A harvesting header bat having a channel for removably receiving alternating quick-release fingers and spacers is provided. The spacers are capable of production in different lengths to support different applications of the harvesting header. The quick-release finger is provided with projections configured for mating with flanges at the channel opening, enabling the finger to be inserted into the channel in a first orientation and then rotated into a second orientation to engage the flanges and releasably lock the finger in place. The spacers are also configured to engage the flanges of the channel and may be provided in different lengths where a particular harvesting header application requires a certain distance between fingers on the bat.

An agricultural baler includes a main bale chamber, a plunger reciprocally movable within the main bale chamber, and a stuffer unit including a tine arm defining an axis of rotation and a plurality of tines coupled with and extending from the tine arm. The tines are rotatable around the axis of rotation of the tine arm between a first position associated with a stuffing cycle and a second position associated with a loading cycle.

An agricultural baler includes a main bale chamber, a plunger reciprocally movable within the main bale chamber, and a stuffer unit including a tine arm defining an axis of rotation and a plurality of tines coupled with and extending from the tine arm. The tines are rotatable around the axis of rotation of the tine arm between a first position associated with a stuffing cycle and a second position associated with a loading cycle.

In one embodiment, a system, comprising: one or more pairs of oppositely rotatable, laterally extending rolls, wherein for each pair, at least one of the rolls is moveable relative to the other of the rolls; a hydraulic circuit, comprising: a tensioner circuit comprising: for each pair of rolls, one or more pairs of hydraulic cylinders arranged in parallel, each configured to resist movement of the at least one of the rolls at a respective end of the at least one of the rolls; an accumulator arranged in parallel to the hydraulic cylinders; and plural control valves; and a computing system configured to cause the one or more pairs of hydraulic cylinders to adjust the resistance to movement of the at least one of the rolls of the respective pair of rolls by sending signals to one or more of the plural control valves.

A method of estimating the mass of crop entering into a grain tank on a harvesting machine, comprising the steps of mounting a load sensor on the upper bearing of a conveyor belt moving crop through the clean grain elevator into the grain tank, connecting the load sensor to a processor, using the load sensor to measure a load on the conveyor belt when no crop is present in the clean grain elevator, and also when crop is moving through the clean grain elevator, and comparing the load with no crop present to the load when crop is present to estimate the mass of crop moving through the clean grain elevator.

A method of estimating the mass of crop entering into a grain tank on a harvesting machine, comprising the steps of mounting a load sensor on the upper bearing of a conveyor belt moving crop through the clean grain elevator into the grain tank, connecting the load sensor to a processor, using the load sensor to measure a load on the conveyor belt when no crop is present in the clean grain elevator, and also when crop is moving through the clean grain elevator, and comparing the load with no crop present to the load when crop is present to estimate the mass of crop moving through the clean grain elevator.

A system for controlling an operative parameter of a harvesting platform of an agricultural harvesting machine comprises a sensor adapted to provide downed crop information indicative of a characteristic of downed crop in a field to be harvested and an electronic control unit adapted to control an operative parameter of at least one of a reel and a cutter bar table position of the harvesting platform based upon the downed crop information.

An improved drive shaft interface which yields increased strength, lower cost, and lighter weight. Preferably, the improved drive shaft interface is in the form of a corniform geometry which provides for stress translation to hoop stress vs. pure bending stress, thereby increasing the overall resistance to failure. This geometry also allows for a hollow construction, thereby providing for reduced weight compared to the prior art construction. Additionally, manufacturing processes can be employedsuch as metal spinning, metal forming, friction welding, casting and post machining, etc.which can yield a lower cost component.

A combine comprising a chassis, a crop residue handling system including a residue chopper, residue spreader, a spreader chute and a swath selection door, a receiver configured to determine a location of the combine, and a controller that controls the residue handling system. The controller configured to determine the location of the combine on a map, execute a crop residue spreading mode in response to the controller determining that the location of the combine is located in a designated crop residue spreading zone indicated on the map, and execute a crop residue windrow mode in response to the controller determining that the location of the combine is located in a designated crop residue windrow zone indicated on the map.

The present invention relates to two systems for driving cut material: a trailing system (B1) and a self-cleaning and suspended conveyor system (B2) applied on a cutting platform for grain harvesters, where the material cut by the cutting system is driven from the sides to the center of the platform (14) by element of two chain systems, wherein in the drag system (B1) multiple toes are mounted on a horizontal chain and in the self-cleaning and suspended conveyor system (B2) and multiple cast (perforated) cradles are mounted on the horizontal chain. In this way, both systems, drag and/or drop conveyors, shall be driven by hydraulic or electric motors or a mechanical system and a cutting platform can use one or the other conveyor systems, that is, the drag or suspended systems shall be used.