A deck plate extension for a row unit of an agricultural harvester. The deck plate extension configured to attach to the return side of the row unit side thereby preventing a kernel crop from dropping to the ground during harvesting. The deck plate extension is further provided with a kernel channel configured to direct the kernel crop along the return side of the row unit side to the harvest side of the row unit side. The deck plate extension may be provided as part of a deck plate of a row unit side or may be provided as a second plate added to the row unit side. The deck plate extension is configured to be added as original equipment and as a retrofit to existing row units.

A device for harvesting asparagus growing from a asparagus field that includes a frame displaceable over the asparagus field by a drive means in which frame is at least provided with cutting means for cutting the asparagus to be harvested close to the surface of the field, and stabilizing means for stabilizing the asparagus relative to the cutting means.

A device for harvesting asparagus growing from a asparagus field that includes a frame displaceable over the asparagus field by a drive means in which frame is at least provided with cutting means for cutting the asparagus to be harvested close to the surface of the field, and stabilizing means for stabilizing the asparagus relative to the cutting means.

A control system for a harvester includes a plurality of actuators, each of which moves of one of the following: a knockdown roller for pressing crops down, a side knife for cutting crops along a substantially vertical plane, a base cutter for cutting crops along a substantially horizontal plane, and a crop divider configured to separate crops into rows. The control system also includes a controller in electrical communication with each actuator of the plurality of actuators. The controller receives a signal indicative of an operational position of at least one actuator of the plurality of actuators, and sends a signal to the at least one actuator of the plurality of actuators to initiate movement of the at least one actuator of the plurality of actuators in response to the received signal.

A control system for a harvester includes a plurality of actuators, each of which moves of one of the following: a knockdown roller for pressing crops down, a side knife for cutting crops along a substantially vertical plane, a base cutter for cutting crops along a substantially horizontal plane, and a crop divider configured to separate crops into rows. The control system also includes a controller in electrical communication with each actuator of the plurality of actuators. The controller receives a signal indicative of an operational position of at least one actuator of the plurality of actuators, and sends a signal to the at least one actuator of the plurality of actuators to initiate movement of the at least one actuator of the plurality of actuators in response to the received signal.

In one aspect, a system for operating an agricultural harvester may include a sensor assembly having a base member pivotably coupled to a first row divider of the harvester. The sensor assembly may also include first and second arms extending outwardly from the base member along opposite sides of a centerline of the first row divider. The system may further include a controller communicatively coupled to the sensor assembly. The controller may be configured to monitor the distance between the first and second arms based on measurement signals received from the sensor assembly. Furthermore, the controller may be further configured to switch the harvester from a first operating mode to a second operating mode when it is determined that the monitored distance has exceeded a predetermined distance threshold.

In one aspect, a system for operating an agricultural harvester may include a sensor assembly having a base member pivotably coupled to a first row divider of the harvester. The sensor assembly may also include first and second arms extending outwardly from the base member along opposite sides of a centerline of the first row divider. The system may further include a controller communicatively coupled to the sensor assembly. The controller may be configured to monitor the distance between the first and second arms based on measurement signals received from the sensor assembly. Furthermore, the controller may be further configured to switch the harvester from a first operating mode to a second operating mode when it is determined that the monitored distance has exceeded a predetermined distance threshold.

A method of moving a component of a harvester that includes a topper for cutting top portions of crops, a conveyor for transporting the cut stalks of the crops, a primary hood, and a secondary hood, each of the primary and secondary hoods operable to direct the cut top portions of the crops away from the conveyor. The method includes selecting a cutting mode of operation from the following modes of operation: circular cutting mode and face cutting mode; selecting a crop position from the following crop positions: crop at right and crop at left; selecting at least one component from the following components: the conveyor, the primary hood, or the secondary hood; and in response to selecting at least one component, automatically moving the selected at least one component to one of a first operational position or a second operational position.

A method of moving a component of a harvester that includes a topper for cutting top portions of crops, a conveyor for transporting the cut stalks of the crops, a primary hood, and a secondary hood, each of the primary and secondary hoods operable to direct the cut top portions of the crops away from the conveyor. The method includes selecting a cutting mode of operation from the following modes of operation: circular cutting mode and face cutting mode; selecting a crop position from the following crop positions: crop at right and crop at left; selecting at least one component from the following components: the conveyor, the primary hood, or the secondary hood; and in response to selecting at least one component, automatically moving the selected at least one component to one of a first operational position or a second operational position.

A system for removing parts from plants rooted in an agricultural field while leaving other parts of the plants rooted in the agricultural field may include a harvester apparatus with an intake throat formed by structures such as the combination of an infeed head and infeed conveyor, a pair of stripping assemblies including stripping belts, or stripping assemblies including stripping members such as chains.