Control system and method for controlling two banks of adjustable vanes on a cylindrical rotor cage of an agricultural harvester

What is claimed is: 1. A threshing system for use in an agricultural harvester, the threshing system comprising: a rotor cage with a plurality of slots therein, the rotor cage having an outer generally cylindrical surface; a plurality of banks of adjustable vanes pivotally coupled to the rotor cage including a first bank of vanes and a second bank of vanes; and an adjustable vane control system coupled to the rotor cage, the adjustable vane control system including: a first member pivotally coupled to each of the vanes in the first bank of vanes through corresponding ones of the slots; a second member pivotally coupled to each of the vanes in the second bank of vanes through corresponding ones of the slots; a first linkage; a second linkage; and an arm having an end that is coupled to the first member by way of the first linkage, the arm having an opposite end that is coupled to the second member by way of the second linkage, the first member and the second member each having a range of travel defined by the slots, the first member and the second member each having a surface facing the outer surface of the rotor cage, the surface of the first member and the surface of the second member each remaining tangent to the outer surface of the rotor cage as the first member and the second member are moved within their range of travel. 2. The threshing system of claim 1 , wherein the first linkage has a longitudinal axis that is arranged to be substantially parallel to a tangent of the slots associated with the first bank of adjustable vanes when the first member is approximately at a midpoint in the range of travel. 3. The threshing system of claim 2 , wherein the second linkage has a longitudinal axis that is arranged to be substantially parallel to a tangent of the slots associated with the second bank of adjustable vanes when the second member is approximately at a midpoint in the range of travel. 4. The threshing system of claim 3 , wherein the first linkage and the second linkage are substantially coordinated so that the longitudinal axis of the first linkage is arranged to be substantially parallel to the tangent of the slots associated with the first bank of adjustable vanes and the longitudinal axis of the second linkage is arranged to be substantially parallel to the tangent of the slots associated with the second bank of adjustable vanes when the arm is at approximately a midpoint in a pivotal range of motion of the arm. 5. The threshing system of claim 1 , wherein a force that is applied to the first member by the first linkage and the force that is applied to the second member by the second linkage are parallel to the direction of vane travel when the first member and the second member are at a midpoint of their range of travel. 6. The threshing system of claim 1 , wherein the arm is arranged generally half way between the first member and the second member. 7. The threshing system of claim 6 , wherein the arm has a pivot axis that is positioned substantially half way between the first member and the second member and normal to the outer surface of the rotor cage. 8. The threshing system of claim 7 , wherein the arm is arranged to allow substantially equal and opposite movement of the first bank of vanes relative to the second bank of vanes. 9. The threshing system of claim 1 , wherein the slots are oversized in length to reduce crop pinching of the control system. 10. The threshing system of claim 9 , wherein at least one slot has a notch that provides a hard stop to the movement of the banks of vanes. 11. The threshing system of claim 1 , further comprising another plurality of slots in the rotor cage including a first set and a second set of slots, the adjustable vanes of the first bank of vanes being pivotally coupled to the rotor cage by way of the first set of slots, the adjustable vanes of the second bank of vanes being pivotally coupled to the rotor cage by way of the second set of slots, the first set of slots and the second set of slots being offset from each other relative to a flow of crop material thereby. 12. An agricultural harvester, comprising: a chassis; and a threshing system carried by the chassis, the threshing system for separating grain from Material Other than Grain (MOG), the threshing system including: a rotor cage with a plurality of slots therein, the rotor cage having an outer generally cylindrical surface; a plurality of banks of adjustable vanes pivotally coupled to the rotor cage including a first bank of vanes and a second bank of vanes; and an adjustable vane control system coupled to the rotor cage, the adjustable vane control system including: a first member pivotally coupled to each of the vanes in the first bank of vanes through corresponding ones of the slots; a second member pivotally coupled to each of the vanes in the second bank of vanes through corresponding ones of the slots; a first linkage; a second linkage; and an arm having an end that is coupled to the first member by way of the first linkage, the arm having an opposite end that is coupled to the second member by way of the second linkage, the first member and the second member each having a range of travel defined by the slots, the first member and the second member each having a surface facing the outer surface of the rotor cage, the surface of the first member and the surface of the second member each remaining tangent to the outer surface of the rotor cage as the first member and the second member are moved within their range of travel. 13. The agricultural harvester of claim 12 , wherein the first linkage has a longitudinal axis that is arranged to be substantially parallel to a tangent of the slots associated with the first bank of adjustable vanes when the first member is approximately at a midpoint in the range of travel. 14. The agricultural harvester of claim 13 , wherein the second linkage has a longitudinal axis that is arranged to be substantially parallel to a tangent of the slots associated with the second bank of adjustable vanes when the second member is approximately at a midpoint in the range of travel. 15. The agricultural harvester of claim 14 , wherein the first linkage and the second linkage are substantially coordinated so that the longitudinal axis of the first linkage is arranged to be substantially parallel to the tangent of the slots associated with the first bank of adjustable vanes and the longitudinal axis of the second linkage is arranged to be substantially parallel to the tangent of the slots associated with the second bank of adjustable vanes when the arm is at approximately a midpoint in a pivotal range of motion of the arm. 16. The agricultural harvester of claim 12 , wherein a force that is applied to the first member by the first linkage and the force that is applied to the second member by the second linkage are parallel to the direction of vane travel when the first member and the second member are at a midpoint of their range of travel. 17. The agricultural harvester of claim 12 , wherein the arm is arranged generally half way between the first member and the second member. 18. The agricultural harvester of claim 17 , wherein the arm has a pivot axis that is positioned substantially half way between the first member and the second member and normal to the outer surface of the rotor cage. 19. The agricultural harvester of claim 18 , wherein the arm is arranged to allow substantially equal and opposite movement of the first bank of vanes relative to the second bank of vanes.