Vibratory classifiers

What is claimed is: 1. A vibratory feeder for classifying aggregate material, comprising: a first sidewall having a first length; a second sidewall having a second length; a vibratory mechanism operably coupled to at least one of said first and second sidewalls; a deck supported between said first and second sidewalls along a first portion of the first and second length; a grizzly bar classifier supported between said first and second sidewalls along a second portion of the first and second length said grizzly bar classifier comprising: a plurality of laterally spaced-apart grizzly bars, said grizzly bars being generally parallel to said first and second sidewalls; a support connected to said first and second side walls, said plurality of grizzly bars being carried on said support wherein said first sidewall includes: a first array of openings for connecting said support in a first configuration; and a second array of openings for connecting said support in a second configuration, at least one of said first array of openings being disposed within said second array of openings, said grizzly bars being downwardly sloped at a first angle in said first configuration, said grizzly bars being generally horizontally oriented in said second configuration. 2. The vibratory feeder of claim 1 , wherein said support comprises: a rear support extending laterally beneath said grizzly bars and operably supporting said grizzly bars; a forward support extending laterally beneath said grizzly bars and operably supporting said grizzly bars; a forward mounting plate coupled to said forward support; and a forward set of fasteners for coupling said forward mounting plate to said first sidewall, each of said forward set of fasteners extending laterally at least partially through said forward mounting plate. 3. The vibratory feeder of claim 2 , wherein said first array of openings is arranged to receive said forward set of fasteners at least partially therethrough in the first configuration, and wherein said second array of openings is arranged to receive said forward set of fasteners at least partially therethrough in the second configuration. 4. The vibratory feeder of claim 3 , wherein said first array of openings is arranged to form an irregular polygon. 5. The vibratory feeder of claim 4 , wherein said second array of openings is arranged to form an irregular polygon. 6. The vibratory feeder of claim 1 , wherein at least one of said second array of openings is disposed within said first array of openings. 7. The vibratory feeder of claim 1 , wherein said first array of openings is arranged to form an oblique rectangle. 8. The vibratory feeder of claim 1 , wherein three openings of said first array of openings form first through third vertices of a right rectangle, and wherein a fourth opening of said first array of openings is offset from a fourth vertex of said right rectangle. 9. The vibratory feeder of claim 1 , wherein at least one of said first array of openings has a diameter D, wherein each of said first array of openings is spaced apart from any of said second array of openings by at least a distance Dt, said distance Dt being greater than zero. 10. The vibratory feeder of claim 9 , wherein said distance Dt is at least as great as said diameter D. 11. The vibratory feeder of claim 9 , wherein said distance Dt is at least as great as half of said diameter D. 12. The vibratory feeder of claim 1 , wherein said first sidewall further comprises: a first plurality of side liner support openings for supporting a first sideliner adjacent to said grizzly bar classifier in said first configuration, said second sideliner being configured to substantially cover a portion of said first sidewall above said grizzly bar classifier in said second configuration; and a second plurality of side liner support openings for supporting a second sideliner adjacent to said grizzly bar classifier in said second configuration, said second side liner being configured to substantially cover a portion of said first sidewall above said grizzly bar classifier in said second configuration. 13. The vibratory feeder of claim 1 , wherein said first sidewall further comprises: a first plurality of side bar support openings for supporting a side bar parallel to said grizzly bars in said first configuration; and a second plurality of side liner support openings for supporting said side bar parallel to said grizzly bars in said second configuration. 14. The vibratory feeder of claim 1 , further comprising: a rear mounting plate coupled to said rear support; a rear set of fasteners for coupling said rear mounting plate to said first sidewall, each of said rear set of fasteners extending laterally at least partially through said rear mounting plate, wherein said first sidewall further includes: a first rear array of openings, said first rear array arranged to receive said rear set of fasteners at least partially therethrough in the first configuration; and a second rear array of openings, said second rear array arranged to receive said rear set of fasteners at least partially therethrough in the second configuration. 15. The vibratory feeder of claim 14 , wherein said forward array of openings form vertices of an irregular polygon. 16. The vibratory feeder of claim 15 , wherein said rear array of openings form vertices of a right rectangle. 17. The vibratory feeder of claim 14 , wherein said forward array of openings form vertices of an oblique rectangle. 18. The vibratory feeder of claim 17 , wherein said rear array of openings form vertices of a right rectangle. 19. The vibratory feeder of claim 1 , further comprising: a first spring suspension system mounted to said first sidewall; and a second spring suspension system mounted to said second sidewall. 20. A method of reconfiguring a grizzly bar classifier of a vibratory grizzly feeder, the method comprising: dismounting a grizzly bar classifier support from a first array of sidewall openings in a sidewall; reorienting said grizzly bar classifier support from a first orientation to a second orientation; and mounting said grizzly bar classifier support to a second array of sidewall openings in said sidewall, said first array overlapping said second array, wherein at least one of said first array of openings is disposed within said second array of openings, said grizzly bar classifier supported on said grizzly bar classifier support being downwardly sloped at a first angle in said first orientation, said grizzly bar classifier supported on said grizzly bar classifier support being generally horizontal in said second orientation. 21. The method of claim 20 , wherein said second array of sidewall openings is arranged in an irregular polygonal shape. 22. The method of claim 20 , further comprising: removing a first side liner from said sidewall; with a second side liner, covering a substantial portion of said sidewall above said grizzly bar classifier; mounting said second side liner to said sidewall. 23. The method of claim 20 , further comprising: removing a side bar from said sidewall; reorienting said side bar to be parallel with said grizzly bar classifier in the second configuration; and mounting said side bar to said sidewall.