An embodiment includes a combine having a header with a motor driving a blade for harvesting crop, a power receiving connector connected to the motor, where the power receiving connector supplies power to drive the motor, and a mechanical connector. The combine also includes a feeder housing with an opening for receiving the harvested crop from the header, a power supplying connector connected to a power plant of the combine, and a mechanical actuator. A controller controls the combine by attaching the header to the feeder housing by lifting the header such that the power receiving connector and the power supplying connector are automatically mated, and such that the mechanical actuator and the mechanical connector are mated, and controlling the power plant to generate and supply electrical power or hydraulic power to the power supply connector, which is supplied to the motor of the header via the power receiving connector.

An embodiment includes a combine having a header with a motor driving a blade for harvesting crop, a power receiving connector connected to the motor, where the power receiving connector supplies power to drive the motor, and a mechanical connector. The combine also includes a feeder housing with an opening for receiving the harvested crop from the header, a power supplying connector connected to a power plant of the combine, and a mechanical actuator. A controller controls the combine by attaching the header to the feeder housing by lifting the header such that the power receiving connector and the power supplying connector are automatically mated, and such that the mechanical actuator and the mechanical connector are mated, and controlling the power plant to generate and supply electrical power or hydraulic power to the power supply connector, which is supplied to the motor of the header via the power receiving connector.

A feeder housing for an agricultural harvester includes: a housing; a conveyor system disposed in the housing, the conveyor system including a drive shaft, at least one drive loop coupled to the drive shaft such that rotation of the drive shaft causes rotation of the at least one drive loop, and a plurality of crop grabbers coupled to the at least one drive loop; a rock beater disposed in the housing and including a rotatable beater roll and at least one fin carried by the beater roll; and a motor coupled to the beater roll and configured to rotate the beater roll. The motor is an electrically powered motor or a hydraulically powered motor. The motor is coupled to the beater roll such that the motor is configured to rotate the beater roll without rotating the drive shaft.

A feeder housing for an agricultural harvester includes: a housing; a conveyor system disposed in the housing, the conveyor system including a drive shaft, at least one drive loop coupled to the drive shaft such that rotation of the drive shaft causes rotation of the at least one drive loop, and a plurality of crop grabbers coupled to the at least one drive loop; a rock beater disposed in the housing and including a rotatable beater roll and at least one fin carried by the beater roll; and a motor coupled to the beater roll and configured to rotate the beater roll. The motor is an electrically powered motor or a hydraulically powered motor. The motor is coupled to the beater roll such that the motor is configured to rotate the beater roll without rotating the drive shaft.

A combine includes a feeder housing that include a movable cradle frame at the front, configured to receive a header, so that a controlled movement of the cradle frame may be imparted to the header during a harvesting run. The combine further includes a driveline for driving moving components of the combine header. The driveline includes a belt drive mounted laterally with respect to the feeder housing. The belt drive is configured to transfer a rotation of a first drive axle that is part of the driveline, to a rotation of a second axle to which a drive axle of the header can be coupled. The belt drive includes two pulleys which are maintained in a common plane regardless of movement of the header relative to the feeder housing. The pulleys are rotatably mounted in a longitudinally extendable bridge structure, and are coupled to the first and second axles.

A combine includes a feeder housing that include a movable cradle frame at the front, configured to receive a header, so that a controlled movement of the cradle frame may be imparted to the header during a harvesting run. The combine further includes a driveline for driving moving components of the combine header. The driveline includes a belt drive mounted laterally with respect to the feeder housing. The belt drive is configured to transfer a rotation of a first drive axle that is part of the driveline, to a rotation of a second axle to which a drive axle of the header can be coupled. The belt drive includes two pulleys which are maintained in a common plane regardless of movement of the header relative to the feeder housing. The pulleys are rotatably mounted in a longitudinally extendable bridge structure, and are coupled to the first and second axles.

The invention relates to an agricultural implement having an auxiliary chassis, which implement is supported by the three-point hydraulics of a towing vehicle and has an additional support wheel, on which a spring force acts, to improve the steerability of the vehicle. A dead center mechanism resiliently lifts the support wheel when the implement is in the working position.

The invention relates to an agricultural implement having an auxiliary chassis, which implement is supported by the three-point hydraulics of a towing vehicle and has an additional support wheel, on which a spring force acts, to improve the steerability of the vehicle. A dead center mechanism resiliently lifts the support wheel when the implement is in the working position.

A combine includes a feeder housing that include a movable cradle frame at the front, configured to receive a header, so that a controlled movement of the cradle frame may be imparted to the header during a harvesting run. The combine further includes a driveline for driving moving components of the combine header. The driveline includes a belt drive mounted laterally with respect to the feeder housing. The belt drive is configured to transfer a rotation of a first drive axle that is part of the driveline, to a rotation of a second axle to which a drive axle of the header can be coupled. The belt drive includes two pulleys which are maintained in a common plane regardless of movement of the header relative to the feeder housing. The pulleys are rotatably mounted in a longitudinally extendable bridge structure, and are coupled to the first and second axles.

A combine includes a feeder housing that include a movable cradle frame at the front, configured to receive a header, so that a controlled movement of the cradle frame may be imparted to the header during a harvesting run. The combine further includes a driveline for driving moving components of the combine header. The driveline includes a belt drive mounted laterally with respect to the feeder housing. The belt drive is configured to transfer a rotation of a first drive axle that is part of the driveline, to a rotation of a second axle to which a drive axle of the header can be coupled. The belt drive includes two pulleys which are maintained in a common plane regardless of movement of the header relative to the feeder housing. The pulleys are rotatably mounted in a longitudinally extendable bridge structure, and are coupled to the first and second axles.