Belly pan and energy absorption system for a motor vehicle

What is claimed: 1 . A belly pan for a motor vehicle, comprising: a body including at least one stiffener having a forwardmost zone with a peak section force F 1 , an intermediate zone with a peak section force F 2 and a rearwardmost zone with a peak section force F 3 wherein F 1 <F 2 <F 3 . 2 . The belly pan of claim 1 , wherein said at least one stiffener is integrated into said body by unitary construction. 3 . The belly pan of claim 2 , wherein said body and said at least one stiffener are molded from a material selected from a group consisting of polypropylene, reinforced polypropylene, steel and combinations thereof. 4 . The belly pan of claim 1 , including two stiffeners, one stiffener of said two stiffeners being provided adjacent each lateral end of said belly pan. 5 . The belly pan of claim 1 , wherein said first peak section force F 1 is between about 3 kN and about 5 kN. 6 . The belly pan of claim 5 , wherein said second peak section force F 2 is between about 10.5 kN and about 12.5 kN. 7 . The belly pan of claim 6 , wherein said third peak section force F 3 is between about 15 kN and about 17 kN. 8 . An energy absorption system for a motor vehicle, comprising: a vehicle frame including a lower load path; and a belly pan forward of said lower load path, said belly pan having a body including a stiffener having a forwardmost zone with a peak section force F 1 , an intermediate zone with a peak section force F 2 and a rearwardmost zone with a peak section force F 3 where F 1 <F 2 <F 3 . 9 . The system of claim 8 wherein said stiffener is aligned with said lower load path. 10 . The system of claim 9 wherein said stiffener is integrated into said body by unitary construction. 11 . The system of claim 10 wherein said peak section force F 1 is between about 3 kN and about 5 kN. 12 . The system of claim 11 , wherein said peak section force F 2 is between about 10.5 kN and about 12.5 kN. 13 . The cup holder system of claim 12 , wherein said peak section force F 3 is between about 15 kN and about 17 kN. 14 . A method of enhancing pedestrian safety while minimizing low speed collision damage to a motor vehicle, comprising: equipping said motor vehicle with a belly pan providing gradually increasing levels of stiffness from a forwardmost zone to a rearwardmost zone. 15 . The method of claim 14 , including providing said belly pan with at least one stiffener having a forwardmost zone with a peak section force F 1 , an intermediate zone with a peak section force F 2 and a rearwardmost zone with a peak section force F 3 where F 1 <F 2 <F 3 . 16 . The method of claim 15 , including tuning stiffness characteristics of said forwardmost zone, said intermediate zone and said rearwardmost zone to desired levels by (a) using different materials for construction of said forwardmost zone, said intermediate zone and said rearwardmost zone, (b) using different profiles of material for said forwardmost zone, said intermediate zone and said rearwardmost zone, or (c) using both different materials and different profiles of materials for said forwardmost zone, said intermediate zone and said rearwardmost zone. 17 . The method of claim 15 , including tuning said forwardmost zone to have a peak section force F 1 of between about 3 kN and about 5 kN, said intermediate zone to have a peak section force F 2 of between about 10.5 kN and about 12.5 kN and said rearwardmost zone to have a peak section force F 3 of between about 15 kN and about 17 kN. 18 . The method of claim 15 , including providing said belly pan with two stiffeners. 19 . The method of claim 18 , including aligning a first of said two stiffeners with a lower load path on a first side of the motor vehicle and aligning a second of said two stiffeners with said lower load path on a second side of the motor vehicle.