A disc harrow implement has gang assemblies each having aligned disc gangs carried by a support bar. Each disc gang has disc blades spaced along an axis of the disc gang. The disc gangs of each gang assembly are coaxially aligned to create a line of substantially equally spaced disc blades. A plugging detection system alerts an operator if one or more of the disc gangs are rotating at a rotational speed that is slower than rotational speeds of the remaining disc gangs. The plugging detection system includes a gang rotation sensor for each of disc gangs. Each gang rotation sensor is configured to measure the rotational speed of the connected disc gang. A control module compares the rotational speed of each disc gang to the rotational speed of the disc gangs and generates an output that indicates when a disc gang is rotating more slowly that the other disc gangs.

A down-pressure system for an agricultural implement has a linear actuator connected between a frame assembly and an opener assembly. A mounting structure for connecting the linear actuator to the opener assembly includes a bushing and an alignment member attached to the linear actuator. The bushing has protrusions extending transversely from opposite sides of a longitudinal axis of the linear actuator. Each protrusion has a curved engagement surface for engaging a flat surface on the opener assembly to prevent bending stresses on the linear actuator when the opener assembly is raised and lowered. The alignment member is arranged to lock the bushing into a predetermined rotational position about a longitudinal axis of the linear actuator relative to the opener assembly. The alignment member comprises a first structure that mates with a corresponding structure on the bushing, and a second structure that engages opposite sides of the opener assembly.

A down-pressure system for an agricultural implement has a linear actuator connected between a frame assembly and an opener assembly. A mounting structure for connecting the linear actuator to the opener assembly includes a bushing and an alignment member attached to the linear actuator. The bushing has protrusions extending transversely from opposite sides of a longitudinal axis of the linear actuator. Each protrusion has a curved engagement surface for engaging a flat surface on the opener assembly to prevent bending stresses on the linear actuator when the opener assembly is raised and lowered. The alignment member is arranged to lock the bushing into a predetermined rotational position about a longitudinal axis of the linear actuator relative to the opener assembly. The alignment member comprises a first structure that mates with a corresponding structure on the bushing, and a second structure that engages opposite sides of the opener assembly.

An improved row cleaning/closing wheel having improved debris removing and/or furrow closing performance with complimentary left and right cleaning/closing wheel pairs having a sloped body portion at an angle relative to a hub base for improved cleaning and/or closing operation during row planting. The sloped body portion and the hub base may form a continuous curve from the center of the hub base to a set of teeth on the outer edge of the sloped body portion. The improved row cleaning wheel for use with a floating row cleaner and/or closing arm assemblies attached to a row planter during planting operation.

An improved row cleaning/closing wheel having improved debris removing and/or furrow closing performance with complimentary left and right cleaning/closing wheel pairs having a sloped body portion at an angle relative to a hub base for improved cleaning and/or closing operation during row planting. The sloped body portion and the hub base may form a continuous curve from the center of the hub base to a set of teeth on the outer edge of the sloped body portion. The improved row cleaning wheel for use with a floating row cleaner and/or closing arm assemblies attached to a row planter during planting operation.

A mounting assembly for a gauge wheel on a row unit allows for infinite lateral adjustment of the gauge relative to an opening disc on the row unit. The mounting assembly includes an arm with a threaded bore extending through a split end of the arm. A threaded bushing is adjustably mounted in the bore and secured in a desired position with a bolt standing through the split end to clamp bushing in position. The split end mounting arm provides a method of quickly and easily adjusting the lateral position of the gauge wheel on the row unit in infinite increments.

A wheel track renovator including a body attachable to a device, one or more augers mounted to the body and at least one drive connected to the one or more augers to drive the one or more augers.

A wheel track renovator including a body attachable to a device, one or more augers mounted to the body and at least one drive connected to the one or more augers to drive the one or more augers.

In one aspect, a system for detecting accumulations of field materials between ground engaging components of an agricultural implement may include first and second ground engaging components configured to rotate relative to soil within a field as the implement is moved across the field. The first and second ground engaging components may be spaced apart from each other along an axial direction of the shaft. The system may also include a sensor configured to detect field materials within a detection zone defined directly between the first and second ground engaging components and above the axis of rotation in a vertical direction of the agricultural implement. Furthermore, the system may include a controller communicatively coupled to the sensor, with the controller configured to determine a parameter associated with an accumulation of the field materials between the first and second ground engaging components based on data received from the sensor.

In one aspect, a system for detecting accumulations of field materials between ground engaging components of an agricultural implement may include first and second ground engaging components configured to rotate relative to soil within a field as the implement is moved across the field. The first and second ground engaging components may be spaced apart from each other along an axial direction of the shaft. The system may also include a sensor configured to detect field materials within a detection zone defined directly between the first and second ground engaging components and above the axis of rotation in a vertical direction of the agricultural implement. Furthermore, the system may include a controller communicatively coupled to the sensor, with the controller configured to determine a parameter associated with an accumulation of the field materials between the first and second ground engaging components based on data received from the sensor.