A combine header transport device includes a header support member. A frame is in mechanical communication with the header support member. The frame includes a first frame member and a second frame member. The frame members are in a parallel relationship with each other. A first pair of wheel assemblies are rotatably connected to a first axle assembly. The first axle assembly is attached to the frame adjacent a first end thereof. A connector assembly is attached to the frame adjacent a second end thereof. The connector assembly provides an axis about which the combine header transport device is rotatable. The connector assembly includes a first connector and is configured so that a position of the first connector is adjustable in a vertical direction.

The disclosure relates to a lateral transport system for a harvester comprising a chassis, first and second ground wheels coupled to the chassis, and a lateral transport assembly operably coupled to the chassis and operable between a transport operation mode and a stowed operation mode. The lateral transport assembly comprises a tongue pivotally coupled to the chassis, a first suspension element rotatable about a first axis and a second axis, a second suspension element rotatably about the second axis, and a hydraulic actuation system operably coupled to the tongue, the first suspension element, and the second suspension element. In the transport operation mode, hydraulic fluid is allowed to flow into the hydraulic actuation system to rotate the first suspension element about the first axis, and subsequently rotate the first and second suspension elements about the second axis.

An implement frame having a carriage frame for coupling to a towing vehicle and wheels to support the frame for movement over a ground surface. A pivot frame is rotationally mounted to the carriage frame and a lift assembly is coupled to the pivot frame via a shift assembly. A tool bar is mounted to the lift assembly. The shift assembly moves the tool bar forward as it is moved from the field use position to the transport position. The wheels are mounted to swing arms to move the wheels inward for a narrow transport position. All motion is accomplished through actuators, such as hydraulic cylinders, to automate the process making it quick and easy.

The disclosure relates to header for a harvester including: a header frame; one or more harvesting elements carried by the header frame; a lift arm coupled to the header frame and configured to displace the header frame vertically relative to the ground; and a lift assembly displaceably coupling the header frame to the lift arm, the lift assembly being configured to displace the header frame vertically further than and/or independently of the lift arm.

A header for a crop harvesting machine includes front and rear wheel arrangements that pivot about respective upright axis between a field orientation and a perpendicular transport orientation, while having respective suspensions arrangements movable between different suspended heights. A biasing spring provides lift assist to carry weight of the wheel arrangement during adjustment of the suspension elevation while being isolated from the suspension once set at any one elevation. The front wheel arrangement includes an anti-rotation latch that locks the front wheel in the field orientation automatically upon disconnection of a hitch arm. A second wheel of the rear wheel arrangement can be held in a raised position relative to a first wheel in a field orientation. Load bearing surfaces between the suspended rear wheels and the header frame abut one another when latching to the header frame to isolate the suspension from the header frame in the transport orientation.

A header including at least one support and transport wheel assembly having an axle and two wheels. The wheel assembly is coupled to the main body of the header by an actuating system that has two actuator mechanisms. When changing from the field mode to the transport mode, the first actuator mechanism brings the wheel assembly forward from a position behind the header, after the header has been lifted up from the ground. After completion of this first movement, a second actuator mechanism swivels the wheel assembly to a position that is transversal to the header, after which the header is lowered to the ground. The two-step approach enables the changeover between field mode and transport mode without pivoting or otherwise moving the header relative to the feeder. The wheel axle may be pivotably suspended from a frame element that executes the swiveling movement.

A terminal connection method includes that: a first terminal sends a first message to a second terminal, the first message including a first access layer configuration parameter, and the first access layer configuration parameter being used by the second terminal to configure a parameter of an access layer to communicate with the first terminal.

The invention relates to a self-propelled agricultural machine, for example a self-propelled merger, said self-propelled agricultural machine being provided with at least one motor, at least one elongated unit for carrying out, in use, an agricultural operation on the land, a first wheel axle and a second wheel axle located at a distance from the first wheel axle, wherein the first wheel axle and/or the second wheel axle is/are to be driven by the motor for moving the agricultural machine, wherein the elongated unit is movable from a transport position to a working position and vice versa, so that the maximum width of the self-propelled agricultural machine in the unit's transport position is less than in the unit's working position.

A transport assembly for a harvesting head that includes head connector arms, a transport axle, and a coupling system with a latch actuator, and first and second latch mechanisms coupled to the latch actuator and located at opposite ends of the transport axle. The transport assembly functions in working and transport modes. In the working mode, the first and second latch mechanisms latch the first and second head connector arms to the transport axle to latch the harvesting head to the transport axle. When the latch actuator is activated, the first and second latch mechanisms release the first and second head connector arms from the transport axle to allow the harvesting head to separate from the transport axle. When the latch actuator is not activated, the first and second latch mechanisms can be biased to remain latched.

An end wheel assembly for transforming an implement frame from a transport position to a field position is provided. The end wheel assembly can have an end wheel, a wheel pivot rotatably connected to the end wheel, a wheel member pivotally connected to the wheel pivot, at least one attachment bracket attached to the wheel member and pivotally attachable to the implement frame, a wheel actuator to raise and lower the end wheel assembly, and a guide plate. The guide plate can have a channel, a first end connected to the wheel member, and a second end connected to the wheel pivot. The channel can be positioned to receive a positioning member when the end wheel assembly is pivoted downwards and to rotate the guide plate causing the wheel pivot and end wheel to rotate relative to the wheel member and turn the end wheel outwards.