The present invention is directed to an applicator having an agricultural product mechanical and/or pneumatic conveying system which transfers particulate material from one or more source containers to application equipment on demand, and meters the material at the application equipment. The conveying system includes a static distributor interconnecting the supply lines of the conveying system with the distribution lines connected to the individual nozzles. The static distributor includes internal structures that effectively divert the incoming particulate material evenly across the interior of the static distributor such that the particulate material is evenly distributed into each of the distribution lines. The static distributor accomplishes this without the need for any moving parts or control systems/devices. In addition, damage done to the particulate material flowing through the distributor is not high, and the operation of the distributor creates a lower pressure drop across the distributor than prior art vertical distributors.

The present invention is directed to an applicator having an agricultural product mechanical and/or pneumatic conveying system which transfers particulate material from one or more source containers to application equipment on demand, and meters the material at the application equipment. The conveying system includes a static distributor interconnecting the supply lines of the conveying system with the distribution lines connected to the individual nozzles. The static distributor includes internal structures that effectively divert the incoming particulate material evenly across the interior of the static distributor such that the particulate material is evenly distributed into each of the distribution lines. The static distributor accomplishes this without the need for any moving parts or control systems/devices. In addition, damage done to the particulate material flowing through the distributor is not high, and the operation of the distributor creates a lower pressure drop across the distributor than prior art vertical distributors.

The present invention is directed to an applicator having an agricultural product conveying system which transfers particulate material from one or more source containers to application equipment on demand, and meters the material at the application equipment. The conveying system includes an inline metering system including a number of metering devices associated with each compartment of a particulate material tank on the applicator to meter the particulate material disposed within each compartment. The individual metering devices include gates to initially enable the particulate material from a compartment to enter the metering device, and a rotary metering shaft to meter the flow of the particulate material into the conduits while limiting the passage of pressurized air through the metering device and into the compartment. The individual metering devices also include individual motors to control the operation of the metering devices independently from one another that can allow with sectional control and turning compensation.

The present invention is directed to an applicator having an agricultural product conveying system which transfers particulate material from one or more source containers to application equipment on demand, and meters the material at the application equipment. The conveying system includes an inline metering system including a number of metering devices associated with each compartment of a particulate material tank on the applicator to meter the particulate material disposed within each compartment. The individual metering devices include gates to initially enable the particulate material from a compartment to enter the metering device, and a rotary metering shaft to meter the flow of the particulate material into the conduits while limiting the passage of pressurized air through the metering device and into the compartment. The individual metering devices also include individual motors to control the operation of the metering devices independently from one another that can allow with sectional control and turning compensation.

The present invention is directed to an applicator having an agricultural product mechanical and/or pneumatic conveying system which transfers particulate material from one or more source containers to application equipment on demand, and meters the material at the application equipment. The conveying system includes a static distributor interconnecting the supply lines of the conveying system with the distribution lines connected to the individual nozzles. The static distributor includes internal structures that effectively divert the incoming particulate material evenly across the interior of the static distributor such that the particulate material is evenly distributed into each of the distribution lines. The static distributor accomplishes this without the need for any moving parts or control systems/devices. In addition, damage done to the particulate material flowing through the distributor is not high, and the operation of the distributor creates a lower pressure drop across the distributor than prior art vertical distributors.

The present invention is directed to an applicator having an agricultural product mechanical and/or pneumatic conveying system which transfers particulate material from one or more source containers to application equipment on demand, and meters the material at the application equipment. The conveying system includes a static distributor interconnecting the supply lines of the conveying system with the distribution lines connected to the individual nozzles. The static distributor includes internal structures that effectively divert the incoming particulate material evenly across the interior of the static distributor such that the particulate material is evenly distributed into each of the distribution lines. The static distributor accomplishes this without the need for any moving parts or control systems/devices. In addition, damage done to the particulate material flowing through the distributor is not high, and the operation of the distributor creates a lower pressure drop across the distributor than prior art vertical distributors.

An air system for supplying product to the product tank of an agricultural implement has an air supply and at least one elongated conduit for delivering air entrained product to the tank. There is at least one outlet in the tank formed as a hollow elbow having a generally downwardly directed outlet, a generally upwardly directed outlet and a transverse inlet coupled to the conduit. The elbow includes an upper generally cylindrical region comprising a cyclone chamber for swirling the incoming air entrained product directing at least a portion of the air flow upwardly toward the upwardly directed outlet while allowing the product to fall in a generally helical pattern through a generally frusto-conical region, whereby material migrates downwardly and air upwardly releasing the material to fall in a gentle spiral and air to exit from the upper region of the tank.

An air system for supplying product to the product tank of an agricultural implement has an air supply and at least one elongated conduit for delivering air entrained product to the tank. There is at least one outlet in the tank formed as a hollow elbow having a generally downwardly directed outlet, a generally upwardly directed outlet and a transverse inlet coupled to the conduit. The elbow includes an upper generally cylindrical region comprising a cyclone chamber for swirling the incoming air entrained product directing at least a portion of the air flow upwardly toward the upwardly directed outlet while allowing the product to fall in a generally helical pattern through a generally frusto-conical region, whereby material migrates downwardly and air upwardly releasing the material to fall in a gentle spiral and air to exit from the upper region of the tank.

A funnel device for a counting system comprising a hollow cylindrical body portion, a tapered funnel portion, at least one inlet port and at least two outlet ports in the cylindrical body portion, and a plurality of vents in the funnel portion. The inlet port of the cylindrical body portion is adapted to receive a pressurized air supply, each outlet port operative to inject a respective high velocity air flow into a first passageway of the cylindrical body portion and to direct the respective air flow downwardly into a second passageway of the funnel portion. The directed air flows create a Venturi effect in the funnel device whereby a speed of flow of the products is increased and a rate of collision of the products is decreased as the products pass through the funnel device.

A funnel device for a counting system comprising a hollow cylindrical body portion, a tapered funnel portion, at least one inlet port and at least two outlet ports in the cylindrical body portion, and a plurality of vents in the funnel portion. The inlet port of the cylindrical body portion is adapted to receive a pressurized air supply, each outlet port operative to inject a respective high velocity air flow into a first passageway of the cylindrical body portion and to direct the respective air flow downwardly into a second passageway of the funnel portion. The directed air flows create a Venturi effect in the funnel device whereby a speed of flow of the products is increased and a rate of collision of the products is decreased as the products pass through the funnel device.