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 method of controlling tilt of an agricultural implement being towed by a tow vehicle along a field includes providing a controller, a first sensor, a second sensor, and an actuator coupled to the implement. The method includes detecting a baseline level of the tow vehicle with the first sensor at a first location in the field, wherein the implement is located at a second location in the field spaced rearward of the first location. The controller determines when the implement will be at the first location in the field, and an implement level of the implement is measured with the second sensor once the implement is at the first location. The implement level is compared to the baseline level with the controller. The controller determines if the difference between the implement level and baseline level is within a tolerance range, and further controls the actuator as needed.

A method of controlling tilt of an agricultural implement being towed by a tow vehicle along a field includes providing a controller, a first sensor, a second sensor, and an actuator coupled to the implement. The method includes detecting a baseline level of the tow vehicle with the first sensor at a first location in the field, wherein the implement is located at a second location in the field spaced rearward of the first location. The controller determines when the implement will be at the first location in the field, and an implement level of the implement is measured with the second sensor once the implement is at the first location. The implement level is compared to the baseline level with the controller. The controller determines if the difference between the implement level and baseline level is within a tolerance range, and further controls the actuator as needed.

The disclosed apparatus, systems and methods relate to devices, systems and methods for on-the-go monitoring and controlled feedback in a supplemental downforce application. Certain implementations provide real-time monitoring of furrow depth via contact and non-contact approaches, some of which are combined with gauge wheel feedback to calibrate and otherwise control the application of supplemental downforce to the row unit. A combination of sensor types are employed in collecting furrow depth measurements, which can be used to adjust the supplemental downforce through a control system module. A gauge wheel load sensor may be used to modify the application of supplemental downforce.

A load sensing bracket for a disk opener assembly of an agricultural implement. The load sensing bracket includes a body having a cantilevered arm, the body is configured to engage with and secure to a portion of a depth setting arm of a disc opening assembly. The cantilevered arm has an upper end with an extending projection that is receivable in any one of plurality of notches of a fan shaped member thereby setting a position of the depth setting arm relative to the fan shaped member which sets a position of the gauge wheel relative to the disk. A sensor is disposed on the cantilevered arm generating a signal relating to strain in the cantilevered arm which corresponds to a down pressure on the gauge wheel.

A load sensing bracket for a disk opener assembly of an agricultural implement. The load sensing bracket includes a body having a cantilevered arm, the body is configured to engage with and secure to a portion of a depth setting arm of a disc opening assembly. The cantilevered arm has an upper end with an extending projection that is receivable in any one of plurality of notches of a fan shaped member thereby setting a position of the depth setting arm relative to the fan shaped member which sets a position of the gauge wheel relative to the disk. A sensor is disposed on the cantilevered arm generating a signal relating to strain in the cantilevered arm which corresponds to a down pressure on the gauge wheel.

An agricultural system includes a controller having a memory and a processor. The controller is configured to determine a steering angle of a work vehicle of the agricultural system, determine a target height of a ground engaging tool of the agricultural system based on the steering angle, and output a signal to control a height of the ground engaging tool relative to a soil surface based on the target height.

An agricultural system includes a controller having a memory and a processor. The controller is configured to determine a steering angle of a work vehicle of the agricultural system, determine a target height of a ground engaging tool of the agricultural system based on the steering angle, and output a signal to control a height of the ground engaging tool relative to a soil surface based on the target height.

Ground opener units for agricultural seeding machinery and the like utilise a gauge wheel and associated depth adjustment mechanism for regulating the penetration depth of the disk opener in use. An improved gauge wheel adjustment assembly comprises a spindle adapted to be rotatably supported in a spindle sleeve, the spindle having a shaft with a first end with a rectangular boss adapted for engagement with a depth adjustment handle of the disk opener and a second end with a tapered spline engagement formation. A gauge wheel support arm has a complementary tapered spline formation for engagement with the spindle second end.

An agricultural machine includes a frame having a tongue hitch for attachment to a towing vehicle, the tongue hitch being oriented along a longitudinal axis inline with the direction of travel. The agricultural machine has an axle mounted to the frame and an arm mounted to the axle. A front spindle is mounted at the front end of the arm with a front tire mounted to the front spindle and a rear spindle is mounted at the rear end of the arm with a rear tire mounted to the rear spindle. The tires are positioned on a same side of the swing arm. The front tire has a different diameter than a diameter of the rear tire.