Claims
- 1. An anti-intrusion beam for reinforcing a vehicle door assembly comprising:
an outer skin formed from a polymer composite material including a fiber reinforcement, said outer skin being formed from a plurality of layers of polymer composite material with the fiber reinforcement in the layers being arranged in different directions.
- 2. The anti-intrusion beam of claim 1 further comprising:
an interior core formed from a foam.
- 3. The anti-intrusion beam of claim 2 wherein said interior core is formed from high density foam plastic.
- 4. The anti-intrusion beam of claim 2 wherein said outer skin layer is formed into a linearly extending, transversely corrugated shape including opposing side attachment flanges to receive fasteners mounting said anti-intrusion beam to a support member, said opposing side attachment flanges are formed with substantially the same corrugated shape as the remainder of said reinforcing beam.
- 5. The anti-intrusion beam of claim 4 wherein said linearly extending shape includes a pair of body members separated by an attachment web, each of said body members including said interior core.
- 6. The anti-intrusion beam of claim 5 wherein said attachment flanges and said attachment web are formed from said outer skin.
- 7. The anti-intrusion beam of claim 6 wherein said plastic material in said interior core is polyurethane.
- 8. The anti-intrusion beam of claim 7 wherein said fibers in said outer skin is from the group of glass and carbon.
- 9. A door assembly for an automotive vehicle comprising:
an outer door panel; an inner door panel affixed to said inner door panel to form a cavity therebetween; and a linearly extending anti-intrusion beam formed of a plurality of layers of composite materials laminated together and mounted to said inner door panel within said cavity by fasteners located at opposing ends of said anti-intrusion beam.
- 10. The door assembly of claim 9 wherein said beam has a transversely corrugated configuration, said inner door panel being formed with mounting lugs arranged in a corrugated pattern corresponding to said beam, said beam having attachment areas formed in said corrugated configuration to receive said fasteners.
- 11. The door assembly of claim 9 wherein said corrugated configuration of said beam includes:
a pair of body portions; an attachment web separating said body portions; and opposing side attachment flanges extending laterally, respectively, from said body portions, said attachment flanges and said attachment web being adapted to receive said fasteners for mounting said anti-intrusion beam to the mounting lugs of said inner door panel.
- 12. The door assembly of claim 11 wherein each said layer of said composite material includes fiber reinforcement arranged in a directional pattern, successive layers of said beam having said directional pattern oriented in different directions, thus forming an anisotropic composite reinforcing beam.
- 13. The door assembly of claim 12 wherein said body portions are formed with an interior core made of foam.
- 14. The door assembly of claim 13 wherein said interior core is made of high density foam plastic, said fiber reinforcement being from the group consisting of glass and carbon fibers.
- 15. The door assembly of claim 11 wherein a frame catcher is inserted into at least one of opposing ends of said anti-intrusion beam to interlock said anti-intrusion beam with a frame member of said automotive vehicle.
- 16. The door assembly of claim 15 wherein said frame catcher includes a pair of prongs that extend into said body portions and a hook member that projects away from said anti-intrusion beam to engage said frame member.
- 17. A method of forming a vehicle door assembly, comprising the steps of:
forming an inner door panel with a peripheral edge extending around said inner door panel and forward and rearward mounting lugs positioned inwardly of said peripheral edge; providing an anti-intrusion beam formed of composite materials into a configuration having a pair of body members separated by an attachment web with a pair of attachment flanges extending laterally outwardly from said body members; and connecting said anti-intrusion beam to said inner door panel by attaching opposing ends of said anti-intrusion beam, respectively, to said forward and rearward mounting lugs, said anti-intrusion beam.
- 18. The method of claim 17 wherein said providing step includes the step of manufacturing said anti-intrusion beam in a transversely corrugated configuration including attachment areas for connection to said inner door panel, said forming step including the step of arranging said mounting lugs in a corrugated configuration corresponding to said anti-intrusion beam.
- 19. The method of claim 18 wherein said providing step includes the step of:
laminating said anti-intrusion beam with a plurality of layers of composite material incorporating reinforcement fibers extending in a directional orientation to form an anisotropic beam.
- 20. The method of claim 19 wherein said providing step includes the step of:
manufacturing said anti-intrusion beam with said reinforcement fibers being from the group consisting of glass and carbon; and manufacturing said body members with an interior core formed of polyurethane.
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] This application claims domestic priority on U.S. Provisional Patent Application Serial No. 60/371,098, filed Apr. 9, 2002, the contents of which are incorporated herein by reference.
Provisional Applications (1)
|
Number |
Date |
Country |
|
60371098 |
Apr 2002 |
US |