Agricultural header with multiple finger infeed assembly

What is claimed is: 1. An agricultural harvester, comprising: a chassis; a threshing and separating mechanism carried by said chassis; a feeder housing carried by said chassis and configured to supply crop material to said threshing and separating mechanism; and a header carried by said chassis in front of said feeder housing, said header including a cutting mechanism configured to cut crop material and an infeed assembly carried behind said cutting mechanism configured to direct the cut crop material toward said feeder housing, said infeed assembly including: a driving element configured to rotate; a hollow tube coupled to said driving element and having a plurality of openings formed therein, wherein said driving element is the shaft of an auger, the shaft having flighting extending therefrom; and at least one finger unit rotatably held within said hollow tube, each finger unit including: a finger hub having at least one pivoting aperture formed therein and at least one driving aperture formed therein; a pivoting finger pivotally held within said at least one pivoting aperture and configured to at least partially extend out of one of said plurality of openings of said hollow tube during rotation; and a driving finger fixedly held within said at least one driving aperture and configured to at least partially extend into one of said plurality of openings of said hollow tube to rotate said finger unit by said hollow tube. 2. The agricultural harvester according to claim 1 , wherein said infeed assembly includes at least two finger units rotatably held within said hollow tube and a plate connecting one of a pivoting finger and a driving finger of a first finger unit to one of a pivoting finger and a driving finger of a second finger unit to form a paddle. 3. The agricultural harvester according to claim 1 , wherein said finger unit includes a hub shaft held within said hollow tube, said at least one finger hub being rotatably held on said hub shaft. 4. The agricultural harvester according to claim 3 , wherein said driving element defines a tube axis of rotation aligned across a harvesting width of the header and said hub shaft defines a hub axis of rotation, said hub axis of rotation being offset horizontally from said tube axis of rotation. 5. The agricultural harvester according to claim 1 wherein a diameter of the hollow tube is greater than a diameter of the shaft. 6. The agricultural harvester according to claim 1 , wherein said finger hub has a circular cross-section and said at least one pivoting aperture and said at least one driving aperture are formed on a circumferential surface of said finger hub. 7. The agricultural harvester according to claim 6 , wherein said finger hub defines a circumference and said at least one pivoting aperture is an elongated aperture extending along said circumference on said circumferential surface. 8. The agricultural harvester according to claim 6 , wherein said finger hub has at least one pin opening formed through to said at least one pivoting aperture and a pivot pin pivotally connected to said pivot finger placed in said at least one pin opening. 9. The agricultural harvester according to claim 1 , wherein said at least one pivoting finger and said at least one driving finger are rigid. 10. An infeed assembly for a header of an agricultural harvester, comprising: a driving element configured to rotate; a hollow tube rotationally coupled to said driving element and having a plurality of openings formed therein; and at least one finger unit rotatably held within said hollow tube, each finger unit including: a finger hub having at least one pivoting aperture formed therein and at least one driving aperture formed therein; a pivoting finger pivotally held within said at least one pivoting aperture and configured to at least partially extend out of one of said plurality of openings of said hollow tube during rotation; and a driving finger fixedly held within said at least one driving aperture and configured to at least partially extend into one of said plurality of openings of said hollow tube to rotate said finger unit by said hollow tube; wherein said infeed assembly includes at least two finger units rotatably held within said hollow tube and a plate connecting one of a pivoting finger and a driving finger of a first finger unit to one of a pivoting finger and a driving finger of a second finger unit to form a paddle. 11. The infeed assembly according to claim 10 , wherein said finger unit includes a hub shaft held within said hollow tube, said at least one finger hub being rotatably held on said hub shaft. 12. The infeed assembly according to claim 11 , wherein said driving element defines a tube axis of rotation and said hub shaft defines a hub axis of rotation, said hub axis of rotation being offset from said tube axis of rotation. 13. The infeed assembly according to claim 10 , wherein at least one of said plurality of openings formed in said hollow tube is an elongated slot. 14. The infeed assembly according to claim 10 , wherein said finger hub has a circular cross-section and said at least one pivoting aperture and said at least one driving aperture are formed on a circumferential surface of said finger hub. 15. The infeed assembly according to claim 14 , wherein said finger hub defines a circumference and said at least one pivoting aperture is an elongated aperture extending along said circumference on said circumferential surface. 16. The infeed assembly according to claim 14 , wherein said finger hub has at least one pin opening formed through to said at least one pivoting aperture and a pivot pin pivotally connected to said pivot finger placed in said at least one pin opening. 17. The infeed assembly according to claim 10 , wherein said at least one pivoting finger and said at least one driving finger are rigid.