Harvester reciprocating drive balancing system

What is claimed is: 1. A harvester reciprocating drive balancing system comprising: a crop material separating member movably supported for reciprocal movement; a drive operably coupled to the crop material separating member to reciprocate the crop material separating member, the drive comprising: a drive crank operably coupled to the crop material separating member; a shaft operably coupled to the drive crank; a belt drive; a driven pulley; a belt wrapped about the belt drive and the driven pulley; and a gear reduction mechanism operably coupled between the driven pulley and the shaft. 2. The harvester reciprocating drive balancing system of claim 1 , wherein the crop material separating member comprises a sieve. 3. The harvester reciprocating drive balancing system of claim 1 , wherein the gear reduction mechanism comprises a planetary gear system. 4. The harvester reciprocating drive balancing system of claim 1 , wherein the gear reduction mechanism comprises: a sun gear coupled to the shaft; a ring gear coupled to the driven pulley; and a planetary gear in meshing engagement with the ring gear and the sun gear. 5. The harvester reciprocating drive balancing system of claim 1 , wherein the driven pulley serves as a flywheel, the driven pulley having a mass of less than or equal to 15 Kg. 6. The harvester reciprocating drive balancing system of claim 1 , wherein the gear reduction mechanism has a reduction ratio of at least 2 to 1. 7. The harvester reciprocating drive balancing system of claim 1 , wherein the gear reduction mechanism has a reduction ratio of at least 3 to 1. 8. The harvester reciprocating drive balancing system of claim 1 , wherein the shaft undergoes a speed variation and a torque variation and wherein the mass of the flywheel, the velocity which the driven pulley is driven and the gear reduction ratio of the gear reduction mechanism are based upon the speed variation multiplied by the torque variation. 9. The harvester reciprocating drive balancing system of claim 1 , wherein the driven pulley serves as a flywheel that rotates about a first axis and wherein the drive crank is pivotably connected to the crop material separating member and is connected to the flywheel eccentric to the first axis. 10. A harvester cleaning shoe comprising: a sieve movably supported for reciprocal movement; a drive operably coupled to the sieve to reciprocate the sieve, the drive comprising: a drive crank operably coupled to the crop material separating member; a shaft operably coupled to the drive crank; a belt drive; a driven pulley serving as a flywheel; a belt wrapped about the belt drive and the driven pulley; and a planetary gear mechanism comprising: a ring gear coupled to the driven pulley to rotate with the driven pulley; a sun gear coupled to the shaft to rotate with the shaft; and a planetary gear inner mashed between the ring gear and the sun gear. 11. The harvester cleaning shoe of claim 10 , wherein the planetary gear has a reduction ratio of at least 3 to 1 and wherein the driven pulley, providing the flywheel, has a mass of less than or equal to 12 Kg. 12. A method comprising: rotatably driving a driven pulley, serving as a flywheel, at a first speed; transmitting torque from the driven pulley to a shaft across a gear reduction mechanism to rotate the shaft at a second speed less than the first speed; and transmitting torque from the shaft to a harvester crop material separating member to reciprocate the harvester crop material separating member. 13. The method of claim 12 , wherein the gear reduction mechanism has a gear reduction ratio based upon a mass of the flywheel, a speed variation of the shaft and a torque variation of the shaft. 14. The method of claim 12 , wherein the gear reduction mechanism comprises a planetary gear having a ring gear coupled to and rotating with the driven pulley, a sun gear coupled to and rotating with the shaft in a planetary gear in meshing engagement with and between the ring gear and the sun gear. 15. The method of claim 14 , wherein the planetary gear has a reduction ratio of at least 3 to 1 and wherein the driven pulley, providing the flywheel, has a mass of less than or equal to 12 Kg. 16. The method of claim 12 , wherein the flywheel has a mass of less than 15 Kg. 17. The method of claim 12 further comprising depositing crop material on the harvester crop material separating member, wherein reciprocation of the harvester crop material separating member separates the crop material into a first portion that passes through the crop material separating member and a second portion that does not pass through the crop material separating member. 18. The method of claim 12 , wherein the driven pulley is rotatably driven at a speed of at least 900 revolutions per minute.