A harvesting head has a middle section connected to a carrier device and at least one side section connected by an articulated connection to the middle section about which the side section pivots between a lower and an upper limit value. The carrier device has a height adjustment device whose adjusting movements are controlled by a control. The harvesting head has a sensor transmitting a sensor signal to the evaluation device at least upon pivoting of the side section when a limit value has been achieved during pivoting of the side section to the middle section. The evaluation device switches upon the presence of a corresponding sensor signal into a correction mode for height adjustment of the carrier device. The evaluation device outputs an adjusting signal in the correction mode to adjust the carrier device up or down by the evaluation device according to the sensor signal.

A passive self-adjusting seat assembly for a lawn maintenance vehicle having a frame. The passive self-adjusting seat assembly includes a base, a guide assembly attached to the base, and a platform assembly that is selectively movable or slidable relative to the guide assembly in order to maintain an operator in an upright or substantially vertical orientation as the lawn maintenance vehicle traverses uneven or sloped ground. The seat assembly further including a locking assembly for selectively locking the sliding or movement of the platform assembly relative to the guide assembly.

A tilt-sensing apparatus for a vehicle, comprising: a controller; and a motion tracker, wherein the controller is configured for communication with the motion tracker and a display, wherein the motion tracker is configured for attachment to a vehicle at a position remote to the display and comprises a first tilt sensor configured to measure a first tilt angle with respect to a first axis and a second tilt sensor configured to measure a second tilt angle with respect to a second axis, wherein the controller is configured to receive data via an output of the motion tracker, said data comprising the first tilt angle and the second tilt angle, and communicate an instruction to the display to display a graphical representation indicative of the first tilt angle and the second tilt angle, and associated method.

A tilt-sensing apparatus for a vehicle, comprising: a controller; and a motion tracker, wherein the controller is configured for communication with the motion tracker and a display, wherein the motion tracker is configured for attachment to a vehicle at a position remote to the display and comprises a first tilt sensor configured to measure a first tilt angle with respect to a first axis and a second tilt sensor configured to measure a second tilt angle with respect to a second axis, wherein the controller is configured to receive data via an output of the motion tracker, said data comprising the first tilt angle and the second tilt angle, and communicate an instruction to the display to display a graphical representation indicative of the first tilt angle and the second tilt angle, and associated method.

A combine harvester with a variable length wheelbase. For example, a combine harvester may have a chassis defining a forward end and a rear end, a feeder house at the forward end of the chassis, a first set of ground-engaging elements supporting the forward end of the chassis, and a second set of ground-engaging elements supporting the rear end of the chassis. The second set of ground-engaging elements are configured to move forward and rearward relative to the chassis.

A combine harvester with a variable length wheelbase. For example, a combine harvester may have a chassis defining a forward end and a rear end, a feeder house at the forward end of the chassis, a first set of ground-engaging elements supporting the forward end of the chassis, and a second set of ground-engaging elements supporting the rear end of the chassis. The second set of ground-engaging elements are configured to move forward and rearward relative to the chassis.

A grass trimmer includes an operating device configured for a user to operate and a grass trimmer device including a grass trimmer head and a motor. The grass trimmer head includes a spool configured for a grass trimmer line to wind around and a housing formed with an accommodating cavity. When the grass trimmer is mounted with the grass trimmer line, a part of the grass trimmer line protruding outside the housing is defined as an effective part of the grass trimmer line. The grass trimmer further includes a controller configured to control the grass trimmer head to release a grass trimmer line when the grass trimmer head is mounted with the grass trimmer line and a length of the effective part is detected to be less than or equal to a preset value.

A louver position sensing system for a sieve and chaffer of a combine harvester. One system provides that at least one sensor is in actual, physical contact with one or more louvers of the sieve and chaffer. Another system provides that a one or more magnet holders are mounted on louvers and, spaced away, sensors sense magnets in the magnet holders to determine the rotational position of the louvers. Either system allows for accurate, on-the-fly adjustment of the louvers in order to maximize the efficiency of operation of the sieve and chaffer. Preferably, the sensing systems are configured such that sensed position of the louvers is broadcast on the CAN bus of the combine harvester. As a result, the position information can be used to dynamically adjust the openings between the louvers of the sieve and chaffer to achieve more efficient grain cleaning as the machine and field variables change.

An agricultural harvester includes a chassis; a threshing and separating system carried by the chassis and including at least one threshing rotor mounted in a longitudinal direction of the agricultural harvester; a grain pan carried by the chassis that receives crop material from the threshing and separating system, the grain pan being configured to shake in a fore-to-aft direction and a lateral direction; and a cleaning system carried by the chassis supplied with crop material from the grain pan, the cleaning system including at least one sieve configured to shake in the lateral direction out of phase with the grain pan.

A grass management system includes a prohibition determination circuit and a baler. The prohibition determination circuit is configured to determine a prohibition position. The baler is configured to acquire the prohibition position from the prohibition determination circuit, and eject a bale of grass at a position except for the prohibition position.