A run selection mechanism is provided for selectively directing the flow of particulate material from an air cart. The mechanism includes a chute for receiving metered particulate material. The chute has an output. A first primary conduit has an output communicating with a first pneumatic primary run and a second primary conduit has an output communicating with a second pneumatic primary run. A selector selectively directs the metered particulate material to one of the output of the chute, the first pneumatic primary run and the second pneumatic primary run.

A water and seafood flow distributor (1) for routing flowable mass from a first location to a selected one of a second plurality of locations. The distributor (1) has a first pipe (5) and a second bent pipe (51), which are in communication with one another at a first end (8, 8) via a mass mover. The second bent pipe (5) is rotatable about the first end (81) to displace a second end (91) along a circle (121). A first conduit (10) is in communication with the first location, and a plurality of second conduits (10) are in communication with a respective one of the second plurality of locations, and the ends of the conduits are arranged along a circle (12) described by the second end (91) of the second bent pipe (51). The first and second conduits can be fluidly connected through the first and second pipes.

A water and seafood flow distributor (1) for routing flowable mass from a first location to a selected one of a second plurality of locations. The distributor (1) has a first pipe (5) and a second bent pipe (51), which are in communication with one another at a first end (8, 8) via a mass mover. The second bent pipe (5) is rotatable about the first end (81) to displace a second end (91) along a circle (121). A first conduit (10) is in communication with the first location, and a plurality of second conduits (10) are in communication with a respective one of the second plurality of locations, and the ends of the conduits are arranged along a circle (12) described by the second end (91) of the second bent pipe (51). The first and second conduits can be fluidly connected through the first and second pipes.

There is provided a method and system for monitoring a component moving in a delivery tube of a feed system in an automated production line. The method includes determining a velocity of the component that moves through the delivery tube and comparing the velocity to a predefined velocity range. The system includes at least one sensor configured to detect the component when the component passes through a first point and through a second point within the delivery tube; and a controller, wherein the at least one sensor is operatively coupled to the controller. The sensor may be configured to send a first signal when the component passes through the first point and a second signal when the component passes through the second point and the controller may be configured to determine velocity of the component by measuring a time interval between the first signal and the second signal.

There is provided a method and system for monitoring a component moving in a delivery tube of a feed system in an automated production line. The method includes determining a velocity of the component that moves through the delivery tube and comparing the velocity to a predefined velocity range. The system includes at least one sensor configured to detect the component when the component passes through a first point and through a second point within the delivery tube; and a controller, wherein the at least one sensor is operatively coupled to the controller. The sensor may be configured to send a first signal when the component passes through the first point and a second signal when the component passes through the second point and the controller may be configured to determine velocity of the component by measuring a time interval between the first signal and the second signal.