An agricultural machine and attachment combination has a wireless attachment connection for transmitting electronic information, commands, and electric power between the agricultural machine and attachment. An agricultural machine side control system having a wireless interface is connected to the agricultural machine and an attachment side control system having a wireless interface is connected to the attachment. Each interface has at least one inductively coupled communication receiver and at least one inductively coupled communication transmitter. The transmitters and receivers cooperate to transmit electronic information and commands between the agricultural machine side control system and the attachment side control system. A primary coil is connected to the agricultural machine for transmitting power to the attachment. A secondary coil is connected to the attachment for receiving power from the agricultural machine. The primary coil and the secondary coil cooperate to transmit power from the agricultural machine to the attachment using inductance.

An agricultural system includes a center pivot structure establishing an axis of rotation, beam having coupled to the center pivot structure and extending radially outward to a moveable support structure. The moveable support structure and the beam are rotatable about the axis of rotation. A crop processing implement is coupled to the beam between the center pivot structure and the moveable support structure. The crop processing implement is operable to process the crop in the field while the moveable support structure and the beam rotate about the axis of rotation relative to the center pivot structure. The crop processing implement may be powered via the same power source used to power a drive motor of the moveable support structure. A center pivot irrigation system may also be included with the agricultural system.

Disclosed herein is a frame apparatus for an agricultural work vehicle. The frame apparatus includes: an engine frame configured to support the engine of an agricultural work vehicle; a front frame connected to each of a front work machine and the engine frame to support the front work machine mounted in front of the agricultural work vehicle; a center case spaced apart from the front frame based on a first axis direction, and disposed behind the engine frame; a rear axle case coupled to the rear of the center case; side frames each coupled to each of the front frame and the rear axle case on both sides of the agricultural work vehicle; and a crossbar coupled to the side frames while connecting the side frames on both sides based on a second axis direction perpendicular to the first axis direction.

Disclosed herein is a frame apparatus for an agricultural work vehicle. The frame apparatus includes: an engine frame configured to support the engine of an agricultural work vehicle; a front frame connected to each of a front work machine and the engine frame to support the front work machine mounted in front of the agricultural work vehicle; a center case spaced apart from the front frame based on a first axis direction, and disposed behind the engine frame; a rear axle case coupled to the rear of the center case; side frames each coupled to each of the front frame and the rear axle case on both sides of the agricultural work vehicle; and a crossbar coupled to the side frames while connecting the side frames on both sides based on a second axis direction perpendicular to the first axis direction.

An autonomous vehicle platform system and method configured to perform various in-season management tasks, including selectively applying fertilizer, mapping growth zones and seeding cover crop within an agricultural field, while self-navigating between rows of planted crops and beneath the canopy of the planted crops on the uneven terrain of an agricultural field, allowing for an ideal in-season application of fertilizer to occur once the planted crop is well established and growing rapidly, in an effort to limit the loss of fertilizer.

An autonomous vehicle platform system and method configured to perform various in-season management tasks, including selectively applying fertilizer, mapping growth zones and seeding cover crop within an agricultural field, while self-navigating between rows of planted crops and beneath the canopy of the planted crops on the uneven terrain of an agricultural field, allowing for an ideal in-season application of fertilizer to occur once the planted crop is well established and growing rapidly, in an effort to limit the loss of fertilizer.

An implement operating apparatus has a U-shaped drive frame supported on drive wheels, each pivotally mounted about a vertical wheel pivot axis. A steering control selectively pivots each drive wheel. A power source is connected through a drive control to rotate the drive wheels in either direction. First and second implements are configured to perform implement operations and to rest on the ground and when the drive frame is maneuvered to an implement loading position with respect to each implement, the implement is connectable to the drive frame and movable to an operating position supported by the drive frame. When the implement is in the operating position, the steering and drive controls are operative to move and steer the drive frame and implement along a first travel path or a second travel path oriented generally perpendicular to the first travel path.

An implement operating apparatus has a U-shaped drive frame supported on drive wheels, each pivotally mounted about a vertical wheel pivot axis. A steering control selectively pivots each drive wheel. A power source is connected through a drive control to rotate the drive wheels in either direction. First and second implements are configured to perform implement operations and to rest on the ground and when the drive frame is maneuvered to an implement loading position with respect to each implement, the implement is connectable to the drive frame and movable to an operating position supported by the drive frame. When the implement is in the operating position, the steering and drive controls are operative to move and steer the drive frame and implement along a first travel path or a second travel path oriented generally perpendicular to the first travel path.

A utility vehicle has a frame that is separable at a location passing through an operator compartment of the vehicle into front and rear sections with the seat base and seat assembly of the operator compartment remaining with the rear section and the rest of the operator compartment remaining with the front section. A seat extension kit is provided having a frame extension, a seat module, and a floorboard module that may be inserted between the split front and rear sections with the frame extension being fastened to such sections using pre-existing fastener holes in the vehicle frame and the frame extension. When so inserted, the seat module forms a new front row of seating with the floorboard module extending between the seat module and the original seat base and seat assembly, which now form a rear row of seating. This expands the vehicle seating capacity from two people to four people.

A row-crop tractor including a tractor frame structure having a front portion and a rear portion. Two front wheels are rotatable mounted to the front portion of the tractor frame structure. At least a rear wheel is mounted to the rear portion of the tractor frame structure. A drive mechanism is mounted to the front portion of the tractor frame structure and connected to the two front wheels for controllably driving the same in dependence upon a control signal received from an operator of the row-crop tractor such that one front wheel is driven independent from the other. A front farm implement connecting mechanism is disposed at a front end of the front portion of the tractor frame structure and an operator seat mounted to the front portion of the tractor frame structure in close proximity to the front end of the front portion of the tractor frame structure such that the operator of the row-crop tractor is enabled to reach a front farm implement connected to the front farm implement connecting mechanism.