Combine with a pre-thresher

What is claimed is: 1. A pre-threshing apparatus for pre-threshing and collecting grain from cut crop, the cut crop being moved along a flow path by a feederhouse chain of a slope conveyor to a thresher for threshing the cut crop, the pre-threshing apparatus including: a feed accelerator receiving cut crop from the feederhouse chain and moving the cut crop along the flow path from the feederhouse chain toward the thresher; a debris trap located before the feed accelerator along the flow path, the debris trap collecting debris falling from the cut crop moving from the feederhouse chain to the feed accelerator; a pre-threshing device, including a screen, the pre-threshing device disposed beneath the feed accelerator, wherein the feed accelerator rotates with respect to the pre-threshing device to move cut crop along the flow path, across the pre-threshing device, and between the feed accelerator and the pre-threshing device, wherein the feed accelerator interacts with the pre-threshing device to pre-thresh the cut crop, and the pre-threshing device is configured to collect the pre-threshed grain, wherein the feed accelerator includes a plurality of crop engaging members each having a leading edge, wherein a distance between the leading edge and the screen defines a gap through which the cut crop moves between the feed accelerator and the pre-threshing device and wherein at least one of the feed accelerator and the pre-threshing device is resiliently biased by a resilient coupler such that the gap changes based on an amount of cut crop moving through the gap. 2. The pre-threshing apparatus of claim 1 wherein the pre-threshing device includes a chamber configured to collect the pre-threshed grain and the screen includes apertures configured to direct the pre-threshed grain to the chamber. 3. The pre-threshing apparatus of claim 2 further comprising a frame defining a window configured to expose the screen to the cut crop moving between the feed accelerator and the pre-threshing device. 4. The pre-threshing apparatus of claim 3 further comprising a frame structure configured to support the frame and to define the chamber, the chamber having an open end configured to direct the pre-threshed grain to a receptacle. 5. The pre-threshing apparatus of claim 4 wherein the frame includes a leading lip and a trailing lip, wherein the leading lip is located along the flow path at a first position and the trailing lip is located along the flow path at a second position, wherein the second position is located downstream of the first position. 6. The pre-threshing apparatus of claim 5 wherein the leading lip is inclined with respect to the screen and is configured to direct debris downwardly toward the debris trap. 7. The pre-threshing apparatus of claim 6 wherein the screen includes a plurality of screen panel units, wherein each of the screen structures includes a plurality of rods defining a plurality of apertures having a size sufficient to enable grain to pass therethrough. 8. The pre-threshing apparatus of claim 2 wherein the pre-threshing device further comprises a screen support structure supporting the screen and the screen includes a plurality of screen structures, wherein adjacent screen structures are offset in height along a dimension generally perpendicular to the flow path, such that the adjacent screen structures are located on different planes. 9. The pre-threshing apparatus of claim 8 wherein the crop engaging members includes a plurality of paddles forming the leading edge, wherein two or more of the plurality of screen structures are located on different planes, such that the height of the screen structures is varied with respect to the leading edge to provide a more complete pre-threshing of grain. 10. The pre-threshing apparatus of claim 1 further comprising a frame supporting the screen, the frame including a leading lip extending to the debris trap to direct debris toward the debris trap. 11. A harvesting machine including a cutting head configured to provide cut crop for threshing, the harvesting machine comprising: a conveyer disposed adjacent to the cutting head and configured to move the cut crop to be threshed along a path; a thresher configured to thresh the cut crop to provide threshed grain from the cut crop; a separator disposed adjacently to the thresher and configured to separate debris from the threshed grain; a feed accelerator disposed between the conveyor and the thresher, the feed accelerator configured to advance the cut crop along the path from the conveyor to the thresher; and a debris trap located before the feed accelerator and after the conveyor, the debris trap collecting debris falling from the cut crop moving from the conveyer to the feed accelerator; and a pre-threshing device, including a screen, the pre-threshing device disposed beneath the feed accelerator, wherein the feed accelerator moves with respect to the pre-threshing device to move cut crop across the pre-threshing device, wherein the feed accelerator interacts with the pre-threshing device to pre-thresh the cut crop, and the pre-threshing device is configured to collect pre-threshed grain, wherein the feed accelerator includes a plurality of crop engaging members each having a leading edge, wherein a distance between the leading edge and the screen defines a gap through which the cut crop moves between the feed accelerator and the pre-threshing device and wherein at least one of the feed accelerator and the pre-threshing device are resiliently biased by a resilient coupler such that the gap changes based on an amount of cut crop moving through the gap. 12. The harvesting machine of claim 11 wherein the pre-threshing device includes a chamber configured to collect the pre-threshed grain and the screen having apertures configured to direct the pre-threshed grain to the chamber, and further wherein the thresher includes a concave configured to direct the pre-threshed grain to one or more of a belt, a shaking pan, and an auger for cleaning by a cleaning system of the harvesting machine. 13. The harvesting machine of claim 12 further comprising a frame defining a window configured to expose the screen to the cut crop moving between the feed accelerator and the pre-threshing device. 14. The harvesting machine of claim 13 further comprising a frame structure configured to support the frame and defining the chamber having an open end configured to direct the pre-threshed grain to a receptacle. 15. The harvesting machine of claim 14 wherein the frame includes a leading lip and a trailing lip, wherein the leading lip is located along the path at a first position and the trailing lip is located along the path at a second position, wherein the second position is located downstream of the first position. 16. The pre-threshing apparatus of claim 12 wherein the pre-threshing device further comprises a screen support structure supporting the screen and the screen includes a plurality of screen structures, wherein adjacent screen structures are offset in height along a dimension generally perpendicular to the flow path. 17. The pre-threshing apparatus of claim 16 wherein two or more of the plurality of screen structures are located on different planes, such that the heights of the screen structures are varied to provide a more complete pre-threshing of grain. 18. A method of harvesting grain with a harvesting machine having a cutting head configured to provide cut crop for threshing with a thresher, the method comprising: moving the cut crop from the cutting head along a pat