Agricultural harvester with improved rotor transition geometry

What is claimed is: 1. An agricultural harvester, comprising: a chassis; and a threshing and separating system carried by said chassis and configured for threshing and separating grain from gathered crop material, said threshing and separating system including: a rotor defining a longitudinal axis; a concave at least partially surrounding said rotor; a transition cone defining an infeed to said rotor; and a transition surface connecting said transition cone to said concave and having a conical portion defined about said longitudinal axis and a blended portion connected to said conical portion, said blended portion defining a first end connected to said conical portion and a second end distanced from said first end in a lateral direction, said blended portion defining a substantially conical shape about said longitudinal axis at said first end and approaching a substantially cylindrical shape about said longitudinal axis toward said second end, said transition surface having a transition length in a direction parallel to the longitudinal axis, the transition surface having a front and a back, the front of said transition surface at said first end of said blended portion having a diameter of said conical portion, the back of said transition surface at said first end of said blended portion having a cylindrical shape and a diameter, the diameter at the back of said transition surface at said first end of said blended portion being approximately equal to a diameter of the front of said transition surface at said second end of said blended portion. 2. The agricultural harvester according to claim 1 , wherein said blended portion has a substantially cylindrical shape about said longitudinal axis at said second end along the transition length. 3. The agricultural harvester according to claim 1 , wherein said transition cone defines a cone length, said transition length being greater than said cone length. 4. The agricultural harvester according to claim 1 , wherein said blended portion defines a plurality of taper distances relative to said longitudinal axis, said taper distances decreasing from said first end of said blended portion toward said second end of said blended portion. 5. The agricultural harvester according to claim 4 , wherein said blended portion defines a maximum radius relative to said longitudinal axis, a minimum radius relative to said longitudinal axis, and a maximum taper distance equal to the difference between said maximum radius and said minimum radius. 6. The agricultural harvester according to claim 5 , wherein said concave defines a concave radius relative to said longitudinal axis, said minimum radius of said blended portion being equal to said concave radius. 7. The agricultural harvester according to claim 4 , wherein a taper distance at said second end of said blended portion is approximately zero. 8. The agricultural harvester according to claim 1 , further comprising a plurality of vanes connected to an interior of said transition surface, each of said plurality of vanes defining at least two vane heights and a vane clearance relative to said rotor, wherein said vane heights vary such that said vane clearances are constant. 9. A rotor housing, comprising: a concave defining a cylindrical shape about a longitudinal axis; and a transition surface connected to said concave and having a conical portion defined about said longitudinal axis and a blended portion connected to said conical portion, said blended portion having a first end connected to said conical portion and a second end distanced from said first end in a lateral direction, said blended portion defining a substantially conical shape about said longitudinal axis at said first end and approaching a substantially cylindrical shape about said longitudinal axis toward said second end, said transition surface having a transition length in a direction parallel to the longitudinal axis, the transition surface having a front and a back, the front of said transition surface at the first end of said blended portion having a diameter of said conical portion, the back of said transition surface at said first end of said blended portion having a cylindrical shape and a diameter, the diameter at the back of said transition surface at said first end of said blended portion being approximately equal to a diameter of the front of said transition surface at said second end of said blended portion. 10. The rotor housing according to claim 9 , wherein said blended portion has a substantially cylindrical shape about said longitudinal axis at said second end along the transition length. 11. The rotor housing according to claim 9 , further comprising a transition cone coupled to said transition surface, the transition cone having a cone length and said transition surface defines a transition length, said transition length being greater than said cone length. 12. The rotor housing according to claim 9 , wherein said blended portion defines a plurality of taper distances relative to said longitudinal axis, said taper distances decreasing from said first end of said blended portion toward said second end of said blended portion. 13. The rotor housing according to claim 12 , wherein said blended portion defines a maximum radius relative to said longitudinal axis, a minimum radius relative to said longitudinal axis, and a maximum taper distance equal to the difference between said maximum radius and said minimum radius. 14. The rotor housing according to claim 12 , wherein a taper distance at said second end of said blended portion is approximately zero.