An agricultural planting or seeding implement includes a frame, at least one row unit, one or more imaging devices, and a processor. The at least one row unit includes a seed trench opening assembly extending along an opening line and configured to open a seed trench, a seed deposition assembly configured to deposit a seed in the open seed trench, and a seed trench closing assembly extending along a closing line and configured to close the seed trench. The one or more imaging devices capture images of a field behind the agricultural planting implement as the agricultural planting implement traverses the field. The processor processes the images captured by the one or more imaging devices, including determining a location of the opening line based on the captured images, determining a location of the closing line based on the captured images, determining whether the opening line and the closing line are aligned with one another, and determining a corrective action to bring the opening line and the closing line into alignment in response to determining that the opening line and the closing line are not aligned with one another.

An agricultural planting or seeding implement includes a frame, at least one row unit, one or more imaging devices, and a processor. The at least one row unit includes a seed trench opening assembly extending along an opening line and configured to open a seed trench, a seed deposition assembly configured to deposit a seed in the open seed trench, and a seed trench closing assembly extending along a closing line and configured to close the seed trench. The one or more imaging devices capture images of a field behind the agricultural planting implement as the agricultural planting implement traverses the field. The processor processes the images captured by the one or more imaging devices, including determining a location of the opening line based on the captured images, determining a location of the closing line based on the captured images, determining whether the opening line and the closing line are aligned with one another, and determining a corrective action to bring the opening line and the closing line into alignment in response to determining that the opening line and the closing line are not aligned with one another.

A bracket assembly is provided for row unit planters for withstanding draft forces created by high speed and no tillage planting. The upper and lower link arms of the bracket assembly are pivotally connected to the front and rear mounting plates using full-length crossed shafts or shortened stub spindles. Tapered bearing races and tapered bushings are utilized at each end of the link arms to minimize wear and maintenance.

An agricultural seeder implement includes an opener including a first complemental element and a second complemental element, and a soil distributing assembly mounted to the opener for movement between a lowered position and a raised position. The soil distributing assembly is disabled from moving beyond the lowered position, when an element of the soil distributing assembly is engaged to the first complemental element when the soil distributing assembly is in the lowered position, and is disabled from moving beyond the raised position, when the element is engaged to the second complemental element when the soil distributing assembly is in the raised position. The element extends through a slot in the opener that extends from a first end wall defining the first complemental element to a second end wall defining the second complemental element.

An agricultural seeder implement includes an opener including a first complemental element and a second complemental element, and a soil distributing assembly mounted to the opener for movement between a lowered position and a raised position. The soil distributing assembly is disabled from moving beyond the lowered position, when an element of the soil distributing assembly is engaged to the first complemental element when the soil distributing assembly is in the lowered position, and is disabled from moving beyond the raised position, when the element is engaged to the second complemental element when the soil distributing assembly is in the raised position. The element extends through a slot in the opener that extends from a first end wall defining the first complemental element to a second end wall defining the second complemental element.

A double-shoot disc-opener row unit for use with agricultural implements includes two discs that form two separate trenches in a planting surface of a field. The mechanical connection between the two discs provides an adjustable longitudinal separation between the discs to prevent an overlap between the discs from a point view perpendicular to the direction of travel of the row unit. The longitudinal separation may reduce the interference of the flow of soil from one disc from interfering with the formations of trenches by the other disc. An adjustable lateral separation between the discs may also provide for a separation between the trenches produced by the different discs.

A double-shoot disc-opener row unit for use with agricultural implements includes two discs that form two separate trenches in a planting surface of a field. The mechanical connection between the two discs provides an adjustable longitudinal separation between the discs to prevent an overlap between the discs from a point view perpendicular to the direction of travel of the row unit. The longitudinal separation may reduce the interference of the flow of soil from one disc from interfering with the formations of trenches by the other disc. An adjustable lateral separation between the discs may also provide for a separation between the trenches produced by the different discs.

An apparatus, method and system for eradicating soil-borne pests in soil utilizing leading and trailing rows of shanks, a source of electricity and a mechanism to determine the condition of the soil being treated. The leading row has ripper shanks that open a path through the soil and the trailing row has specially configured electrically conductive stinger shanks, connected to the source of electricity, that discharge electricity into the soil to electrocute pests. The soil condition determination mechanism comprises one or more soil probes in a probe row disposed between the leading and trailing rows. The soil probe reads the condition of the soil in the path cut by the ripper shanks and transmits a signal to a voltage controller that is connected to the source of electricity to adjust the output thereof to the stinger shanks to automatically compensate for changing soil conditions to effectively and efficiently eradicate pests.

An apparatus, method and system for eradicating soil-borne pests in soil utilizing leading and trailing rows of shanks, a source of electricity and a mechanism to determine the condition of the soil being treated. The leading row has ripper shanks that open a path through the soil and the trailing row has specially configured electrically conductive stinger shanks, connected to the source of electricity, that discharge electricity into the soil to electrocute pests. The soil condition determination mechanism comprises one or more soil probes in a probe row disposed between the leading and trailing rows. The soil probe reads the condition of the soil in the path cut by the ripper shanks and transmits a signal to a voltage controller that is connected to the source of electricity to adjust the output thereof to the stinger shanks to automatically compensate for changing soil conditions to effectively and efficiently eradicate pests.

An agricultural implement includes a frame having a longitudinal axis and laterally opposed sides and motive supports mounted to and supporting the frame. The agricultural implement further includes a first wing carried by the frame and at least one second wing, in which each second wing is pivotably connected to the first wing. The agricultural implement also includes an elevator mechanism configured to raise and lower the first wing and the second wing. Each second wing is connected to the first wing by a wing pivot assembly that includes a skewed hinge pivotably connecting one of the second wings to the first wing. The wing pivot assembly allows each second wing to pivot with respect to the first wing between an operating position and a transport position, in which the skewed hinge defines a first pivot axis oriented at an acute angle with respect to the longitudinal axis.