3 is a cross section of the body member from FIG. 1 with expanded structural foam according to a second exemplary embodiment.

DETAILED DESCRIPTION

[0022] FIGS. 1 to 3 illustrate two exemplary embodiments of a body member 1; 41 in cross section. The body member 1; 41 comprises an outer sheet 2 and an inner sheet 3. The outer sheet 2 has a substantially U-shaped cross-sectional profile, from which two flanges 4.2 and 5.2 emerge.

[0023] The inner sheet 3 likewise has a substantially U-shaped profile, from which two flanges 4.3 and 5.3 emerge. The outer sheet 2 is connected to the inner sheet 3 in an integrally bonded manner via the flanges 4.2, 5.2 and 4.3, 5.3.

[0024] The outer sheet 2 and the inner sheet 3 bound a cavity 6, and a reinforcing structure 10; 30 is arranged in the cavity 6.

[0025] The body member 1; 41 of this embodiment is used as an A pillar in a motor vehicle. The flanges 5.2 and 5.3 are arranged in a direction of travel of a motor vehicle equipped with the body member 1; 41, that is to say toward a windshield of the motor vehicle. The two flanges 4.2 and 4.3 are arranged at the rear in the direction of travel of the motor vehicle, that is to say toward a door of the motor vehicle.

[0026] The flanges 4.2, 4.3 and 5.2, 5.3 advantageously are bonded adhesively and also are spot-welded to provide a stable connection. The flanges 4.2 and 5.2 are connected integrally to the outer sheet 2, and the flanges 4.3 and 5.3 are connected integrally to the inner sheet 3. The inner sheet 3 and the outer sheet 2 advantageously are formed from an ultra-high-strength, hot-formed steel.

[0027] The body member 1 of FIGS. 1 and 2 also comprises a metal reinforcing sheet 7, an organic sheet 8 and a reinforcing sheet 9 for reinforcement. The metal reinforcing sheet 7 advantageously is formed, like the reinforcing sheet 9, from an ultra-high-strength, hot-formed steel. The organic sheet 8 advantageously is formed from a polyamide, in which endless fibers are embedded for reinforcement purposes.

[0028] The metal reinforcing sheet 7 is connected to the outer sheet 2 in an integrally bonded manner, and the organic sheet 8 is connected to the metal reinforcing sheet 7 in an integrally bonded manner. The metal reinforcing sheet 7 therefore is arranged between the outer sheet 2 and the organic sheet 3.

[0029] An upper end, in FIGS. 1 and 2, as viewed in cross section, of the metal reinforcing sheet 7 projects into the cavity 6 and is insert-molded with an outer rib 11 of the reinforcing structure 10. The reinforcing structure 10 is formed from a polyamide into which short glass fibers are embedded for reinforcement purposes.

[0030] An outer rib 15 of the reinforcing structure 10 is connected to a base 18 of the reinforcing structure 10 via the metal reinforcing sheet 7 and the organic sheet 8.

[0031] Three ribs 12, 13, 14 project from the base 18 of the reinforcing structure 10 and extend between the outer ribs 11 and 15 from the outer sheet 2, in more precise terms from the organic sheet 8 or the base 18, in the direction of the reinforcing sheet 9, which is connected to the inner sheet 3 in an integrally bonded manner.

[0032] A central rib 13 is shorter than its adjacent ribs 12 and 14. The ribs 12 and 14 are slightly spaced apart from the reinforcing sheet 9 and the inner sheet 3.

[0033] A structural foam bead 21 is arranged in a recessed receiving region 25 laterally on the outside of the outer rib 11, as shown in FIG. 1. The structural foam bead 21 has contact with the outer rib 11 and also has contact with a free end of the metal reinforcing sheet 7 that is embedded in the outer rib 11.

[0034] A structural foam bead 22 is arranged in a recessed receiving region 26 at a free end of the outer rib 15. The structural foam rib 22 has contact with the outer rib 15 and also has contact with the outer sheet 2.

[0035] The body member 1 illustrated in FIG. 1 is coated in a cathodic dip-coating process. For corrosion protection, the coating is burned in under the action of heat. During the burning-in operation, the body member 1 is exposed to temperatures of, for example, 180-190 C. In the process, the structural foam that is attached to the outer ribs 11 and 15 in the form of the structural foam beads 21, 22 expands.

[0036] During expansion, the structural foam 23, 24 of FIG. 2 swells and adhesively bonds to the inner sheet 2. During curing, the structural foam 23, 24 becomes hard and creates an additional stable connection between the outer sheet 2 and the inner sheet 3 via the reinforcing structure 10. Thus, stable support between the inner and outer sheets 3 and 2 is realized in the cavity 6.

[0037] The body member 41 illustrated in FIG. 3 includes a reinforcing structure 30 having five ribs 31 to 35 in the cavity 6. The reinforcing structure 30 comprises a base 38 that is connected to the outer sheet 2 in an integrally bonded manner.

[0038] The ribs 31 to 35 are integral with the base 38. In contrast to FIGS. 1 and 2, the body member 41 does not comprise a metal-reinforcing sheet (7 in FIG. 1) and an organic sheet (8 in FIG. 1). Thus production costs can be reduced.

[0039] The outer ribs 31 and 35 of the reinforcing structure 30, as in the case of the body member 1 illustrated in FIGS. 1 and 2, are connected fixedly to the inner sheet 3 or to the inner and outer sheets 3 and 2 by the expanded structural foam 54, 55.

[0040] As in the previous embodiment, the structural foam is introduced as structural foam beads 51, 52 in recessed receiving regions 55, 56 of the outer ribs 31 and 35 before the body member 41 is subjected to a cathodic dip-coating process.