Vehicle inboard suspension system

We claim: 1. A vehicle suspension system, comprising: a unitized frame having a passenger compartment; a control arm assembly coupled to the frame, the assembly comprising upper and lower control arms and a steering knuckle pivotally coupled between the upper and lower control arms; a pushrod coupled to the upper control arm extending above the upper control arm, forming a first angle with the upper control arm along a first axis, the first angle ranging from 80 to 100 degrees at ride height, and forming a second angle with the upper control arm along a second axis, the second angle ranging from 110 to 130 degrees at ride height; a bell crank disposed adjacent to the upper control arm between the passenger compartment and the pushrod, comprising a cylindrical portion rotationally coupled to the frame, and comprising first and second arms extending from the cylindrical portion, the arms forming an angle with each other through the bell crank's center of rotation, the bell crank arm angle ranging from 115 degrees to 130 degrees at ride height, the first arm pivotally coupled to the pushrod and forming an angle with the pushrod ranging from 80 to 100 degrees at ride height; and a shock assembly coupled to the second bell crank arm and the frame, forming an angle with the second bell crank arm ranging from 100 to 110 degrees at ride height, the shock-bell crank arm angle facing a direction opposite the bell crank arm angle, and the shock assembly disposed between the passenger compartment and the bell crank. 2. The vehicle suspension system of claim 1 , wherein the first angle is 89 degrees at ride height. 3. The vehicle suspension system of claim 1 , wherein the second angle is 120 degrees at ride height. 4. The vehicle suspension system of claim 1 , wherein the bell crank arm angle is 122 degrees at ride height. 5. The vehicle suspension system of claim 1 , wherein the first arm-pushrod angle is 89 degrees at ride height. 6. The vehicle suspension system of claim 1 , wherein the second arm-shock angle is 105 degrees at ride height. 7. The vehicle suspension system of claim 1 , wherein each bell crank arm has a side tangential to the cylindrical portion and a side intersecting the cylindrical portion. 8. The vehicle suspension system of claim 1 , wherein the pushrod is parallel to the bell crank along a plane perpendicular to the second axis. 9. The vehicle suspension system of claim 1 , wherein the shock assembly is parallel to the bell crank along a plane perpendicular to the second axis. 10. The vehicle suspension system of claim 1 , wherein the upper and lower control arms are pivotally coupled to the frame. 11. The vehicle suspension system of claim 1 , wherein the upper control arm is a wishbone control arm having a first upper arm and a second upper arm, the second upper arm disposed between the first upper arm and the passenger compartment. 12. The vehicle suspension system of claim 11 , wherein the pushrod is coupled to the upper control arm at the intersection between the first and second upper arms. 13. The vehicle suspension system of claim 11 , wherein the bell crank is disposed over at least a portion of the second upper arm. 14. The vehicle suspension system of claim 13 , wherein the rotational axis of the cylindrical portion is disposed over a position on the frame where the second upper arm couples to the frame. 15. The vehicle suspension system of claim 1 , wherein the lower control arm is a wishbone control arm having a first lower arm and a second lower arm, the second lower arm disposed between the first lower arm and the passenger compartment. 16. The vehicle suspension system of claim 15 , wherein the second lower arm is coupled to the frame nearer to the passenger compartment than the bell crank. 17. The vehicle suspension system of claim 15 , wherein the shock assembly is disposed at least partially over the second lower arm. 18. The vehicle suspension system of claim 15 , wherein the first lower arm is aligned with a centerline axis of the steering knuckle and the second lower arm is aligned closer to the passenger compartment than the centerline axis of the steering knuckle. 19. The vehicle suspension system of claim 1 , wherein the upper control arm is a wishbone control arm having a first upper arm and a second upper arm, the second upper arm disposed between the first upper arm and the passenger compartment, and wherein the lower control arm is a wishbone control arm having a first lower arm and a second lower arm, the second lower arm disposed between the first lower arm and the passenger compartment, wherein the second lower arm is coupled to the frame closer to the passenger compartment than the second upper arm, and wherein the first lower arm is disposed closer to the passenger compartment than the first upper arm. 20. The vehicle suspension system of claim 1 , the frame further comprising a firewall separating an engine compartment formed by the frame from the passenger compartment, wherein the shock assembly is coupled to the firewall.