An agricultural harvester is disclosed. The agricultural harvester includes a cutting unit that has a cutting table adjustable in its cutting table length, a reel adjustable to a reel vertical position and reel longitudinal position, an inclined conveyor downstream from the cutting unit, and a driver assistance system. The driver assistance system autonomously determines, using at least one input variable, at least one machine parameter and specifies the machine parameter to the cutting unit. The machine parameter can include one or more of the cutting table length, the reel vertical position, or the reel longitudinal position. In particular, the driver assistance system may determine a harvested material throughput and a vibration coefficient describing the fluctuation in the harvested material throughput in a region lying in front of the threshing system and adapt or modify the cutting table length based on the determined vibration coefficient.

In one embodiment, a system, comprising: one or more pairs of oppositely rotatable, laterally extending rolls, wherein for each pair, at least one of the rolls is moveable relative to the other of the rolls; a hydraulic circuit, comprising: a tensioner circuit comprising: for each pair of rolls, one or more pairs of hydraulic cylinders arranged in parallel, each configured to resist movement of the at least one of the rolls at a respective end of the at least one of the rolls; an accumulator arranged in parallel to the hydraulic cylinders; and plural control valves; and a computing system configured to cause the one or more pairs of hydraulic cylinders to adjust the resistance to movement of the at least one of the rolls of the respective pair of rolls by sending signals to one or more of the plural control valves.

An adjustable raking apparatus for gathering crop material into a windrow is disclosed. The raking apparatus allows the raking width and the windrow width to be independently adjusted. In some embodiments, both the raking width and the windrow width may be adjusted by the operator from the pulling vehicle attached to the raking apparatus.

An adjustable raking apparatus for gathering crop material into a windrow is disclosed. The raking apparatus allows the raking width and the windrow width to be independently adjusted. In some embodiments, both the raking width and the windrow width may be adjusted by the operator from the pulling vehicle attached to the raking apparatus.

A harvesting header for a combine harvester comprises a central header section and two lateral header sections hinged to and arranged to rotate relative to the central section for assuming a working configuration, in which the three header sections are mutually horizontally aligned, and a transport configuration, in which the lateral header sections overlap the central section. The header sections are provided with a support frame and a cutting bar associated with the support frame by a hydraulic suspension and comprising a blade having substantially trapezoid-shaped knives capable of to-and-fro movement by a motor-driven control member. The header sections also include a pick-up reel supported on the support frame by means of swivel arms, a transport belt conveyor arranged downstream of the cutting bar and configured to feed the material cut by the cutting bar downstream of the harvesting header toward a rear part of the harvesting header.

A harvesting header for a combine harvester comprises a central header section and two lateral header sections hinged to and arranged to rotate relative to the central section for assuming a working configuration, in which the three header sections are mutually horizontally aligned, and a transport configuration, in which the lateral header sections overlap the central section. The header sections are provided with a support frame and a cutting bar associated with the support frame by a hydraulic suspension and comprising a blade having substantially trapezoid-shaped knives capable of to-and-fro movement by a motor-driven control member. The header sections also include a pick-up reel supported on the support frame by means of swivel arms, a transport belt conveyor arranged downstream of the cutting bar and configured to feed the material cut by the cutting bar downstream of the harvesting header toward a rear part of the harvesting header.

The present disclosure concerns a cutter head for a harvester, with a cutterbar for cutting crop from a field, a reel with reel fingers which is disposed above the cutterbar, and a cross conveyor for transporting the cut crop to a rear discharge opening. The reel includes reel arms that can be driven about a rotating axis, reel finger carriers supported on the reel arms so they can rotate about the lengthwise axes of the arms, with reel fingers mounted thereon, and an externally powered actuator connected to an electronic control unit for adjusting the rotary angle of the reel finger carrier relative to the reel arms.

The present disclosure concerns a cutter head for a harvester, with a cutterbar for cutting crop from a field, a reel with reel fingers which is disposed above the cutterbar, and a cross conveyor for transporting the cut crop to a rear discharge opening. The reel includes reel arms that can be driven about a rotating axis, reel finger carriers supported on the reel arms so they can rotate about the lengthwise axes of the arms, with reel fingers mounted thereon, and an externally powered actuator connected to an electronic control unit for adjusting the rotary angle of the reel finger carrier relative to the reel arms.

A crop harvesting header including a pickup reel mounted for rotation about a reel axis includes a plurality of reel bats peripherally disposed and having outwardly extending fingers rotatable about a bat axis. A cam track surrounding the reel axis includes a cam surface and a guide surface. A linkage associated with each reel bat has first and second cam followers that engage the cam surface at first and second contact points displacing the linkage while traversing the cam track, the linkage being coupled to cause rotation of the reel bat about the bat axis for changing an angle of attack of the fingers. A guide follower engages the guide surface at a third contact point between the first and second contact points and is offset to cause the first and second cam followers and the guide follower to maintain contact with the guide surface while traversing the cam track.

A crop harvesting header including a pickup reel mounted for rotation about a reel axis includes a plurality of reel bats peripherally disposed and having outwardly extending fingers rotatable about a bat axis. A cam track surrounding the reel axis includes a cam surface and a guide surface. A linkage associated with each reel bat has first and second cam followers that engage the cam surface at first and second contact points displacing the linkage while traversing the cam track, the linkage being coupled to cause rotation of the reel bat about the bat axis for changing an angle of attack of the fingers. A guide follower engages the guide surface at a third contact point between the first and second contact points and is offset to cause the first and second cam followers and the guide follower to maintain contact with the guide surface while traversing the cam track.