Adjusting system for fingerstyle grates of an agricultural harvester

The invention claimed is: 1. A threshing system for use in an agricultural harvester, the threshing system comprising: a rotor for moving crop material through the threshing system, the rotor having a rotational axis; and a perforated concave system comprising perforations, the perforated concave system spaced radially outwardly from the rotor for passing grain through the perforations as the rotor moves the crop material across the concave system; wherein the concave system further comprises: at least one concave section having: a rigid frame having a plurality of sides rigidly coupled together; a plurality of pivotal members pivotally coupled to and extending to two of the sides of the rigid frame; and at least one arcuate movable member interacting with the plurality of pivotal members to pivot each of the pivotal members as the at least one arcuate movable member is moved along a segment of an arc generally about the rotational axis, wherein each of the pivotal members has at least one toothed section, wherein the at least one arcuate movable member has a plurality of teeth that engage and interact with the at least one toothed section of each of the pivotal members. 2. The threshing system of claim 1 , wherein each at least one toothed section is coupled proximate an end of each pivotal member. 3. The threshing system of claim 1 , wherein the plurality of teeth on the at least one arcuate movable member are arranged to correspond with each of the toothed sections of the pivotal members as a series of toothed sections separated by non-toothed sections along the at least one arcuate movable member. 4. The threshing system of claim 1 , wherein the at least one arcuate movable member is constrained to move along one of the sides of the frame, one of the sides of the frame being parallel to another of the sides of the frame. 5. The threshing system of claim 4 , wherein the at least one arcuate movable member is two arcuate movable members positioned respectively along parallel sides of the frame. 6. The threshing system of claim 1 , wherein the at least one toothed section of each of the pivotal members is two toothed sections coupled proximate to opposite ends of each pivotal member. 7. The threshing system of claim 1 , further comprising an eccentric member rotatably coupled to the frame, the eccentric member having an eccentric feature that interacts with an opening in the at least one arcuate movable member to move the at least one arcuate movable member as the eccentric member rotates in the frame. 8. The threshing system of claim 7 , further comprising an actuator coupled to the eccentric member to controllably rotate the eccentric member causing the arcuate movable member to move to cause each of the pivotal members to pivot. 9. The threshing system of claim 8 , wherein each of the pivotal members has a plurality of fingers extending therefrom. 10. The threshing system of claim 9 , wherein the actuator controls an orientation of the fingers so that they can extend inward from a circumferential arc relative to the rotational axis or outward from the circumferential arc. 11. The threshing system of claim 1 , wherein the rigid frame has a plurality of slotted holes along two of the sides of the frame, the pivotal members being inserted into corresponding sets of the slotted holes on each of the two sides of the frame, each of the slotted holes has a slot that extends to an edge of a side and that has an opening that is smaller than a diameter of the hole. 12. The threshing system of claim 11 , wherein the pivotal members have at each end thereof a protrusion with a circular portion that corresponds with a diameter of the hole and a flat portion that narrows a breadth of the protrusion so as to allow the protrusions of the pivotal members to pass through the slots when the pivotal members are being assembled to the frame. 13. The threshing system of claim 7 , further comprising a coupling member, the at least one arcuate movable member being two arcuate movable members, the eccentric member comprising two eccentric bars each interacting with an opening in respective ones of the two arcuate movable members, the coupling member being slid over two inner ends of the eccentric bars, the coupling member being secured to each of the eccentric bars to form the eccentric member. 14. A threshing system for use in an agricultural harvester, the threshing system comprising: a rotor for moving crop material through the threshing system, the rotor having a rotational axis; and a perforated concave system comprising perforations, the perforated concave system spaced radially outwardly from the rotor for passing grain through the perforations as the rotor moves the crop material across the concave system; wherein the concave system further comprises: at least one concave section having: a rigid frame having a plurality of sides rigidly coupled together; a plurality of pivotal members pivotally coupled to and extending to two of the sides of the rigid frame; two arcuate movable members interacting with the plurality of pivotal members to pivot each of the pivotal members as the arcuate movable members are moved along a segment of an arc generally about the rotational axis; an eccentric member rotatably coupled to the frame, the eccentric member having two eccentric bars that each interact with a respective opening in each of the arcuate movable members to move the arcuate movable members as the eccentric member rotates in the frame; and a coupling member slid over two inner ends of the eccentric bars, the coupling member being secured to each of the eccentric bars to form the eccentric member. 15. The threshing system of claim 14 , further comprising an actuator coupled to the eccentric member to controllably rotate the eccentric member causing the arcuate movable members to move to cause each of the pivotal members to pivot. 16. The threshing system of claim 15 , wherein each of the pivotal members has a plurality of fingers extending therefrom. 17. The threshing system of claim 16 , wherein the actuator controls an orientation of the fingers so that they can extend inward from a circumferential arc relative to the rotational axis or outward from the circumferential arc. 18. The threshing system of claim 14 , wherein the arcuate moveable members are each constrained to move along a respective one of the sides of the frame, one of the sides of the frame being parallel to another of the sides of the frame. 19. The threshing system of claim 14 , wherein the rigid frame has a plurality of slotted holes along two of the sides of the frame, the pivotal members being inserted into corresponding sets of the slotted holes on each of the two sides of the frame, each of the slotted holes has a slot that extends to an edge of a side and that has an opening that is smaller than a diameter of the hole. 20. The threshing system of claim 19 , wherein the pivotal members have at each end thereof a protrusion with a circular portion that corresponds with a diameter of the hole and a flat portion that narrows a breadth of the protrusion so as to allow the protrusions of the pivotal members to pass through the slots when the pivotal members are being assembled to the frame.