An organic material and plant vine chopper assembly has two plant vine chopper rotor drum assemblies that chop plant vines and other organic material. Each rotor drum assembly has a plurality of rotor rings each ring having a plurality of angled blades that effectively cooperate with each other to guard each blade and the drum against the wrapping of clogging fibrous strands and other clogging material around the drum. Each chopper rotor drum assembly incorporates a plurality of rotor rings spaced along and encircling and attached to a main drum tube and distributed in a cutting zone along and surrounding the longitudinal rotational axis of the drum tube with each rotor ring having a pair or a plurality of pairs of cutting blades attached to respective alternately angled mounting tabs that alternate to the left and to the right to the general plane of the rotor ring.

An apparatus and method for processing blocks or bales of feed includes a movable mixing bin and a store room with a fixed floor for one or more rows of the blocks or bales of feed. A separator is configured to feed the full length of a cutting face which extends downwards from the top of the block or the bale. A conveyor is configured to move the separator in the direction of the cutting face. A discharger moves separated feed to the mixing bin.

An apparatus and method for processing blocks or bales of feed includes a movable mixing bin and a store room with a fixed floor for one or more rows of the blocks or bales of feed. A separator is configured to feed the full length of a cutting face which extends downwards from the top of the block or the bale. A conveyor is configured to move the separator in the direction of the cutting face. A discharger moves separated feed to the mixing bin.

An agricultural vehicle includes a chassis, a threshing and separating mechanism supported by the chassis and configured for threshing and separating a crop material, a cleaning system positioned downstream of the threshing and separating mechanism in a direction of crop material flow, and an auxiliary processing system positioned downstream of the threshing and separating mechanism in the direction of crop material flow. The auxiliary processing system has an inlet and an outlet, and includes a discharge chopper having an end and a first direction of rotation about an axis of rotation. The auxiliary processing system also includes at least one rethreshing element coaxially aligned with the discharge chopper and adjacent to the end of the discharge chopper and having a second direction of rotation opposite to the first direction of rotation of the discharge chopper.

An agricultural vehicle includes a chassis, a threshing and separating mechanism supported by the chassis and configured for threshing and separating a crop material, a cleaning system positioned downstream of the threshing and separating mechanism in a direction of crop material flow, and an auxiliary processing system positioned downstream of the threshing and separating mechanism in the direction of crop material flow. The auxiliary processing system has an inlet and an outlet, and includes a discharge chopper having an end and a first direction of rotation about an axis of rotation. The auxiliary processing system also includes at least one rethreshing element coaxially aligned with the discharge chopper and adjacent to the end of the discharge chopper and having a second direction of rotation opposite to the first direction of rotation of the discharge chopper.

An agricultural harvester includes a threshing and separating system for separating grain from non-grain crop material, and a residue handling system for receiving at least a portion of the non-grain crop material. The residue handling system includes a chopper and a windrow arrangement, each having an inlet. A door is movable between a closed position which directs the non-grain crop material to the chopper and an open position which directs the non-grain crop material to the windrow arrangement. A feed roller is positioned adjacent to and between the inlet of the chopper and windrow arrangement. The feed roller is rotatable in a first direction which directs the non-grain crop material to the chopper when the door is in the closed position, and a second direction which directs the non-grain crop material to the windrow arrangement when the door is in the open position.

An agricultural harvester includes a threshing and separating system for separating grain from non-grain crop material, and a residue handling system for receiving at least a portion of the non-grain crop material. The residue handling system includes a chopper and a windrow arrangement, each having an inlet. A door is movable between a closed position which directs the non-grain crop material to the chopper and an open position which directs the non-grain crop material to the windrow arrangement. A feed roller is positioned adjacent to and between the inlet of the chopper and windrow arrangement. The feed roller is rotatable in a first direction which directs the non-grain crop material to the chopper when the door is in the closed position, and a second direction which directs the non-grain crop material to the windrow arrangement when the door is in the open position.

A forage bale feed out apparatus is described. The apparatus comprises a chassis arranged to be operatively mounted on or in association with a vehicle in use; feed out means comprising a feed out roller having an axis of rotational symmetry about which the roller is arranged to rotate, a drive motor arranged to rotate the feed out roller, conveying means for urging a bale towards said feed out roller as the size of a bale diminishes. The feed out roller is located at a feed out region, and the conveying means is orientated such that the end of the conveying means proximate the feed out region is elevated towards the axis of rotational symmetry of the feed out roller. The apparatus further comprises a spreader tool adapted to spread and distribute the forage bale portions fed out from the feed roller at the feed out region, wherein the spreader comprises a roller having an axis of rotational symmetry about which the roller is arranged to rotate. The spreader roller has radially extending tines at intervals which tines co operate in use to spread feed from a bale, and further comprising a spreader drive motor arranged to rotate the spreader roller, wherein the feed out roller and the spreader roller are parallel and driven in opposite directions.

A forage bale feed out apparatus is described. The apparatus comprises a chassis arranged to be operatively mounted on or in association with a vehicle in use; feed out means comprising a feed out roller having an axis of rotational symmetry about which the roller is arranged to rotate, a drive motor arranged to rotate the feed out roller, conveying means for urging a bale towards said feed out roller as the size of a bale diminishes. The feed out roller is located at a feed out region, and the conveying means is orientated such that the end of the conveying means proximate the feed out region is elevated towards the axis of rotational symmetry of the feed out roller. The apparatus further comprises a spreader tool adapted to spread and distribute the forage bale portions fed out from the feed roller at the feed out region, wherein the spreader comprises a roller having an axis of rotational symmetry about which the roller is arranged to rotate. The spreader roller has radially extending tines at intervals which tines co operate in use to spread feed from a bale, and further comprising a spreader drive motor arranged to rotate the spreader roller, wherein the feed out roller and the spreader roller are parallel and driven in opposite directions.

An agricultural harvester includes a chassis and a residue handling system carried by the chassis. The residue handling system includes a set of rotating knives disposed in a housing, a first set of counter-knives, and a residue pivoting platform and/or a second set of counter-knives. Crop residue travels through the system in a residue flow direction. The first set of counter-knives are configured to enter the housing proximate to the set of rotating knives. The residue pivoting platform is positioned proximate to the first set of counter-knives in an upstream direction relative to the crop residue flow direction. The second set of counter-knives are configured to enter the housing proximate to the set of rotating knives. The second set of counter-knives are in a downstream direction relative to the crop residue flow from at least one of the residue pivoting platform and the first set of counter-knives.