Vehicle assembly tool

What is claimed is: 1 . A vehicle assembly tool comprising: a tooling framework: a vehicle control arm caster and camber setting tool secured to the framework; nut runners secured to the framework and configured to engage fasteners to rotatably fix a vehicle control arm to a vehicle frame; and a half shaft pressing tool secured to the framework and configured to press a half shaft into a vehicle axle. 2 . The tool of claim 1 , wherein the caster and camber setting tool is secured to the framework via a fixture that is rotatably secured to the framework and configured to rotate about a yaw axis relative to the vehicle frame. 3 . The tool of claim 2 , wherein the caster and camber setting tool includes a pair of locating blocks, each block configured to contact one of a pair of pivot hubs of the control arm and collectively rotate about the yaw axis via the fixture to set the caster and camber positions of the control arm relative to the vehicle frame. 4 . The tool of claim 3 further comprising a stop block secured to the fixture along a linear path, the stop block configured to extend into a void defined by the control arm to limit outward transverse movement of the control arm relative to the vehicle frame. 5 . The tool of claim 3 , wherein the nut runners are secured to the fixture along linear paths and configured to advance and engage fasteners extending through the pivot hubs to fix a rotatable position of the control arm relative to the vehicle frame. 6 . The tool of claim 1 , wherein the pressing tool is secured to the framework along a linear path and is configured to engage a first end of the half shaft and advance to press a second end of the half shaft into a vehicle axle. 7 . The tool of claim 1 further comprising a lifting arm secured to the framework, the lifting arm configured to contact a bottom surface of the vehicle control arm and lift the control arm such that the control arm rotates upwards about pivot hubs of the control arm relative to the vehicle frame. 8 . A vehicle assembly tool comprising: a framework configured to lower into an advanced position over a vehicle frame; a fixture rotatably secured to the framework and configured to rotate about a yaw axis relative to the vehicle frame; a pair of locating blocks secured the fixture, each block configured to contact one of a pair of pivot hubs of a vehicle control arm and collectively rotate about the yaw axis via the fixture to set the caster and camber positions of the control arm relative to the vehicle frame; first and second nut runners secured to the fixture along first and second linear paths, respectively, and configured to advance and engage fasteners extending through the pivot hubs to fix a rotatable position of the control arm relative to the vehicle frame; and a pressing tool secured to the framework along a linear path and configured to engage a first end of a half shaft and advance to press a second end of the half shaft into a vehicle axle. 9 . The tool of claim 8 further comprising a stop block secured to the fixture along a linear path, the stop block configured to extend into a void defined by the control arm to limit outward transverse movement of the control arm relative to the vehicle frame. 10 . The tool of claim 9 further comprising a pneumatic cylinder configured to advance and retract the stop block. 11 . The tool of claim 8 further comprising a lifting arm secured to the framework, the lifting arm configured to contact a bottom surface of the vehicle control arm and lift the control arm such that the control arm rotates upwards about pivot hubs of the control arm relative to the vehicle frame. 12 . The tool of claim 8 further comprising a servo motor configured to rotate the fixture about the yaw axis. 13 . The tool of claim 8 further comprising first and second pneumatic cylinders configured to advance and retract the first and second nut runners, respectively. 14 . A vehicle assembly tool comprising: locating blocks configured to engage backsides of pivot hubs of a vehicle control arm and collectively rotate about a yaw axis relative to a vehicle frame to set the caster and camber positions of the control arm; a pair of nut runners configured to engage fasteners to rotatably fix the pivot hubs to the frame; and a pressing tool configured to press a half shaft into a vehicle axle. 15 . The tool of claim 14 , wherein the locating blocks, pair of nut runners, and pressing tool are secured to a framework that is configured to lower into an advanced position over the vehicle frame. 16 . The tool of claim 15 , wherein the locating blocks are secured to the framework via a fixture that is rotatably secured to the framework and is configured to rotate about the yaw axis relative to the vehicle frame. 17 . The tool of claim 16 , wherein the pair of nut runners are secured to the fixture along linear paths and configured to advance and engage fasteners extending through the pivot hubs to fix a rotatable position of the control arm relative to the vehicle frame. 18 . The tool of claim 16 , wherein the pressing tool is secured to the framework along a linear path and is configured to engage a first end of the half shaft and advance to press a second end of the half shaft into a vehicle axle. 19 . The tool of claim 16 further comprising a servo motor configured to rotate the fixture about the yaw axis. 20 . The tool of claim 15 further comprising a lifting arm secured to the framework, the lifting arm configured to contact a bottom surface of the vehicle control arm and lift the control arm such that the control arm rotates upwards about pivot hubs of the control arm relative to the vehicle frame.