A spreader configured for dispersing a non-grain crop material onto a field. The spreader includes a floor panel having a distal end, a pair of side deflectors pivotally connected to the floor panel, and a table slideably connected to the floor panel and slideable between a retracted position and an extended position in which at least a portion of the table is extended past the distal end of the floor panel.

A method and device for harvesting grain crops is provided. A threshing method includes separating grain from harvested material, which is fed to a threshing phase after a gathering process taking place against a direction of working travel. During threshing, the harvested material is processed as the respective grain crops and admixtures in the form of straw and chaff such that essential, dischargeable admixtures are separated from the grain crops, and these, in the form of a mixture with chaff or similar fine particles, are fed as a grain/chaff stream to a final cleaning. The grains free of these residual admixtures are subsequently collected as grain crops. During at least one feed phase preceding the final cleaning, a transport movement is imparted to the at least one grain/chaff stream with the transport movement having a component in a vertical direction and a component in the direction of working travel.

An agricultural machine includes at least one processing device for harvested material and a drive train for the at least one processing device. The drive train has an output transmission stage with an output shaft for the at least one processing device. The output transmission stage includes an input gear and a grooved shaft connected in a non-rotatable manner to the input gear and the output shaft in such a manner that a drive connection between the input gear and the output shaft is achieved via the grooved shaft. The grooved shaft is provided with a ring groove defining a predetermined breaking point. The ring groove is configured in the drive flow direction between the input gear and the output shaft, and the grooved shaft is accessible through an assembly opening on an input gear side of the grooved shaft. The assembly opening is axially aligned with the grooved shaft.

A roller is connected to a harvesting platform for movement with a combine over a ground surface in a direction of travel. The roller includes a first portion defining a first diameter and including a first material, and a second portion defining a second diameter and including a second material. The second diameter is greater than the first diameter. The second portion substantially surrounds the first portion, the second material has different material properties than the first material. The roller extends in the direction of travel and rotates about a second axis which extends generally parallel to the direction of travel.

An agricultural header includes: a header frame; at least one cutting unit carried by the header frame and including a cutting element and a driveshaft coupled to the cutting element; and a gearbox configured to drive the cutting element. The gearbox includes a gearbox output rotatably coupled to the driveshaft; and a clutch including an intermediate shaft and at least one clutch shoe rotatably coupled to the intermediate shaft and displaceable between a non-engaging position where the at least one clutch shoe does not engage the gearbox output and an engaging position where the at least one clutch shoe engages the gearbox output. The clutch is configured such that the at least one clutch shoe displaces to the engaging position when a rotational speed of the intermediate shaft reaches a threshold value.

A spreader configured for dispersing a non-grain crop material onto a field. The spreader includes a floor panel having a distal end, a pair of side deflectors pivotally connected to the floor panel, and a table slideably connected to the floor panel and slideable between a retracted position and an extended position in which at least a portion of the table is extended past the distal end of the floor panel.

A vehicle transmission may include a differential comprising a carrier and at least one torque receiver fixed to the carrier, a first torque input having a first torque transmitter directly connected to with the at least one torque receiver of the carrier, and a second torque input having a second torque transmitter directly connected to the at least one torque receiver of the carrier.

A vehicle transmission may include a differential comprising a carrier and at least one torque receiver fixed to the carrier, a first torque input having a first torque transmitter directly connected to with the at least one torque receiver of the carrier, and a second torque input having a second torque transmitter directly connected to the at least one torque receiver of the carrier.

An arrangement for controlling the operation of a draper belt header of a combine harvester includes a central belt conveyor of the draper belt header having a drive for operably driving the conveyor and two outer belt conveyors attached to a feeder house of the combine harvester. The feeder house has a controllable height which may be controllably adjusted by an actuator. The arrangement further includes a control unit operable to stop the drive of the central belt conveyor or move it into a reversing mode if the feeder house is being raised by the actuator.

A control system includes a first input to receive a positional output characteristic of a first vehicle at a first communication frequency and a second input to receive a kinematic output characteristic of the first vehicle at a second frequency, where the second frequency is greater than the first frequency. A guidance controller of a second vehicle is configured to process the kinematic output characteristic of the first vehicle to obtain a heading of the first vehicle, compare the heading of the first vehicle with a heading of the second vehicle to obtain a heading deviation of the second vehicle, and determine a guidance heading of the second vehicle based on the heading deviation of the second vehicle. A control interface is configured to communicate the guidance heading to one or more of steering, throttle or brake elements of the second vehicle.