An operator can interact with a user interface to input tire configuration information for a tires installed on an agricultural machine so that a control system of the machine can accurately apply information about the tires to display calculated parameters and/or control machine functions. In one aspect, the input could correspond to custom information for tires which the controller could use to derive tire dimensions, such as a rolling circumference of the tire, for calculating parameters. In another aspect, the input could correspond to a selection among several predetermined tire configurations. The controller can then apply the tire dimension to calculate one or more parameters, such as speed and/or distance traveled, for display, and/or to control various machine functions, such as an agricultural product application rate, steering, driveline and/or suspension control.

A sprayer boom support for an agricultural sprayer including two articulated arms that are coupled in an articulated manner on both sides of the sprayer, wherein each articulated arm is comprised of bar sections that are formed in a composite material consisting of a reinforcing agent chosen from carbon fibre, fibreglass, aramid fibre, boron fibre or a combination thereof, and a matrix of epoxy, vinyl ester, phenolic or polyester resin, the bar sections having a tube geometry with a substantially rectangular cross section with rounded vertices and arched sides, the length of two of its equal sides being constant along the bar section.

A system, apparatus and method for detecting and controlling the height of a frame of a self-propelled agricultural product applicator above a ground surface utilize a trailing link suspension system including an angular position sensor and extensible air strut, for connecting ground engaging wheels of the applicator to the frame of the applicator. Height of the applicator above the ground surface is determined by measuring relative angular rotation of upper and lower suspension arms of the suspension system about a suspension pivot axis, using the angular position sensor. Height is controlled by regulating a flow of pressurized air to the air strut, to thereby control extension of the air strut in a manner that controls a frame to axle, ride-height, distance of the suspension system.

A shear block mounting system secures a mounting plate of skid-mounted product application equipment to a frame of the applicator, utilizing a mounting bolt passing through a hole in the skid mounting plate, a mounting bar and a shear block. The shear block has a pilot that operatively engages a recess in the mounting bar in such a manner that shear forces are substantially transferred between the skid and frame substantially through the shear block pilot.

A captured hardware system secures a mounting plate of skid-mounted product application equipment to a frame of the applicator, utilizing a mounting bolt passing through a hole in the skid mounting plate, a mounting bar and an extended T-nut. The T-nut has a bar-shaped body that extends beyond an exposed edge of the mounting bar to facilitate aligning a threaded hole in the T-nut with a hole in the mounting bar, when the T-nut is slidingly inserted into a slot in the mounting bar for securing the skid to the frame with the mounting bolt.

An equipment skid is aligned on the frame of an agricultural product applicator defining substantially mutually perpendicular fore-aft, transverse and vertical axes of the frame, by utilizing an alignment system having a vertically extending frame mounting surface defined by the frame, and a vertically extending skid mounting surface defined by the skid. The frame and skid mounting surfaces are adapted for mating connection with one another to substantially align the skid with the frame along a substantially vertical mounting plane. A pair of laterally-spaced, juxtaposed, vertically extending skid alignment features are defined by the frame mounting surface, and a skid-mounted alignment block extending from the skid mounting surface is adapted for insertion between and into operative engagement with the pair of skid alignment features for aligning the skid with the frame on the vertical mounting plane.

An agricultural implement for applying an active ingredient to a geographic area includes a chassis, and at least one active ingredient tank. Each active ingredient tank is removably positioned on and carried by the chassis. Each active ingredient tank contains an active ingredient therein which is to be applied to the geographic area. Each active ingredient tank has an identification (ID) tag representing data associated with the active ingredient. An electrical reader carried by the chassis is configured for reading the ID tag and providing an output signal. An electrical processing circuit is coupled with the reader and receives the output signal.

A breakaway adapter system is provided that allows the same breakaway joints and breakaway boom segments to be used with either front-mounted or rear-mounted booms. The adapter system may have a multi-piece construction with a secondary boom segment end cap that can be reconfigured to receive either a left-side hinged or right-side hinged adapter hinge bracket or hinge plate. This allows a main boom body to be reversed for switching between front-mounted and rear-mounted configurations by rotating the main boom body 180-degrees while retaining breakaway joints and breakaway boom segments in rearward deflecting positions.

A vehicle platform comprises a central body that can support one or more implement configurations, such as sprayer booms, or planting row units. A plurality of adjustable legs extends downward from the central body. An arm assembly has a first end and a second end opposite the first end. The first end is pivotably coupled the central body and the second end coupled to a support beam. A plurality of nozzle assemblies is supported from the support beam. An arm actuator is arranged to control a transverse position of the support beam and the nozzle assemblies with respect to a reference point on the central body, such that each nozzle assembly may be aligned with a row of seeds or plants.

An improvement to a roadside sprayer fixates spray nozzles on a registration plate. The registration plate may include integral tabs depending on the application. Inclination of the tabs is adjustable to place streams and droplets in a desired swath coverage. With the nozzles rigidly mounted onto the plate, the entire plate is nutated. The use of the registration plate in a spray unit creates a uniform nutation among the nozzles, thereby reducing variability in droplet placement, and providing a more predictable spray from the nozzles. In other embodiments, the spray unit is utilized in a spray system adaptable to service vehicles, and may be utilized in conjunction with a vegetation engagement device, such as a cutter to engage multiple zones of a roadway right-of-way. Additionally, an improved spray unit includes an electromagnetic field and an attractor to generate plate motion.