Inker assembly including oscillation rollers for a can body decorator

We claim: 1. An inker assembly having an ink cooling system for a can decorating machine, the inker assembly comprising: an ink well; plural laterally-fixed roller assemblies; plural oscillating roller assemblies including a first oscillating roller assembly and a second oscillator roller assembly; the oscillating roller assemblies and the laterally-fixed roller assemblies adapted for cooperation to transmit ink from the ink well to a plate cylinder of the can decorating machine; a cam system adapted for moving bodies of the oscillating roller assemblies laterally, the cam system including a cam body, a first cam follower, and a second cam follower; each one of the first cam follower and the second cam follower being engaged with the cam body; the first cam follower being coupled to a shaft of the first oscillating roller assembly, the second cam follower being coupled to a shaft of the second oscillating roller assembly; whereby operation of the cam body moves the shaft of the first oscillating roller assembly and the shaft of the second oscillating roller assembly laterally via the first cam follower and the second cam follower; and the ink cooling system including: a recirculating chiller adapted for transferring heat from a coolant; a temperature sensor located in and adapted for sensing temperature of a coolant outlet flow from the oscillating roller assemblies; and a valve and/or a pump adapted to control coolant flow rate during oscillation of the inker assembly to continuously flow the coolant through the inker assembly in response to data from the temperature sensor; wherein at least one of the oscillating roller assemblies is adapted for coolant flow therethrough to indirectly cool the ink. 2. The inker assembly of claim 1 wherein the temperature sensor is a single temperature sensor at an outlet of the inker assembly such that a signal from the temperature sensor represents the coolant outlet temperature of the inker assembly. 3. The inker assembly of claim 1 wherein the valve is further adapted to control the flow rate from a first flow rate to a second flow rate that is different than the first flow rate, wherein the first flow rate and the second flow rate are above zero. 4. The inker assembly of claim 1 wherein the valve and/or the pump is adapted to control coolant flow rate during oscillation of the inker assembly to continuously flow the coolant through the inker assembly in response to data only from the temperature sensor. 5. The inker assembly of claim 1 wherein the bodies of the oscillating roller assemblies include a first oscillator body of the first oscillating roller assembly and a second oscillator body of the second oscillation roller assembly, the shaft of the first oscillator roller assembly supporting the first oscillator body, and the shaft of the second of the oscillator roller assembly supporting the second oscillator body; and the inker assembly further comprises a cam drive transmission for rotating the cam body. 6. The inker assembly of claim 5 , wherein the plural oscillating roller assemblies further include a third oscillating roller assembly, the first oscillating roller assembly is an upper oscillating roller assembly, the second oscillating roller assembly is a left oscillating roller assembly, and the third oscillating roller assembly is a right oscillating roller assembly, each one of the first, second, and third roller assemblies being are oriented circumferentially about the cam body; and each one of the upper, left, and right oscillating roller assemblies is engaged with the cam body. 7. The inker assembly of claim 6 wherein the oscillating roller assemblies are equally spaced about a pitch circle diameter having a center that is coincident with a longitudinal axis of the cam body. 8. The inker assembly of claim 7 wherein the cam body includes a cam body idler gear coupled to the cam body; and each one of the upper, left, and right oscillating roller assemblies includes an oscillating roller drive gear engaged with the cam body idler gear. 9. The inker assembly of claim 8 wherein each one of the first and second cam followers has a cam follower support that is slidably coupled to a frame of the inker assembly such that each one of the first cam follower and the second cam follower is restricted to rotation about a oscillating roller assembly longitudinal axis and translation along the oscillating roller assembly longitudinal axis. 10. The inker assembly of claim 9 wherein the laterally-fixed roller assemblies include a left distributor roller assembly and a right distributor roller assembly, the left distributor roller assembly engaged with the upper oscillating roller assembly and the left oscillating roller assembly, the right distributor roller assembly engaged with the upper oscillating roller assembly and the right oscillating roller assembly. 11. The inker assembly of claim 10 wherein the laterally-fixed roller assemblies include a left form roller assembly and a right form roller assembly, the left form roller assembly is engaged with the left oscillating roller assembly, the right form roller assembly is engage with the right oscillating roller assembly, and each one of the left and right form roller assemblies engage the plate cylinder. 12. The inker assembly of claim 6 wherein each one of the oscillating roller assemblies includes at least one support bearing mounted to an inker assembly frame. 13. The inker assembly of claim 12 wherein each oscillating roller assembly support bearings includes a lubricant supply gallery, a lubricant recovery housing, and a lubricant return gallery. 14. The inker assembly claim 13 further comprising a closed loop lubrication system adapted for supplying lubricant to the oscillating roller assembly support bearings and receiving lubricant from oscillating roller assembly support bearings. 15. The inker assembly of claim 6 wherein a body of the oscillating roller assemblies have internal passages adapted for water cooling. 16. A can decorator machine comprising plural inker assemblies, each one of the plural inker assemblies as claimed in claim 1 . 17. A can decorator machine of claim 16 wherein the temperature sensor is a single temperature sensor in a common flow of all or a portion of the inker assemblies. 18. A can decorator machine of claim 16 wherein the temperature sensor is plural temperature sensors, such that each inker assembly includes one temperature sensor, and each one of the inker assemblies has its own control valve, thereby enabling coolant temperature control of ink to each inker assembly independent of coolant temperature control of ink to the other inker assemblies.