Vertical shaft impact crusher

The invention claimed is: 1. A rotor positioned to rotate about a central axis and at least partially radially inwardly of a crushing chamber, said rotor comprising: an upward-facing inlet opening axial with said central axis; at least one outward-facing outlet opening for receiving aggregate material, said outlet opening along a first radial plane intersecting said central axis; a first wall arrangement disposed to a first lateral side of said first radial plane, said first wall arrangement configured to retain a first bed of aggregate material upon rotation of said rotor; a second wall arrangement disposed to a second lateral side of said first radial plane, said second wall arrangement configured to retain a second bed of aggregate material upon rotation of said rotor, said first wall arrangement and said second wall arrangement being symmetrical about said first radial plane, wherein said outward-facing outlet opening is defined on a first side thereof by a first inward-facing planar surface, said first inward-facing planar surface comprising a distal end of said first wall arrangement, and wherein said outward-facing outlet opening is defined on a second side thereof by a second inward-facing planar surface, said second inward-facing planar surface comprising a distal end of said second wall arrangement. 2. The rotor of claim 1 , wherein upon rotation of the rotor, a first subset of said aggregate material contacts said first bed before exiting said outlet opening, and wherein a second subset of said aggregate material contacts said second bed before exiting said outlet opening. 3. The rotor crusher of claim 1 , wherein said first bed has a first inner surface, and wherein said second bed has a second inner surface, and wherein said first and second inner surfaces are symmetrical about said first radial plane. 4. The rotor of claim 1 , wherein said first and second beds are symmetrical about said first radial plane. 5. The rotor of claim 1 , further comprising: a floor disposed radially inwardly of the outlet opening, the floor including at least one removable wear plate, the floor being disposed symmetrically about said first radial plane. 6. The rotor of claim 5 , further comprising a fastener for removably securing at least one removable wear plate in position, wherein said fastener is covered by one of said first and second beds during operation. 7. The rotor of claim 1 , wherein said central axis is vertical. 8. The rotor crusher of claim 1 , wherein each of said first and second wall arrangements comprise a sidewall, a rear wear tip holder securing a rear wear tip, and a forward wear tip holder securing a forward wear tip. 9. The rotor of claim 8 , wherein a horizontal cross-sectional portion of said rear wear tip is at least partially surrounded by said rear wear tip holder such that aggregate material does not contact said horizontal cross-sectional portion until at least some material of said rear wear tip holder is removed. 10. The rotor of claim 1 , wherein said first wall arrangement comprises a sidewall having first and second wall portions, said first wall portion being disposed at a first offset angle relative to said first radial plane, said second wall portion being disposed at a second offset angle relative to said first radial plane, said second offset angle being greater than said first offset angle. 11. The rotor of claim 1 , wherein said rotor is positioned with respect to at least one anvil of the crushing chamber, wherein said anvil includes a first vertical face and a second vertical face, wherein said first and second vertical faces are disposed symmetrically about a second radial plane extending through said anvil, wherein rotation of said rotor causes aggregate material to be thrown outward from said rotor through said at least on outlet opening toward said at least one anvil. 12. The rotor of claim 1 , wherein said rotor is positioned with respect to first and second anvils of the crushing chamber, wherein said first and second anvils are disposed symmetrically about a second radial plane extending between said first and second anvils such that rotation of said rotor causes aggregate material to be thrown outward from said rotor through said at least on outlet opening toward said first and second anvils. 13. The rotor of claim 12 , wherein first and second anvils are removably supported on a circumferential floor of the crushing chamber. 14. The rotor of claim 1 , wherein said rotor is configured to be operably coupled with a motor for rotating said rotor about the central axis. 15. The rotor of claim 1 , further comprising: a first wear-resistant wear tip removably mounted at said distal end of said first wall arrangement; and a second wear-resistant wear tip removably mounted at said distal end of said second wall arrangement. 16. The rotor of claim 15 , wherein both of said first and second wear-resistant wear tips are at least partially comprised of tungsten carbide. 17. A vertical shaft impact crusher, comprising: a crushing chamber being arranged circumferentially about a central axis, said crushing chamber comprising: a circumferential floor; an outer circumferential wall; a lower circumferential lip; a plurality of rock shelf chambers, each rock shelf chamber configured to support a bed of aggregate material, each rock shelf chamber comprising: a first support extending radially at least partway from said lower circumferential lip to said outer circumferential wall; a second support extending radially at least partway from said lower circumferential lip to said outer circumferential wall, said first and second supports being circumferentially spaced apart such that an empty space is defined between the first and second supports; a plurality of anvils removably supported on said circumferential floor, said plurality of anvils supported outside of said plurality of rock shelf chambers; and a rotor disposed to rotate about said central axis, said rotor disposed at least partially radially inwardly of said crushing chamber, said rotor comprising: an upward-facing inlet opening, said axis extending through said inlet opening; at least one radially outward-facing outlet opening, said outlet opening intersecting a first radial plane, said first radial plane intersecting said axis; a first wall arrangement disposed to a first lateral side of said first radial plane; a second wall arrangement disposed to a second lateral side of said first radial plane, said second wall arrangement and said second wall arrangement being symmetrical about said first radial plane, wherein rotation of said rotor causes aggregate material to be thrown outward from said rotor through said at least one outlet opening toward said crushing chamber such that a first subset of aggregate material fills each of said rock shelf chambers to form a plurality of beds of aggregate material in said rock shelf chambers, a second subset of aggregate material contacts at least one of said plurality of beds of aggregate material, and a third subset of aggregate material contacts at least one of said plurality of anvils. 18. The vertical shaft impact crusher of claim 17 , further comprising: a floor disposed radially inwardly of the outlet opening, the floor including at least one removable wear plate, the floor being disposed symmetrically about said first radial plane. 19. The vertical shaft impact crusher of claim 18 , further comprising a fastener for removably securing at least one removable wear plate in position,