The particularity of this invention is that the material is injected in the divergent section of the venturi. The innovative material Conveying Venturi tube consist of two parts: the main tube and the feeding tube injecting the material by gravity, at the end of the cylindrical throat into the diffusion section. The venturi is composed of a contraction section, a throat section, and a diffusion section. This device will convey distances exceeding 120 meters. The present invention permits multiple distances conveying by easily install another Conveying Venturi System at the end of the first conveying tube for extra length of conveying.

The particularity of this invention is that the material is injected in the divergent section of the venturi. The innovative material Conveying Venturi tube consist of two parts: the main tube and the feeding tube injecting the material by gravity, at the end of the cylindrical throat into the diffusion section. The venturi is composed of a contraction section, a throat section, and a diffusion section. This device will convey distances exceeding 120 meters. The present invention permits multiple distances conveying by easily install another Conveying Venturi System at the end of the first conveying tube for extra length of conveying.

A measuring apparatus to measure adhesive performance of a Pressure Sensitive tape or label, which includes an electric or pneumatic actuator that can be triggered manually or remotely to perform a rolling ball tack evaluation at different or extreme conditions to those standardized in an adhesives laboratory, by using a small laboratory oven or small weathering chamber to simulate those extreme conditions. Also, installing this apparatus inside of those chambers and triggering it remotely through the mentioned actuator installed in the apparatus. The triggering systems includes; a power source to convert the standard laboratory high voltage source to low DC voltage to avoid the risk of an electric shock during the apparatus operation, a couple of metallic isolated cables for electric conduction of voltage to the actuator electric coil, an electric control box containing a momentary push button switch, the actuator containing an electric coil, a spring and a metallic mobile piston, and a mechanical fastening system to attach the actuator to the apparatus and the piston to the mechanical ball release system.

A measuring apparatus to measure adhesive performance of a Pressure Sensitive tape or label, which includes an electric or pneumatic actuator that can be triggered manually or remotely to perform a rolling ball tack evaluation at different or extreme conditions to those standardized in an adhesives laboratory, by using a small laboratory oven or small weathering chamber to simulate those extreme conditions. Also, installing this apparatus inside of those chambers and triggering it remotely through the mentioned actuator installed in the apparatus. The triggering systems includes; a power source to convert the standard laboratory high voltage source to low DC voltage to avoid the risk of an electric shock during the apparatus operation, a couple of metallic isolated cables for electric conduction of voltage to the actuator electric coil, an electric control box containing a momentary push button switch, the actuator containing an electric coil, a spring and a metallic mobile piston, and a mechanical fastening system to attach the actuator to the apparatus and the piston to the mechanical ball release 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.

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: a plurality of material sources for providing material to be transferred; a plurality of destination locations for receiving material from one or more of the plurality of material sources, wherein each destination location has a destination material inlet valve and a destination vacuum valve; a plurality of material conveying tubes; a plurality of vacuum pumps wherein each vacuum pump is operatively connected to one or more of the destination vacuum valves via one or more vacuum source tubes, and wherein each of the vacuum pumps 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 one or more of the plurality of material conveying 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 each of the vacuum pumps; 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 pumps and to each of the first, second and third sensors; wherein the programmable controller is configured to determine which material sources and destination locations are operatively connected, directly and indirectly, to each of the plurality of vacuum pumps using one or more of the first, second and third sensors.

A material conveying system, comprising: a plurality of material sources for providing material to be transferred; a plurality of destination locations for receiving material from one or more of the plurality of material sources, wherein each destination location has a destination material inlet valve and a destination vacuum valve; a plurality of material conveying tubes; a plurality of vacuum pumps wherein each vacuum pump is operatively connected to one or more of the destination vacuum valves via one or more vacuum source tubes, and wherein each of the vacuum pumps 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 one or more of the plurality of material conveying 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 each of the vacuum pumps; 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 pumps and to each of the first, second and third sensors; wherein the programmable controller is configured to determine which material sources and destination locations are operatively connected, directly and indirectly, to each of the plurality of vacuum pumps using one or more of the first, second and third sensors.

In one aspect, a system for removing blockages present within a delivery conduit of a seeder may include a plurality of delivery conduits, a plurality of flow blocking devices, and a plurality of blockage sensors. A controller may be configured to determine when a blockage is present within a first delivery conduit of the plurality of delivery conduits based on measurement signals received from the plurality of blockage sensors. The controller may be further configured to control the flow blocking devices to occlude the flow of air through the other delivery conduits of the plurality of delivery conduits such that an air pressure in the first delivery conduit is increased.

A feed system includes a wear pad and one or more hold downs. The wear pad is operable to provide a seal over at least one pressure port and at least one corresponding material port of a feed wheel. The wear pad is in fluid communication with a pneumatic supply operable to provide pneumatic gas to the pressure port to discharge material from the material port. The hold downs are operable to apply pressure against the wear pad such that the hold downs provide consistent, equal pressure to the wear pad against the feed wheel.