An exemplary diverter valve generally includes a shell, a pipe, and a handle. The shell includes a body extending in a longitudinal direction, a shell inlet port, a shell outlet port, and a positioning slot formed in the body. The pipe is seated in the body for sliding movement in the longitudinal direction, and includes a first passage and a second passage. The handle is connected to the pipe through the positioning slot, and is operable to move the pipe relative to the shell between a first position in which the shell inlet port is connected with the shell outlet port via the first passage, and a second position in which the second passage is connected with the shell inlet port and the shell outlet port is disconnected from the second passage.

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 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 product delivery applicator for delivering particulate product to a field. The applicator includes a bin having a first chamber to hold a first product, a second chamber to hold a second product, and a third chamber to hold a third product. The applicator further includes a pneumatic conveying system having an airflow source to provide an airflow, a delivery line operably connected to the airflow source and to the bin, and an outlet coupled to the delivery line. A metering system is operably connected between the supply compartment and the pneumatic conveying system. The metering system meters product with the airflow to result in a mixed flow of airflow and product. The metering system includes a novel hydraulic circuit for helping to meter the product.

An agricultural product delivery applicator for delivering particulate product to a field. The applicator includes a bin having a first chamber to hold a first product, a second chamber to hold a second product, and a third chamber to hold a third product. The applicator further includes a pneumatic conveying system having an airflow source to provide an airflow, a delivery line operably connected to the airflow source and to the bin, and an outlet coupled to the delivery line. A metering system is operably connected between the supply compartment and the pneumatic conveying system. The metering system meters product with the airflow to result in a mixed flow of airflow and product. The metering system includes a novel hydraulic circuit for helping to meter the product.

A bearing end cap for a modular meter assembly for distributing particulate material from an applicator can include recesses that accommodate locking tabs or fingers of modular meter unit housings and protrusions that lock a meter tube against rotation. In one aspect, a bearing end cap can be provided with a particular construction that cooperates with modular meter unit housings. The bearing end cap can have vertical and horizontal symmetry and cutouts near its corners. These cutouts can provide clearances to accommodate the locking tabs or fingers of modular meter unit housing end walls. Back walls of the bearing end caps can have protrusions that extend into end cutouts of a tube which defines an interior perimeter of the meter assembly.

A tubular sleeve for a modular meter system for distributing particulate material from an applicator can be inserted through a meter assembly that is built from modular meter unit housings to define the boundary wall of a meter cavity and provide internal structural support for the meter assembly. The tube can be provided with inlet and outlet openings that can be inserted through modular meter housings to form an overall meter assembly of a particular length and therefore volume/flow rate. In one aspect, a tube or tubular sleeve can be inserted into a stack of connected meter units while assembling a modular meter assembly. A circumferential sidewall of the tube can have pairs of oppositely positioned openings that provide inlets and outlets for a meter assembly.

An improved particulate metering system is provided. The system includes an air flow origin and a plurality of particulate accelerators. A single particulate source is in communication with the particulate accelerators. Each of a plurality of operated conveyances can be in operable communication with the single particulate source and one of the particulate accelerators. The system includes a confluence of the air flow and the particulate within the mixing area of each of the particulate accelerators. Each of a plurality of discharges can be associated with the particulate accelerators. The operated conveyances can operate at different rates. The system can include one or more gearboxes adapted to be inverted and controlled by a second drive system. The improved system and controls provide variable application rates of particulate across rows in a field.

An improved particulate metering system is provided. The system includes an air flow origin and a plurality of particulate accelerators. A single particulate source is in communication with the particulate accelerators. Each of a plurality of operated conveyances can be in operable communication with the single particulate source and one of the particulate accelerators. The system includes a confluence of the air flow and the particulate within the mixing area of each of the particulate accelerators. Each of a plurality of discharges can be associated with the particulate accelerators. The operated conveyances can operate at different rates. The system can include one or more gearboxes adapted to be inverted and controlled by a second drive system. The improved system and controls provide variable application rates of particulate across rows in a field.

A particulate metering system includes an air flow origin and a plurality of particulate accelerators. A single particulate source is in communication with the particulate accelerators. Each of a plurality of operated conveyances can be in operable communication with the single particulate source and one of the particulate accelerators. The system includes a confluence of the air flow and the particulate within the mixing area of each of the particulate accelerators. Each of a plurality of discharges can be associated with the particulate accelerators. The operated conveyances can operate at different rates. The system can include one or more gearboxes adapted to be inverted and controlled by a second drive system. The system and controls provide variable application rates of particulate across rows in a field.