Self adjustable rotor for sugar cane harvester

What is claimed is: 1. A rotor assembly for a sugar cane harvester having a flow of sugar cane stalks in a random array along the ground over which the sugar cane harvester traverses, said rotor assembly comprising: a cylinder assembly mounted for rotation about an axis that is perpendicular to the flow of material through said harvester; a motor mounting the cylinder for powered rotation about its axis to move sugar cane stalks in a downstream direction; a plurality of axially extending ribs for providing additional traction on the cut sugar cane stalks; a plurality of radially extending fingers projecting from said cylinder to be embedded in between cut sugar cane stalks; an assembly mounting said motor and said cylinder for displacement toward and away from the ground; an actuator connected to said assembly for displacement between a position close to the ground and a position further away from the ground; and a system actuating said actuator for maintaining a predetermined uniform downward pressure so as to maintain a consistent pressure on cut sugar cane stalks irrespective of the thickness of the group of stalks relative to the ground. 2. The rotor assembly of claim 1 , wherein the assembly mounting the motor and cylinder is a linkage. 3. The rotor assembly of claim 2 , wherein the linkage extends in a forward direction. 4. The rotor assembly of claim 3 , wherein the linkage includes first and second links, one of which is fixed in length and the other is variable. 5. The rotor assembly of claim 1 , wherein the axially extending ribs have serrations to improve traction. 6. The rotor assembly of claim 1 , wherein the motor is a hydraulic motor. 7. The rotor assembly of claim 1 , wherein the actuator is hydraulic. 8. The rotor assembly of claim 7 , further comprising a hydraulic control system for applying a preselected hydraulic pressure to the actuator for applying downward pressure. 9. The rotor assembly of claim 1 , in which the motor is centrally located and mounts a pair of cylinder assemblies extending on either side. 10. A sugar cane harvester comprising: a chassis; a device for providing powered directional ground movement of said chassis; an upstream row crop divider for dividing sugar cane rows and feeding them in a downstream direction; a base cutter assembly receiving sugar cane stalks from said crop divider for severing the stalks at their base; a feeder assembly downstream of the base cutter; a rotor assembly positioned between said base cutter and said feed assembly, said rotor assembly comprising: a cylinder assembly mounted for rotation about an axis that is perpendicular to the flow of material through said harvester; a motor mounting the cylinder for powered rotation about the axis in to move sugar cane stalks in a downstream direction; a plurality of axially extending ribs for providing additional traction on the cut sugar cane stalks; a plurality of radially extending fingers projecting from said cylinder to be embedded in between cut sugar cane stalks; an assembly mounting said motor and said cylinder for displacement toward and away from the ground; an actuator connected to said assembly for displacement between a position closes to the ground and a position away from the ground; and a system actuating said actuator for maintaining a predetermined uniform downward pressure so as to maintain a consistent pressure on cut sugar cane stalks irrespective of the thickness of the group of stalks relative to the ground. 11. The sugar cane harvester of claim 10 , in which the assembly mounting said motor and cylinder is a linkage connected to said chassis. 12. The sugar cane harvester of claim 11 , wherein the linkage extends in a forward direction. 13. The sugar cane harvester of claim 12 , wherein the linkage includes first and second linkage links, one of which is fixed in length and the other is variable. 14. The sugar cane harvester of claim 10 , wherein the ribs are serrated for improved traction. 15. The sugar cane harvester of claim 10 , wherein the motor is a hydraulic motor. 16. The sugar cane harvester of claim 10 , wherein the actuator is hydraulic. 17. The sugar cane harvester of claim 16 , further comprising a hydraulic control system for applying a variable pressure to said actuator to apply uniform pressure on the sugar cane stalks. 18. The sugar cane harvester of claim 10 , wherein the motor includes a pair of cylinders extending on either side and being co-driven by said motor. 19. The sugar cane harvester of claim 18 , for harvesting two rows of sugar cane stalks by utilizing the pair of cylinders mounted on said motor.