Conveyor stockpile desegregation systems, methods and apparatus

The invention claimed is: 1. A conveyor having at least a drive pulley, at least an actuator configured to raise and lower the conveyor, at least a radial travel wheel, comprising: a pulley drive operably coupled to the drive pulley; at least one valve fluidly coupled to the actuator so as to alternately extend and retract the actuator; a radial travel drive operably coupled to the radial travel wheel so as to move the conveyor through a plurality of radial travel paths; and a controller in data communication with said pulley drive, said valve, and said radial travel drive, said controller configured to vary a speed of the drive pulley between said radial travel paths in order to at least partially desegregate a stockpile created by the conveyor. 2. The conveyor of claim 1 , further comprising: a height sensor configured to generate a signal indicating a height of the conveyor. 3. The conveyor of claim 1 , further comprising: a radial travel sensor configured to generate a signal indicating a radial travel extent of the conveyor. 4. A method of creating a stockpile with a conveyor having a belt driven by a pulley drive, the method comprising: positioning the conveyor at a first height; driving the belt at a first speed; traversing a first radial path with the conveyor while driving the belt at said first speed; driving the belt at a second speed; traversing a second radial path with the conveyor while driving the belt at said second speed; raising the conveyor to a second height; driving the belt at a third speed; traversing a third radial path with the conveyor while driving the belt at said third speed; driving the belt at a fourth speed; and traversing a fourth radial path with the conveyor while driving the belt at said fourth speed. 5. A method of creating a stockpile with a conveyor having a belt, the method comprising: positioning the conveyor at a first height; driving the belt at a first speed; traversing a first radial path with the conveyor while driving the belt at said first speed; driving the belt at a second speed; traversing a second radial path with the conveyor while driving the belt at said second speed; receiving a pile sensor signal from a pile sensor; upon receiving said pile sensor signal, raising the conveyor to a second height; driving the belt at a third speed; traversing a third radial path with the conveyor while driving the belt at said third speed; determining that the conveyor has reached a maximum radial travel extent; reversing a radial travel direction of the conveyor; driving the belt at a fourth speed; and traversing a fourth radial path with the conveyor while driving the belt at said fourth speed. 6. The method of claim 5 , further comprising: determining that the conveyor has reached a maximum radial travel extent; reversing a radial travel direction of the conveyor. 7. A method of creating a stockpile with a conveyor having a belt driven by a pulley drive, the method comprising: positioning the conveyor at a first height; driving the belt at a first speed; traversing a first radial path with the conveyor while driving the belt at said first speed; determining that the conveyor has reached a maximum radial travel extent; reversing a radial travel direction of the conveyor; driving the belt at a second speed; traversing a second radial path with the conveyor while driving the belt at said second speed; raising the conveyor to a second height; driving the belt at a third speed; traversing a third radial path with the conveyor while driving the belt at said third speed; determining that the conveyor has reached a maximum radial travel extent; reversing a radial travel direction of the conveyor; driving the belt at a fourth speed; and traversing a fourth radial path with the conveyor while driving the belt at said fourth speed. 8. The method of claim 7 , further comprising: receiving a pile sensor signal from a pile sensor, wherein said step of raising the conveyor to a second height is carried out in response to said pile sensor signal. 9. The method of claim 7 , further comprising: determining that the conveyor has reached a maximum height; and stopping said conveyor belt. 10. The method of claim 7 , further comprising: receiving a pile sensor signal from a pile sensor, wherein said step of raising the conveyor to a second height is carried out in response to said pile sensor signal. 11. The method of claim 7 , further comprising: determining that the conveyor has reached a maximum height; and stopping said conveyor belt. 12. The method of claim 7 , wherein at least said first radial path comprises an arcuate path. 13. The method of claim 7 , wherein at least said first and second radial paths comprise arcuate paths. 14. The method of claim 7 , wherein said first through fourth radial paths comprise arcuate paths, wherein the stockpile comprises a kidney bean shaped stockpile. 15. The method of claim 7 , further comprising: creating a first windrow while said first radial path, said first windrow positioned at a first distance from a center of rotation of the conveyor. 16. The method of claim 15 , further comprising: creating a second windrow along said second radial path. 17. The method of claim 16 , wherein said first and second windrows comprise a first layer of the stockpile. 18. The method of claim 15 , further comprising: creating a third windrow along said third radial path; and creating a fourth windrow along said fourth radial path, wherein said third and fourth windrows comprise a second layer of the stockpile.