Transmission having variable output orientation and debris control

The invention claimed is: 1. A conveying surface for selectively conveying articles carried thereon from a first direction to a second direction different from the first direction, the conveying surface comprising: a. a power source; and b. a plurality of transmissions for conveying articles thereon, each of the plurality of transmissions comprising an output roller embedded into the transmission with an exposed portion of the output roller extending above a top surface of the transmission to define the conveying surface, the output roller of each transmission independently rotating about a first axis of rotation perpendicular to the conveying surface to move articles from the first direction to the second direction, the output roller of each transmission rotated by the power source about a second axis of rotation parallel to the conveying surface to convey articles carried thereon along the conveying surface, wherein the transmission further comprises a debris control structure encapsulating the output roller below the top surface to control debris migration into the transmission, the debris control structure comprising: i) a cap covering a top of the transmission having the top surface thereon and including at least one opening in the cap conforming closely to an arcuate periphery of the exposed portion of the output roller to minimize a gap therebetween, ii) a shell interconnecting with the cap to encapsulate unexposed portions of the output roller in an encapsulation to control migration of debris, and iii) an axle extending along the second axis and through axle openings in the encapsulation, wherein at least one seal is placed around the axle to engage with the encapsulation to control debris migration therethrough. 2. The conveying surface of claim 1 wherein portions of the at least one opening are arcuately matched to the arcuate periphery of the roller. 3. The conveying surface of claim 1 wherein portions of the at least one opening are at an angle tangent to the arcuate periphery of the roller. 4. The conveying surface of claim 1 wherein the encapsulation further comprises seal grooves surrounding each axle opening, the stationary seal grooves engaging with the seals to prevent migration of debris about the rotating axles. 5. The conveying surface of claim 1 wherein the output roller has an arcuate periphery and the shell has a cupped portion about an underside of the arcuate periphery with a narrow gap therebetween, the narrow gap between the underside of the arcuate roller and the cupped portion of the shell forming a plenum, the plenum configured to channel airflow upwards from the spinning output roller, wherein when debris migrates into the encapsulation and into the plenum, the airflow in the plenum ejects the debris carried therein upwards between the rotating roller and the cupped portion. 6. The conveying surface of claim 5 wherein the cap further comprises an exhaust opening on the backside of the roller positioned to exhaust the debris ejected from the plenum out of the transmission. 7. The conveying surface of claim 5 wherein the gap between the output roller and the cupped portion is sized to bring larger pieces of debris into contact with the rotating output roller, the contact ejecting the debris upwards from the plenum. 8. The conveying surface of claim 5 wherein the cap further comprises an exhaust opening on the backside of the roller positioned to exhaust the debris ejected from contact with the rotating output roller out of the transmission. 9. A conveying surface for selectively conveying articles carried thereon from a first direction to a second direction different from the first direction, the conveying surface comprising: a. a power source; and b. a plurality of transmissions for conveying articles thereon, each of the plurality of transmissions comprising an output roller embedded into the transmission with an exposed portion of the output roller extending above a top surface of the transmission to define the conveying surface, the output roller of each transmission independently rotating about a first axis of rotation perpendicular to the conveying surface to move articles from the first direction to the second direction, the output roller of each transmission rotated by the power source about a second axis of rotation parallel to the conveying surface to convey articles carried thereon along the conveying surface, wherein the transmission further comprises a debris control structure having a stripper configured to remove debris from the roller. 10. The conveying surface of claim 9 wherein the output roller further comprises a groove concentrically located around the second axis and the stripper extends at least partially into the groove to strip debris from the groove and from the arcuate periphery of the output roller. 11. The conveying surface of claim 9 wherein at least a portion of the stripper extending into the groove is flat. 12. The conveying surface of claim 9 wherein at least a portion of the stripper extending into the groove is arcuate. 13. The conveying surface of claim 9 wherein the stripper extending into the groove is attached to the cap at two places. 14. The conveying surface of claim 9 wherein at least a portion of the stripper describes an arcuate path below the arcuate periphery of the exposed portion of the output roller. 15. A conveying surface for selectively conveying articles carried thereon from a first direction to a second direction different from the first direction, the conveying surface comprising: a. a linear power source; and b. a plurality of transmissions for conveying articles thereon, each of the plurality of transmissions comprising: i) an output roller embedded into the transmission with an exposed portion of the output roller extending above a top surface of the transmission to define the conveying surface, the output roller of each transmission independently rotating about a first axis of rotation perpendicular to the conveying surface to move articles from the first direction to the second direction, the output roller of each transmission rotated by the power source about a second axis of rotation parallel to the conveying surface to convey articles carried thereon along the conveying surface, ii) an input roller rotating from contact with the source of linear power and connecting the input roller with the output roller and through a drive train within the transmission and, ii) a debris control structure about the output roller and below the top surface to control debris migration into the transmission and the drive train; wherein the coefficient of friction between the output roller and the conveyed article is higher than the coefficient of friction between the input drive and the source of linear power to act as a torque limiter to protect drive train components when the output roller stops rotating. 16. The conveying surface of claim 15 wherein the input roller is a ferrous material to have a coefficient of friction than an elastomeric output roller. 17. The conveying surface of claim 15 wherein the input roller is steel to prevent abrasion of the input roller from the moving linear source of power. 18. A conveying surface for selectively conveying articles carried thereon from a first direction to a second direction different from the first direction, the conveying surface comprising: a. a power source; and b. a plurality of transmissions for conveying articles thereon, each of the plurality of transmissions comprising: i) an output roller embedded i