A global navigation satellite system (GNSS) based control system is provided for positioning a working component relative to a work surface, such as an agricultural spray boom over a crop field. Inertial measurement unit (IMU) sensors, such as accelerometers and gyroscopes, are mounted on the working component and provide positioning signals to a control processor. A method of positioning a working component relative to a work surface using GNSS-based positioning signals is also disclosed. Further disclosed is a work order management system and method, which can be configured for controlling the operation of multiple vehicles, such as agricultural sprayers each equipped with GNSS-based spray boom height control subsystems. The sprayers can be remotely located from each other on multiple crop fields, and can utilize GNSS-based, field-specific terrain models for controlling their spraying operations.

A system for dispensing liquid agricultural products with seed includes a control system; a seed transport mechanism; an agricultural product supply system; and, a seed brush assembly. The seed transport mechanism is affixed to a seed planter row unit. The agricultural product supply system is configured to dispense agricultural products in response to an output signal from the control system. A brush housing structure of the seed brush assembly receives seed from the seed transport mechanism. A brush of the seed brush assembly has bristles positioned within the brush housing structure. The agricultural product supply system is configured to dispense the liquid agricultural products onto the bristles. The bristles are configured to minimize the resistance associated with the passage of seed past the wetted bristles. The liquid agricultural product is transferred from the brushes onto the seed as the seed is dispensed prior to the seed hitting the ground.

A powdered scent compound and related methods of application for adhering the powdered scent compound to a desired application area. The powdered scent compound can comprise a porous carrier powder, an adhesive compound and a synthetic scent compound. The powdered scent compound is shelf-stable and convenient to apply, carry and store. Furthermore, the powdered scent compound can adhere to applied surfaces, thereby ensuring that powdered scent compound remains where it is applied, even in locations where the potential exists for the compound to drip or be blown from.

A powdered scent compound and related methods of application for adhering the powdered scent compound to a desired application area. The powdered scent compound can comprise a porous carrier powder, an adhesive compound and a synthetic scent compound. The powdered scent compound is shelf-stable and convenient to apply, carry and store. Furthermore, the powdered scent compound can adhere to applied surfaces, thereby ensuring that powdered scent compound remains where it is applied, even in locations where the potential exists for the compound to drip or be blown from.

A system for dispensing seeds and a treatment. The system includes a first tube for dispensing the seeds via a first outlet, a second tube for dispensing the treatment via a second outlet, and a first valve at an upper portion and a second valve at a lower portion of the second tube. The second outlet is located between the discs of a furrow-opening wheel. The first valve is positioned outside of the furrow during operation and controls movement of the treatment from a container into the second tube. The second valve controls release of the treatment from the second outlet into the furrow. The second valve may open and close in response to pressure exerted by the treatment in the second tube. Depending on the treatment, the valves may release the treatment on, adjacent to, or both behind and in front of the dispensed seeds.

A system for dispensing seeds and a treatment. The system includes a first tube for dispensing the seeds via a first outlet, a second tube for dispensing the treatment via a second outlet, and a first valve at an upper portion and a second valve at a lower portion of the second tube. The second outlet is located between the discs of a furrow-opening wheel. The first valve is positioned outside of the furrow during operation and controls movement of the treatment from a container into the second tube. The second valve controls release of the treatment from the second outlet into the furrow. The second valve may open and close in response to pressure exerted by the treatment in the second tube. Depending on the treatment, the valves may release the treatment on, adjacent to, or both behind and in front of the dispensed seeds.

A system for dispensing agricultural products includes an agricultural product container having a memory circuit associated therewith for storing data, the stored data including data unique to the container and the quantity of material dispensed including specific rates of application. An application rate meter device is operatively connected to the agricultural product container and is configured to dispense the agricultural product from the agricultural product container. Precision placement equipment includes a placement tube assembly operatively connected to the application rate meter device to place the agricultural products in the desired locations for efficient activity of the agricultural product. Each placement tube assembly is mounted between depth wheels of a depth control wheel assembly of a planter for placement of product in-furrow between the depth wheels.

An agricultural distribution device includes a plurality of spreading elements arranged on a distribution linkage and adapted to spread granular material on an agricultural land, a detection device adapted to detect plant rows on the agricultural land, an adjustment device configured to change an impact area of the granular material dispensed by one or more of the spreading elements on the agricultural land during a spreading process, and a control device which is adapted to control the adjustment device as a function of the plant rows on the agricultural land detected by the detection device during the spreading process.

The present invention is directed to an applicator having an agricultural product pneumatic conveying system which meters particulate material from one or more source containers at the application equipment and transports the particulate material to evenly distribute the particulate material from the applicator. The pneumatic conveying system employs large diameter supply lines connected between the metering devices at the source containers and delivery nozzles, where the supply lines operate to move and mix the particulate material from the source containers to the nozzles. The particulate material is metered from the source containers into the supply lines via a number of airlocks that can be operated without allowing airflow from the large diameter supply lines to enter the source containers through the airlocks. In addition, the metering devices can b e operated in collective or independent variable manners to allow for sectional control and turning compensation.

A powered material broadcast spreader apparatus. The apparatus may include a granular material hopper having one or more upwardly extending walls that partially enclose an interior volume of the hopper. A first wall may define an opening passing outwardly from the interior volume. The apparatus may also include a motor surrounded by the one or more walls, and a motor cover having a contact surface congruent with a mating inner surface of the first wall. The motor cover is configured to form a motor compartment adapted to effectively isolate the motor from the interior volume, while permitting access to the motor from outside the hopper via the opening in the first wall.