Variable slope 3-shaft vibrating mechanism

I claim: 1. A method of sorting material comprising the steps of: providing a material sorter having a material receiving surface; providing a plurality of at least three shafts, configured to manipulate said material receiving surface; providing a plurality of at least three gears each coupled to a different one of said plurality of at least three shafts; providing a means for housing oil lubricating said plurality of at least three gears; simultaneously varying, in unison, a slope angle of said material receiving surface and a slope angle of said means for housing oil, both with respect to a ground reference over a range of angles which is substantially greater than 3 degrees; and wherein said three gears are each directly coupled to one and only one of said plurality of shafts. 2. The method of claim 1 further comprising the steps of: providing a means for measuring an oil level at a downhill end of said means for housing when said plurality of shafts are not rotating. 3. The method of claim 1 further comprising the steps of providing a means for varying an incline of said material receiving surface over a range of angles where said range of angles is substantially greater than 3 degrees. 4. The method of claim 1 wherein said material sorter is a screen. 5. The method of claim 4 wherein said plurality of shafts is a plurality of eccentric shafts configured to vibrate said material receiving surface. 6. The method of claim 5 further comprising the steps of providing a means for varying an incline of said material receiving surface over a range of angles where said range of angles is substantially greater than 3 degrees. 7. The method of claim 6 further comprising the steps of: providing an oil level measurement device at a downhill end of said lubricating oil housing. 8. A method of screening material comprising the steps of: providing a vibrating screen having a material receiving surface; providing a means for continuously varying a continuously variable slope angle of said material receiving surface with respect to a ground reference over an extended range of angles which is substantially greater than 3 degrees; providing a means for measuring said continuously variable slope angle; providing a means for housing a plurality of gears each coupled to one of a plurality of eccentric shafts; providing a means for measuring an oil level at a downhill end of said means for housing when said plurality of eccentric shafts are not rotating; detecting varying reductions in said oil level when said plurality of eccentric shafts are rotated at variable rotation rates; and regulating rotation rates of said plurality of eccentric shafts so as to maximize a reduction in said oil level from said oil level when said plurality of eccentric shafts are not rotating. 9. A method of claim 8 wherein said plurality of gears comprises at least three gears, where each of said plurality of gears is directly coupled to one and only one of said plurality of eccentric shafts. 10. The method of claim 9 further comprising the steps of providing a means for varying an incline of said system over an extended range of angles where said extended range of angles is substantially greater than 3 degrees. 11. A method of screening material comprising the steps of: providing a vibrating screen having a material receiving surface; providing a means for varying a variable slope angle of said material receiving surface with respect to a ground reference over an extended range of angles which is greater than 3 degrees; providing a means for measuring said variable slope angle; providing a means for housing a plurality of gears each coupled to one of a plurality of eccentric shafts; providing a means for measuring an oil level at a downhill end of said means for housing; detecting varying reductions in said oil level when said plurality of eccentric shafts are rotated at variable rotation rates; and regulating rotation rates of said plurality of eccentric shafts so as to change a deviation in said oil level from said oil level when said plurality of eccentric shafts are not rotating.