A system for preventing material accumulation relative to an agricultural implement may include a ground engaging tool supported on an agricultural implement and a controller configured to determine a presence of excessive residue across a forward portion of the field forward of the ground engaging tool based at least in part residue data associated with an amount of residue across a forward portion of the field. The controller may initiate a control action associated with adjusting an operating parameter of the ground engaging tool such that the amount of residue incorporated into the field by the ground engaging tool is reduced across a section of the field having excessive residue to reduce a likelihood of material accumulation relative to the ground engaging tool as it passes across the section of the field.

In one aspect, a system for controlling an operation of a tillage implement being towed across a field by a work vehicle may include a tillage tool configured to engage soil and crop material present within a field as the tillage implement is being towed across the field by the work vehicle. Furthermore, the system may include a controller configured to receive an input associated with crop material present within the field and determine a location of a crop row relative to the tillage tool based on the received input. Additionally, the controller may be configured to control a direction of travel of the tillage implement based on the determined location of the crop row.

A system for detecting the levelness of ground engaging tools of a tillage implement including an agricultural implement including a frame and tool assemblies supported relative to the frame. The tool assemblies each include a toolbar coupled to the frame and one or more ground engaging tools coupled to the toolbar. The system further includes sensors coupled to two of the tool assemblies and configured to capture data indicative of a load acting on the one or more ground engaging tools of the tool assemblies. Additionally, the system includes a controller configured to monitor the data received from the sensors and compare at least one monitored value associated with the load acting on the ground engaging tool(s) of each of the tool assemblies. Moreover, the controller is further configured to identify the ground engaging tool(s) are not level when the monitored value(s) differ by a predetermined threshold value.

A system for detecting plugging of ground-engaging tools of agricultural implements includes an aft sensor(s) configured to capture data indicative of a post-worked residue coverage of a portion of a field aft of a ground-engaging tool(s). The system includes a controller configured to monitor the data received from the aft sensor(s) and determine the post-worked residue coverage for the portion of the field. The controller is configured to identify when the ground-engaging tool(s) is experiencing a plugged condition based at least in part on the determined post-worked residue coverage for the field.

An auxiliary tool assembly for an agricultural implement is configured to support a finishing tool(s) at a location at or adjacent to the aft end of the implement. The auxiliary tool assembly includes a support arm extending lengthwise between a proximal end and a distal end, with the proximal end of the support arm being pivotally coupled to a portion of the implement at or adjacent to its aft end so that the tool assembly is pivotable relative to the implement between a work position and a transport position. In addition, the finishing tool(s) is configured to be coupled to or otherwise supported relative to the ground by the support arm at a location between its proximal and distal ends. Moreover, the auxiliary tool assembly includes one or more surface-engaging wheels coupled to the distal end of the support arm.

A system for monitoring basket plugging for agricultural implements includes a basket assembly configured to be supported by an agricultural implement and a plugging sensor positioned relative to the basket assembly such that the plugging sensor is configured to transmit detection signals across a field of detection towards an interior of the basket assembly and receive return signals based on reflection of the detection signals off at least one surface. The field of detection extends across a portion of a lateral width of the basket assembly such that the detection signals are transmitted towards multiple locations along the portion of the lateral width. The system also includes a controller communicatively coupled to the plugging sensor. The controller is configured to analyze data received from the plugging sensor as the basket assembly rotates relative to the plugging sensor to determine when the basket assembly is experiencing a plugged condition.

A seeder assembly for placing a commodity in underlying soil that has a frame member having at least one ground engaging mechanism configured to contact an underlying surface, a rockshaft pivotally coupled to the frame member and pivotal between a lowered position and a raised position, a plurality of disk opener assemblies coupled to the rockshaft, the disk opener assemblies each having a single disk opener configured to cut into the underlying soil to provide an opening for the commodity, a plurality of row cleaner assemblies pivotally coupled to the frame member and each having a row cleaner configured to move residue on the underlying surface, and a plurality of linkages each coupling the rockshaft to a corresponding one of the plurality of row cleaner assemblies. When the rockshaft is in the raised position, the plurality of linkages maintain the corresponding plurality of row cleaner assemblies in a raised position.

A system for assessing the performance of an agricultural implement may include a ground engaging tool configured to engage soil within a field as the agricultural implement is moved across the field such that the ground engaging tool creates a field material cloud aft of the ground engaging tool in a direction of travel of the agricultural implement. The system may further include a sensor configured to detect a cloud characteristic of the field material cloud and a controller communicatively coupled to the sensor. The controller may be configured to monitor data received from the sensor and assess the agricultural operation being performed based at least in part on the cloud characteristic.

A system for identifying plugging within an agricultural implement is provided. The system includes a ground engaging tool configured to be supported by the agricultural implement. A weight sensor is operable to measure a weight of one or both of the ground engaging tool and the agricultural implement. A controller is communicatively coupled to the weight sensor. The controller is configured to receive, from the weight sensor, a signal that corresponds to the weight of one or both of the ground engaging tool and the agricultural implement. The controller is further configured to determine when the ground engaging tool is plugged based at least in part on the signal from the weight sensor.

A system for de-plugging ground engaging tools of an agricultural implement includes a ground engaging tool. A fluid nozzle is in fluid communication with a pressurized fluid source such that pressurized fluid from the pressurized fluid source is flowable to the fluid nozzle. The fluid nozzle is oriented towards the ground engaging tool. Thus, pressurized fluid from the fluid nozzle is flowable towards, next to and/or against the ground engaging tool.