A threshing concave has two curved end plates spaced from one another and a set of concave bars extending between the end plates. An elongate gap is presented between each adjacent pair of the concave bars, through which gaps threshed grain can pass during operation. Concave rods extend in the same direction as the end plates and through holes provided in the concave bars. One or more blanking plates are releasably bolted to the end plates and extend along respective elongate gaps.

A concave assembly for an agricultural machine includes a frame pivotally connected to a structural component and a concave connected to the frame. The frame includes a trunnion having a front end and a rear end. A front arm and a rear arm are connected to the trunnion. A crossbar extends between the front arm and the rear arm. A rotating member rotatably connected to the crossbar. The concave includes a first outer support and a second outer support. An inner support is positioned between the first outer support and the second outer support. A plurality of separator bars extend between the first outer support and the second outer support.

A combine (20) harvester includes a cage (32′) at least partially surrounding a rotor (28′) for threshing crops in the space (34) between the cage (321) and the rotor (28′). An auger (302) is at least partially positioned within the cage (32′) and is connected to the rotor (28) for rotating therewith. The auger (302) includes vanes (312) for transporting crop from the rotor (28′) and towards an outlet of the cage (32′). A chopper (320) is positioned either at or adjacent the outlet (310) of the cage (32′). A rotational axis (30) of the chopper (320) is substantially aligned with an axis of rotation of the auger (302) and the rotor (28).

A combine harvester threshing drum threshing bar includes a threshing fixture including a leading edge, an opposed trailing end, a top threshing side, including a trailing threshing face that extends between the trailing end and the corner and a leading threshing that inclines downwardly from the corner to the leading edge to form a wedge in the threshing fixture, an opposed bottom threshing drum emplacement side, a first bore and a second bore. The first bore includes a first hole open to trailing threshing face that enlarges a second hole open to the threshing drum emplacement side. The second bore includes a third hole open to leading threshing face that enlarges a second hole open to the threshing drum emplacement side.

The present invention comprises a removable cover plate assembly, which may be quickly attached, detached and adjusted to the exterior of a concave grate of a combine harvester in order to adjust the flow characteristics of the concave or separator grate assemblies. The cover plate assembly improves the threshing capability of the rasp bar threshing cylinder while simultaneously capturing additional threshed grain. Moreover, the cover plate assembly of the present invention enables a single set of concave grate assemblies to better harvest a wider variety of crop types.

A removable cover plate assembly may be quickly attached, detached and adjusted to the exterior of a concave grate of a combine harvester in order to adjust the flow characteristics of the concave or separator grate assemblies. The cover plate assembly improves the threshing capability of the rasp bar threshing cylinder while simultaneously capturing additional threshed grain. Moreover, the cover plate assembly of the present invention enables a single set of concave grate assemblies to better harvest a wider variety of crop types.

The present invention comprises a removable cover plate assembly, which may be quickly attached, detached and adjusted to the exterior of a concave grate of a combine harvester in order to adjust the flow characteristics of the concave or separator grate assemblies. The cover plate assembly improves the threshing capability of the rasp bar threshing cylinder while simultaneously capturing additional threshed grain. Moreover, the cover plate assembly of the present invention enables a single set of concave grate assemblies to better harvest a wider variety of crop types.

The present invention comprises multiple embodiments of an automated, dynamic cover plate system, which may be quickly attached, detached and adjusted to the exterior of a concave grate of a combine harvester in order to adjust the flow characteristics of the concave or separator grate assemblies. The automated, dynamic cover plate system improves the threshing capability of the rasp bar threshing cylinder while simultaneously capturing additional threshed grain. The automated, dynamic cover plate system of the present invention is designed to be controlled, either manually or automatically, by the operator of the combine harvester or by a computerized or automated intelligence system.

The present invention comprises multiple embodiments of an automated, dynamic cover plate system, which may be quickly attached, detached and adjusted to the exterior of a concave grate of a combine harvester in order to adjust the flow characteristics of the concave or separator grate assemblies. The automated, dynamic cover plate system improves the threshing capability of the rasp bar threshing cylinder while simultaneously capturing additional threshed grain. The automated, dynamic cover plate system of the present invention is designed to be controlled, either manually or automatically, by the operator of the combine harvester or by a computerized or automated intelligence system.

Provided is a threshing cylinder with threshing processing section provided on the rear side of a raking section. In the threshing processing section, a front support member, an intermediate support member, and a rear support member are supported by a threshing cylinder support shaft. A plurality of front-side divided threshing teeth support members are supported by the front support member and the intermediate support member in a state in which the front-side divided threshing teeth support members are arranged at the same arrangement pitch in the circumferential direction of the threshing processing section. A plurality of rear-side divided threshing teeth support members are supported by the intermediate support member and the rear support member in a state in which the rear-side divided threshing teeth support members are arranged at the same arrangement pitch in the circumferential direction of the threshing processing section.