A finishing tool control system for an agricultural implement may include a controller communicatively coupled to a first and a second sensor. The controller is configured to control a height of a finishing tool above a soil surface. Further, the first sensor is configured to output a signal indicative of a height of a main frame of the agricultural implement above the soil surface. In response to determining that a height increase of the main frame exceeds a threshold height adjustment, the controller increases the height of the finishing tool. The second sensor is configured to output a signal indicative of the height of the finishing tool of the finishing assembly above the soil surface. Moreover, in response to determining that a height of the finishing assembly above the soil surface is less than a threshold value, the controller increases the height of the finishing tool.

The present invention is directed to apparatuses, methods, and systems that provide a tracking assembly adapted to be used with a vegetation control system, the assembly comprising: an articulating frame; a pivoting frame coupled to the articulating frame along a pivot axis; a vegetation control application system coupled to the pivoting frame; a first ground tracking device coupled to the articulating frame configured to contact a surface underneath the articulating frame and position the articulating frame relative to the surface underneath the articulating frame; and a second ground tracking device coupled to the pivoting frame configured to contact a surface underneath the pivoting frame and position the pivoting frame and vegetation control application system relative to the surface underneath the pivoting frame, wherein the second ground tracking device pivots the pivoting frame about the pivot axis when an elevation of the surface underneath the second tracking device is different to an elevation of the surface underneath the first tracking device.

The present invention is directed to apparatuses, methods, and systems that provide a tracking assembly adapted to be used with a vegetation control system, the assembly comprising: an articulating frame; a pivoting frame coupled to the articulating frame along a pivot axis; a vegetation control application system coupled to the pivoting frame; a first ground tracking device coupled to the articulating frame configured to contact a surface underneath the articulating frame and position the articulating frame relative to the surface underneath the articulating frame; and a second ground tracking device coupled to the pivoting frame configured to contact a surface underneath the pivoting frame and position the pivoting frame and vegetation control application system relative to the surface underneath the pivoting frame, wherein the second ground tracking device pivots the pivoting frame about the pivot axis when an elevation of the surface underneath the second tracking device is different to an elevation of the surface underneath the first tracking device.

A row frame is coupled to the rear member. A first opener is configured to open the soil; the first opener is supported by or from a first support extending downward from the frame member. A first outlet is configured to dispense or apply a nutrient strip. A laterally movable carrier is associated with the row frame. The carrier supports the first opener and the first outlet. A second outlet can dispense or plant seed, wherein the first outlet and the second outlet have a lateral separation that is dynamically adjustable during the simultaneous application of seed and the nutrient strip.

A row frame is coupled to the rear member. A first opener is configured to open the soil; the first opener is supported by or from a first support extending downward from the frame member. A first outlet is configured to dispense or apply a nutrient strip. A laterally movable carrier is associated with the row frame. The carrier supports the first opener and the first outlet. A second outlet can dispense or plant seed, wherein the first outlet and the second outlet have a lateral separation that is dynamically adjustable during the simultaneous application of seed and the nutrient strip.

A first rear member is spaced apart from the front member and positioned generally parallel to the front member. A first pair of first pivotable arms are generally parallel to each other. The first pair of first pivotable arms are rotatably connected to the front member at two front pivot points. The first pair of first pivotable arms are rotatably connected to the rear member at two rear pivot points. At least one first opener (e.g., nutrient knife or projecting, ground-engaging member) extends downward from or with respect to the first rear member.

A first rear member is spaced apart from the front member and positioned generally parallel to the front member. A first pair of first pivotable arms are generally parallel to each other. The first pair of first pivotable arms are rotatably connected to the front member at two front pivot points. The first pair of first pivotable arms are rotatably connected to the rear member at two rear pivot points. At least one first opener (e.g., nutrient knife or projecting, ground-engaging member) extends downward from or with respect to the first rear member.

A data processor determines whether a draft force on the implement is unbalanced based on an error between the observed implement angle and a target implement heading exceeding a threshold deviation. The data processor is adapted to generate a control signal to compensate for the imbalance in the draft force by adjusting the first lateral position via the first actuator, or by adjusting the second lateral position via the second actuator, the first actuator and the second actuator being positioned on opposite lateral sides of the implement.

A data processor determines whether a draft force on the implement is unbalanced based on an error between the observed implement angle and a target implement heading exceeding a threshold deviation. The data processor is adapted to generate a control signal to compensate for the imbalance in the draft force by adjusting the first lateral position via the first actuator, or by adjusting the second lateral position via the second actuator, the first actuator and the second actuator being positioned on opposite lateral sides of the implement.

An agricultural planter includes systems, methods, and apparatuses for maintaining down force pressure at row units of the planter. The row units may include an electric linear actuator connected to linkages of the row units to maintain a down force pressure for the row unit. The linkage may also be removed and replaced with a strut or like mechanism to apply a direct down force pressure to components of the row unit. One or more sensors can be included to obtain information related to the ground to automatically adjust the amount of down force provided based upon a ground characteristic in order to maintain a substantially uniform furrow depth.