Unload spout inclination limit adjust system and method

What is claimed is: 1. An unloading conveyor arrangement for an agricultural machine, comprising: a conveyor having a discharge end; at least one sensor issuing a signal indicative of a factor that can impact flow of a material out of said conveyor discharge end; a microprocessor receiving said signal and determining a range for an operating condition of said conveyor and issuing a response if an actual value of said operating condition is outside of said range; and, wherein said conveyor includes an adjustable discharge spout, and said operating condition is the angle of said spout, and wherein said at least one sensor sends a signal indicative of at least one of moisture and crop type of the material and said response comprises at least one of dithering or vibrating the spout. 2. The unloading conveyor arrangement of claim 1 , further comprising a sensor sending a signal indicative of topography to said microprocessor. 3. An agricultural combine harvester, comprising: a chassis; a clean grain tank carried by said chassis; and an unloading conveyor arrangement in communication with said clean grain tank, said unloading conveyor arrangement including a conveyor having a discharge end; at least one sensor issuing a signal indicative of a factor representative of a physical condition of a material that can impact flow of the material out of said conveyor discharge end; and a microprocessor receiving said signal and determining a range for adjustment of an operating condition of said unloading conveyor arrangement based on said factor, and issuing a response if an actual value of said operating condition is outside of said range; and wherein said unloading conveyor arrangement further includes an adjustable spout at said discharge end of said conveyor, and said microprocessor determines an angular range for adjustment of said spout based on said factor, and suspends unloading if an actual angular position of said spout is outside of said range and the angular position is not returned to within said range within an established period. 4. The combine harvester of claim 3 , further comprising a sensor sending a signal indicative of topography to said microprocessor. 5. The combine harvester of claim 3 , wherein at least a second sensor sends at least a second signal indicative of at least a second factor that can impact the flow of said material out of said conveyor discharge end; and said microprocessor receives said at least a second signal. 6. A method for operating an unloading conveyor of a combine harvester, comprising: operating a material conveyer that is connected to and extends from the body of the combine harvester, the material conveyer having a discharge spout at a discharge end thereof that is movable with respect to the conveyer and configured to control the angle at which material exits the conveyer; sensing at least one factor that can impact flow of a material out of said material conveyer; determining with a microprocessor an operating range for the angular position of the spout dependent on the factor having been sensed; controlling with the microprocessor the angular position of the discharge spout based on a roll angle of the combine harvester; monitoring the actual position of the spout; and attempting to adjust an angular position of the spout if the actual position ascertained in said ascertaining step was outside of the range from said determining step, and initiating a response with the microprocessor if an actual position of the spout is not returned to the range within a predetermined period; wherein said sensing step includes sensing at least one of moisture or crop type of the material. 7. The method of claim 6 , wherein said sensing step includes sensing a topographical condition. 8. The method of claim 6 , wherein said response comprises at least one of dithering or vibrating the spout or terminating unloading from the spout.