A cotton doffer structure for doffing cotton snagged on a surface having debris. The cotton doffer structure comprises a plurality of single-piece extrusions cooperating to provide a rim. The rim has a longitudinal axis and a periphery with radial protrusions integrally extending outward from the periphery. A shaft is coupled to the rim for rotation therewith about the longitudinal axis in a forward direction and surrounded by the rim. Brushes are provided. Each brush has a base end supporting upstanding bristles, an opposing distal end, a leading side generally facing the forward direction, and an opposing trailing side. Each support member is provided that has a leading end and a trailing end with an upright flange. The brush support member secures a responsive one of the base ends of the plurality of brushes against a respective one of the radial protrusions with the upright flange located adjacent the leading side.

A cotton doffer structure for doffing cotton snagged on a surface having debris. The cotton doffer structure comprises a plurality of single-piece extrusions cooperating to provide a rim. The rim has a longitudinal axis and a periphery with radial protrusions integrally extending outward from the periphery. A shaft is coupled to the rim for rotation therewith about the longitudinal axis in a forward direction and surrounded by the rim. Brushes are provided. Each brush has a base end supporting upstanding bristles, an opposing distal end, a leading side generally facing the forward direction, and an opposing trailing side. Each support member is provided that has a leading end and a trailing end with an upright flange. The brush support member secures a responsive one of the base ends of the plurality of brushes against a respective one of the radial protrusions with the upright flange located adjacent the leading side.

An auxiliary drive assembly includes a mounting structure configured to mount a first hydraulic drive component in a fixed position with respect to a second hydraulic drive component along a drive axis. A first shaft coupled to the first hydraulic drive component is configured to rotate with respect to the drive axis. A second shaft coupled to the second hydraulic drive component is configured to rotate with respect to the drive axis. A power takeoff device is arranged along the drive axis between the first and second hydraulic drive components and coupled to the first and second shafts for co-rotation with respect to the drive axis. The power takeoff device is configured to transfer rotational power from the power source as received from the first hydraulic drive component to an auxiliary component of the work vehicle.

A seed cotton dryer comprises an array of electromagnetic wave energy generators in a cotton gin, a cotton picker/stripper. An appropriate amount of energy is used to evaporate a considerable amount of moisture in the seed cotton without producing enough energy to pop the cotton seeds. Seed cotton dried by wave energy is much easier to separate the cotton seeds and lint from leaves, stems and other plant parts. The seed cotton is preferably transported through the dryer in a conduit having flat sides which reflects the wave energy more efficiently than through a round conduit. Provisions are made to prevent arcing in the transport conduit when extraneous metal pieces are inadvertently mixed with the seed cotton. In some embodiments, heated air from a diesel engine is used to dry crops as they are being harvested.

A seed cotton dryer comprises an array of electromagnetic wave energy generators in a cotton gin, a cotton picker/stripper. An appropriate amount of energy is used to evaporate a considerable amount of moisture in the seed cotton without producing enough energy to pop the cotton seeds. Seed cotton dried by wave energy is much easier to separate the cotton seeds and lint from leaves, stems and other plant parts. The seed cotton is preferably transported through the dryer in a conduit having flat sides which reflects the wave energy more efficiently than through a round conduit. Provisions are made to prevent arcing in the transport conduit when extraneous metal pieces are inadvertently mixed with the seed cotton. In some embodiments, heated air from a diesel engine is used to dry crops as they are being harvested.

A frame assembly for a work machine having a primary frame member and a prime mover platform removably coupled to the primary frame member. Wherein the prime mover platform is configured to selectively couple a prime mover to the primary frame member.

A power transmission system is disclosed for infinitely variable speed capability. The power transmission system includes a pair of power units, each configured to deliver a rotational torque to drive an output element. A transmission arrangement receives the rotational torques from the power units and delivers a resulting torque to the output element. The transmission arrangement includes a gear set coupling the one power unit to the output element to deliver torque through a mechanical meshing engagement that is continuously effected between the first power unit and the output element.

A feeding system for an agricultural implement includes a hopper configured to receive agricultural crop material. An auger extending across the hopper is configured to meter the agricultural crop material from the hopper into a tapered passageway. A movable belt is disposed along one side of the tapered passageway and is configured to urge the agricultural crop material through the tapered passageway toward an outlet of the tapered passageway to form the agricultural crop material into a mat having a thickness substantially equal to a width of the outlet.

A feeding system for an agricultural implement includes a hopper configured to receive agricultural crop material. An auger extending across the hopper is configured to meter the agricultural crop material from the hopper into a tapered passageway. A movable belt is disposed along one side of the tapered passageway and is configured to urge the agricultural crop material through the tapered passageway toward an outlet of the tapered passageway to form the agricultural crop material into a mat having a thickness substantially equal to a width of the outlet.

A plant shield assembly includes an elongated shield having a first door operably connected to a second door and both doors are pivotally connected to the vehicle and movable between an open position and a closed position. The plant shield assembly includes a door opening mechanism operably attached to the elongated shield and configured to move the first and the second doors. The plant shield assembly includes a linkage assembly that connects the elongated shield with the door opening mechanism, and limits the extent of rotation of the doors. The door opening mechanism and linkage assembly are positioned between the elongated shield and the vehicle. The door opening mechanism can be a handle attached to the elongated shield. Optionally, the plant shield assembly includes an access door that is disposed between an open position to enable actuation of the handle and a closed position to block actuation of the handle.