Weed seeds are destroyed in the chaff from a combine harvester by repeated high speed impacts caused by a rotor mounted in one of a pair of side by side housings which accelerate the discarded seeds in a direction centrifugally away from the rotor onto a stator including angularly adjustable stator surfaces around the axis. The weed seed destructor is driven with a straw management system from an output shaft of the combine harvester so that the full power required for both passes through a belt which includes more than four longitudinally extending v-belt ribs and reinforcing cords located in a base band above the ribs at uniformly spaced positions across the width of the belt so that a replacement drive pulley on the output shaft has a width not significantly greater than a conventional output pulley which it replaces.

An agricultural implement for collecting, pulverizing and dispersing straw that has been windrowed during a harvesting operation. A frame carries a pickup mechanism at a front end thereof, and first and second straw-processing stages therebehind, and each featuring a rotor and accompanying concave having static teeth fixed thereon. The first rotor likewise has fixed teeth, and the second rotor has flailing knives, whereby the straw is gradually broken down in the two sequential stages before discharge back into the field.

An agricultural implement for collecting, pulverizing and dispersing straw that has been windrowed during a harvesting operation. A frame carries a pickup mechanism at a front end thereof, and first and second straw-processing stages therebehind, and each featuring a rotor and accompanying concave having static teeth fixed thereon. The first rotor likewise has fixed teeth, and the second rotor has flailing knives, whereby the straw is gradually broken down in the two sequential stages before discharge back into the field.

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 chopper drum assembly for a forage harvester including a chopper drum housing, a shear bar, a shear bar holder and a wear plate assembly. The chopper drum housing includes a first part and a wear plate assembly support surface. The shear bar holder is pivotally connected at a first end to the first part of the chopper drum housing and fixedly connected to the shear bar at a second end. A first end of the wear plate assembly is pivotally connected to the second end of the shear bar holder adjacent the shear bar, and a second end of the wear plate assembly is supported by the wear plate assembly support surface wherein, the wear plate support surface is arranged to be inclined to the horizontal.

A bale spreader having a chassis, one or more feed conveyors mounted to the chassis and a spreader rotor mounted to the chassis. The feed conveyor(s) are configured to transport material from a bale along a feed path. During spreading, the spreader rotor receives the material from the feed path and the axis of the spreader rotor is higher than the feed path. The spreader rotor can be movable between a first position in the feed path and second position not in the feed path. The spreader rotor can be driven by a belt. The feed conveyor(s) may be a plurality of feed drums. One of the feed drums can have teeth that extend between flails of the spreader rotor in use. The flails can rotate with their broad sides forwards. The spreader can also have a conveyor platform for round bales and another platform for square bales that can be placed over the conveyor platform.

A chopper for an agricultural harvester comprises a housing, a rotor, a bank of counter-knives, and an adjuster. The housing comprises a variable geometry outlet floor. The is positioned in an interior region of the housing for rotation therein relative to the housing. The bank of counter-knives is movable relative to the rotor between a first aggressiveness position and a second aggressiveness position to adjust chopping aggressiveness of the chopper. The outlet floor comprises a ramp movable relative to the rotor between a first ramp position and a second ramp position. The adjuster positions the ramp in the first ramp position when the bank of counter-knives is positioned in the first aggressiveness position and positions the ramp in the second ramp position when the bank of counter-knives is positioned in the second aggressiveness position.

A chopper for an agricultural harvester comprises a housing, a rotor, a bank of counter-knives, and an adjuster. The housing comprises a variable geometry outlet floor. The is positioned in an interior region of the housing for rotation therein relative to the housing. The bank of counter-knives is movable relative to the rotor between a first aggressiveness position and a second aggressiveness position to adjust chopping aggressiveness of the chopper. The outlet floor comprises a ramp movable relative to the rotor between a first ramp position and a second ramp position. The adjuster positions the ramp in the first ramp position when the bank of counter-knives is positioned in the first aggressiveness position and positions the ramp in the second ramp position when the bank of counter-knives is positioned in the second aggressiveness position.

A residue management system comprises a chopper to chop crop residue, a residue spreader, and a floor extension. The residue spreader is mounted for pivotable movement relative to the chopper between a dispersal position to disperse crop residue and a windrow position to deposit crop residue in a windrow. The residue spreader comprises a first spreading device, a second spreading device, and a splitter positioned laterally between the first and second spreading devices to divide flow of crop residue therebetween. A floor of the chopper and a floor of the residue spreader are spaced apart from one another to define a gap. The floor extension projects rearwardly from the floor of the chopper partially over the floor of the residue spreader about the gap alongside the splitter to guide flow of crop residue from the chopper to the residue spreader.

A residue management system comprises a chopper to chop crop residue, a residue spreader, and a floor extension. The residue spreader is mounted for pivotable movement relative to the chopper between a dispersal position to disperse crop residue and a windrow position to deposit crop residue in a windrow. The residue spreader comprises a first spreading device, a second spreading device, and a splitter positioned laterally between the first and second spreading devices to divide flow of crop residue therebetween. A floor of the chopper and a floor of the residue spreader are spaced apart from one another to define a gap. The floor extension projects rearwardly from the floor of the chopper partially over the floor of the residue spreader about the gap alongside the splitter to guide flow of crop residue from the chopper to the residue spreader.