Cutting mechanism for whole plant harvesting

The invention claimed is: 1. A cutting mechanism for the harvesting of whole plants, comprising: a frame, extending transverse to a forward direction; a plurality of rotatable mowing elements positioned on a front side of the cutting mechanism and distributed over a width of the cutting mechanism, each of the plurality of rotatable mowing elements configured to rotate about a rotational axis and comprising a lower cutting disk configured to cut off crops from the ground and a conveyor rotor located above the lower cutting disk, the conveyor rotor configured to rotate around the rotational axis, coaxial to the cutting disk; first and second transverse conveyors, located on sides of the cutting mechanism, configured to convey the crops cut off by the mowing elements to a middle of the cutting mechanism; and a delivery conveyor located in the middle of the cutting mechanism configured to receive crops from the first and second transverse conveyors and convey the crops to a rear delivery opening of the cutting mechanism; wherein the lower cutting disks of the mowing elements work together with one or more frame-affixed counter-blades and are driven together with the corresponding conveyor rotors by a shaft; wherein the shafts of the mowing elements are driven by a gear arrangement that extends, on the front side, over the width of the cutting mechanism; wherein the frame comprises a middle part and first and second lateral parts configured to swivel on the middle part between a horizontal operating position and a raised transporting position; and wherein the first and second transverse conveyors are wider than the corresponding first and second lateral parts in the horizontal operating position and are within the width of the first and second lateral parts before being raised to the transporting position. 2. The cutting mechanism of claim 1 , wherein sections of the gear arrangement are correlated with the middle part and the first and second lateral parts. 3. The cutting mechanism of claim 1 , wherein at least one of the first and second transverse conveyors and the delivery conveyor includes a belt conveyor, which, in the operating position, lies in an essentially horizontal plane. 4. The cutting mechanism of claim 1 , wherein the conveyor speed of at least one of the first and second transverse conveyors and the delivery conveyor is adjustable independently of a rotational speed of the mowing elements. 5. The cutting mechanism of claim 1 , wherein the conveyor rotors comprise one or more conveyor disks spaced apart in a vertical direction from one other and have an approximately elliptical shape. 6. The cutting mechanism of claim 5 , wherein the conveyor rotors cooperate with one or more strippers located in a vertical direction between the conveyor disks of the conveyor rotor, the one or more strippers having an arcuate shape in the horizontal direction. 7. The cutting mechanism of claim 6 , wherein the one or more strippers follow vertical walls that are located between adjacent mowing elements. 8. The cutting mechanism of claim 5 , wherein the one or more conveyor disks are connected to the lower cutting disk by one or more spacing rings, and wherein the one or more conveyor disks, the one or more spacing rings, and the cutting disk are coupled with the corresponding shaft in a torque-transferring manner. 9. The cutting mechanism of claim 8 , wherein the one or more conveyor disks, the one or more spacing rings, and the cutting disk are moveable in an axial direction, on the corresponding shaft, and are limited in upward movement by the one or more strippers. 10. A cutting mechanism for the harvesting of whole plants, comprising: a frame, extending transverse to a forward direction; a plurality of rotatable mowing elements positioned on a front side of the cutting mechanism and distributed over a width of the cutting mechanism, each of the plurality of rotatable mowing elements configured to rotate about a rotational axis and comprising a lower cutting disk configured to cut off crops from the ground and a conveyor rotor located above the lower cutting disk, the conveyor rotor configured to rotate around the rotational axis, coaxial to the cutting disk; first and second transverse conveyors, located on sides of the cutting mechanism, configured to convey the crops cut off by the mowing elements to a middle of the cutting mechanism; and a delivery conveyor located in the middle of the cutting mechanism configured to receive crops from the first and second transverse conveyors and convey the crops to a rear delivery opening of the cutting mechanism; wherein the lower cutting disks of the mowing elements work together with one or more frame-affixed counter-blades and are driven together with the corresponding conveyor rotors by a shaft; wherein the shafts of the mowing elements are driven by a gear arrangement that extends, on the front side, over the width of the cutting mechanism; and wherein the conveyor rotors comprise one or more conveyor disks spaced apart in a vertical direction from one other and have an approximately elliptical shape. 11. The cutting mechanism of claim 10 , wherein the conveyor rotors cooperate with one or more strippers located in a vertical direction between the conveyor disks of the conveyor rotor, the one or more strippers having an arcuate shape in the horizontal direction. 12. The cutting mechanism of claim 11 , wherein the one or more strippers follow vertical walls that are located between adjacent mowing elements. 13. The cutting mechanism of claim 10 , wherein the one or more conveyor disks are connected to the lower cutting disk by one or more spacing rings, and wherein the one or more conveyor disks, the one or more spacing rings, and the cutting disk are coupled with the corresponding shaft in a torque-transferring manner. 14. The cutting mechanism of claim 13 , wherein the one or more conveyor disks, the one or more spacing rings, and the cutting disk are moveable in an axial direction, on the corresponding shaft, and are limited in upward movement by the one or more strippers. 15. A cutting mechanism for the harvesting of whole plants, comprising: a frame comprising a middle portion and first and second lateral portions extending transverse to a forward direction; a plurality of rotatable mowing elements positioned across a width of the frame, each of the plurality of rotatable mowing elements comprising a lower cutting disk and a conveyor rotor located above and coaxial to the lower cutting disk, the conveyor rotor comprising one or more conveyor disks spaced apart from the lower cutting disk in the vertical direction; first and second transverse conveyors extending along the corresponding first and second lateral portions; and a delivery conveyor located in the middle portion between the first and second transverse conveyors; wherein the first and second lateral portions are positioned on either side of the middle portion in a horizontal operating position, and the first and second lateral portions are layered on top of the middle portion in a raised transporting position; and wherein the first and second transverse conveyors are wider than the corresponding first and second lateral portions in the horizontal operating position and the first and second transverse conveyors are within the width of the first and second lateral parts in the raised transporting position. 16. The cutting mechanism of claim 15 , wherein the one or more conveyor disks are spaced apart in a vertical direction from one other and have an approximately elliptical shape.