Modular media routing system for multi-finisher printers

What is claimed is: 1. A media sheet router for routing media sheets from a digital printer selectively to a plurality of finishers, for use in connection with a first finisher and a bypass finisher, and a media sheet having a lead edge and a trail edge, the media sheet moving in a process direction along a process path, the router comprising: a router inlet path for inputting the media sheet into the router, the router inlet path being adapted for alignment with a process outlet path of the printer; a router first outlet path for outputting the media sheet from the router, the router first outlet path being disposed at ninety degrees to the router inlet path, the router first outlet path being adapted for alignment with a first finisher inlet path; a first turning element mounted on a first axis disposed at forty-five degrees to the router inlet path, the first turning element having a first entry path adapted for receiving the media sheet from the router inlet path, the first turning element being adapted for receiving the media sheet from the first entry path and directing the media sheet in a helical path around the first turning element and discharging the media sheet to the router first outlet path; a bypass transfer for moving the media sheet away from the first entry path and toward a bypass outlet path, so as to bypass the first turning element, the bypass outlet path being adapted for outputting the media sheet from the router, the bypass outlet path being adapted for alignment with a bypass finisher inlet path; a secondary diverter for selectively directing the media sheet onto a one of the first entry path and the bypass transfer; a router second outlet path for outputting the media sheet from the router, the router second outlet path being disposed at ninety degrees to the router inlet path, the router second outlet path being opposed to the router first outlet path, the router second outlet path being adapted for alignment with a second finisher inlet path; a second turning element mounted on a second axis disposed at forty-five degrees to the router inlet path and at ninety degrees to the first axis, the second turning element having a second entry path adapted for receiving the media sheet from the router inlet path, the second turning element being adapted for receiving the media sheet from the second entry path and directing the media sheet in a helical path around the second turning element and discharging the media sheet to the router second outlet path; and a primary diverter for selectively directing the media sheet onto a one of the first entry path and the second entry path; wherein, the router is adapted for moving the media sheet from the digital printer through the router and selectively to the plurality of finishers at full process speed and while maintaining sheet orientation. 2. The media sheet router of claim 1 , further comprising: the first turning element includes a first turning roller mounted for rotation on the first axis, the first turning roller having an outer surface and a circumference, the first turning roller being adapted for directing the media sheet in a helical path around the outer surface of the first turning roller; at least one first transfer belt juxtaposed with the first turning roller outer surface and extending in a helical path partway around the outer surface of the first turning roller and adapted for moving the media sheet along the first entry path and holding the media sheet against the first turning roller outer surface and moving the media sheet along the router first outlet path; the second turning element includes a second turning roller mounted for rotation on the second axis, the second turning roller having an outer surface and a circumference, the second turning roller being adapted for directing the media sheet in a helical path around the outer surface of the second turning roller; and at least one second transfer belt juxtaposed with the second turning roller outer surface and extending in a helical path partway around the outer surface of the second turning roller and adapted for moving the media sheet along the second entry path and holding the media sheet against the second turning roller outer surface and moving the media sheet along the router second outlet path. 3. The media sheet router of claim 1 , further comprising: the first turning element includes a first turning cylinder mounted fixedly on the first axis, the first turning cylinder being hollow, and having a wall, an outer surface, a circumference, and an array of holes through the wall, the first turning cylinder being adapted for directing the media sheet in a helical path around the outer surface of the first turning cylinder; the second turning element includes a second turning cylinder mounted fixedly on the second axis, the second turning cylinder being hollow, and having a wall, an outer surface, a circumference, and an array of holes through the wall, the second turning cylinder being adapted for directing the media sheet in a helical path around the outer surface of the second turning cylinder; at least one first transfer belt juxtaposed with the first turning cylinder outer surface and extending in a helical path partway around the outer surface of the first turning cylinder, the first transfer belt being adapted for moving the media sheet along the first entry path and holding the media sheet against the first turning cylinder outer surface and moving the media sheet along the router first outlet path; at least one second transfer belt juxtaposed with the second turning cylinder outer surface and extending in a helical path partway around the outer surface of the second turning cylinder, the second transfer belt being adapted for moving the media sheet along the second entry path and holding the media sheet against the second turning cylinder outer surface and moving the media sheet along the router second outlet path; an antifriction coating including a layer of air between the first turning cylinder outer surface and the first transfer belt, and between the second turning cylinder outer surface and the second transfer belt; and a blower communicating with the first and second turning cylinders and with the holes, for supplying air to the antifriction coating. 4. The media sheet router of claim 1 , further comprising: the first turning element includes an arcuate first outer turning element concentrically surrounding an arcuate first inner turning element, the first inner and first outer elements extending in a semicircle about the first axis, the first inner and first outer elements extending between opposite ends and being spaced apart to define an arcuate first slot therebetween, the first slot being adapted for receiving the media sheet from the first entry path and directing the media sheet in a helical path through the first slot to the router first outlet path; the second turning element includes an arcuate second outer turning element concentrically surrounding an arcuate second inner turning element, the second inner and second outer elements extending in a semicircle about the second axis, the second inner and second outer elements extending between opposite ends and being spaced apart to define an arcuate second slot therebetween, the second slot being adapted for receiving the media sheet from the second entry path and directing the media sheet in a helical path through the second slot to the router second outlet path; a polymeric antifriction coating inside the first slot on the first inner and first outer elements and inside the second slot on the second inner and second outer elements; at least one first transfer juxtaposed with the first slot, the first transfer being adapted for moving the media sheet along the first entry path; and at least one second transfe