Concave ramp for an agricultural vehicle

What is claimed is: 1. An agricultural vehicle, comprising: a chassis; and a threshing system supported by the chassis, configured for threshing a crop material, and including: a rotor; a front concave located at a distance radially away from the rotor and at least partially surrounding the rotor; an infeed ramp connected to the front concave, the infeed ramp located at a distance radially away from the rotor, and the infeed ramp having a plurality of slots therein; a support member positioned underneath the infeed ramp; and a plurality of vanes connected to the support member, each of the plurality of vanes extending through a respective slot of the plurality of slots and being located at a distance radially away from the rotor, the plurality of vanes being configured for contacting and directing the crop material rearwardly towards the front concave, wherein the front concave is movable relative to the rotor, and the infeed ramp is fixedly connected to the front concave such that a movement of the front concave causes a corresponding movement of the infeed ramp, and wherein the support member is located at a fixed distance from the rotor, and the plurality of vanes are fixedly connected to the support member. 2. The agricultural vehicle of claim 1 , wherein as the infeed ramp moves relative to the rotor, the distance between each of the plurality of vanes and the rotor remains constant such that a clearance passageway between the rotor and the plurality of vanes for the crop material to pass therebetween remains constant. 3. The agricultural vehicle of claim 1 , wherein the distance between each of the plurality of vanes and the rotor is approximately 20 mm. 4. The agricultural vehicle of claim 1 , wherein each of the plurality of slots extends from a front to a rear of the infeed ramp at an angle, and each of the plurality of vanes has an angle corresponding to the angle of a respective one of the plurality of slots. 5. The agricultural vehicle of claim 1 , wherein the plurality of vanes is configured to increase a crop material flow by forcing the crop material rearwardly out of the infeed ramp and toward the front concave and by stopping the crop material from spinning along a perimeter of the infeed ramp. 6. A threshing system configured for threshing a crop material, comprising: a rotor; a front concave located at a distance radially away from the rotor and at least partially surrounding the rotor; an infeed ramp connected to the front concave, the infeed ramp located at a distance radially away from the rotor, and the infeed ramp having a plurality of slots therein; a support member positioned underneath the infeed ramp; and a plurality of vanes connected to the support member, each of the plurality of vanes extending through a respective slot of the plurality of slots and being located at a distance radially away from the rotor, the plurality of vanes being configured for contacting and directing the crop material rearwardly towards the front concave, wherein the front concave is movable relative to the rotor, and the infeed ramp is fixedly connected to the front concave such that a movement of the front concave causes a corresponding movement of the infeed ramp, and wherein the support member is located at a fixed distance from the rotor, and the plurality of vanes are fixedly connected to the support member. 7. The threshing system of claim 6 , wherein as the infeed ramp moves relative to the rotor, the distance between each of the plurality of vanes and the rotor remains constant such that a clearance passageway between the rotor and the plurality of vanes for the crop material to pass therebetween remains constant. 8. The threshing system of claim 6 , wherein the distance between each of the plurality of vanes and the rotor is approximately 20 mm. 9. The threshing system of claim 6 , wherein each said slot of the plurality of slots extends from a front to a rear of the infeed ramp at an angle, and each of the plurality of vanes has an angle corresponding to the angle of a respective one of the plurality of slots. 10. The threshing system of claim 6 , wherein the plurality of vanes is configured to increase a crop material flow by forcing the crop material rearwardly out of the infeed ramp and toward the front concave and by stopping the crop material from spinning along a perimeter of the infeed ramp. 11. A method of operating an agricultural vehicle comprising a threshing system for threshing a crop material, the threshing system including a rotor, a front concave located at a distance radially away from the rotor and at least partially surrounding the rotor, an infeed ramp connected to the front concave, the infeed ramp located at a distance radially away from the rotor, and the infeed ramp having a plurality of slots therein, a support member positioned underneath the infeed ramp, and a plurality of vanes connected to the support member, each of the plurality of vanes extending through a respective slot of the plurality of slots and being located at a distance radially away from the rotor, the plurality of vanes being configured for contacting the crop material, wherein the front concave is movable relative to the rotor and the infeed ramp is fixedly connected to the front concave such that a movement of the front concave causes a corresponding movement of the infeed ramp, and wherein the support member is located at a fixed distance from the rotor, and the plurality of vanes are fixedly connected to the support member, the method comprising steps of: directing a crop material flow by the infeed ramp toward the front concave; stopping the crop material flow, by the plurality of vanes, from spinning along a perimeter of the infeed ramp; and directing the crop material flow, by the plurality of vanes, rearwardly towards the front concave. 12. The method of claim 11 , further including a step of adjusting a position of the front concave and the infeed ramp. 13. The method of claim 12 , further including a step of maintaining the distance between each of the plurality of vanes and the rotor such that a clearance passageway between the rotor and the plurality of vanes for the crop material to pass therebetween remains constant. 14. The method of claim 11 , wherein each of the plurality of slots extends from a front to a rear of the infeed ramp at an angle, and each of the plurality of vanes has an angle corresponding to the angle of a respective one of the plurality of slots.