Low-volume flexographic inking system

The invention claimed is: 1. An inking system for use in transferring ink to a flexographic printing plate in a flexographic printing system, comprising: an anilox member having a cylindrical outer surface, the outer surface including: a first recessed bearing contact zone; a second recessed bearing contact zone; and an ink transfer zone located between the first and second recessed bearing contact zones, the ink transfer zone having a plurality of cells, the cells being indentations in the outer surface of the anilox member configured to transfer ink to the flexographic printing plate; wherein a radius of the outer surface in the first and second recessed bearing contact zones is less than a radius of the outer surface in the ink transfer zone; and an ink tray assembly, including: an ink tray having a floor and first and second end walls; and first and second bearings mounted to the first and second end walls of the ink tray on the outside surface of the first and second end walls of the ink tray, respectively; wherein the first and second bearings engage with the first and second recessed bearing contact zones, respectively, thereby positioning the ink tray assembly in a specified position relative to the anilox member; wherein upper edges of the first and second end walls extend into the first and second recessed bearing contact zones of the anilox member, respectively. 2. The inking system of claim 1 , wherein the first and second end walls include rigid end wall plates, and wherein the first and second bearings extend above upper edges of the end wall plates. 3. The inking system of claim 1 , wherein the first and second end walls include rigid end wall plates, and wherein upper edges of the end wall plates include a curved portion having an end wall radius of curvature. 4. The inking system of claim 3 , wherein the end wall radius of curvature is greater than the radius of the outer surface of the anilox member in the first and second recessed bearing contact zones. 5. The inking system of claim 1 , wherein the floor of the ink tray has a curved portion having a tray radius of curvature. 6. The inking system of claim 5 , wherein the tray radius of curvature is greater than the radius of the outer surface of the anilox member in the ink transfer zone. 7. The inking system of claim 5 , wherein a minimum gap between the floor of the ink tray and the outer surface of the anilox member in the ink transfer zone is at least 0.005 inches. 8. The inking system of claim 1 , wherein the first and second end walls include end seals made of a compressible material, wherein the end seals seal against the outer surface of the anilox member in the ink transfer zone. 9. The inking system of claim 1 , further including a force mechanism that pushes the ink tray assembly against the anilox member with a specified force. 10. The inking system of claim 1 , wherein the inking system is adapted to be mounted within a conventional ink tray, replacing a conventional anilox roller and fountain roller. 11. The inking system of claim 1 , wherein the anilox member includes one or more additional ink transfer zones separated by additional recessed bearing contact zones. 12. The inking system of claim 11 , wherein the ink tray assembly is adapted to be repositioned to supply ink to a selected one of the ink transfer zones. 13. The inking system of claim 11 , wherein the ink tray assembly is positioned to supply ink to one of the ink transfer zones, and further including an additional tray assembly positioned to supply ink to another of the ink transfer zones. 14. The inking system of claim 1 , wherein the radius of the outer surface in the first and second recessed bearing contact zones is less than the radius of the outer surface in the ink transfer zone by at least 0.050 inches. 15. The inking system of claim 1 , wherein the first and second recessed bearing contact zones are at opposite ends of the anilox member. 16. The inking system of claim 1 , wherein said anilox member is adapted to rotate around a roller axis and said first and second bearings are adapted to rotate around a bearing axis which is separate from said roller axis. 17. The inking system of claim 16 , wherein said roller axis is substantially parallel to said bearing axis. 18. The inking system of claim 1 , wherein an outer surface of the first bearing engages with an outer surface of the first recessed bearing contact zone and an outer surface of the second bearing engages with an outer surface of the second recessed bearing contact zone.