A header of an agricultural harvester for the transport of a flow of crop from a header to a combine feeder house. The header includes a frame having a floor, a conveyor assembly, and a drive mechanism. The conveyor assembly is mounted above the floor to urge a flow of crop material during harvesting operations, and the drive mechanism operatively connects to the conveyor assembly to drive movement of the conveyor assembly. The drive mechanism includes a drive motor mounted to the frame beneath the floor about a medial section of the header.

An agricultural harvester includes a chassis, a header for cutting and gathering crop material, the header being carried by the chassis, and an auger. The auger moves the cut crop material toward a central area of the header. The auger is rotatably carried by the header. The auger has a plurality of auger sections. The auger includes an auger crankshaft and a hingeable coupling for coupling two of the auger sections to each other. The hingeable coupling allows the auger sections to rotate about differing axes. The hingeable coupling has an internal opening. The auger crankshaft provides positional timing to auger fingers. The auger crankshaft passing through the internal opening.

A drum conveyor has a laterally extending drum (120), first and second stub axles (204, 206) extending into the ends of the drum; two link members (208, 210) that are fixed to the stub axles inside the drum and that support a third axle (212) inside the drum for free rotation with respect to the two link members.

A conveying arrangement conveys loose material in a conveying direction, in particular agricultural material. Several knives of a cutting assembly are mounted below a cutting area guiding surface. The material is first conveyed along the cutting area guiding surface and afterwards along a further guiding surface. Both guiding surfaces are mechanically supported by a connecting assembly. A positioning mechanism can pivot the connecting assembly upwards and downwards. This pivotal movement causes both guiding surfaces to be moved upwards and downwards. The cutting area guiding surface together with the cutting assembly can be shifted laterally, i.e. perpendicular to the conveying direction, and is guided during this lateral movement.

A conveying arrangement conveys loose material in a conveying direction, in particular agricultural material. Several knives of a cutting assembly are mounted below a cutting area guiding surface. The material is first conveyed along the cutting area guiding surface and afterwards along a further guiding surface. Both guiding surfaces are mechanically supported by a connecting assembly. A positioning mechanism can pivot the connecting assembly upwards and downwards. This pivotal movement causes both guiding surfaces to be moved upwards and downwards. The cutting area guiding surface together with the cutting assembly can be shifted laterally, i.e. perpendicular to the conveying direction, and is guided during this lateral movement.

A system conveying material-other-than-grain (MOG) from a harvesting machine to a packaging machine towed by the harvesting machine. The system includes an joint pivotably joining a harvesting machine hitch to a packaging machine hitch. An accelerator is mounted to the packaging machine hitch. The accelerator has a housing with a top-side inlet and a side outlet. A MOG-propelling disk is disposed in the housing and is rotatable about an axis. A conduit is disposed above the packaging machine hitch and has an inlet end and an outlet end, the inlet end coupled to the side outlet. The conduit has first and second opposing side portions and a top side portion without an opposing bottom portion, with at least part of the top side portion is parallel with the plane of the disk. The accelerator, conduit, and packaging machine are collectively in pivotal arrangement relative to the harvesting machine.

An assembly for rotating a chain or toothed belt includes a shaft and a sprocket rotatably mounted on the shaft. The sprocket includes a plurality of teeth configured to engage the chain or toothed belt. The assembly further includes a shield assembly covering at least a portion of the sprocket. The shield assembly has an interior groove formed therein defining an enclosed interior space. Each of the teeth of the sprocket rotate through the enclosed interior space during a full rotation of the sprocket.

An agricultural header including a belt that wraps around rollers. A cutter bar assembly that cuts a crop and delivers the crop to the belt. The cutter bar assembly includes a cutter bar, a stationary blade assembly that couples to the cutter bar, a moving blade assembly that couples to the cutter bar. The moving blade assembly moves relative to the stationary blade assembly to cut the crop. A skid couples to the cutter bar and maintains a distance between the ground and the stationary blade assembly and the moving blade assembly. The cutter bar defines a recess that receives debris from the belt and directs the debris to the skid.

An elevator assembly for a harvester may include an elevator extending within between proximal and distal ends. The elevator may be configured to carry harvested crops between its proximal and distal ends. The elevator assembly may also include a storage hopper at a location adjacent to the distal end of the elevator. The storage hopper may include a rear deflector and a hopper gate. The hopper gate may be movable between a discharge position, at which the hopper gate exposes a discharge opening of the storage hopper, and a storage position, at which the hopper gate covers the discharge opening to prevent harvested crops from being discharged from the elevator assembly. Additionally, when the hopper gate is moved to the storage position, the hopper gate and the rear deflector may at least partially define a storage volume adjacent to the distal end of the elevator for storing the harvested crop.

An elevator assembly for a harvester may include an elevator extending within between proximal and distal ends. The elevator may be configured to carry harvested crops between its proximal and distal ends. The elevator assembly may also include a storage hopper at a location adjacent to the distal end of the elevator. The storage hopper may include a rear deflector and a hopper gate. The hopper gate may be movable between a discharge position, at which the hopper gate exposes a discharge opening of the storage hopper, and a storage position, at which the hopper gate covers the discharge opening to prevent harvested crops from being discharged from the elevator assembly. Additionally, when the hopper gate is moved to the storage position, the hopper gate and the rear deflector may at least partially define a storage volume adjacent to the distal end of the elevator for storing the harvested crop.