A combine harvester is provided with left and right main frames that extend in the front-rear direction of a vehicle body, and a threshing device installed between the left and right main frames. The threshing device is provided with a threshing unit that performs a grain removal process, and a sorting unit that is provided below the threshing unit and performs a sorting process of sorting processed articles after the grain removal process has been performed by the threshing unit. A threshing frame included in the threshing unit is mounted on and supported by the left and right main frames, and a sorting unit frame included in the sorting unit is suspended from and supported by the left and right main frames.

A combine harvester is provided with left and right main frames that extend in the front-rear direction of a vehicle body, and a threshing device installed between the left and right main frames. The threshing device is provided with a threshing unit that performs a grain removal process, and a sorting unit that is provided below the threshing unit and performs a sorting process of sorting processed articles after the grain removal process has been performed by the threshing unit. A threshing frame included in the threshing unit is mounted on and supported by the left and right main frames, and a sorting unit frame included in the sorting unit is suspended from and supported by the left and right main frames.

A combine harvester is provided with: a threshing device that performs a threshing process of threshing a crop; a grain tank that stores grain obtained by the threshing process; a grain discharging device that discharges grain to be stored in the grain tank to the outside of the vehicle body; a travel driving device that drives travel of the vehicle body; and an engine that serves as a power source. The combine harvester includes a first relay shaft to which power is transmitted from an output shaft of the engine, and the power of the engine is transmitted from the first relay shaft to the grain discharging device and the travel driving device in a branched manner.

A combine harvester is provided with: a threshing device that performs a threshing process of threshing a crop; a grain tank that stores grain obtained by the threshing process; a grain discharging device that discharges grain to be stored in the grain tank to the outside of the vehicle body; a travel driving device that drives travel of the vehicle body; and an engine that serves as a power source. The combine harvester includes a first relay shaft to which power is transmitted from an output shaft of the engine, and the power of the engine is transmitted from the first relay shaft to the grain discharging device and the travel driving device in a branched manner.

A harvested material tank of a harvester is disclosed. The harvested material tank comprises a tank expansion formed from a plurality of movable elements. At least one of the plurality of movable elements includes at least one access flap that, when in an open position, offers access for a user to the interior of the harvested material tank.

A grain harvesting articulated combine of a forward crop processing power unit (PPU), a rear grain cart, and an articulation joint that connects the PPU with the rear grain cart and includes an auger assembly that moves clean grain from the PPU to the rear grain cart. Two pump circuits deliver power to a pair of hydrostatic motors located in the rear grain cart, one pump circuit hydrostatic motor driving the grain unloader assembly, the other pump circuit hydrostatic motor driving the ascending fill lift auger assembly, the drag auger assemblies, and the articular joint auger assembly. Power (inertia) can be harvested from auger assemblies not moving grain for startup or clog clearing of the other auger assemblies.

An expansion device for a bulk goods container includes a frame, a plurality of wall panels that are connected to the frame in an articulated manner to pivot outwardly such that a pivoted-out position delimit an interior space of the expansion device, connecting elements that are connected in an articulated manner to the wall panels at two edges of the connecting elements and first expansion elements that are connected in an articulated manner to an upper edge of the wall panels and are configured to pivot between a position resting against the wall panels and a position that extends the wall panels. The position extending the wall panels, flexible membrane elements are tensioned between the first expansion elements.

An expansion device for a bulk goods container includes a frame, a plurality of wall panels that are connected to the frame in an articulated manner to pivot outwardly such that a pivoted-out position delimit an interior space of the expansion device, connecting elements that are connected in an articulated manner to the wall panels at two edges of the connecting elements and first expansion elements that are connected in an articulated manner to an upper edge of the wall panels and are configured to pivot between a position resting against the wall panels and a position that extends the wall panels. The position extending the wall panels, flexible membrane elements are tensioned between the first expansion elements.

A harvested material receptacle for a harvester is disclosed. The harvested material receptacle includes a hopper that is open at the top with a substantially polygonal opening cross-section and extension elements arranged in pairs opposite each other. The extension elements are each pivotably articulated about a substantially horizontally running pivot shaft at the edge of an opening of the hopper to transition the extension elements from a substantially closed transport position into an open receiving position and vice versa, wherein the extension elements that are opposite one another lie sandwich-like on each other when in their transport position.

A harvested material receptacle for a harvester is disclosed. The harvested material receptacle includes a hopper that is open at the top with a substantially polygonal opening cross-section and extension elements arranged in pairs opposite each other. The extension elements are each pivotably articulated about a substantially horizontally running pivot shaft at the edge of an opening of the hopper to transition the extension elements from a substantially closed transport position into an open receiving position and vice versa, wherein the extension elements that are opposite one another lie sandwich-like on each other when in their transport position.