A foldable auger having a first and second auger assemblies, each having a respective housing, auger screw and rotation axis. A pivot joins the assemblies, and is configured to permit the second auger assembly to fold relative to the first auger assembly. A first drive coupler is located at an end of the first auger screw and offset from the first axis, and a second drive coupler is located at an end of the second auger screw and offset from the second axis. A drive sleeve is rigidly connected to the end of the second auger screw. The drive sleeve has at least one slot that slidingly receives the second drive coupler. The second drive coupler is movable between a first position in driving connection with the first drive coupler, and a second position not in driving connection with the first drive coupler.

A draper belt tensioning system having a frame having a first tensioner mount, a roller, and a first belt tensioner. The roller is movable along a lateral direction that is perpendicular to a roller rotation axis. The first belt tensioner is connected to the first roller end and selectively connectable to the first tensioner mount. The first belt tensioner includes a first travel stop configured to selectively abut the first tensioner mount with the first tensioner mount between the first travel stop and the first roller end, a first spring, and a first threaded connector configured to move the first roller end closer to and further from the first travel stop upon rotation of the threaded connector. The first travel stop, first spring and first threaded connector are removable from the first tensioner mount without disassembly from each other and without disassembly from the first roller end.

The subject disclosure includes structure for easily and reliably connecting and disconnecting first and second ends of an agricultural harvester draper belt. A unitary hairpin connecting bar enables connection of adjacent flanges of the first and second ends of the draper belt. A plurality of connecting bar pairs provide connection of adjacent flanges of the first and second ends of the draper belt when the flanges are arranged in an angled, stepped or staggered pattern. A flexible connecting bar pair provides connection to flanges at the first and second ends of the draper belt that extend at a non-perpendicular angle relative to the leading edge of the draper belt.

Draper heads for a crop harvester are disclosed. An example draper may include an endless belt conveyor and a catch pan disposed adjacent to the endless belt conveyor to collect crop material and defining a uniform gap formed between at least a portion of the catch pan and a portion of an endless belt of the endless belt conveyor located adjacent to the catch pan. A cleat formed on the endless belt cooperates with the catch pan to transport the collected crop material onto the endless belt. The catch pan may include a contoured end that conforms to a shape formed by the endless belt at an end of the endless belt conveyor.

A draper belt (8) having a carry layer (14), a pulley cover layer (13), and a reinforcing layer (12) which is situated between the carry layer (14) and the pulley cover layer (13). The carry layer (14) includes a plurality of cleats (7) which are reinforced with reinforcing rods (15). The draper belt (8) has a first edge section (16), a second edge section (17), and a center section (18) located between the first edge section (16) and the second edge section (17). The first edge section (16) and the second edge section (17) of the draper belt (8) each have a modulus that is at least three times greater than the modulus of the center section (18).

In a grain unloading system for a combine harvester a grain bin includes a frame, the frame has a floor with a trough. An unloading auger is disposed at least partially within the trough. An auger cover at least partially covers the auger. The auger cover has a hat for a top portion of the auger cover and a pair of gates movable between the hat and locations on the floor that are proximal to the trough. A gate adjustment structure is coupled to the pair of gates to move the pair of gates relative to the auger. A control system is coupled to the gate adjustment structure and configured to control the gate adjustment structure.

In a grain unloading system for a combine harvester a grain bin includes a frame, the frame has a floor with a trough. An unloading auger is disposed at least partially within the trough. An auger cover at least partially covers the auger. The auger cover has a hat for a top portion of the auger cover and a pair of gates movable between the hat and locations on the floor that are proximal to the trough. A gate adjustment structure is coupled to the pair of gates to move the pair of gates relative to the auger. A control system is coupled to the gate adjustment structure and configured to control the gate adjustment structure.

A device for conveying and feeding wet material for a cross-flow hot air combine harvester, the device consisting of a hot air pumping part and a material conveying part. The hot air pumping part uses an air suction pump (4) to pump a flow of hot waste air from an engine radiator (1) of the combine harvester by means of an air suction pipeline (3) so as to provide hot air flow for the material conveying and feeding device. The material conveying part consists of a chain harrow-type conveying groove structure (A) and a cross-flow air chamber structure (B), wherein the chain harrow-type conveying groove structure (A) is located at an upper part of the cross-flow air chamber structure (B) and is used for forcibly conveying and feeding a material; and the cross-flow air chamber structure (B) uses hot air to dry the material, blows to assist in feeding the material, and uses a cross-flow air wheel (14) to forcibly feed the material. By using excess heat that is generated by the engine of the combine harvester to perform auxiliary blowing and drying during the process of conveying and feeding a wet material, the feeding device may lower the temperature of the engine and reduce the effects of heat radiation and ageing that high temperatures have on surrounding devices, and may lower the water content of a wet agricultural material, thus preventing blockages produced because of moisture.

A draper belt for a head of a harvester that is to extend about a roller having an outer groove encircling the roller and may include a web and an elastomeric belt guide. The web may have a first surface to carry crop material and a second surface to face the roller. The elastomeric belt guide may extend from the second surface and may include downwardly projecting teeth.

Machines and headers for machines are disclosed herein. A machine includes a chassis and a header coupled to the chassis. The header is positioned to remove crop material from the ground. The header includes an auger structured to interact with crop material passed through the header in use of the machine. The auger has a drum configured for rotation about a drum axis and at least one auger attachment set coupled to the drum.