A depth-adjustment assembly for ground openers of an agricultural implement. The ground openers each include an opening disc, a gauge wheel, and a support assembly securing the ground opener to the agricultural implement. The support assembly is configured to raise and lower the ground opener with respect to the ground and/or to adjust a down-pressure of the ground opener. The depth-adjustment assembly comprises for each of the ground openers, a linkage assembly and a depth-adjustment arm configured to adjust a relative position between the opening disc and the gauge wheel. At least a portion of the linkage extends in parallel relationship with the support assembly. The depth-adjustment assembly further comprises a laterally-extending common pivot bar. Each linkage assembly is secured to the common pivot bar, such that rotation of said common pivot bar is configured to simultaneously adjust the relative position between the opening disc and the gauge wheel of each of the ground openers.

The present invention relates generally to a device that allows a tire to adequately clean a soil cutting disc, maintains the critical seed planting depth, or prevents (1) punctures, (2) soil compaction, (3) premature wear, (4) tire readjustment, (5) operational problems, (6) rough surfaces that fill with mud and debris, and (7) tire removal to clean the gauge wheel or remove buildup. The present invention also provides a device with a gauge wheel for controlling the depth of a furrow created by a soil cutting disk that has one or more of these features. More specifically, the present invention comprises a gauge wheel assembly for farming with a centrally positioned hub, a plurality of spokes extending from the hub to at least one ground contacting finger that extend to an inner circular ring around the circumference.

A furrow closing unit for a planting unit includes a frame adapted to be pivotally coupled with the planting unit, and a pair of coulter blades rotatably attached to the frame and adapted to move soil into a seed groove to facilitate a closing of the seed groove. The furrow closing unit further includes a basket assembly fixedly attached to the frame and having a basket adapted to roll over a soil surface behind the pair of coulter blades. The basket includes a pair of end caps and a plurality of spokes extending between the pair of end caps. The plurality of spokes is arrayed circularly around a central axis of the basket and is arranged spaced apart from each other.

A depth gauge wheel for a row planter. The depth gauge wheel sets the planting depth for the seeds planted by the row planter. The depth gauge wheel sets planting depth by setting the cutting depth of the disk opener of the row planter. The depth gauge wheel also scrapes mud from the disk blade of the disk opener. The depth gauge wheel includes a rim, a tire attached to the rim and a ring attached to the rim. The tire contacts the surface of the ground to set the cutting depth of the disk opener and the ring scrapes mud from the disk blade of the disk opener.

In one aspect, a system for controlling the operation of a seed-planting implement may include a furrow-forming tool configured to form a furrow in soil present within a field. Furthermore, the system may include a sensor configured to capture data indicative of a topographical profile of the soil within the field. Additionally, a controller of the disclosed system may be configured to identify a topographical feature within the field based on the data received from the sensor. Furthermore, the controller may be configured to determine a position of the furrow-forming tool relative to the identified topographical feature. Additionally, the controller may be configured to initiate a control action to adjust the position of the furrow-forming tool when it is determined that the relative position between the furrow-forming tool and the identified topographical feature is offset from a predetermined positional relationship defined for the furrow-forming tool.

A singulating meter includes a seed disc with seed apertures rotates in a vertical plane through a seed reservoir. A horizontal seed tube has an inlet adjacent to the top of the seed disc and the seed apertures move along a seed aperture path toward the inlet. Pressurized air flows into the tube inlet, and through each seed aperture as it rotates upward out of the seed reservoir pushing a seed into each seed aperture which seed then moves along the seed aperture path through about 180 degrees of rotation to a release position at the top of the path where the seed is carried horizontally into the seed tube. An ejector pushes debris out of the seed apertures into the seed tube. An alignment guide moves the singulator element of the meter into the operating position where same is magnetically secured.

A control system for a tillage implement broadly includes front and rear sensors, a leveling assembly, and a controller. The front sensor is positioned on a front of a central section, wherein the front sensor is configured to obtain height information indicative of a height of the front of the central section above a ground. The rear sensor is positioned on a rear of the central section, wherein the rear sensor is configured to obtain height information indicative of a height of the rear of the central section above the ground. The leveling assembly is configured to adjust a front to rear orientation of the central section. The controller is configured to receive the height information from the front sensor and the height information from the rear sensor, and to provide instructions to the leveling assembly to adjust the front to rear orientation of the central section based on the received height information.

An agricultural planting or seeding implement having a ground engaging tool that forms an opening along an axis in the soil, a sensor disposed aft of the ground engaging tool, and a row unit disposed aft of both the ground engaging tool and the sensor relative to a direction of travel of the agricultural planting or seeding implement. The sensor engages with the ground at a depth within the opening and generates a signal indicative of a soil property of the ground.

Embodiments of the present disclosure relate to a seed firmer having a resilient portion and a firming portion that are molded together into a unitary part with each portion being a different material.

A seedbed preparation and planting machine includes a cutting assembly including powered forward cutting blades for chopping crop residue. A cutting disc assembly follows the cutting assembly effective for forming a seedbed trench at a seed planting depth. A seed assembly follows the cutting disc assembly including a seed hopper and a seed tube located to drop seed into the seedbed trench. A packer assembly tamps down seed in the seedbed trench for covering seed therein.