An agricultural vehicle including a container, which is mounted on at least one train of wheels, wherein the container rests by way of fixation brackets and load cells or weight sensors, preferably directly, i.e. without use of an intermediate chassis, on one axle or more forming the train of wheels. The vehicle container is mounted on the axle or each of the axles of the train under consideration by way of at least two pairs of load cells, wherein each pair consists of two load cells situated on opposite sides of a vertical plane parallel to the vertical planes containing the axes of the axles of a multi-axle train.

Disclosed is an articulated harvesting combine of a forward powered processing unit (PPU), a rear grain cart, and an articulation joint connecting the PPU and rear grain cart. Loss sensor pads in the straw discharge stream are graphically displaying to the operator. Articulation joint sensors rear teeth on an articulation joint arcuate beam and are used to display the degree of articulation to the operator. A jog motor permits the operator to move the feed house forwards/backwards to clear blockages. A right hand joystick and a left hand joystick provided control of all combine functions.

A system for sensor-based monitoring of a harvesting operation includes a header having a rotating reel, an optical sensor and a rotational reel position sensor. The optical sensor is configured to capture optical data in response to a trigger signal associated with an output signal of the position sensor indicative of a rotational position of the reel. A related method includes triggering the optical sensor when the reel is arranged in at least one predetermined rotational position and capturing optical data by the optical sensor when triggered.

Systems and apparatuses for detecting an amount of steering articulation of a steering system are disclosed. The systems and apparatuses may be applied to steering systems of agricultural header transport systems. The systems and apparatuses may include a first component moveable with a first steering component and a second component that is movable with a second steering component. The first component and the second component may interact to generate a notification that a selected amount of steering articulation has occurred or is about to occur. The notification may be provided to an operator, such as in the form of a visual, audible, or haptic output.

A header for an agricultural harvester. The header includes a connector adapted to be connected to a feeder of the agricultural harvester. The header further includes a cutter bar and a first lateral crop transporting mechanism to move crop material towards a first opening at the connector. The header further includes a second lateral crop transporting mechanism provided at a distance from the first lateral crop transporting mechanism. The second lateral crop transporting mechanism is provided to move crop material towards a second opening at the connector, the second opening being different from the first opening.

In one embodiment, a method implemented in an agricultural machine harvesting alfalfa plants, the method comprising: receiving, in real time, input corresponding to a plurality of sensed parameters corresponding to alfalfa plant height and cut alfalfa volume; associating the cut alfalfa volume to an alfalfa stem diameter; and automatically determining a feed quality value for the alfalfa plants based on the sensed alfalfa plant height and the alfalfa stem diameter.

In one embodiment, a method implemented in an agricultural machine harvesting alfalfa plants, the method comprising: receiving, in real time, input corresponding to a plurality of sensed parameters corresponding to alfalfa plant height and cut alfalfa volume; associating the cut alfalfa volume to an alfalfa stem diameter; and automatically determining a feed quality value for the alfalfa plants based on the sensed alfalfa plant height and the alfalfa stem diameter.

At least one thermal imaging camera mounted or positionable in a location that enables the camera to capture a thermal image of at least part of one lateral side of a harvester when the harvester is operational in a field. The camera may for example be mounted on a movable component or subsystem of the harvester, such as the unloading tube of a combine harvester according to an embodiment of the invention. When the unloading tube is in the unloading position, the camera is enabled to capture an image of the unloading side of the harvester. The system further includes a processing unit and a control unit, configured to process and analyze captured thermal images, and compare temperature-related parameters derived from said images to a threshold.

A cutting and threshing blade for a bush hog, wherein the blade has a trailing edge and a leading edge. At least a third of the leading edge of the upper-side of an elongate distal portion of the blade has a knife edge with a knife length that thickens toward the trailing edge. The trailing edge can have an upward air deflector. The bottom-side of the elongate distal portion has a threshing element, which includes a threshing block, which is a steel block having a block length that is comparable to the knife length and projects downward and substantially parallel to the knife edge. The rotating blades pummel growth carriers (i.e.; cob, husk) bearing seeds, grains, and kernels with enough force that they are released. The synergistic rotating knife edge and threshing block transform the bush hogging process from a cutting process to a cutting and threshing process.

An electrical circuit for a mobile machine, including an interface coupled between a controller and a plurality of sensors for accurately diagnosing faults in all of the sensor wires and the sensors themselves. This effective resolution reduces the downtime of the mobile machine and operator time by allowing faults to be timely isolated. The interface selectively couples a test signal to each of the sensor conductors, and also selectively couples a responsive returned characteristic signal to the controller, where the returned characteristic signal enables the controller to diagnose each of the plurality of conductors and sensors for faults. The electrical circuit may further include testing circuitry that can specifically determine a location of the determined fault in each of the plurality of conductors or each of the plurality of sensors.