The present invention provides a plenum configured to evenly separate and distribute airflow generated by a fan into distribution lines of an agricultural machine. The plenum can utilize angled vanes symmetrically or asymmetrically arranged to form plenum chambers to provide a balanced airflow which contributes to maximizing fan efficiency, including power consumption and performance (airflow and static pressure). Accordingly, the plenum can be configured to separate the airflow and minimize imbalance between the lines during sectional control. The plenum height can be maintained for increased manufacturability and to prevent additional expansion. The plenum length can be configured within allowable space constraints of the machine yet allow airflow to develop upon separation into the lines. Vanes throughout the span of the plenum initially divide the airflow from the fan and maintain separation until the outlets.

An agricultural product delivery applicator for delivering particulate product to a field. The applicator includes a supply compartment to hold the product, a pneumatic conveying system, a metering system, and a controller. The pneumatic conveying system includes first delivery line operably connected to an airflow source and to the supply compartment, and a second delivery line operably connected to the airflow source and to the supply compartment. The metering system includes a first metering device associated with the first delivery line and a second metering device associate with the second delivery line. The controller controls the air flow source, the first metering device to meter product to result in a first mixed flow of airflow and product for the first delivery line, and the second metering device to meter product with the airflow to result in a second mixed flow of airflow and product for the second delivery line.

The invention provides a pneumatic conveying system for an agricultural product applicator, which system comprises multiple fans configured to serve separate boom sections of the applicator to more efficiently conduct airflow with respect to each section. In aspects of the invention, multiple centrifugal fans of the same or similar size can be used, or multiple centrifugal fans of various sizes can be used, such as one or more larger fans and one or more smaller fans. Exemplar aspects could include three small or medium sized centrifugal fans, four small or medium sized centrifugal fans, and five small or medium sized centrifugal fans, thereby allowing the system to raise outlet air pressure at an elevated flow. Another aspect of the invention could include configuring one fan to supercharge another fan, in series, also allowing the system to raise outlet air pressure at an elevated flow.

A spreader for spreading particulate material has a plurality of outlets transversely spaced-apart in a direction perpendicular to a direction of travel of the spreader. The outlets are configured to receive the material from a metering device and to dispense an amount of the material to mid-rows between crop rows on a field such that the plurality of outlets dispenses half the amount of material to an outermost mid-row compared to the amount of material dispensed to the other mid-rows. Also, the metering device may have two metering elements, which may be controlled to meter the material to only one side of the spreader. A centrally located outlet situated on a driving line of the spreader may receive material from both metering elements so that the centrally located nozzle can dispense the material whenever one or the other side of the spreader is not dispensing material.

A spreader for spreading particulate material has a plurality of outlets transversely spaced-apart in a direction perpendicular to a direction of travel of the spreader. The outlets are configured to receive the material from a metering device and to dispense an amount of the material to mid-rows between crop rows on a field such that the plurality of outlets dispenses half the amount of material to an outermost mid-row compared to the amount of material dispensed to the other mid-rows. Also, the metering device may have two metering elements, which may be controlled to meter the material to only one side of the spreader. A centrally located outlet situated on a driving line of the spreader may receive material from both metering elements so that the centrally located nozzle can dispense the material whenever one or the other side of the spreader is not dispensing material.

A method of inhibiting dry material clogs in a work vehicle having an air boom assembly includes moving the work vehicle at a vehicle speed along a ground surface, moving dry material from a holding tank onto a conveyor, and operating the conveyor at a conveyor speed, the conveyor speed being at least partially dependent upon the vehicle speed, moving material from the conveyor into a boom assembly with a blower, dispensing the dry material onto the ground surface through a plurality of nozzles of the boom assembly, and comparing the conveyor speed to a maximum acceptable conveyor speed. If the conveyor speed is greater than the maximum acceptable conveyor speed, the method includes performing at least one of the following: alerting the operator that the conveyor speed is greater than the maximum acceptable speed, and reducing the vehicle speed to thereby reduce the speed of the conveyor.

An agricultural product delivery applicator for delivering particulate product to a field. The applicator includes a supply compartment to hold the product, a pneumatic conveying system, a metering system, and a controller. The pneumatic conveying system includes first delivery line operably connected to an airflow source and to the supply compartment, and a second delivery line operably connected to the airflow source and to the supply compartment. The metering system includes a first metering device associated with the first delivery line and a second metering device associate with the second delivery line. The controller controls the air flow source, the first metering device to meter product to result in a first mixed flow of airflow and product for the first delivery line, and the second metering device to meter product with the airflow to result in a second mixed flow of airflow and product for the second delivery line.

An agricultural spreader has a hopper containing a granular product and a boom arm supporting a plurality of product delivery conduits supplying a plurality of row banding assemblies configured to disperse the product. The spreader has a pneumatic supply to propel the granular product through the product delivery conduits to the row banding assemblies. Each of the plurality of row banding assemblies includes a cyclone separator having an inlet connected to the product delivery conduit, a product outlet at a bottom end of the cyclone separator, an air outlet at a top end of the cyclone separator. The row banding assembly has a product placement tube connected to the product outlet, and an air exhaust tube connected to the air outlet. The air exhaust tube extends downward and surrounds the product placement tube.

This document concerns a device for airflow-assisted feeding of granular material in an agricultural implement, comprising an air inlet (1611, 1612), a material inlet (167), and an outlet (162) for material-laden airflow, a roof (163), the horizontal extension of which defines a material pickup zone (160), wherein the material inlet (167), air inlet (1611, 1612) and outlet (162) are connected to the material pickup zone (160), wherein the device furthermore comprises an air inlet valve (164) containing a valve seat (1641) and a valve body (1642). The valve body is rotatable about a geometric axis which is substantially perpendicular to a flow direction at the air inlet. The document also concerns a method for airflow-assisted feeding of material in an agricultural implement, a meter housing, and an agricultural implement comprising such a meter housing. It also concerns a frame for a material pickup module and a method for forming a meter housing.

An agricultural spreader has a hopper containing a granular product and a boom arm supporting a plurality of product delivery conduits supplying a plurality of row banding assemblies configured to disperse the product. The spreader has a pneumatic supply to propel the granular product through the product delivery conduits to the row banding assemblies. Each of the plurality of row banding assemblies includes a cyclone separator having an inlet connected to the product delivery conduit, a product outlet at a bottom end of the cyclone separator, an air outlet at a top end of the cyclone separator. The row banding assembly has a product placement tube connected to the product outlet, and an air exhaust tube connected to the air outlet. The air exhaust tube extends downward and surrounds the product placement tube.