System for lubricating a bearing of a crop transport and/or processing system of a harvesting machine

The invention claimed is: 1. A system for lubrication of a bearing of a shaft of a harvesting machine, the system comprising: a supply container for storing a lubricant; a lubricant line in fluid communication with and interconnecting the supply container and the bearing for delivering the lubricant from the supply container to the bearing; wherein the lubricant line includes a delivery pump operable to transport the lubricant from the supply container to the bearing; a drainage channel in fluid communication with and interconnecting the bearing and the supply container for returning the lubricant from the bearing to the supply container; wherein the drainage channel includes a filter located downstream of the bearing and configured to circulate the lubricant therethrough; and a suction pump in communication with the drainage channel and operable to move the lubricant from the bearing to the filter; and wherein the bearing includes an inner race, an outer race, and a roll element disposed between the inner race and the outer race; the drainage channel includes a connecting channel parallel with the shaft and passing through the outer race to receive the lubricant from the bearing. 2. The system of claim 1 , wherein the lubricant line and the drainage channel are fluidly coupled to the supply container to form a lube circuit through which the lubricant circulates. 3. The system of claim 1 , wherein the lubricant is mixed with air at a location upstream from the bearing. 4. The system of claim 1 , wherein the lubricant comprises a petrochemical agent, a synthetic agent, a vegetable agent, or an oil. 5. The system of claim 1 , further comprising a flow control valve fluidly coupled to the lubricant line, the lubricant being metered via the flow control valve. 6. The system of claim 1 , wherein: the lubricant line includes a feed channel passing through the outer race to supply the lubricant to the roll element. 7. The system of claim 6 , wherein the connecting channel is disposed diametrically opposite the feed channel and below the roll element. 8. A harvesting machine, comprising: a shaft; a bearing having an inner race connected to and rotatable with the shaft, an outer race non-rotatably fixed relative to the shaft, and a roll element disposed between the inner race and the outer race; a supply container for storing a lubricant; a lubricant line in fluid communication with and interconnecting the supply container and the bearing for delivering the lubricant from the supply container to the bearing; wherein the lubricant line includes a feed channel passing through the outer race to supply the lubricant to the roll element; a drainage channel in fluid communication with and interconnecting the bearing and the supply container for returning the lubricant from the bearing to the supply container; and wherein the drainage channel includes a connecting channel parallel with the shaft and passing through the outer race to receive the lubricant from the bearing. 9. The harvesting machine of claim 8 , wherein the outer race is coupled to a chassis of the harvesting machine. 10. The harvesting machine of claim 8 , wherein the shaft is part of a pressure roll, a cutterhead, a kernel processing roll, or a crop accelerator. 11. The harvesting machine of claim 8 , wherein the lubricant line and the drainage channel are fluidly coupled to the supply container to form a lube circuit through which the lubricant circulates. 12. The harvesting machine of claim 8 , wherein the lubricant is mixed with air at a location upstream from the bearing. 13. The harvesting machine of claim 8 , further comprising a filter located in fluid communication with the drainage channel and downstream from the bearing, wherein the filter is configured to circulate the lubricant therethrough. 14. The harvesting machine of claim 13 , further comprising a suction pump in fluid communication with the drainage channel and adapted to deliver lubricant to the filter. 15. The harvesting machine of claim 14 , wherein the lubricant line includes a delivery pump fluidly coupled to the supply container and operable to transport the lubricant from the supply container to the bearing. 16. The harvesting machine of claim 8 , further comprising a flow control valve fluidly coupled to the lubricant line, the lubricant being metered via the flow control valve. 17. The harvesting machine of claim 8 , wherein the connecting channel is disposed diametrically opposite the feed channel and below the roll element. 18. A harvesting machine, comprising: a chassis; a plurality of wheels for supporting the chassis; a crop header for harvesting crop; a feederhouse coupled to the crop header; a shaft rotatable relative to the chasis; a bearing located within a crop transport or processing system of the harvesting machine, wherein the bearing includes an inner race connected to and rotatable with the shaft, an outer race connected to the chassis and non-rotatably fixed relative to the shaft, and a roll element disposed between the inner race and the outer race; a supply container for storing a lubricant; a lubricant line in fluid communication with and interconnecting the supply container and the bearing for delivering the lubricant from the supply container to the bearing; wherein the lubricant line includes a delivery pump operable to transport the lubricant from the supply container to the bearing; wherein the lubricant line includes a feed channel passing through the outer race to supply the lubricant to the roll element; a drainage channel in fluid communication with and interconnecting the bearing and the supply container for returning the lubricant from the bearing to the supply container; wherein the drainage channel includes a filter located downstream of the bearing and configured to circulate the lubricant therethrough; a suction pump in communication with the drainage channel and operable to move the lubricant from the bearing to the filter; wherein the drainage channel includes a connecting channel parallel with the shaft and passing through the outer race to receive the lubricant from the bearing; and wherein the connecting channel is disposed diametrically opposite the feed channel and below the roll element.