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.

A straw chopper (42) for a combine harvester (10) is provided with a housing (54-60) that has an inlet (72) and an outlet (74), a rotor (46) with suspended chopping blades (48) that is arranged in the housing (54-60), adjustably arranged counter-blades (62) and a straw dam (64). The adjustments of the straw dam (64) and of the counter-blades (62) are coupled to one another.

A straw chopper (42) for a combine harvester (10) is provided with a housing (54-60) that has an inlet (72) and an outlet (74), a rotor (46) with suspended chopping blades (48) that is arranged in the housing (54-60), adjustably arranged counter-blades (62) and a straw dam (64). The adjustments of the straw dam (64) and of the counter-blades (62) are coupled to one another.

A tubular for processing crops can include a body having an outer surface and protrusions extending outwardly from the outer surface. The protrusions can be arranged in bands that are spaced apart along the outer surface to define gaps therebetween that form grooves extending around a circumference of the body. Each band of protrusions can be positioned offset with respect to at least one adjacent band of protrusions such that the protrusions form a spiraling configuration around a longitudinal axis of the body.

Disclosed are methods, devices, systems, computer readable media, and other implementations, including methods to form an aerially-viewable approximation of a target image by processing of land (e.g., an agricultural field) based on land data for a land/field and the target image. In an example, a method is provided that includes obtaining field data for a plurality of field portions each associated with respective soil attributes, obtaining a target image to be aerially viewed, and determining for each of the plurality of field portions, based, in part, on the field data and on the target image, an associated respective crop, selected from a plurality of available crops, and a corresponding respective crop density, such that grown crops resulting from planting of the determined associated crop at the corresponding crop density at the each of the plurality of field portions form, when viewed aerially, an approximation of the target image.

An agricultural work machine, such as a self-propelled harvester, is provided. The agricultural work machine includes a crop gathering machine which has a crop cutting device, a crop collecting device and/or a crop feeding device, and at least one crop conveyor, and comprising an image processing system, a data output unit, and at least one sensor system assigned to the crop gathering machine for recording a crop flow in the crop gathering machine. The sensor system is coupled to the image processing system for transferring images. The image processing system processes a selection of available images, such as by pre-processing the images to be transferred in a first step, in a further step determining an optical flow and corresponding vector fields from the pre-processed images, and in a subsequent step deriving and assessing speed trends of the crop flow from the corresponding vector fields.

A cooling system for cooling a component on a farm machine according to the present disclosure can include a rotary blower and a manifold. The rotary blower can include a housing and have a first rotor and a second rotor rotatably disposed in the housing. The first and second rotors can have meshed lobes for transporting air from an inlet port to an outlet port. The rotary blower can further include a first rotor shaft and a second rotor shaft rotatably supported by the housing and having first and second rotors, respectively, fixed for rotation therewith. The manifold can direct the air from the rotary blower onto the component of the farm machine.

A method for determining a density of a harvested material includes transmitting radar signals into the harvested material from a transmitting unit, receiving the radar signals reflected by the harvested material by a receiving unit, determining a permittivity of the harvested material as a function of the reflected radar signals via an evaluation unit, and determining the density of the harvested material as a function of the determined permittivity via a signal processing unit.

A chopper assembly for a harvester may include a blade reset assembly having an automatic blade reset mechanism configured to apply a force that urges the assembly to pivot about a pivot axis such a blade element supported by the blade reset assembly is biased towards an extended position. In addition, blade reset assembly may be configured to pivot against the force applied by the blade reset mechanism when the blade element is subjected to a sufficient counterfbrce force such that the blade element is moved towards a retracted position.

Weed seeds are destroyed in the chaff from a combine harvester by repeated high speed impacts caused by a rotor mounted in one of a pair of side by side housings which accelerate the discarded seeds in a direction centrifugally away from the rotor onto a stator including angularly adjustable stator surfaces around the axis. Thus the discarded seeds rebound back and forth between the rotor and the stator to provide a plurality of impacts. The seeds are carried axially of the rotor by a controlled airstream so that they move to an axial discharge location where a discharge fan is mounted. The angle of the discharge around the rotor axis can be changed to direct the seeds to the side of the combine away from a straw chopper, towards the guide fins of the tailboard of the chopper, or into the housing of the straw chopper.