Bale processor

The invention claimed is: 1. A bale processor, comprising: a hopper for receiving a bale of baled material; a discharge opening for outputting chopped material; and a processing section having primary and secondary rotors; the primary rotor having an axis of rotation and being rotatable to chop the material from the bale received in the hopper; the secondary rotor being rotatable to chop the material after being chopped by the primary rotor; the secondary rotor being offset from the primary rotor such that the primary rotor is between the secondary rotor and the discharge opening. 2. The bale processor of claim 1 , wherein the primary rotor is rotatable in a direction selected to cause the material chopped by the primary rotor to temporarily travel away from the discharge opening. 3. The bale processor of claim 2 , further comprising a power-transmitting device and a disengagement mechanism in communication with the secondary rotor for altering the secondary rotor between an engaged configuration in which the secondary rotor is engaged with the power-transmitting device and a disengaged configuration in which the secondary rotor is disengaged from the power-transmitting device. 4. The bale processor of claim 3 , wherein: when the secondary rotor is in the engaged configuration, the primary rotor and the secondary rotor are rotatable in the same direction as one another such that the secondary rotor rotates material away from and subsequently back toward the primary rotor, rotation of the primary rotor and the secondary rotor resulting in three distinct chopping phases: first, chopping by the primary rotor; second, chopping by the secondary rotor; and third, additional chopping by the primary rotor. 5. The bale processor of claim 4 , further comprising an internal deflector movable to: (a) allow passage between the primary rotor and the secondary rotor when the secondary rotor is in the engaged configuration; and (b) shield the secondary rotor from the primary rotor when the secondary rotor is in the disengaged configuration, such that chopped material passes from the primary rotor to the discharge opening without encountering the secondary rotor. 6. The bale processor of claim 4 , further comprising: a conveyor in the hopper to rotate the baled material; means for rotating the primary rotor, the secondary rotor, and the conveyor; and an internal deflector movable between: one position allowing passage between the primary rotor and the secondary rotor; and another position shielding the secondary rotor from the primary rotor such that chopped material passes from the primary rotor to the discharge opening without encountering the secondary rotor; wherein the secondary rotor has an axis of rotation higher than the primary rotor axis of rotation. 7. The bale processor of claim 1 , further comprising a conveyor in the hopper to rotate the baled material. 8. The bale processor of claim 7 , further comprising means for rotating the primary rotor, the secondary rotor, and the conveyor. 9. The bale processor of claim 1 , wherein the primary rotor and the secondary rotor intermesh when the primary and secondary rotors rotate. 10. The bale processor of claim 1 , wherein the primary rotor is a flail rotor, and wherein the secondary rotor is a flail rotor. 11. The bale processor of claim 1 , wherein the secondary rotor has an axis of rotation higher than the primary rotor axis of rotation. 12. The bale processor of claim 1 , further comprising an internal deflector movable between: one position allowing passage between the primary rotor and the secondary rotor; and another position shielding the secondary rotor from the primary rotor such that chopped material passes from the primary rotor to the discharge opening without encountering the secondary rotor. 13. The bale processor of claim 1 , wherein the primary rotor has an operating speed of about 1500 RPM and the secondary rotor has an operating speed that is at least eighty-five percent faster than the operating speed of the primary rotor. 14. A bale processor, comprising: a hopper for receiving a bale of baled material; a discharge opening for outputting chopped material; and a processing section below the hopper and intersecting the hopper at an impingement zone; the processing section having primary and secondary rotors; the primary rotor being rotatable and having flails sufficiently long to extend into the impingement zone to chop the baled material from the bale received in the hopper when the primary rotor is rotated; the secondary rotor being rotatable and having flails to chop the material after being chopped by the primary rotor; wherein the secondary rotor is offset from the primary rotor such that the secondary rotor is on one side of the primary rotor, the discharge opening is on another side of the primary rotor, and the only passage from the secondary rotor to the discharge opening crosses the primary rotor. 15. The bale processor of claim 14 , wherein the primary rotor is rotatable in a direction selected to cause the material chopped by the primary rotor to temporarily travel away from the discharge opening. 16. The bale processor of claim 14 , further comprising a power-transmitting device and a disengagement mechanism in communication with the secondary rotor for altering the secondary rotor between an engaged configuration in which the secondary rotor is engaged with the power-transmitting device and a disengaged configuration in which the secondary rotor is disengaged from the power-transmitting device. 17. The bale processor of claim 16 , wherein: when the secondary rotor is in the engaged configuration, the primary rotor and the secondary rotor are rotatable in the same direction as one another such that the secondary rotor rotates material away from and subsequently back toward the primary rotor, rotation of the primary rotor and the secondary rotor resulting in three distinct chopping phases: first, chopping by the primary rotor; second, chopping by the secondary rotor; and third, additional chopping by the primary rotor. 18. The bale processor of claim 14 , further comprising an internal deflector movable between: one position allowing passage between the primary rotor and the secondary rotor; and another position shielding the secondary rotor from the primary rotor such that chopped material passes from the primary rotor to the discharge opening without encountering the secondary rotor. 19. The bale processor of claim 14 , further comprising a conveyor in the hopper to rotate the baled material. 20. A method of processing baled material, comprising the steps: (a) providing a bale processor comprising: a hopper for receiving a bale of baled material; a discharge opening for outputting chopped material; primary and secondary rotors; the primary rotor being rotatable and having an axis of rotation; the secondary rotor being rotatable and having an axis of rotation; the secondary rotor being offset from the primary rotor such that the primary rotor is between the secondary rotor and the discharge opening; a power-transmitting device; a disengagement mechanism in communication with the secondary rotor for altering the secondary rotor between an engaged configuration in which the secondary rotor is engaged with the power-transmitting device and a disengaged configuration in which the secondary rotor is disengaged from the power-transmitting device; and a movable internal deflector; (b) using the disengage