A combine (10) having a feeder housing (20) for receiving harvesting crop, a separating system (24) for threshing the harvested crop to produce grain and residue, at least one of a yield monitor or a loss monitor, a crop cleaning system (26) for separating the grain from the residue, a residue chopper (114) for chopping the separated residue, an automated chopper pan (116) positioned h below the residue chopper (114), the automated chopper pan (114) having adjustable perforations, and a controller coupled to the at least one of the yield monitor or the loss monitor. The controller is configured to determine at least one of throughput from the yield monitor or loss from the loss monitor, compare the at least one of throughput or loss to respective throughput thresholds or loss thresholds, and control the automated chopper pan (116) to adjust the perforations based on the threshold comparison.

A combine (10) having a feeder housing (20) for receiving harvesting crop, a separating system (24) for threshing the harvested crop to produce grain and residue, at least one of a yield monitor or a loss monitor, a crop cleaning system (26) for separating the grain from the residue, a residue chopper (114) for chopping the separated residue, an automated chopper pan (116) positioned h below the residue chopper (114), the automated chopper pan (114) having adjustable perforations, and a controller coupled to the at least one of the yield monitor or the loss monitor. The controller is configured to determine at least one of throughput from the yield monitor or loss from the loss monitor, compare the at least one of throughput or loss to respective throughput thresholds or loss thresholds, and control the automated chopper pan (116) to adjust the perforations based on the threshold comparison.

An impact mill (10) has an inlet (12) for material to enter the mill, an impact mechanism (16, 50) arranged to rotate about a rotation axis and being operable to pulverise the material after entering through the inlet, and an outlet (154) for discharge of pulverised material. Blockage sensors (Bj), vibration sensors V, torque sensors Tn, temperature sensors and proximity sensors may be selectively incorporated into the mill.

A combine harvester includes a straw chopper having an inlet for unchopped straw, an outlet for chopped straw in an essentially horizontal direction, and a spreader fan, connected downstream of the outlet of the straw chopper and having an essentially horizontal plane of rotation, for spreading the chopped straw over a ground surface. The combine harvester further includes a guide member, which is arranged to deflect at least a part of the stream of chopped straw material to an axial intake of the spreader fan such that a part of chopped straw material meets the blades of the spreader fan in the direction of transport of the chopped straw material through the spreader fan at an acute angle () relative to the plane of rotation of the spreader fan.

A combine harvester includes a straw chopper having an inlet for unchopped straw, an outlet for chopped straw in an essentially horizontal direction, and a spreader fan, connected downstream of the outlet of the straw chopper and having an essentially horizontal plane of rotation, for spreading the chopped straw over a ground surface. The combine harvester further includes a guide member, which is arranged to deflect at least a part of the stream of chopped straw material to an axial intake of the spreader fan such that a part of chopped straw material meets the blades of the spreader fan in the direction of transport of the chopped straw material through the spreader fan at an acute angle () relative to the plane of rotation of the spreader fan.

A rotor assembly for harvesting a crop. The rotor assembly has a rotating portion defined along a rotation axis, a surrounding assembly at least partially surrounding the rotating portion, the surrounding assembly having at least one separation grate coupled to a support. The support defines an inner surface and has at least one interrupter receiver. The at least one interrupter receiver is selectively coupleable to an interrupter to position the interrupter radially inward of the inner surface towards the rotation axis.

A chopping blade for a straw chopper comprises a fastening opening, two side faces, and cutting edges arranged on one or both ends of the side faces. At least one of the side faces is equipped with means for reducing the frictional resistance of the chopping blade relative to the air and/or the chopping material.

A chopping blade for a straw chopper comprises a fastening opening, two side faces, and cutting edges arranged on one or both ends of the side faces. At least one of the side faces is equipped with means for reducing the frictional resistance of the chopping blade relative to the air and/or the chopping material.

A windrow system of a combine includes a chopper and a spreader. The chopper includes a chopper housing having a roof and a rotor assembly positioned in the chopper housing, and the spreader is pivotably coupled to the chopper and includes a top surface and an impellor that is positioned below the top surface and includes one or more blades for rotatably conveying crop residue rearwardly and outwardly from the spreader. The windrow system also includes top segment coupled to a main body of the combine, a first curtain, and a second curtain having a portion thereof positioned outwardly of the first curtain. Each of the curtains are movable relative to the main body of the combine when the spreader and/or chopper move between at least one of wide and narrow positions, chopping and windrowing positions, and chopping and stowed positions.

A self-adaptive throwing device for stalks cutting and discharging in the longitudinal axial flow combine harvesters comprises a longitudinal axial flow stalk discharging and guiding device, a stalks remnant shredding device, a wind direction and wind speed detection device, a reaping region identification device, an operating speed sensor, a shredding revolution speed sensor, a width adjustable throwing device, a self-adaptive throwing real-time control system. The throwing width is self-adaptive based on the machine operating speed, wind speed, wind direction, the position of the region having been cut and the region waiting to be cut, so as to achieve the full width throwing of the stalks remnant. An arc stalk guiding plate and a flow separating bar are mounted in the longitudinal axial flow stalk guiding device to make the shredding load more even.