A lateral transport system for a harvester including 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. A tongue is pivotally coupled to the chassis, a first suspension element is rotatable about a first axis and a second axis, a second suspension element is rotatable about the second axis, and a hydraulic actuation system is 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.

A system for positioning crop windrow guide shields projecting generally rearwardly alongside the crop discharge stream as it exits an agricultural mower. The shields are coupled for simultaneous, coordinated movement and repositioned by a powered actuator in response to either a manual input by a vehicle operator or automatically by a controller based on a steering angle deflection between a tractor and a towed implement. The system may be adapted for use with a single implement being operated on a side hill to control windrow drifting. The system may also be used with simultaneously operated front-mounted and pull-behind mowers to direct the crop discharge streams into a merged windrow.

A system for positioning crop windrow guide shields projecting generally rearwardly alongside the crop discharge stream as it exits an agricultural mower. The shields are coupled for simultaneous, coordinated movement and repositioned by a powered actuator in response to either a manual input by a vehicle operator or automatically by a controller based on a steering angle deflection between a tractor and a towed implement. The system may be adapted for use with a single implement being operated on a side hill to control windrow drifting. The system may also be used with simultaneously operated front-mounted and pull-behind mowers to direct the crop discharge streams into a merged windrow.

An agricultural vehicle including a chassis and a header carried by the chassis and including a cutter mechanism. The header is adjustable in a vertical direction. The agricultural vehicle also includes a header actuator connected to the header and configured to adjust the header in the vertical direction, and a controller coupled to the header actuator. The controller is configured for receiving an input command for controlling an operation of the header actuator to achieve a lifting height, operating the header actuator in conformance with the input command, and terminating the operating of the header actuator.

An agricultural vehicle including a chassis and a header carried by the chassis and including a cutter mechanism. The header is adjustable in a vertical direction. The agricultural vehicle also includes a header actuator connected to the header and configured to adjust the header in the vertical direction, and a controller coupled to the header actuator. The controller is configured for receiving an input command for controlling an operation of the header actuator to achieve a lifting height, operating the header actuator in conformance with the input command, and terminating the operating of the header actuator.

In one embodiment, a system, comprising: one or more pairs of oppositely rotatable, laterally extending rolls, wherein for each pair, at least one of the rolls is moveable relative to the other of the rolls; a hydraulic circuit, comprising: a tensioner circuit comprising: for each pair of rolls, one or more pairs of hydraulic cylinders arranged in parallel, each configured to resist movement of the at least one of the rolls at a respective end of the at least one of the rolls; an accumulator arranged in parallel to the hydraulic cylinders; and plural control valves; and a computing system configured to cause the one or more pairs of hydraulic cylinders to adjust the resistance to movement of the at least one of the rolls of the respective pair of rolls by sending signals to one or more of the plural control valves.

An adjustable raking apparatus for gathering crop material into a windrow is disclosed. The raking apparatus allows the raking width and the windrow width to be independently adjusted. In some embodiments, both the raking width and the windrow width may be adjusted by the operator from the pulling vehicle attached to the raking apparatus.

An adjustable raking apparatus for gathering crop material into a windrow is disclosed. The raking apparatus allows the raking width and the windrow width to be independently adjusted. In some embodiments, both the raking width and the windrow width may be adjusted by the operator from the pulling vehicle attached to the raking apparatus.

A tractor assembly includes a tractor having a first set of wheels and a second set of wheels, a mower-conditioner assembly coupled to the tractor, a shield coupled to the conditioner at a location rearward thereof, and a crop moving assembly coupled to either the tractor or mower-conditioner assembly. The mower-conditioner assembly includes a mowing mechanism configured to cut a crop and a conditioner configured to crimp the crop. The shield deflects the crimped crop rearwardly therefrom and forms a windrow of a first width. The windrow is disposed directly behind the tractor and includes a device for spreading the windrow in at least one direction to form a second width. The second width is greater than the first width.

A tractor assembly includes a tractor having a first set of wheels and a second set of wheels, a mower-conditioner assembly coupled to the tractor, a shield coupled to the conditioner at a location rearward thereof, and a crop moving assembly coupled to either the tractor or mower-conditioner assembly. The mower-conditioner assembly includes a mowing mechanism configured to cut a crop and a conditioner configured to crimp the crop. The shield deflects the crimped crop rearwardly therefrom and forms a windrow of a first width. The windrow is disposed directly behind the tractor and includes a device for spreading the windrow in at least one direction to form a second width. The second width is greater than the first width.