An agricultural planter is operable in a travel direction and a travel velocity and configured to dispense seeds into a furrow formed within an agricultural surface. An adjustment assembly is for the agricultural planter and includes a bracket configured to be coupled to a frame of the agricultural planter and a debris cleaner coupled to the bracket. The debris cleaner is configured such that during operation of the agricultural planter the debris cleaner has, relative to the travel direction, a leading edge and a trailing edge. The debris cleaner is movable such that a distance between the leading and trailing edges in the travel direction is adjustable.

An infeed chute for a material application machine includes a riser and a water spreading unit. The riser includes a sidewall and defines an infeed opening extending through the riser. The riser is configured to be coupled to an opening of a tank of a material application machine such that application material passed through the infeed opening of the riser enters the tank of the material application machine. The sidewall includes a water inlet formed therein. The water spreading unit is coupled to the water inlet and is configured to direct water laterally across the infeed chute.

Disclosed herein is a nut planter tool comprising an elongate drop tube fixed to a dig tube. The dig tube is spaced from the drop tube with each having generally parallel central axes. A plunger assembly comprises a plunger at an inferior end that translates within the dig tube. The tool ergonomically removes a soil core that is larger than the diameter of the tree nut, delivers the nut from an ergonomic height to a proper depth for germination; and replaces the soil core, covering the tree nut. The device is utilized standing upright thus eliminating the physical labor of bending over and reducing typical nut planting time.

Agricultural implements are used to transport material, such as inputs in the form of fertilizer, seed, treatment, or some combination thereof, to row units that apply the material to an area of a field. Metering systems can aid in metering and providing a desired amount of material, such as on-demand, to the row units. The metering systems move the metered material to the row units, such as with pneumatics or other fluids. The metering system can be improved by having primary and secondary nozzles of different sizes, which aid in increasing the speed of the fluid moving the material towards the row units. For example, a smaller diameter for the secondary nozzle will provide improved suction and air speed.

A wireless control system may include a controller and portable computing device. The controller may be configured to communicate with the portable computing device so that an operator may set a specific value and/or parameters in which the hydraulic cylinder may operate. In an aspect, the hydraulic cylinder may be engaged with a row cleaner assembly, and in another aspect it may be engaged with a closing wheel, and in yet another aspect it may be engaged with a furrow forming assembly.

In one aspect a system for controlling the operation of an agricultural implement may include a vehicle-based controller configured to control an operation of a valve provided in operative association with a work vehicle, with the valve being configured to control a fluid flow to a plurality of fluid conduits. The system may also include an agricultural implement configured to be towed by the work vehicle. The implement may include a user interface having a first input device configured to receive an input associated with a selected fluid conduit of the plurality of fluid conduits. Furthermore, implement may include an implement-based controller supported on the implement and communicatively coupled to the user interface. The implement-based controller may be configured to initiate control of the operation of the valve based on the input received from the user interface in a manner that provides the fluid flow to the selected fluid conduit.

In one embodiment, a hydroseeder has an integrated bale grinder. The hydroseeder includes a tank, an agitator, a plurality of grinding flights, and a basket. The tank includes an opening and is configured to hold a material slurry. The agitator is positioned below the opening and is configured to agitate the material slurry. The plurality of grinding flights extends from the agitator and is configured to grind a material bale as it is introduced into the tank. The basket extends from the opening of the tank and is configured to direct the material bale toward the plurality of grinding flights.

A machine to perform operations in a field includes a memory including instructions and processing circuitry that is configured by the instructions to receive coverage data from a server, where the coverage data is indicative of operations executed by another machine in the field. The processing circuitry that is further configured by the instructions to determine, using the coverage data, a strategy for performing operations in the field, where the strategy reduces the likelihood of the machine from processing an area of the field that was previously processed by the other machine. The processing circuitry that is further configured by the instructions to actuate the machine according to the strategy.

An autonomous vehicle platform and system for selectively performing an in-season management task in an agricultural field while self-navigating between rows of planted crops, the autonomous vehicle platform having a vehicle base with a width so dimensioned as to be insertable through the space between two rows of planted crops, the vehicle base having an in-season task management structure configured to perform various tasks, including selectively applying fertilizer, mapping growth zones and seeding cover crop within an agricultural field.

An autonomous vehicle platform and system for selectively performing an in-season management task in an agricultural field while self-navigating between rows of planted crops, the autonomous vehicle platform having a vehicle base with a width so dimensioned as to be insertable through the space between two rows of planted crops, the vehicle base having an in-season task management structure configured to perform various tasks, including selectively applying fertilizer, mapping growth zones and seeding cover crop within an agricultural field.