A harvesting platform includes a first section and extends along a first section plane that is substantially parallel to a ground surface along which the harvesting platform moves with a combine. A second section is connected to the first side of the first section, and rotates with respect to the first section within a range of angular positions. A locking mechanism retains the second section in a position with respect to the first section while activated, and permits movement of the second section with respect to the first section while deactivated. A controller receives a first signal indicative of the position, and sends a second signal to deactivate the locking mechanism in response to the position being at a positive non-parallel angle with respect to the first section plane. The second section moves toward the first section plane in response to gravity while the locking mechanism is deactivated.

A self-propelled agricultural machine, for example, a self-propelled merger, is provided with at least one motor, at least two elongate units for, in use, performing an agricultural operation on the land, a front wheel axle, and a rear wheel axle situated at a distance from the front wheel axle. The front wheel axle and/or the rear wheel axle is driven by the motor for displacing the agricultural machine. Each elongate unit is displaceable from a transportation position to a working position and vice versa by a folding mechanism, so that the maximum width of the self-propelled agricultural machine is smaller in the transportation position of the units than in the working position of the units. In the working position, the agricultural operation on the land is performed substantially along the length of each elongate unit.

A control arm linkage system includes a pair of upper control arms and a pair of lower control arms to attach a crop harvesting header to a harvester frame of an agricultural harvester. The attachment of the header to the harvester via the control arm linkage system allows the header to move relative the harvester, with the header being displaced upward and heeled backwards in response to an upward force being imparted onto a lower surface of the header. The control arm linkage system thus allows the header to automatically adjust and adapt to unexpected raised mound that may be encountered along the path of the header during harvesting.

A control arm linkage system includes a pair of upper control arms and a pair of lower control arms to attach a crop harvesting header to a harvester frame of an agricultural harvester. The attachment of the header to the harvester via the control arm linkage system allows the header to move relative the harvester, with the header being displaced upward and heeled backwards in response to an upward force being imparted onto a lower surface of the header. The control arm linkage system thus allows the header to automatically adjust and adapt to unexpected raised mound that may be encountered along the path of the header during harvesting.

A ripper assembly for a machine includes a main ripper unit and at least one auxiliary ripper unit. The main ripper unit is adapted to be coupled to a frame of the machine and is moveable relative to the frame along a height of the machine. The main ripper unit includes a main ripper. The auxiliary ripper unit is pivotably coupled to the main ripper unit, and is pivotable infinitely between a first position and a second position with respect to the main ripper unit. A distance between the main ripper unit and the auxiliary ripper unit, defined laterally in relation to a direction of travel of the machine, varies as the auxiliary ripper unit pivots from the first position to the second position.

The present describes a work vehicle where an operator can, on the work vehicle side, confirm which working machine is engaged and set which working machine to engage. A tractor, to which a working machine can be mounted, is provided with: a liquid crystal panel selectably displaying an engageable working machine mounted and displaying the currently engaged working machine so as to be identifiable; an operation unit (encoder dial, enter button, and command buttons) for carrying out selection and determination operations for the working machine displayed on the liquid crystal panel; and a control device that, when a determination operation is carried out by the operation unit for a desired working machine, disengages the currently engaged working machine, and configures the working machine for which the determination operation has been carried out to be engaged.

The present describes a work vehicle where an operator can, on the work vehicle side, confirm which working machine is engaged and set which working machine to engage. A tractor, to which a working machine can be mounted, is provided with: a liquid crystal panel selectably displaying an engageable working machine mounted and displaying the currently engaged working machine so as to be identifiable; an operation unit (encoder dial, enter button, and command buttons) for carrying out selection and determination operations for the working machine displayed on the liquid crystal panel; and a control device that, when a determination operation is carried out by the operation unit for a desired working machine, disengages the currently engaged working machine, and configures the working machine for which the determination operation has been carried out to be engaged.

In accordance with example embodiments, a hose mover and a system for moving a hose are provided.

In accordance with example embodiments, a hose mover and a system for moving a hose are provided.

A system and method for controlling an agricultural implement connected to a vehicle is described. An actuator is arranged to control a lateral position of the implement with respect to the vehicle, also influencing the vertical angle of the implement. A camera mounted on the implement is connected to an image processing system which is adapted to derive the position of at least one row of plants in an image provided by the camera. An implement control unit controls the actuator to move the implement to a desired position based upon the derived position of the at least one row of plants, and a compensation arrangement compensates for the rotation of the camera around the vertical axis caused by the actuator based on the position of the actuator.