Vehicle-mounted crash attenuator

What is claimed is: 1. A crash impact attenuator adapted for deployment on a vehicle, comprising: a cartridge portion comprising at least one energy absorbing module; and a backup system having a backup frame and being adapted to attach the cartridge portion to the vehicle, comprising an actuator configured to pivot the cartridge portion between a deployed orientation and a stored orientation about a pivot axis disposed on a lower half of the backup system, the backup system further comprising a lockout frame member having a contact surface on one end thereof, the lockout frame member being actuatable between a deployed orientation wherein the contact surface engages a portion of the backup frame and a stowed orientation wherein the contact surface is not engaged with the backup frame; wherein the backup frame pivots between a vertical orientation, when the cartridge portion is in its deployed orientation and a horizontal orientation when the cartridge portion is in its stowed orientation. 2. The crash impact attenuator as recited in claim 1 , wherein the cartridge portion is horizontal when in its deployed orientation and vertical when in its stowed orientation. 3. The crash impact attenuator as recited in claim 1 , wherein the lockout frame member is horizontal when in its deployed orientation and vertical when in its stowed orientation. 4. A crash impact attenuator adapted for deployment on a vehicle, comprising: a cartridge portion comprising at least one energy absorbing module; a backup system having a backup frame and being adapted to attach the cartridge portion to the vehicle, comprising an actuator configured to pivot the cartridge portion between a deployed orientation and a stored orientation about a pivot axis disposed on a lower half of the backup system, the backup system further comprising a lockout frame member having a contact surface on one end thereof, the lockout frame member being actuatable between a deployed orientation wherein the contact surface engages a portion of the backup frame and a stowed orientation wherein the contact surface is not engaged with the backup frame; wherein the lockout frame member contact surface is adjustable in order to optimize engagement with the backup frame. 5. The crash impact attenuator as recited in claim 4 , wherein the backup frame pivots between a vertical orientation, when the cartridge portion is in its deployed orientation and a horizontal orientation when the cartridge portion is in its stowed orientation. 6. The crash impact attenuator as recited in claim 1 , wherein the portion of the backup frame contacted by the lockout frame member contact surface is located above the pivot axis. 7. The crash impact attenuator as recited in claim 4 , wherein the lockout frame member contact surface comprises an adjustable bolt head. 8. The crash impact attenuator as recited in claim 1 , and further comprising a second lockout frame member having a second contact surface adapted to engage a second portion of the backup frame. 9. The crash impact attenuator as recited in claim 1 , wherein the portion of the backup frame contacted by the lockout frame member contact surface is located on an upper half of the backup frame. 10. A method of deploying a crash impact attenuator disposed on a rear portion of a host vehicle, comprising: pivoting a backup frame joining a cartridge portion of the crash impact attenuator to the host vehicle from a horizontal orientation to a vertical orientation and simultaneously pivoting the cartridge portion from a stowed orientation to a deployed orientation, wherein the cartridge portion extends horizontally behind the rear portion of the host vehicle, the pivoting of the backup frame and cartridge portion occurring about a pivot axis disposed along a lower half of the backup frame; and moving a lockout frame member from a stowed orientation to a deployed orientation, so that a contact surface on one end of the lockout frame member engages a portion of the backup frame. 11. The method as recited in claim 10 , wherein the step of pivoting the backup frame is performed prior to the step of moving the lockout frame member. 12. The method as recited in claim 10 , and further comprising a step of adjusting a position of the contact surface to optimize engagement with the portion of the backup frame. 13. The method as recited in claim 12 , wherein the adjusting step is performed by threading a bolt head to extend or reduce a length of the lockout frame member. 14. The method as recited in claim 10 wherein the step of moving the lockout frame member further comprises moving a second lockout frame member, so that a second contact surface on one end of the second lockout frame member engages a second portion of the backup frame. 15. The method as recited in claim 10 , wherein the step of moving the lockout frame member comprises pivoting the lockout frame member from its stowed position, which is vertical, to its deployed position, which is horizontal. 16. The method as recited in claim 10 , wherein the portion of the backup frame engaged by the contact surface of the lockout frame member is located above the pivot axis.