Finisher registration system using omnidirectional scuffer wheels

What is claimed is: 1. A sheet registration system with omnidirectional scuffer wheels for use in connection with a finisher for a digital printing system and at least one media sheet moving in a process direction, the registration system comprising: a first scuffer having a first omnidirectional wheel and a second omnidirectional wheel, each one of the first and second wheel having a wheel axis of rotation, the first and second wheels being mounted collinearly for corotation on the wheel axis generally perpendicular to the process direction, each one of the first and second wheel having a plurality of spokes, adjacent spokes having facing trunnions directed toward each other in a pair on a common trunnion axis, each one of the first and second wheel having a plurality of rollers, each roller having a roller length extending between opposite roller ends, each roller having an arcuate curve of a predetermined radius between the roller ends, each roller being mounted for rotation on a pair of the facing trunnions, adjacent rollers on each wheel being spaced apart linearly end-to-end by a distance less than the roller length, each roller on the first wheel partly overlapping each adjacent roller on the second wheel; a scuffer carriage mounted on the finisher over the media sheet, the carriage having an axle mounted generally perpendicular to the process direction, the first scuffer being mounted on the axle for rotation, the carriage being adapted for raising the scuffer upward into a raised position out of contact with the media sheet and for lowering the scuffer downward into a lowered position into contact with the media sheet; driving means for rotationally driving the scuffer, a registration wall disposed generally vertically and facing generally upstream to the process direction, so as to align a leading edge of the media sheet, so that in the lowered position with the scuffer rotating, the overlapping scuffer rollers will provide uninterrupted traction against the media sheet in the process direction, and the scuffer will move the media sheet against the registration wall for process direction registration; and a pair of opposed tamper plates disposed generally vertically and facing one another in the cross process direction on either side of the media sheet, the tamper plates being mounted for translation toward one another, so that during registration the tamper plates will move toward one another pushing the media sheet in the cross process direction, and the freely rotating scuffer rollers will allow free movement of the media sheet in the cross process direction, for cross process registration simultaneously with process direction registration. 2. The sheet registration system of claim 1 , further comprising a second scuffer having a third omnidirectional wheel and a fourth omnidirectional wheel, each one of the third and fourth wheel having a wheel axis of rotation, the third and fourth wheels being mounted collinearly for corotation on the wheel axis generally perpendicular to the process direction, each one of the third and fourth wheel having a plurality of spokes, adjacent spokes having facing trunnions directed toward each other in a pair on a common trunnion axis, each one of the third and fourth wheel having a plurality of rollers, each roller having a roller length extending between opposite roller ends, each roller having an arcuate curve of a predetermined radius between the roller ends, each roller being mounted for rotation on a pair of the facing trunnions, adjacent rollers on each wheel being spaced apart linearly end-to-end by a distance less than the roller length, each roller on the third wheel partly overlapping each adjacent roller on the fourth wheel, the second scuffer being mounted on the axle with the first scuffer for rotation in unison with the first scuffer. 3. The sheet registration system of claim 1 , wherein the driving means further comprises: a drive pulley adapted for receiving power from a power source; a driven pulley mounted collinearly with the axle and operatively connected to the scuffer; and a belt connecting the drive pulley and the driven pulley. 4. The sheet registration system of claim 1 further comprising a scuffer actuator including: a block with internal threads, the block operatively connected to the scuffer carriage; a generally vertical shaft with external threads operatively engaging the block internal threads; and a scuffer drive motor operatively connected to the shaft, so that the motor will rotate the shaft, and the threads will move the block upward and downward, thereby selectively lowering and raising the scuffer. 5. The sheet registration system of claim 1 further comprising a tamper actuator including: a linear guide bar disposed transversely to the process direction; a tamper carriage mounted for linear motion on the linear guide bar, a one of the tamper plates being attached to the tamper carriage; and a tamper drive motor operatively connected to the tamper carriage, so that the drive motor will move the tamper carriage transversely, thereby selectively moving the tamper plate toward the opposed plate, and away from the opposed plate. 6. A sheet registration system with omnidirectional scuffer wheels for use in connection with a finisher for a digital printing system and at least one media sheet moving in a process direction, the registration system comprising: a first scuffer having a first omnidirectional wheel and a second omnidirectional wheel, each one of the first and second wheel having a wheel axis of rotation, the first and second wheels being mounted collinearly for corotation on the wheel axis generally perpendicular to the process direction, each one of the first and second wheel having a hub centered on the wheel axis, and a plurality of spokes, each spoke extending radially outward from a proximal end at the hub to a distal end, each spoke distal end having a pair of opposed trunnions lying in a plane perpendicular to the wheel axis, adjacent spokes having facing trunnions directed toward each other in a pair on a common trunnion axis, each one of the first and second wheel having a plurality of rollers, each roller having a roller axis and a roller length extending along the roller axis between opposite roller ends, each roller having a diameter on the roller axis being greatest intermediate the roller ends, the diameter decreasing toward each of the roller ends in an arcuate curve of a predetermined radius between the roller ends, each roller being mounted for rotation on a pair of the facing trunnions, adjacent rollers on each wheel being spaced apart linearly end-to-end by a distance less than the roller length, adjacent rollers on each wheel being spaced apart angularly center-to-center by a predetermined angular displacement, the first wheel having an angular phase relationship with the second wheel of one half the roller predetermined angular displacement, each roller on the first wheel partly overlapping angularly each adjacent roller on the second wheel; a scuffer carriage mounted on the finisher over the media sheet, the scuffer carriage having an axle mounted on an axle axis generally perpendicular to the process direction, the first scuffer being mounted on the axle for rotation, the scuffer carriage being adapted for raising the scuffer upward into a raised position out of contact with the media sheet and for lowering the scuffer downward into a lowered position into contact with the media sheet; driving means for rotationally driving the scuffer, so that in the lowered position with the scuffer rotating, the overlapping scuffer rollers will provide uninterrupted traction against the media sheet in the process direction; a scuffer actuator for selectively lowering and raising the sc