A harvesting reel assembly for a header of an agricultural harvester is disclosed. The harvesting reel assembly includes a central rotatable shaft, a plurality of support members, a cam assembly and an extendable reel arm. The plurality of support members extend widthwise across the reel assembly and connect to the central rotatable shaft for rotation therewith. The cam assembly guides rotation of the plurality of support members. The extendable reel arm includes a first end engaged with the central rotatable shaft for rotation therewith. The extendable reel arm also includes a distal end opposite the first end connected to one of the plurality of support members.

In one aspect, a system for filtering signal interference from sensors signals includes a header comprising a frame and a powered component supported relative to the frame, and a sensor configured to detect electromagnetic waves indicative of a parameter associated with the header. In addition, the system includes an electronic control unit operably connected to the sensor such that the electronic control unit is configured to receive signals from the sensor associated with the detection of the electromagnetic waves. The electronic control unit is further configured to filter interference from the signals deriving from motion of the powered component relative to the sensor.

A reel for a harvesting header has a tine paddle mounted to a tine so as to engage the crop materials as the tine rakes through the crop materials. The tine paddle has a collar portion for at least partially wrapping around a tine tube to which the tine is mounted and an elongate plate member with a distal end spaced inwardly from the outer finger tip of the tine to which the at least one paddle is mounted. One side of the plate member has first and second detents arranged to partially wrap around and engage the finger to hold the tine paddle on the tine. Each detent has an inwardly extending catch that is received in a notch in a side portion of the finger.

A reel for a harvesting header has a tine paddle mounted to a tine so as to engage the crop materials as the tine rakes through the crop materials. The tine paddle has a collar portion for at least partially wrapping around a tine tube to which the tine is mounted and an elongate plate member with a distal end spaced inwardly from the outer finger tip of the tine to which the at least one paddle is mounted. One side of the plate member has first and second detents arranged to partially wrap around and engage the finger to hold the tine paddle on the tine. Each detent has an inwardly extending catch that is received in a notch in a side portion of the finger.

A paddle tine for use over a pickup tine previously fixed with a harvester reel tube of a harvesting header comprises an elongated body having a central cavity therethrough and is adapted to slide over the pickup tine of the harvester reel tube. An attachment mechanism, such as one or more resilient clips with a fastening clip, is fixed with the proximal end of the elongated body to secure the paddle tine to the harvester reel tube over the pickup tine. Two opposing paddle webs project laterally away from the elongated body proximate the distal end.

A header for an agricultural vehicle including a frame, a reel rotatably mounted to the frame, and a reel drive assembly operably connected to the reel. The reel drive assembly rotates the reel in a first drive configuration and a second drive configuration. The reel drive assembly includes a first drive operably connected to the reel, and a second drive selectively connected to the reel such that the second drive is disconnected from the reel in the first drive configuration and the second drive is operably connected to the reel in parallel with the first drive in the second drive configuration.

A header for an agricultural vehicle including a frame, a reel rotatably mounted to the frame, and a reel drive assembly operably connected to the reel. The reel drive assembly rotates the reel in a first drive configuration and a second drive configuration. The reel drive assembly includes a first drive operably connected to the reel, and a second drive selectively connected to the reel such that the second drive is disconnected from the reel in the first drive configuration and the second drive is operably connected to the reel in parallel with the first drive in the second drive configuration.

Collection device for cut plant processing machine and corresponding machine This invention relates to the a collection device (2), comprising, on the one hand, a frame (3) and an elongated rotor (5) guided in rotation in relation to the frame (3) about a longitudinal axis (AL), a plurality of raking tines (7) arranged by groups of three or more being mounted on rotor (5), each group of tines (7) being located in its own plane perpendicular to the longitudinal axis (AL), these different planes being laid out along the said longitudinal axis (AL), and, on the other hand, a plurality of deflectors (9) extending at least partially about rotor (5) and spaced out in the direction of the longitudinal axis (AL), the spacing between the two adjacent deflectors (9) being adapted for the passage of the tines (7) of a group during rotation of rotor (5), and in the mounted state the said deflectors (9) being connected to frame (3) by the intermediary of at least one first means of attachment (10). Device (2) characterized in that at least one movable part of at least one of the deflectors (9) is connected to the frame (3) by an articulated connection (11) which allows the said movable part at least a swivel movement inducing a disengagement in relation to rotor (5).

A pressurized air delivery system for assisting grain crop harvesting. The system includes a left hand side manifold and a right hand side manifold adapted for being mounted to a harvester header. Each manifold is connected to a plurality of nozzles disposed along the respective manifold. Each manifold is adapted for receiving a pressurized air flow at a first end thereof and for providing the pressurized air flow to the nozzles. Each manifold is closed at a second opposite end thereof. The left hand side manifold and the right hand side manifold span approximately from a left hand side of the harvester header to a right hand side of the harvester header. An air flow source provides the pressurized air flow. An air conduit is connected to: the air flow source; the first end of the left hand side manifold; and the first end of the right hand side manifold. The air conduit comprises a divider for: receiving the pressurized air flow from the air flow fan; dividing the pressurized air flow; and providing the divided pressurized air flow to the left hand side manifold and the right hand side manifold.

A pressurized air delivery system for assisting grain crop harvesting. The system includes a left hand side manifold and a right hand side manifold adapted for being mounted to a harvester header. Each manifold is connected to a plurality of nozzles disposed along the respective manifold. Each manifold is adapted for receiving a pressurized air flow at a first end thereof and for providing the pressurized air flow to the nozzles. Each manifold is closed at a second opposite end thereof. The left hand side manifold and the right hand side manifold span approximately from a left hand side of the harvester header to a right hand side of the harvester header. An air flow source provides the pressurized air flow. An air conduit is connected to: the air flow source; the first end of the left hand side manifold; and the first end of the right hand side manifold. The air conduit comprises a divider for: receiving the pressurized air flow from the air flow fan; dividing the pressurized air flow; and providing the divided pressurized air flow to the left hand side manifold and the right hand side manifold.