초록 ▼

A vehicle crash cushion for decelerating a vehicle includes first, second and third bays. The first bay is positioned forwardly of the second bay and the second bay is positioned forwardly of the third bay. The first, second and third bays each have energy absorbing structures with first, second and

A vehicle crash cushion for decelerating a vehicle includes first, second and third bays. The first bay is positioned forwardly of the second bay and the second bay is positioned forwardly of the third bay. The first, second and third bays each have energy absorbing structures with first, second and third impact strengths respectively. The first impact strength is greater than the third impact strength, which is greater than the second impact strength.

대표청구항 ▼

What is claimed is: 1. A vehicle crash cushion for decelerating a vehicle comprising: a plurality of support members at least some of which are moveable in a longitudinal direction from an initial position to an impact position, wherein said plurality of support members are spaced apart in said lon

What is claimed is: 1. A vehicle crash cushion for decelerating a vehicle comprising: a plurality of support members at least some of which are moveable in a longitudinal direction from an initial position to an impact position, wherein said plurality of support members are spaced apart in said longitudinal direction and define at least in part first, second and third bays between respective pairs of said support members when said support members are in said initial condition, wherein said first bay is positioned forwardly of said second bay and said second bay is positioned forwardly of said third bay; and wherein said first, second and third bays comprise first, second and third energy absorbing structures respectively, wherein said first, second and third energy absorbing structures have first, second and third impact strengths respectively, wherein said first impact strength is greater than said second and third impact strengths and wherein said third impact strength is greater than said second impact strength, wherein said second, third and first bays are collapsible in sequential order as respective support members defining at least in part each of said second, third and first bays are moved in said longitudinal direction from said initial condition to said impact position. 2. The vehicle crash cushion of claim 1 further comprising a plurality of side panels connected to said plurality of support members and defining at least in part said first, second and third bays, wherein at least one of said first, second and third energy absorbing structures comprises a strap connected between one of said support members and one of said side panels defining a respective one of said first, second and third bays. 3. The vehicle crash cushion of claim 2 wherein said strap is further connected to an adjacent side panel positioned rearwardly of said one of said side panels. 4. The vehicle crash cushion of claim 2 wherein said first energy absorbing structure comprises a first strap connected to a side panel defining in part said first bay, said second energy absorbing structure comprises a second strap connected to a side panel defining in part said second bay, and said third energy absorbing structure comprises a third strap connected to a side panel defining in part said third bay. 5. The vehicle crash cushion of claim 4 wherein said second strap is shorter than said first and third straps. 6. The vehicle crash cushion of claim 1 wherein said first, second and third bays have first, second and third lengths respectively, wherein said second length is greater than said first and third lengths. 7. The vehicle crash cushion of claim 1 further comprising a collapsible nose positioned forwardly of said first bay. 8. The vehicle crash cushion of claim 1 further comprising a rigid fourth bay positioned forwardly of said first bay. 9. The vehicle crash cushion of claim 1 wherein said first, second and third bays have first, second and third lengths, wherein said second length is greater than said first and third lengths. 10. A vehicle crash cushion for decelerating a vehicle comprising: a plurality of support members at least some of which are moveable in a longitudinal direction from an initial position to an impact position, wherein said plurality of support members are spaced apart in said longitudinal direction and define at least in part first, second and third bays between respective pairs of said support members when said support members are in said initial condition, wherein said first bay is positioned forwardly of said second bay and said second bay is positioned forwardly of said third bay; and wherein said first, second and third bays comprise first, second and third energy absorbing structures respectively, wherein said first, second and third energy absorbing structures have first, second and third impact strengths respectively, wherein said first impact strength is greater than said second and third impact strengths and wherein said third impact strength is greater than said second impact strength, wherein said second, third and first bays are collapsible in sequential order as respective support members defining at least in part each of said second, third and first bays are moved in said longitudinal direction from said initial condition to said impact position, wherein at least one of said first, second and third energy absorbing structures comprises a deforming member connected to one of said support members, wherein said deforming member is deformably engaged with an attenuator member extending in said longitudinal direction. 11. The vehicle crash cushion of claim 10 wherein said attenuator member comprises a tube. 12. A vehicle crash cushion for decelerating a vehicle comprising: a plurality of support members at least some of which are moveable in a longitudinal direction from an initial position to an impact position, wherein said plurality of support members are spaced apart in said longitudinal direction and define at least in part first, second and third bays between respective pairs of said support members when said support members are in said initial condition, wherein said first bay is positioned forwardly of said second bay and said second bay is positioned forwardly of said third bay; and wherein said first bay is substantially rigid and non-collapsible, and wherein said second and third bays comprise first and second energy absorbing structures respectively, wherein said second and third bays are collapsible as respective support members defining at least in part each of said second and third bays are moved in said longitudinal direction from said initial condition to said impact position. 13. The vehicle crash cushion of claim 12 further comprising a collapsible nose positioned forwardly of said first bay. 14. A method of decelerating a vehicle with a crash cushion comprising: providing said crash cushion comprising first, second and third bays, wherein said first bay is positioned forwardly of said second bay and said second bay is positioned forwardly of said third bay, wherein said first, second and third bays comprise first, second and third energy absorbing structures respectively, wherein said first, second and third energy absorbing structures have first, second and third impact strengths respectively, wherein said first impact strength is greater than said second and third impact strengths and wherein said third impact strength is greater than said second impact strength; and impacting said crash cushion and sequentially collapsing said second, third and first bays. 15. The method of claim 14 further comprising a plurality of side panels connected to said plurality of support members and defining at least in part said first, second and third bays, wherein at least one of said first, second and third energy absorbing structures comprises a strap connected between one of said support members and one of said side panels defining a respective one of said first, second and third bays, and wherein said sequentially collapsing said second, third and first bays comprises disconnecting at least a portion of said strap from said one of said side panels. 16. The method of claim 15 wherein said strap is further connected to an adjacent side panel positioned rearwardly of said one of said side panels. 17. The method of claim 15 wherein said first energy absorbing structure comprises a first strap connected to a side panel defining in part said first bay, said second energy absorbing structure comprises a second strap connected to a side panel defining in part said second bay, and said third energy absorbing structure comprises a third strap connected to a side panel defining in part said third bay and wherein said sequentially collapsing said second, third and first bays comprises disconnecting at least a portion of said second, third and first straps from respective ones of said side panels defining in part said second, third and first bays. 18. The method of claim 17 wherein said second strap is shorter than said first and third straps. 19. The method of claim 14 wherein said first, second and third bays have first, second and third lengths respectively, wherein said second length is greater than said first and third lengths. 20. The method of claim 14 wherein said first, second and third bays have first, second and third lengths, wherein said second length is greater than said first and third lengths. 21. A method of decelerating a vehicle with a crash cushion comprising: providing said crash cushion comprising first, second and third bays, wherein said first bay is positioned forwardly of said second bay and said second bay is positioned forwardly of said third bay, wherein said first, second and third bays comprise first, second and third energy absorbing structures respectively, wherein said first, second and third energy absorbing structures have first, second and third impact strengths respectively, wherein said first impact strength is greater than said second and third impact strengths and wherein said third impact strength is greater than said second impact strength, and wherein at least one of said first, second and third energy absorbing structures comprises a deforming member connected to one of said support members; impacting said crash cushion and sequentially collapsing said second, third and first bays; and deforming an attenuator member extending in said longitudinal direction with said deforming member. 22. The method of claim 21 wherein said attenuator member comprises a tube.