A loading car for picking up, transporting onward and discharging bulk material has a car frame supported on on-track undercarriages and a distributing conveyor belt extending in a longitudinal direction of the car, for transporting the bulk material to discharge devices. The distributing conveyor belt is constructed to be displaceable in the longitudinal direction of the car for selectively charging the discharge devices. A first discharge device is constructed as a chute disposed above a track. A second as well as a third discharge device are constructed in each case as a conveyor belt pivotable about a vertical axis and each has a receiving end positioned in the region of the axes.

A loading car for picking up, transporting onward and discharging bulk material has a car frame supported on on-track undercarriages and a distributing conveyor belt extending in a longitudinal direction of the car, for transporting the bulk material to discharge devices. The distributing conveyor belt is constructed to be displaceable in the longitudinal direction of the car for selectively charging the discharge devices. A first discharge device is constructed as a chute disposed above a track. A second as well as a third discharge device are constructed in each case as a conveyor belt pivotable about a vertical axis and each has a receiving end positioned in the region of the axes.

In one aspect, an apparatus includes an elongated housing, first and second spaced-apart material inlet openings in a top wall of the housing, an outlet opening in a bottom wall of the housing, a first conveyor configured to move material received from the first material inlet toward the outlet opening, and a second conveyor configured to move material received from the first material inlet toward the outlet opening. The outlet opening is longitudinally disposed between the first and second spaced-apart material inlet openings. In another aspect, an apparatus includes a housing having first and second opposite ends and an outlet opening in a bottom wall of the housing. The first end is configured to receive a portion of a first conveyor and the second end is configured to receive a portion of a second conveyor. The first and second conveyors are configured to move material toward the outlet opening.

In one aspect, an apparatus includes an elongated housing, first and second spaced-apart material inlet openings in a top wall of the housing, an outlet opening in a bottom wall of the housing, a first conveyor configured to move material received from the first material inlet toward the outlet opening, and a second conveyor configured to move material received from the first material inlet toward the outlet opening. The outlet opening is longitudinally disposed between the first and second spaced-apart material inlet openings. In another aspect, an apparatus includes a housing having first and second opposite ends and an outlet opening in a bottom wall of the housing. The first end is configured to receive a portion of a first conveyor and the second end is configured to receive a portion of a second conveyor. The first and second conveyors are configured to move material toward the outlet opening.

A fluid-based radial distribution system includes an internal passageway and a plurality of openings radially spaced around the internal passageway. A plurality of gate members are associated with at least some of the plurality of openings, with the gate members are configured to move between an open position that allows product to move through the opening associated with that gate member and a closed position that restricts product from moving through the opening associated with that gate member.

A slip conveyor (10) including a plurality of conveyor trays (11) that convey product (34) in the downstream direction (12). Each tray (11) is of a tubular construction and has at least one aperture (20) through which product is delivered upon angular movement of the tray (11) about its longitudinal axis.

A conveyor run for moving goods to two or more destinations can be used to move a first fraction of the goods to a first destination and a second fraction of the goods to another destination. A drive motor coupled to a conveyor portion is reversible to enable the conveyor run to move goods in either direction along the conveyor run. An adjustable gate includes a rotatable sleeve with an opening that is positionable relative to conveyor portions between which the adjustable gate is connected. The rotatable sleeve rotates relative to the adjacent conveyor portions to position the opening to set the fraction of the goods that pass from an upstream conveyor portion to the downstream conveyor portion and to set the fraction of the goods that drop from the conveyor run through the opening.

A piler conveyor system for screening debris such as tare dirt from materials such as beets as the materials are conveyed across a piler. The piler conveyor system generally includes a frame supporting an upper conveyor and a pair of lower conveyors. The upper conveyor is adapted to receive materials such as beets. As the materials are conveyed by the upper conveyor, debris such as tare dirt or the like will fall through screening openings in the upper conveyor and onto the lower conveyor. The lower conveyor may then dispense the debris through a debris opening. The materials will drop off the end of the upper conveyor and fall onto the second lower conveyor, which will convey the screened materials to be dispensed.

In some embodiments, systems and methods are provided to control a product distribution conveyor system comprising: a conveyor control circuit; a product feed conveyor system; conveyor lane systems cooperated with the conveyor lane system; routing systems that cause movement of respective products from the feed conveyor system to one of the conveyor lane systems; and a plurality of sensor systems; wherein the conveyor control circuit is further configured to enhance throughput of the at least one feed conveyor system by associating each of the plurality of conveyor lane systems one of a plurality of retail stores such that a total volume of the products is substantially equally distributed over the plurality of conveyor lane systems comprising organizationally subdividing conveyor lane systems to define a plurality of lane subdivisions, and associating each retail store with a respective one of the plurality of lane subdivisions.

In some embodiments, systems and methods are provided to control a product distribution conveyor system comprising: a conveyor control circuit; a product feed conveyor system; conveyor lane systems cooperated with the conveyor lane system; routing systems that cause movement of respective products from the feed conveyor system to one of the conveyor lane systems; and a plurality of sensor systems; wherein the conveyor control circuit is further configured to enhance throughput of the at least one feed conveyor system by associating each of the plurality of conveyor lane systems one of a plurality of retail stores such that a total volume of the products is substantially equally distributed over the plurality of conveyor lane systems comprising organizationally subdividing conveyor lane systems to define a plurality of lane subdivisions, and associating each retail store with a respective one of the plurality of lane subdivisions.