Pressure differential proofing method for pneumatic conveying
First Claim
1. A material handling system, comprising:
- a plurality of material sources for providing material to be transferred;
a plurality of destination locations for receiving material from the material sources, wherein each destination location has a destination valve;
a fantail manifold selector plate having multiple openings;
a plurality of source conveying tubes each configured to connect a source to the selector plate;
a plurality of destination conveying tubes each configured to connect a destination location to the selector plate, wherein each of the multiple openings in the selector plate is configured to connect a source conveying tube and a destination conveying tube together;
a vacuum source operatively connected to each of the destination valves, and wherein the vacuum source is operatively connected to the plurality of source conveying tubes through the selector plate and the plurality of destination conveying tubes which are operatively connected to the destination valves on each of the destination locations;
a vacuum sensor disposed on each of the source conveying tubes configured to sense a change in pressure in the source conveying tube;
a programmable controller connected to each of the vacuum sensors and the vacuum source, wherein the programmable controller is configured to determine whether a source conveying tube associated with a selected source has a change in pressure sensed by the vacuum sensor compared to a selected destination location operatively connected to the vacuum source through the destination valve.
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Accused Products
Abstract
A material handling system. The system includes a plurality of material sources for providing material to be transferred and a plurality of destination locations for receiving material from the material sources, wherein each destination location has a destination valve. The system further includes a distribution mechanism, a plurality of source conveying tubes each connecting a source location to an opening on the distribution mechanism, and a plurality of destination conveying tubes each connecting an opening on the distribution mechanism to a destination location. The system further includes a vacuum source operatively connected to each of the destination valves, a vacuum sensor disposed on each of the source conveying tubes configured to sense a change in pressure in the source conveying tube, and a programmable controller connected to each of the vacuum sensors for determining if a correct connection has been made.
36 Citations
5 Claims
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1. A material handling system, comprising:
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a plurality of material sources for providing material to be transferred; a plurality of destination locations for receiving material from the material sources, wherein each destination location has a destination valve; a fantail manifold selector plate having multiple openings; a plurality of source conveying tubes each configured to connect a source to the selector plate; a plurality of destination conveying tubes each configured to connect a destination location to the selector plate, wherein each of the multiple openings in the selector plate is configured to connect a source conveying tube and a destination conveying tube together; a vacuum source operatively connected to each of the destination valves, and wherein the vacuum source is operatively connected to the plurality of source conveying tubes through the selector plate and the plurality of destination conveying tubes which are operatively connected to the destination valves on each of the destination locations; a vacuum sensor disposed on each of the source conveying tubes configured to sense a change in pressure in the source conveying tube; a programmable controller connected to each of the vacuum sensors and the vacuum source, wherein the programmable controller is configured to determine whether a source conveying tube associated with a selected source has a change in pressure sensed by the vacuum sensor compared to a selected destination location operatively connected to the vacuum source through the destination valve. - View Dependent Claims (2, 3, 4, 5)
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Specification