An agricultural harvester includes a chassis; a cleaning system carried by the chassis and is configured to clean crop material; and a crop material elevator carried by the chassis that is supplied with cleaned crop material from the cleaning system. The crop material elevator includes: a housing including a boot portion at a bottom of the housing, the boot portion defining a bulbous shape on at least a conveyance side of the housing; a driving loop held within the housing and configured to rotate; a driving element linked to the driving loop and configured to rotate the driving loop; and a plurality of paddles carried by the driving loop.

An agricultural harvester includes a chassis; a cleaning system carried by the chassis and is configured to clean crop material; and a crop material elevator carried by the chassis that is supplied with cleaned crop material from the cleaning system. The crop material elevator includes: a housing including a boot portion at a bottom of the housing, the boot portion defining a bulbous shape on at least a conveyance side of the housing; a driving loop held within the housing and configured to rotate; a driving element linked to the driving loop and configured to rotate the driving loop; and a plurality of paddles carried by the driving loop.

An agricultural vehicle feeder assembly having: a feeder housing, a shaft mounted to rotate relative to the feeder housing, first and second rotary drives mounted to rotate with the shaft at a first and second axial positions along the shaft, and an anti-wrap cover assembly extending an entire distance from the first rotary drive to the second rotary drive and at least partially surrounding the first rotary drive, the second rotary drive, and the shaft between the first rotary drive and the second rotary drive. The anti-wrap cover assembly is rotatably mounted the first rotary drive, the second rotary drive and/or the shaft. A connector joins the feeder housing to the anti-wrap cover assembly. The connector is configured to allow the anti-wrap cover assembly to move through a predetermined limited range of motion relative to the feeder housing.

An agricultural vehicle feeder assembly having: a feeder housing, a shaft mounted to rotate relative to the feeder housing, first and second rotary drives mounted to rotate with the shaft at a first and second axial positions along the shaft, and an anti-wrap cover assembly extending an entire distance from the first rotary drive to the second rotary drive and at least partially surrounding the first rotary drive, the second rotary drive, and the shaft between the first rotary drive and the second rotary drive. The anti-wrap cover assembly is rotatably mounted the first rotary drive, the second rotary drive and/or the shaft. A connector joins the feeder housing to the anti-wrap cover assembly. The connector is configured to allow the anti-wrap cover assembly to move through a predetermined limited range of motion relative to the feeder housing.

A sugarcane harvester includes a basecutter assembly for cutting sugarcane stalks from sugarcane plants; a stalk-supporting mechanism for supporting the stalks of the sugarcane plants as they are being cut by the basecutters; a chopping section for chopping the sugarcane stalks into billets; and a discharge assembly for discharging the billets to a storage vehicle.

A sugarcane harvester includes a basecutter assembly for cutting sugarcane stalks from sugarcane plants; a stalk-supporting mechanism for supporting the stalks of the sugarcane plants as they are being cut by the basecutters; a chopping section for chopping the sugarcane stalks into billets; and a discharge assembly for discharging the billets to a storage vehicle.

A chain guide for a wall of a grain elevator of an agricultural vehicle. The chain guide includes an elongated body. A rib extends from a surface of the elongated body, the rib being configured to engage with a chain of the grain elevator. A mating surface is either formed on or in the body, and the mating surface is configured to be connected to the wall of the grain elevator.

A chain guide for a wall of a grain elevator of an agricultural vehicle. The chain guide includes an elongated body. A rib extends from a surface of the elongated body, the rib being configured to engage with a chain of the grain elevator. A mating surface is either formed on or in the body, and the mating surface is configured to be connected to the wall of the grain elevator.

A measuring device is provided for measuring a mass flow composed of bulk material, in particular grain, in a continuous, circulating conveyor enclosed in part by a housing, having planar conveyor elements, which conveys the bulk material from a lower bulk material receiving area to a higher bulk material delivery area. A substantially circular movement course is imposed on the bulk material delivered by the respective conveyor element in a substantially radial direction of an inner surface of a cover section of the housing by a guide surface formed in the upper region of the conveyor. The bulk material is deflectable toward a sensor surface of the measuring device. At least the sensor surface of the measuring device is disposed in the upper region of the conveyor such that there is a tangential course in the transition from the guide surface to the sensor surface.

A measuring device is provided for measuring a mass flow composed of bulk material, in particular grain, in a continuous, circulating conveyor enclosed in part by a housing, having planar conveyor elements, which conveys the bulk material from a lower bulk material receiving area to a higher bulk material delivery area. A substantially circular movement course is imposed on the bulk material delivered by the respective conveyor element in a substantially radial direction of an inner surface of a cover section of the housing by a guide surface formed in the upper region of the conveyor. The bulk material is deflectable toward a sensor surface of the measuring device. At least the sensor surface of the measuring device is disposed in the upper region of the conveyor such that there is a tangential course in the transition from the guide surface to the sensor surface.