Combine harvester including belt cutting unit and control unit

The invention claimed is: 1. A combine harvester comprising: at least one speed sensor configured to generate speed data indicative of forward travel speed of the combine harvester; a belt cutting unit that comprises: at least one center belt configured to convey harvest to at least one of an intake roller or an intake channel of a grain conveyor; at least one left-hand transverse conveyor belt disposed on a left-hand side of the center belt; and at least one right-hand transverse conveyor belt disposed on a right-hand side of the center belt, wherein the left-hand transverse conveyor belt and the right-hand transverse conveyor belt are configured to convey the harvest to the center belt, wherein the center belt, the left-hand transverse conveyor belt and the right-hand transverse conveyor belt are disposed behind a cutter bar, seen in a direction of travel, wherein the center belt, the left-hand transverse conveyor belt and the right-hand transverse conveyor belt are each operated at a respective belt speed, a control unit configured to: receive the speed data indicative of the forward travel speed of the combine harvester; automatically control, based on the speed data indicative of the forward travel speed of the combine harvester, the belt speed of the center belt, the belt speed of the left-hand transverse conveyor belt, and the belt speed of the right-hand transverse conveyor belt as a function of the forward travel speed of the combine harvester. 2. The combine harvester according to claim 1 , wherein the control system is configured to control the belt speeds of the left-hand transverse conveyor belt and the right-hand transverse conveyor belt or the belt speed of the center belt as a function of the forward travel speed. 3. The combine harvester according to claim 1 , wherein the control system is configured to control the belt speed of the center belt based on both the belt speeds of the left-hand transverse conveyor belt and the right-hand transverse conveyor belt. 4. The combine harvester according to claim 1 , wherein the control system is further configured to control the belt speed of the center belt based on at least one of the belt speeds of the left-hand transverse conveyor belt or the right-hand transverse conveyor belt. 5. The combine harvester according to claim 1 , wherein an operator of the combine harvester selects a type of harvest; and wherein the control system is configured to control the belt speed of the center belt, the belt speed of the left-hand transverse conveyor belt, and the belt speed of the right-hand transverse conveyor belt as a function of the forward travel speed of the combine harvester and the type of harvest. 6. The combine harvester according to claim 5 , wherein a first type of harvest comprises grains; wherein a second type of harvest comprises rapeseed; wherein responsive to the control unit determining that the type of harvest comprises grains, the control unit sets higher belt speeds for the center belt, the left-hand transverse conveyor belt, and the right-hand transverse conveyor belt; and wherein responsive to the control unit determining that the type of harvest comprises rapeseed, the control unit sets lower belt speeds for the center belt, the left-hand transverse conveyor belt, and the right-hand transverse conveyor belt. 7. The combine harvester according to claim 1 , wherein an operator of the combine harvester selects a type of harvest; and wherein the control system is configured to control the belt speed of at least one of the center belt, the left-hand transverse conveyor belt, or the right-hand transverse conveyor belt as a function of the forward travel speed of the combine harvester and the type of harvest. 8. The combine harvester according to claim 1 , wherein an operator of the combine harvester sets a minimum belt speed and a maximum belt speed for each of the center belt, the left-hand transverse conveyor belt, and the right-hand transverse conveyor belt. 9. The combine harvester according to claim 1 , wherein, with a slope, the control unit controls, via control signals sent to respective hydraulic pumps, the belt speeds of the left-hand transverse conveyor belt and the right-hand transverse conveyor belt as a function of tilt of the belt cutting unit and conveyance directions of the left-hand transverse conveyor belt and the right-hand transverse conveyor belt. 10. The combine harvester according to claim 9 , wherein, in response to determining that the slope is uphill, the control unit controls, via the control signals to the respective hydraulic pumps controlling the left-hand transverse conveyor belt and the right-hand transverse conveyor belt, to increase the belt speeds of the left-hand transverse conveyor belt and the right-hand transverse conveyor belt; and wherein, in response to determining that the slope is downhill, the control unit controls, via the control signals to the respective hydraulic pumps controlling the left-hand transverse conveyor belt and the right-hand transverse conveyor belt, to decrease the belt speeds of the of the left-hand transverse conveyor belt and the right-hand transverse conveyor belt. 11. The combine harvester according to claim 1 , wherein the control unit controls the belt speed of the center belt as a function of tilt of the belt cutting unit. 12. The combine harvester according to claim 1 , further comprising at least one of a route management system, a GPS based field map, or environment sensors; and wherein the control unit, based on data generated by the at least one of the route management system, the GPS based field map, or the environment sensors, reduces the belt speeds of the center belt, the left-hand transverse conveyor belt, and the right-hand transverse conveyor belt to a minimum belt speed responsive to determining that the combine harvester is driving out of a crop. 13. The combine harvester according to claim 1 , further comprising a switch element configured to switch from an automatic belt speed mode in which the control unit automatically controls the center belt, the left-hand transverse conveyor belt, and the right-hand transverse conveyor belt, to a manual belt speed mode in which an operator manually adjusts the belt speed of the center belt, the belt speed of the left-hand transverse conveyor belt, and the belt speed of the right-hand transverse conveyor belt; and wherein the control unit receives the manual adjustments of the belt speeds of the center belt, the left-hand transverse conveyor belt, and the right-hand transverse conveyor belt in a range between a minimum belt speed and a maximum belt speed in order to control the combine harvester in the manual belt speed mode. 14. The combine harvester according to claim 1 , further comprising hydraulic pumps and hydraulic motors, the hydraulic pumps driving the hydraulic motors in order to move the center belt, the left-hand transverse conveyor belt, and the right-hand transverse conveyor belt; and wherein the control unit is configured to control, via control signals to the hydraulic pumps, the center belt, the left-hand transverse conveyor belt and the right-hand transverse conveyor belt in order to reverse conveyance directions of the center belt, the left-hand transverse conveyor belt and the right-hand transverse conveyor belt. 15. The combine harvester according to claim 1 , wherein the grain conveyor includes a chain conveyor; and wherein the control unit is configured to: control the intake roller, the chain conveyor of the grain conveyor, and the center belt in order to collectively reverse a rotational