In one aspect, a system for detecting bearing failures for disk gang assemblies of an agricultural implement includes a disk gang assembly comprising a shaft assembly including a shaft and at least one bearing rotatably supporting the shaft. The disk gang assembly also includes a plurality of disks supported on the shaft for rotation therewith. The system also includes a sensor provided in operative association with the shaft assembly, with the sensor being configured to generate data indicative of a bearing-related parameter associated with the shaft assembly. Additionally, the system includes a computing system communicatively coupled to the sensor, with the computing system being configured to monitor the bearing-related parameter based at least in part on the data received from the sensor, and identify that the bearing(s) is experiencing a bearing failure condition based at least in part on an evaluation of the monitored bearing-related parameter.

An agricultural implement includes a computing system is configured to identify a plurality of residue pieces present within the portion of the field based on the image data generated by the imaging device. Furthermore, the computing system is configured to determine a number of residue pieces having a length within a first length range and a number of residue pieces of the identified plurality of residue pieces having a length within a second length range. Additionally, the computing system is configured to determine a characteristic length range for the portion of the field, with the characteristic length range corresponding to one of the first length range or the second length range having the greatest number of residue pieces associated therewith. Moreover, the computing system is configured to provide a notification associated with the determined characteristic length range to an operator of the agricultural implement.

An agricultural implement includes a frame and a ground-engaging tool supported on the frame, with the ground-engaging tool configured to perform an operation on a field as the agricultural implement travels across the field. The agricultural implement includes an imaging device configured to generate image data depicting a portion of the field and a computing system communicatively coupled to the imaging device. In this respect, the computing system is configured to identify a plurality of residue pieces present within the portion of the field based on the image data generated by the imaging device. Furthermore, the computing system is configured to determine a residue length parameter associated with the identified plurality of residue pieces. Additionally, the computing system is configured to control a travel direction of the agricultural implement based on the determined residue length parameter.

A soil probe assembly includes a frame member and a wheel rotatably coupled to the frame member. The wheel includes one or more soil probes that, as the wheel rotates against the earth, the weight of the soil probe assembly drives the soil probes into the earth. The wheel is configured to have at least two planar edges such that, as the wheel rolls onto one of the at least two planar edges, a slamming effect occurs due to the planar edge impacting against the ground, thus causing a soil sample to eject from a soil probe located across the wheel from the ground. The ejected soil sample is collected by a collection hamper. The assembly includes a funnel and a carousel such that the funnel is configured to receive and direct the ejected soil sample to the collection hamper, wherein the collection hamper is coupled to the carousel.

A disc blade angle adjustment assembly for a tillage implement includes a base structure configured to couple to a frame of the tillage implement. The disc blade angle adjustment assembly also includes a vertical guide plate coupled to the base structure, in which the vertical guide plate has an elongated opening. Furthermore, the disc blade angle adjustment assembly includes a vertical support configured to couple to a disc blade support of the tillage implement. The disc blade support is configured to pivotally couple to the frame at a pivot point. The disc blade angle adjustment assembly also includes multiple rollers rotatably coupled to the vertical support and disposed within the elongated opening of the vertical guide plate. The rollers are configured to block rotation of the disc blade support about a longitudinal axis of the disc blade support via engagement with the vertical guide plate.

A disc blade angle adjustment assembly for a tillage implement includes a base structure configured to couple to a frame of the tillage implement. The disc blade angle adjustment assembly also includes a vertical guide plate coupled to the base structure, in which the vertical guide plate has an elongated opening. Furthermore, the disc blade angle adjustment assembly includes a vertical support configured to couple to a disc blade support of the tillage implement. The disc blade support is configured to pivotally couple to the frame at a pivot point. The disc blade angle adjustment assembly also includes multiple rollers rotatably coupled to the vertical support and disposed within the elongated opening of the vertical guide plate. The rollers are configured to block rotation of the disc blade support about a longitudinal axis of the disc blade support via engagement with the vertical guide plate.

A disc blade angle adjustment system for a tillage implement includes a first actuator having a cylinder, a piston disposed within the cylinder, and a single rod extending from the piston. The first actuator is configured to couple to a frame of the tillage implement and to a first disc blade support. The disc blade angle adjustment system also includes a second actuator having a cylinder, a piston disposed within the cylinder, and a single rod extending from the piston. The second actuator is configured to couple to the frame of the tillage implement and to a second disc blade support. In addition, the disc blade angle adjustment system includes a conduit extending between a cap end of the first actuator and a cap end of the second actuator or between a rod end of the first actuator and a rod end of the second actuator.

A disc blade angle adjustment system for a tillage implement includes a first actuator having a cylinder, a piston disposed within the cylinder, and a single rod extending from the piston. The first actuator is configured to couple to a frame of the tillage implement and to a first disc blade support. The disc blade angle adjustment system also includes a second actuator having a cylinder, a piston disposed within the cylinder, and a single rod extending from the piston. The second actuator is configured to couple to the frame of the tillage implement and to a second disc blade support. In addition, the disc blade angle adjustment system includes a conduit extending between a cap end of the first actuator and a cap end of the second actuator or between a rod end of the first actuator and a rod end of the second actuator.

A method of controlling a row cleaner according to a prescription as the row cleaner traverses a field.

A method of controlling a row cleaner according to a prescription as the row cleaner traverses a field.