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 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 harvesting apparatus for harvesting cereal grains, rice, grains or seeds, is operated as a front, side or rear attachment and has a crop stripper extending over a working width which is generating a rotor air stream, an inclined chute having a first edge facing the crop stripper and a second edge facing away from the crop stripper. The second edge is disposed to lie lower than the first edge facing the crop stripper and is attached between a threshing apparatus and a separation apparatus which extend over the predominant or the entire part of the working width. The harvesting apparatus has a cleaning air channel, wherein air from a fan and the crop stripper rotor air stream flow through the cleaning air channel for cleaning the crop. The cleaning air channel extends over the predominant part or the entirety of the working width.

A harvesting apparatus for harvesting cereal grains, rice, grains or seeds, is operated as a front, side or rear attachment and has a crop stripper extending over a working width which is generating a rotor air stream, an inclined chute having a first edge facing the crop stripper and a second edge facing away from the crop stripper. The second edge is disposed to lie lower than the first edge facing the crop stripper and is attached between a threshing apparatus and a separation apparatus which extend over the predominant or the entire part of the working width. The harvesting apparatus has a cleaning air channel, wherein air from a fan and the crop stripper rotor air stream flow through the cleaning air channel for cleaning the crop. The cleaning air channel extends over the predominant part or the entirety of the working width.

An agricultural system includes a corn head with an end divider and an actuator that moves the end divider between a raised position and a retracted position. An actuator controller receives an input and automatically controls the actuator to move the end divider to a position based upon the input.

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 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 harvesting machine has a controlled subsystem that performs harvesting machine functionality, and a control system that controls the controlled subsystem. A header is mounted to the harvesting machine and has row dividers (that divide rows of crop stalks) and gathering chains. A set of crop loss inhibitors is mounted proximate a forward portion of each of the gathering chains, in a direction of travel of the harvesting machine. The crop loss inhibitors also include a sensor that senses a variable, indicative of a crop attribute, as each crop stalk passes through the set of crop loss inhibitors.

A harvesting machine has a controlled subsystem that performs harvesting machine functionality, and a control system that controls the controlled subsystem. A header is mounted to the harvesting machine and has row dividers (that divide rows of crop stalks) and gathering chains. A set of crop loss inhibitors is mounted proximate a forward portion of each of the gathering chains, in a direction of travel of the harvesting machine. The crop loss inhibitors also include a sensor that senses a variable, indicative of a crop attribute, as each crop stalk passes through the set of crop loss inhibitors.

A folding crop header having an articulated, elongate crop divider defining upper and lower crop divider edges and having first and second crop divider sections, the crop divider including at or adjacent a said lower crop divider edge a hinge permitting pivoting of the first and second crop divider sections relative to one another about a first axis; and the crop divider including a linkage permitting pivoting of the first and second crop divider sections relative to one another about a second axis at or adjacent the said upper crop divider edge; and additionally permitting displacement of the first and second crop divider sections relative to one another in a displacement direction that is skewed relative to the second axis, the hinge being decouplable.