System and method for rotational position tracking of brake lathe adjustment assembly

The invention claimed is: 1. An on-car brake lathe system for resurfacing a brake rotor of a vehicle brake assembly, the brake lathe system having an output spindle, said output spindle adapted for coupling to a vehicle wheel hub and rotationally driven about a drive axis, comprising: an aligning joint associated with the output spindle, said aligning joint including a plurality of slant surfaces inclined at an angle relative to an axis of said aligning joint, at least one of said slant surfaces being rotationally adjustable relative to the other, whereby an orientation of said output spindle relative to the vehicle wheel hub is determined by relative rotational positions of each of said slant surfaces; a means for determining a current rotational position of each of said plurality of slant surfaces within said aligning joint; an actuation mechanism for selectively altering said relative rotational positions of said slant surfaces; and a control system configured to determine a relative rotation between said plurality of slant surfaces from said current rotational positions to selectively activate said actuation mechanism to adjust said output spindle relative orientation. 2. The on-car brake lathe system of claim 1 wherein said means for determining said relative rotational position of said slant surfaces includes a stationary Hall Effect sensor disposed to detect a rotational passage of at least one magnetic node associated with each rotationally adjustable slant surface. 3. The on-car brake lathe system of claim 2 wherein each magnetic node is associated with a predetermined position on a rotationally adjustable slant surface. 4. The on-car brake lathe system of claim 1 wherein said actuation mechanism is configured to selectively alter said relative rotational positions of said slant surfaces via bi-directional rotation of at least one of said slant surfaces about said axis of said aligning joint. 5. The on-car brake lathe system of claim 4 wherein said actuation mechanism is configured to selectively alter said relative rotational positions of said slant surfaces during clockwise and counter-clockwise rotation of said aligning joint. 6. The on-car brake lathe system of claim 1 further including a runout measurement system configured to measure axial runout between said output spindle drive axis and a rotational axis of said vehicle wheel hub; wherein said control system is configured to utilize a measure of axial runout, together with a determined relative rotational position of said slant surfaces, to calculate a required change in said relative rotational position of said slant surfaces which will reduce said axial runout to below an acceptable threshold; and wherein said control system is configured to activate said actuation mechanism to rotationally adjust at least one of said slat surfaces relative to another of said slant surfaces to impart said required change in said relative rotational position of said slant surfaces. 7. The on-car brake lathe system of claim 6 wherein said required change in said relative rotational position is a minimum required change. 8. The on-car brake lathe system of claim 6 wherein said control system is further configured to generate for display to an operator one or more of, a representation of an amount of time required to reduce said axial runout to below said acceptable threshold based on said determined relative rotational position of said slant surfaces, each calculated required change in said relative rotational positions of said slant surfaces, an amount of change in said relative rotational position of said slant surfaces imparted by said actuation mechanism during one revolution of said aligning joint about said axis of said aligning joint, and a rotational speed of said aligning joint. 9. The on-car brake lathe system of claim 1 wherein said actuation mechanism includes: a pawl mechanism disposed in a fixed position relative to said aligning joint, said pawl mechanism having a clockwise-engaging pawl arm and a counter-clockwise-engaging pawl arm, each of said pawl arms coupled to a linear actuator for radial linear movement relative to said aligning joint; and for each slant surface within said aligning joint, two pairs of star gears operatively engaged to rotationally drive said slant surface about said aligning joint axis, a first pair of said star gears configured to rotationally advance said slant surface in a direction of rotation of said aligning joint when engaged by one pawl arm of said pawl mechanism, and a second pair of said star gears configured to rotationally advance said slant surface opposite to said direction of rotation of said aligning joint when engaged by another pawl arm of said pawl mechanism. 10. The on-car brake lathe system of claim 9 wherein said pawl mechanism is configured to selectively engage said first and second pairs of star gears with said clockwise-engaging pawl arm by radially-inward linear movement during clockwise rotation of said aligning joint; and wherein said pawl mechanism is configured to selectively engage said first and second pairs of star gears with said counter-clockwise-engaging pawl arm by radially-inward linear movement during counter-clockwise rotation of said aligning joint. 11. The on-car brake lathe system of claim 1 wherein said plurality of slant surfaces includes a first rotationally adjustable slant disc coaxially located on said axis of said aligning joint, having a first axial face inclined at an angle relative to said axis, a second rotationally adjustable slant disc coaxially located on said axis of said aligning joint, having a second axial face inclined at an angle relative to said axis, said second axial face presented towards said first axial face, wherein a rotational orientation of said first slant disc about said axis is independently adjustable from a rotational orientation of said second slant disc about said axis, and wherein said aligning joint further includes an annular bearing disposed between said first and second rotationally adjustable slant discs.