A stalk roll mountable to a header of an agricultural combine for rotation about a rotation axis during processing of plant stalks has an annular drum with detachable blades. The stack roll has a plurality of circumferentially spaced flutes extending in an axial direction of the rotation axis of the drum and projecting radially outwardly from the drum. The flutes define mounting surfaces along lengths of the flutes. A plurality of blades are attachable to the drum with multiple of the plurality of blades being attachable to the mounting surface of a common one of the flutes. Mounting hardware is configured to removably connect the blades to the mounting surfaces of the flutes.

A row unit assembly for use with a corn harvester includes a first drive having an output shaft, a stalk roll that extends along a first axis and rotates about the first axis via the output shaft of the first drive. A second drive rotates a first drive member about a second axis that is substantially perpendicular to the first axis. A first conveyor extends around the first drive member and moves about the first drive member in response to rotation of the first drive member. A third drive rotates a second drive member about a third axis that is substantially parallel to the second axis. A second conveyor extends around the second drive member and moves about the second drive member in response to rotation of the second drive member.

A combine feeder assembly having conveyors and slats pivotally connected to the conveyors to rotate about respective slat pivot axes. Each slat has a paddle that is movable between a first position in which the paddle extends outside the travel path of the conveyor by a first distance, and a second position in which the paddle does not extend outside the travel path or extends outside the travel path by a second distance that is less than the first distance. A cam surface moves the slats to the first slat position along a delivery path of the conveyors. A first housing wall extends over the delivery path and is spaced from the travel path by at least the first distance. A second housing wall extends over a return path. The second housing wall is spaced from the travel path by less than the first distance.

A stalk roll assembly for a corn harvester includes a first stalk roll having a first elongate cylinder and rotates about a first axis, and a second stalk roll has a second elongate cylinder rotates about a second axis. A third stalk roll has a third elongate cylinder, is positioned above the first stalk roll and rotates about a third axis, and a fourth stalk roll has a fourth elongate cylinder, is positioned above the second stalk roll and rotates about a fourth axis. A first plate is positioned between the first stalk roll and the third stalk roll, and a second plate is positioned between the second stalk roll and the fourth stalk roll. The first and second stalk rolls are spaced apart to separate corn ears from corn stalks.

A corn ear picking roller structure for strengthening stem grabbing includes a header, a seedling divider, a seedling pulling chain, a clamping chain, a seedling pressing plate, and an ear picking device. The seedling divider is connected to a front end of the header, the seedling pulling chain is connected to the header and located on a lower side of the seedling divider, the clamping chain is connected to the header and located on a lower portion of the seedling pulling chain, the ear picking device is connected to the header and located on one side of the seedling divider, and the seedling pressing plate is connected to a top end of the ear picking device. The ear picking device includes a left ear picking roller and a right ear picking roller, and each of the left and right ear picking rollers is provided with an inequilateral multi-edge structure.

The present invention relates to a device (2) for harvesting stalk-like stem crops, having a number of picking units (4) which are arranged alongside one another on the frame (6) of the device (2) and each have picking plates (12), laterally delimiting a picking gap (14), and picking rotors (16) located therebeneath, conveying units which are assigned to the respective picking units (4), are configured as continuous conveyors (22) that are driven in circulation, are arranged on opposite sides above a picking gap (14) and are configured with drivers (18) fastened to the circulating elements, and a transverse conveying device (8) arranged downstream of the conveying units. In order to find an arrangement for the continuous conveyors which results in a reduced overall width without the intake of laid maize being substantially impaired, it is proposed that the axes of rotation (24) of front deflection wheels (26) of the continuous conveyors (22) be positioned obliquely at an angle (32) transversely to the working width of the device (2) and to the picking plane (28), which is defined by the mutually facing front edges of the picking plates (12) assigned to a picking gap (14), such that the axes of rotation (24), considered to be lengthened, intersect above the picking plates (12) at a distance from the picking plane (28), and the drivers (18) formed on the continuous conveyors (22) are for their part positioned upwardly at an angle (30) to the axis of rotation (24) of the deflection wheels (26).

The present disclosure is related to agricultural devices, system, and methods, particularly for detecting and measuring plant stalks during harvest. The system may comprise a harvesting row unit, with a camera, a processing unit, and an in-cab display. The system may additionally include a stalk alignment guide, a leaf shield, an artificial light source, and/or a lens cleaning apparatus.

A combine harvesting head includes harvesting snouts, gathering chains to pull crop stalks into the space between adjacent snouts, roller mechanisms to pull crop stalks downward away from the harvesting head, and stripper plates to strip the crop from its stalks. Each stripper plate assembly has two halves, with the first half having a stalk-contacting edge and a surface extending upward and away from that edge in a first direction, and the second half having a stalk-contacting edge and a surface extending downward and away from that edge in a second direction. The first stripper plate half is positioned at a level that is higher from the ground than the level of the corresponding second stripper plate half, and overlaps or is directly adjacent the second stripper plate half so that there is little or no horizontal gap between the two halves.

A header for an agricultural vehicle including a header frame, and at least one row unit supported by the header frame. The at least one row unit including a pair of gatherers configured for conveying a crop material. Each gatherer including a chain and a plurality of plates connected to the chain. The plurality of plates at least partially overlap to define a conveying floor that has a continuous upper portion for receiving and transporting a dislodged crop material and an outer periphery for gathering the crop material.

A header for an agricultural vehicle including a frame and at least one row unit supported by the frame. The at least one row unit including has at least one deck assembly. The at least one deck assembly has a plurality of plates defining an outer periphery for contacting a crop material. Adjacent ones of the plurality of plates at least partially overlap and are movable with respect to one another.