Systems and methods for automatically establishing a gap between a concave and a rotor of a rotary crop processing system are disclosed. Establishing the gap may include displacing the concave towards the rotor until contact is detected therebetween. Contact may be detected using a sensor configured to detect contact between the rotor and the concave. The sensor may be a knock sensor. The concave is displaced away from the rotor when contact is detected until contact between the rotor and the concave is no longer detected. One or more actuators may be coupled to the concave to move the concave relative to the rotor. In some implementations, the actuators may be operated in sequence to form the gap between the rotor and the concave.

Systems and methods for automatically establishing a gap between a concave and a rotor of a rotary crop processing system are disclosed. Establishing the gap may include displacing the concave towards the rotor until contact is detected therebetween. Contact may be detected using a sensor configured to detect contact between the rotor and the concave. The sensor may be a knock sensor. The concave is displaced away from the rotor when contact is detected until contact between the rotor and the concave is no longer detected. One or more actuators may be coupled to the concave to move the concave relative to the rotor. In some implementations, the actuators may be operated in sequence to form the gap between the rotor and the concave.

The present invention relates to a cutting unit (2) for attachment to the height-adjustable intake duct (6) of a harvester (4). In order to improve the sensor-supported height guidance of cutting units, it is proposed to provide at least one additional load sensor (26) which measures the load (28) with which the cutting unit (2) loads the intake duct (6), in order to calculate a height-control-relevant signal (32) from the transmitted sensor values (25) of the distance sensor (18) and the load sensor (26) via an evaluation device (24), which signal (32) is transmitted to the interface (34).

The present invention relates to a cutting unit (2) for attachment to the height-adjustable intake duct (6) of a harvester (4). In order to improve the sensor-supported height guidance of cutting units, it is proposed to provide at least one additional load sensor (26) which measures the load (28) with which the cutting unit (2) loads the intake duct (6), in order to calculate a height-control-relevant signal (32) from the transmitted sensor values (25) of the distance sensor (18) and the load sensor (26) via an evaluation device (24), which signal (32) is transmitted to the interface (34).

A device for analyzing a grain sample including a light source, an image sensor, and a controller. The light source is configured for illuminating the grain sample. The image sensor is configured for capturing images of the grain sample. The controller is coupled to the image sensor and is configured for receiving the images of the grain sample therefrom and for analyzing the images to detect at least one material other than grain in the grain sample. The light source is configured for illuminating the grain sample with a local light spot having a size that is smaller than a width of an average wheat kernel. The image analysis and the detection of material other than grain may, at least partly, be performed using trained neural networks and other artificial intelligence algorithms.

Systems and methods for monitoring the distribution of residue material from a spreader tool of an agricultural machine including a sensor, preferably a LIDAR or other scanning transceiver-type sensor mounted or otherwise coupled to the machine and orientated with a sensing region pointing rearwards of the agricultural machine, where operational data indicative of an operational parameter of the spreader tool is obtained and used to control operation of the sensor.

Systems and methods for monitoring the distribution of residue material from a spreader tool of an agricultural machine including a sensor, preferably a LIDAR or other scanning transceiver-type sensor mounted or otherwise coupled to the machine and orientated with a sensing region pointing rearwards of the agricultural machine, where operational data indicative of an operational parameter of the spreader tool is obtained and used to control operation of the sensor.

Systems and methods for monitoring the distribution of residue material from a spreader tool of an agricultural machine including an imaging sensor coupled to an unloading auger of the agricultural machine used to image an area to the rear of the agricultural machine where the Image data is analysed to determine a distribution of residue material associated with the spreader tool and one or more operational parameters of the agricultural machine or components are controlled based on the determined distribution.

Systems and methods for monitoring the distribution of residue material from a spreader tool of an agricultural machine including receiving image data from an imaging sensor indicative of a residue material spread by the spreader tool within a sensing region rearwards of the agricultural machine and where one or more image transformations are applied to image data to generate an enhanced image of the distribution of the residue material including colour, distortion and/or correction transformations for generating an enhanced image for view by an operator of the machine and controlling a user interface associated with the agricultural machine to provide an indicator indicative of the enhanced image which is easily interpreted.

Systems and methods for monitoring the distribution of residue material from a spreader tool of an agricultural machine including receiving image data from an imaging sensor indicative of a residue material spread by the spreader tool within a sensing region rearwards of the agricultural machine and where one or more image transformations are applied to image data to generate an enhanced image of the distribution of the residue material including colour, distortion and/or correction transformations for generating an enhanced image for view by an operator of the machine and controlling a user interface associated with the agricultural machine to provide an indicator indicative of the enhanced image which is easily interpreted.