A row unit for a corn header includes gathering chains, deck plates below the gathering chains, and rotatable stalk rolls below the deck plates. The deck plates each have a first portion defining a curved front edge and a second portion defining a straight inner edge, and the first portion of the first deck plate is raised with respect to the second portion of the first deck plate. The inner edges of the deck plates together define an elongate channel, and the curved front edges of the deck plates together define a tapered entry to the elongate channel.

A narrow row head unit includes a back plate secured to a left gearbox and a right gearbox, which gearboxes may be positioned adjacent one another. Each gearbox may provide rotational power to a pair of stalk rolls and a drive sprocket for a gathering chain. A right mounting tab may be secured to the back plate and the right gearbox, and a left mounting tab may be secured to the back plate and left gearbox. A right plate and leg may extend outward from the back plate adjacent the right mounting tab and a left plate and leg may extend outward from the back plate adjacent the left mounting tab. A narrow row head unit positioned left-of-center on a header may have the gathering chain positioned substantially over the right plate, and right-of-center substantially over the left plate.

A method for creating a narrow row head unit which may include a back plate secured to a left gearbox and a right gearbox, and which gearboxes may be positioned adjacent one another. Each gearbox may provide rotational power to a pair of stalk rolls and a drive sprocket for a gathering chain. A right mounting tab may be secured to the back plate and the right gearbox, and a left mounting tab may be secured to the back plate and left gearbox. A right plate and leg may extend outward from the back plate adjacent the right mounting tab and a left plate and leg may extend outward from the back plate adjacent the left mounting tab. A narrow row head unit positioned left-of-center on a header may have the gathering chain positioned substantially over the right plate, and right-of-center substantially over the left plate.

A harvester row unit comprises first and second deck plates having first and second stripping edges which are facing and spaced apart for defining a stalk gap therebetween, first and second gathering chains extending over the first and second deck plates and comprising a plurality of sweeping lugs which traverse adjacent to and along the stalk gap, and one or more elastically compressible stalk gap rails mounted to the first and second deck plates adjacent to and extending along the first and second stripping edges. The stalk gap rails include a ramped leading end and a trailing end, and the sweeping lugs climb up the ramped leading end, traverse across the stalk gap rails, and climb down the trailing end, and/or include support pads and pockets between adjacent support pads defining one or more flexible walls which deform when impacted by kernel carriers.

An agricultural vehicle with a header including multiple row units each include a feed/snapping unit and a chopping unit. The header further includes a first power transmission shaft for driving the feed/snapping units, and a second power transmission shaft connected via a drivetrain to a drive at the agricultural vehicle. Each chopper unit includes a safety clutch and is connected via the safety clutch to the second power transmission shaft. At least one torque sensor is provided for the second power transmission shaft, drivetrain, or drive, which torque sensor is operationally connected to a torque fluctuation monitor configured to recognize a predetermined change in torque fluctuation indicating a safety clutch slip. The torque fluctuation monitor is operationally connected to a user interface for signaling the safety clutch slip.

A method for creating a narrow row head unit which may include a back plate secured to a left gearbox and a right gearbox, and which gearboxes may be positioned adjacent one another. Each gearbox may provide rotational power to a pair of stalk rolls and a drive sprocket for a gathering chain. A right mounting tab may be secured to the back plate and the right gearbox, and a left mounting tab may be secured to the back plate and left gearbox. A right plate and leg may extend outward from the back plate adjacent the right mounting tab and a left plate and leg may extend outward from the back plate adjacent the left mounting tab. A narrow row head unit positioned left-of-center on a header may have the gathering chain positioned substantially over the right plate, and right-of-center substantially over the left plate.

An agricultural vehicle including a chassis and a header connected to the chassis. The header includes a frame and a plurality of row units connected to the frame. Each row unit includes at least one gathering chain having a plurality of protuberances affixed thereto and a rotational path, and at least one hood connected to the frame. The header also includes a down crop gatherer mounted to the at least one hood and having a rotational path, and a drive unit mounted to the at least one hood, operably connected in between the at least one gathering chain and the down crop gatherer. The drive unit is configured for translating a respective movement of each protuberance as the plurality of protuberances rotate with the at least one gathering chain to drive the down crop gatherer.

A row unit for a header of an agricultural harvester is provided. The row unit includes a frame, a first deck plate assembly mounted to the frame, and a second deck plate assembly mounted to the frame. The first and second deck plate assemblies each include a deck plate, a plurality of deck plate segments extending from the deck plate and moveable between a first position and a second position relative to the deck plate, and a plurality of biasing members for biasing each respective deck plate segment. The row unit includes both operator controlled macro adjustment and automatic micro adjustment of a gap between the first deck plate assembly and the second deck plate assembly. The micro adjustment is achieved through biasing members biasing each respective deck plate segment.

A stripper plate system includes a first stripper plate movably mounted to a frame, a second stripper plate movably mounted to the frame in an opposing orientation to the first stripper plate, and an elongated gap in-between the first and second stripper plates. A first tensioning mechanism biases a proximal end of the first stripper plate toward a center of the elongated gap, a second tensioning mechanism biases a distal end of the first stripper plate toward the center of the elongated gap, a third tensioning mechanism biases a proximal end of the second stripper plate toward the center of the elongated gap, and a fourth tensioning mechanism biases a distal end of the second stripper plate toward the center of the elongated gap. A biasing force of the first and third tensioning mechanisms is lower than a biasing force of the second and fourth tensioning mechanisms.

A header which is couplable with a base unit of an agricultural harvester. The header includes a rotatably driven first sub-system, a rotatably driven second sub-system, a first input drive, and a second input drive. The first input drive is mechanically couplable with the base unit. The first input drive is configured for driving the first sub-system at a first operating speed. The second input drive is mechanically couplable with the base unit. The second input drive is configured for driving the second sub-system at a second operating speed which is independent of the first operating speed.