An agricultural product delivery applicator for delivering particulate product to a field. The applicator includes a supply compartment to hold the product and a pneumatic conveying system. The system includes an airflow source to provide an airflow, and a delivery line operably connected to the airflow source and to the supply compartment. The delivery line includes a supply line and a plurality of distribution lines. The system further includes a distributor coupling the supply line with the plurality of distribution lines, a plurality of distributor outlets providing outlet channels for the distributor, and a motor mount disposed away from the aperture along an axis and supported by one or more of the plurality of distributor outlets. A motor is disposed on a delivery lines side of the distributor and fastened to the motor mount.

An agricultural product delivery applicator for delivering particulate product to a field. The applicator includes a supply compartment to hold the product and a pneumatic conveying system. The system includes an airflow source to provide an airflow, and a delivery line operably connected to the airflow source and to the supply compartment. The delivery line includes a supply line and a plurality of distribution lines. The system further includes a distributor coupling the supply line with the plurality of distribution lines, a motor disposed on the distribution lines side of the distributor, a shaft assembly rotatable by the motor, and a bearing supporting the shaft assembly on the supply line side of the distributor. The applicator further includes a metering system 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.

An agricultural product delivery applicator for delivering particulate product to a field. The applicator includes a supply compartment to hold the product and a pneumatic conveying system. The system includes an airflow source to provide an airflow, and a delivery line operably connected to the airflow source and to the supply compartment. The delivery line includes a supply line and a plurality of distribution lines. The system further includes a distributor coupling the supply line with the plurality of distribution lines, a motor disposed on the distribution lines side of the distributor, a shaft assembly rotatable by the motor, and a bearing supporting the shaft assembly on the supply line side of the distributor. The applicator further includes a metering system 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.

An agricultural product delivery applicator for delivering particulate product to a field and including a pneumatic conveying system. The pneumatic conveying system includes an airflow source to provide an airflow, first and second delivery lines operably connected to the airflow source and to a supply compartment. Each delivery line includes a respective supply line and a respective plurality of distribution lines. The pneumatic conveying system further includes first and second distributors coupling the respective supply line with the respective plurality of distribution lines, a first mounting plate coupled to the first distributor and having a first identifier, a second mounting plate coupled to the second distributor and having a second identifier, a first motor having a relation with the first identifier, and a second motor having a relation to the second identifier.

An agricultural product delivery applicator for delivering particulate product to a field and including a pneumatic conveying system. The pneumatic conveying system includes an airflow source to provide an airflow, first and second delivery lines operably connected to the airflow source and to a supply compartment. Each delivery line includes a respective supply line and a respective plurality of distribution lines. The pneumatic conveying system further includes first and second distributors coupling the respective supply line with the respective plurality of distribution lines, a first mounting plate coupled to the first distributor and having a first identifier, a second mounting plate coupled to the second distributor and having a second identifier, a first motor having a relation with the first identifier, and a second motor having a relation to the second identifier.

A transfer system for soft gels is disclosed. It comprises: a blower, having a first air inlet and a first air outlet, and generating an airflow by inhaling air from the first air inlet and discharging air out of the first air outlet; a hopper, having a top opening to catch soft gels manufactured and dropped directly from a soft gel machine and a bottom opening to drop the soft gels; a transfer hose, having a first opening connected to the first air outlet and a second opening, wherein a side-cut opening is formed to connect to the bottom opening, the airflow from the first opening blows the soft gels dropped at the side-cut opening to move the soft gels toward the second opening; a cooling module, having a second air inlet and a second air outlet, cooling down the external air from the second air inlet and discharging the cooled air from the second air outlet; and a connecting hose, connecting the second air outlet and the first air inlet.

The present invention relates to a method and system of conveying harvested material within or out of a combine harvester using positive air pressure. The invention provides for a lighter, simpler process of material handling by using positive air pressure to pneumatically convey harvested material. As compared to conventional methods, the present invention incorporates lighter weight components and fewer moving parts. Systems of the present invention have more flexible layouts than conventional methods, which allows for the incorporation of different material types, easier cleaning, and potentially greater ease for process automation.

The present invention relates to a method and system of conveying harvested material within or out of a combine harvester using positive air pressure. The invention provides for a lighter, simpler process of material handling by using positive air pressure to pneumatically convey harvested material. As compared to conventional methods, the present invention incorporates lighter weight components and fewer moving parts. Systems of the present invention have more flexible layouts than conventional methods, which allows for the incorporation of different material types, easier cleaning, and potentially greater ease for process automation.

A material conveying system, comprising: one or more material sources for providing material to be transferred; one or more destination locations for receiving material from the one or more material sources, wherein each destination location has a destination material inlet valve and a destination vacuum valve; one or more material conveying tubes each configured to connect a source to one or more destination locations; a vacuum pump operatively connected to each of the destination vacuum valves via one or more vacuum source tubes, and wherein the vacuum pump is operatively connected to one or more of the material sources through the one or more vacuum source tubes and respective destination vacuum valves, the one or more destination locations and the one or more material conveyor tubes; a first sensor disposed on or near each destination vacuum valve; a second sensor disposed on or near each material inlet valve; a third sensor disposed on or near a vacuum outlet of the vacuum pump; a programmable system controller connected, via wires or wirelessly, to each component of the material conveying system including the one or more material sources, the one or more destination locations, the vacuum pump and to each of the first, second and third sensors; wherein the programmable controller is configured to determine first baseline readings from each of the first, second and/or third sensors while the system is operating but prior to any material being conveyed through the system.

A material conveying system, comprising: one or more material sources for providing material to be transferred; one or more destination locations for receiving material from the one or more material sources, wherein each destination location has a destination material inlet valve and a destination vacuum valve; one or more material conveying tubes each configured to connect a source to one or more destination locations; a vacuum pump operatively connected to each of the destination vacuum valves via one or more vacuum source tubes, and wherein the vacuum pump is operatively connected to one or more of the material sources through the one or more vacuum source tubes and respective destination vacuum valves, the one or more destination locations and the one or more material conveyor tubes; a first sensor disposed on or near each destination vacuum valve; a second sensor disposed on or near each material inlet valve; a third sensor disposed on or near a vacuum outlet of the vacuum pump; a programmable system controller connected, via wires or wirelessly, to each component of the material conveying system including the one or more material sources, the one or more destination locations, the vacuum pump and to each of the first, second and third sensors; wherein the programmable controller is configured to determine first baseline readings from each of the first, second and/or third sensors while the system is operating but prior to any material being conveyed through the system.