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.

A residue management system or method can be implemented for an agricultural harvester that includes a residue processing system. A sensor arrangement can be in communication with one or more components of the residue processing system. The sensor arrangement can be configured to measure indicators of a mass flow rate of the crop residue through the crop residue system across a width of a stream of the crop residue.

A residue management system or method can be implemented for an agricultural harvester that includes a residue processing system. A sensor arrangement can be in communication with one or more components of the residue processing system. The sensor arrangement can be configured to measure indicators of a mass flow rate of the crop residue through the crop residue system across a width of a stream of the crop residue.

A plant vine chopper rotor drum assembly has a plurality of rotor rings spaced along, encircling, and attached to the longitudinal outer surface of a rotatable main drum tube. Each rotor ring has one or more pairs of angled mounting tabs that alternate to the left and to the right to the general plane of respective rotor ring; and the rotor rings are distributed in a cutting zone along and surrounding the longitudinal rotational axis of the drum tube with each mounting tab having a generally planar cutting blade attached. The angled blades distributed around the outer circumference of the ring cooperate one with another during operational rotation of the drum to guard each blade and the drum against the wrapping of clogging fibrous strands and other clogging material around the drum.

A bale processor with extended bale capacity and a kit for extending a bale capacity of a bale processor is disclosed. The extended bale capacity is provided by a bale holder mechanically coupled to the frame the bale processor. When in use, the bale holder is capable of supporting an additional bale in an intermediary position between a first bale above a disintegration rotor of the bale processor and a second bale supported by a bale carrier of the bale processor. The kit comprises an intermediary bale holder and a support frame mechanically mountable to a back section of a bale processor.

The present invention relates to a spreading arrangement (10) adapted to be arranged after a combine harvester (1), said spreading arrangement comprises two spreader fans (8), two flow guides (21), and two flow diverting elements (23). An inlet (27) of each one of the two flow guides (21) are arranged in proximity to a respective one of said spreader fans (8), an outlet (28) of said flow guides (21) are provided at a distance from said respective inlets. Each one of said two flow diverting elements (23) are provided at a respective one of said outlets (28) of said guide elements (21) and are adapted to be adjustable between at least a first and a second position. The present invention also relates to a combine harvester (1) being provided with a spreading arrangement (10).

The present invention relates to a spreading arrangement (10) adapted to be arranged after a combine harvester (1), said spreading arrangement comprises two spreader fans (8), two flow guides (21), and two flow diverting elements (23). An inlet (27) of each one of the two flow guides (21) are arranged in proximity to a respective one of said spreader fans (8), an outlet (28) of said flow guides (21) are provided at a distance from said respective inlets. Each one of said two flow diverting elements (23) are provided at a respective one of said outlets (28) of said guide elements (21) and are adapted to be adjustable between at least a first and a second position. The present invention also relates to a combine harvester (1) being provided with a spreading arrangement (10).

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.

A shredding and baling apparatus provided includes a shredding assembly operatively connected to a baling assembly via a conveyor. A rotatable drum with cutting teeth spirally arranged along the drum is preferably centered within a lower portion of an intake hopper for cutting through material as it is fed into the hopper. Fixed cutting teeth are preferably arranged in a row or rows along each of the longitudinal sidewalls of the hopper, adjacent the cutting drum. A touch screen display and computer may be used in combination with sensors to monitor and control the shredding and baling operation, and a hydraulic system is used to drive the components. The shredding and baling assembly is preferably designed in an industrial size to handle high volumes of material and may be driven or transported from one location to another.

A combine harvester has a straw chute with a straw conveyor which comprises a conveyor rotor which can be set into rotation and has dogs distributed helically around the conveyor rotor.