Adjustable vibratory drive system

The invention claimed is: 1. A vibratory drive system comprising a plurality of rotatable drive shafts each having a centre of mass offset from its rotational axis; a respective drive mechanism coupled to a respective one of said drive shafts for rotating the respective one of said drive shafts; and a controller for operating at least one of said drive mechanisms to control the rotational speed of the respective one of said drive shafts; wherein said controller is configured to adjust the rotational speed of at least one of said drive shafts to adjust the relative angular position of the respective centre of mass of at least two of said drive shafts; and wherein at least one of the drive mechanisms comprises a reversible hydraulic motor mounted on an end of the respective shaft and being operable by the controller to rotate the respective drive shaft in either one of two rotational directions. 2. The drive system of claim 1 , wherein said controller is configured to adjust the rotational speed of at least one of said drive shafts to cause at least two of said drive shafts to rotate at different speeds until a desired relative angular position of the respective centres of mass is achieved, and then to cause said at least two drive shafts to rotate at the same speed. 3. The drive system of claim 2 , wherein said controller is configured to adjust the rotational speed of said at least one drive shaft in response to a change in rotational speed of another of said drive shafts. 4. The drive system of claim 1 , wherein said controller is configured to receive an input indicating at least one desired rotational speed for at least one of said drive shafts, and to adjust the rotational speed of said at least one drive shaft to match said at least one desired rotational speed. 5. The drive system of claim 1 , wherein said controller is configured to receive an input indicating at least one desired relative angular position of at least two of said drive shafts, and is configured to adjust the rotational speed of at least one of said drive shafts to cause said at least two drive shafts to rotate at different speeds until said at least one desired relative angular position is achieved. 6. The drive system of claim 1 , wherein all of said drive mechanisms are operable to rotate the respective one of said drive shafts in either one of two rotational directions, said controller being configured to cause said respective drive shaft to rotate in a desired rotational direction. 7. The drive system of claim 6 , wherein said controller is configured to receive an input indicating at least one desired rotational direction for at least one of said drive shafts. 8. The drive system as claimed in claim 1 , wherein each of said drive mechanisms comprises a hydraulic motor mounted on an end of the respective drive shaft. 9. The drive system as claimed in claim 8 , wherein each of said hydraulic motors is a reversible hydraulic motor. 10. The drive system of claim 1 , wherein said motor is coupled to the respective one of said drive shafts to provide direct drive to the respective one of said drive shafts. 11. The drive system as claimed in claim 1 , wherein said plurality of drive shafts comprise first and second drive shafts, said controller being configured to adjust the rotational speed of either one or both of said first and second drive shafts to adjust the relative angular position of the respective centre of mass of said first and second drive shafts. 12. The drive system of claim 11 , wherein said controller is configured to determine an actual relative angular position between said first and second drive shafts, and to adjust the rotational speed of either one or both of said first and second drive shafts to achieve a desired relative angular position between said first and second drive shafts. 13. The drive system as claimed in claim 1 , wherein said controller is configured to determine an actual relative angular position between said at least two of said drive shafts, and to adjust the rotational speed of at least one of said drive shafts to adjust the relative angular position of the respective centre of mass of at least two of said drive shafts to achieve a desired relative angular position between said at least two drive shafts. 14. The drive system of as claimed in claim 1 , wherein a respective angular position sensor is coupled to each of said drive shafts for detecting an angular position of the respective one of said drive shafts, and communicating corresponding angular position information to said controller, and wherein said controller is configured to determine said relative angular position from said angular position information for said respective drive shafts. 15. The drive system of claim 14 , wherein said angular position sensor provides information indicative of the rotational speed of the respective one of said drive shafts. 16. The drive system as claimed in claim 1 , wherein a rotational speed sensor is coupled to each of said drive shafts for detecting the rotational speed the respective one of said drive shafts, and communicating corresponding speed information to said controller. 17. A material processing apparatus comprising: at least one vibrating component; and a drive system for vibrating said at least one vibrating component; wherein said drive system comprises: a plurality of rotatable drive shafts each having a centre of mass offset from its rotational axis, a respective drive mechanism coupled to a respective one of said drive shafts for rotating the respective one of said drive shafts; and a controller for operating at least one of said drive mechanisms to control the rotational speed of the respective one of said drive shafts; wherein said controller is configured to adjust the rotational speed of at least one of said drive shafts to adjust the relative angular position of the respective centre of mass of at least two of said drive shafts; and wherein at least one of the drive mechanisms comprises a reversible hydraulic motor mounted on an end of the respective shaft and being operable by the controller to rotate the respective drive shaft in either one of two rotational directions. 18. The material processing apparatus of claim 17 , wherein said at least one vibrating component comprises at least one screen.