A path planning module or electronic data processor is configured to establish a path plan for a planter to cover a first area of the field at least once with a sequence of path segments that are generally parallel to each other and spaced apart. A path interference estimator or the electronic data processor is configured to estimate potential interference between two or more path segments with respect to a first path segment and a second path segment. An exclusion zone module or the electronic data processor is configured to determine an exclusion zone for the planter to prohibit planting of one or more rows of seeds or seedlings within the exclusion zone based on the estimated potential interference. The electronic data processor is configured to activate or execute the path plan and determined exclusion zone in accordance with the established path plan and determined exclusion zone.

An agricultural implement broadly includes a ground-engaging tool, a time-of-flight sensor, and a controller. The time-of-flight sensor is configured to obtain information indicative of seed parameters, furrow parameters, and/or soil condition parameters. The controller is configured to process the information obtained by the time-of-flight sensor to generate the parameters, wherein the controller is further configured to automatically control operation of one or more components of the implement based on the parameters.

An agricultural implement broadly includes a ground-engaging tool, a time-of-flight sensor, and a controller. The time-of-flight sensor is configured to obtain information indicative of seed parameters, furrow parameters, and/or soil condition parameters. The controller is configured to process the information obtained by the time-of-flight sensor to generate the parameters, wherein the controller is further configured to automatically control operation of one or more components of the implement based on the parameters.

A planting system having a plurality of row units, each row unit having: (a) at least one opening disc configured to open a seed trench; (b) a soil engaging member configured to engage a sidewall of the trench during planting; and (c) at least one strain gauge in operative communication with the soil engaging member, wherein the at least one strain gauge measures force on the soil engaging member during planting operations.

A planting system having a plurality of row units, each row unit having: (a) at least one opening disc configured to open a seed trench; (b) a soil engaging member configured to engage a sidewall of the trench during planting; and (c) at least one strain gauge in operative communication with the soil engaging member, wherein the at least one strain gauge measures force on the soil engaging member during planting operations.

A row planting unit closing system including a first stage closing unit adapted to be attached to a row planting unit and including: a first stage frame; and a set of at least one row closing wheel having a closing angle orientation non-perpendicular relative to the ground; and wherein the first stage frame is attached at a first end to the row planting unit, the first stage frame comprising a linkage mechanism for setting a toe in angle orientation of the set of at least one row closing wheel relative to the first stage frame.

A row planting unit closing system including a first stage closing unit adapted to be attached to a row planting unit and including: a first stage frame; and a set of at least one row closing wheel having a closing angle orientation non-perpendicular relative to the ground; and wherein the first stage frame is attached at a first end to the row planting unit, the first stage frame comprising a linkage mechanism for setting a toe in angle orientation of the set of at least one row closing wheel relative to the first stage frame.

The invention describes an equalization mechanism of weight between a central chassis and the side tool-bars of an agricultural machinery and implements, by distributing the weight between the central chassis and the tool-bar frame through pneumatic springs, installed in a slanted position, through specific fixing brackets between the central chassis and the tool-bar frame.

An agricultural implement for cultivating an agricultural work area includes a main frame which is transferable between an operating position and a transfer position. A first subframe is connected to the main frame, and the first subframe is transferable between an operating position and a transfer position. A main frame hydraulic cylinder and a first subframe hydraulic cylinder move the main frame and the first subframe between their corresponding positions. In order to provide correct and repeatable positioning of the first subframe hydraulic cylinder, a volume of a first chamber of the main frame hydraulic cylinder is substantially equal to a volume of the first chamber of the first subframe hydraulic cylinder when the first subframe is in its operating position.

A control system for multiple row units of an agricultural implement includes a controller configured to selectively enable automatic downforce control for at least one controllable ground-engaging tool of each row unit that is within a work zone of an agricultural field. The automatic downforce control for the at least one controllable ground-engaging tool includes controlling a downforce of the at least one controllable ground-engaging tool such that the downforce is within a threshold range of a respective target downforce. In addition, the controller is configured to selectively disable the automatic downforce control for the at least one controllable ground-engaging tool of each row unit that is within a no-work zone of the agricultural field, or selectively adjust the respective target downforce for the at least one controllable ground-engaging tool of each row unit that is within the no-work zone of the agricultural field.