Abstract: A forage harvester for harvesting crop is described. The harvester comprises a header for harvesting crop and providing the crop to a cutter drum of the harvester for processing the crop, and a wear plate positioned in the vicinity of the cutter drum to guide the cut crop towards a discharge section of the harvester. The harvester further comprises a flow generator for generating a fluid flow along a surface of the wear plate facing the cutter drum or along an inner discharge surface of the discharge section, in order to facilitate a transport of the cut crop towards an outlet of the discharge section.

Abstract: A discharge elbow for a forage harvester. The discharge elbow includes a frame-shaped support assembly and at least one locking element attached to the inside of the support assembly.

Abstract: A straw and chaff spreader including a pair of counter-rotating spreader plates having fan-shaped blades attached to the top surface of each spreader plate. The spreader plates being located beneath the straw and chaff chute of a combine. A rear shield is mounted to the combine to the rear of the spreader plates. The shape of the blades and the direction of rotation of the spreader plates being selected to throw the straw and chaff received from the straw and chaff chute against the rear shield to propel the straw and chaff outwardly on either side of the combine.

Abstract: A two-row cane harvester 10 simultaneously harvests two rows of sugar cane in a green tropical cane field. Gatherer chains 62, 64 lift fallen cane stalks upwardly and support the fallen cane stalks as the harvester 10 moves through the cane field. A pair of topper mechanisms 54 top the cane stalks while base cutters 80 base cut the cane. A pair of transversely spaced turnaround devices 62 each move the cane transversely past the respective topper mechanism and toward a centerline 22 of the harvester, and thrust the topped cane stalks in a direction away from the harvester movement such that the topped cane stalks do not interfere with the cane moving toward the topper mechanisms by the gatherer chains. Base cut cane is received base first into the harvester intake.

Abstract: A loading device for agricultural harvesters has a lower discharge chute arrangeable on a harvester and an upper discharge chute provided with an adjustable ejection flap and rotatably supported on the lower discharge chute. The upper discharge chute has an impact region provided with a cover-free portion which is closeable by an exchangeable baffle plate. The upper discharge chute can have an adjustable length and is composed of individual segments which are connectable with one another by connecting flanges to provide a desired efficient transporting length.

Abstract: The disclosure relates to a corn head auger crop divider located in the auger trough of a corn head. The divider is positioned between the center row divider and center of the feeder house opening. The divider does not contact the transverse auger and transverse auger flighting. The divider consists of a rear divider partially nested within the front divider. The front divider has a triangularly shaped top region. This orients a pair of side embankments so as to smoothly alter the flow of corn crop. In operation, the corn ears are pushed into the auger trough by the gathering chains within the row divider. The transverse auger pushes the corn crop to the center of the corn head where it contacts the side embankment of the front divider. The side embankment changes the direction of the corn crops flow so that it is directed into the feeder house opening.

Abstract: Improved agricultural technology has increased yields of cereal crops to a level wherein the crop residues left on the land are of such volume as to interfere with the following crop. Historically, these residues have been incinerated and the practice continues to this day, polluting the air, causing health problems, destroying valuable natural plant foods and soil humus. It is the nature of cereal crop residues to degrade slowly because of their low nitrogen content and complex polysaccharide chemical moieties. This application teaches that by crushing and shredding the crop residue and applying a liquid nutrient enrichment medium for the growth of the native soil microflora decay can be accelerated.