In an induction system for use with an object processing system, a distribution system is disclosed for providing dissimilar objects into one of a plurality of receiving units. The distribution system includes a conveyor section that travels over a vacuum roller, and the plurality of receiving units arranged generally below the vacuum roller such that an object with a mass will fall toward one of the plurality of receiving units based on both the object's mass and a vacuum force applied to the object through the conveyor section.

A device conveying a solid material into a radially-arranged stockpile. The device has a a trailer chassis, with at least one wheeled axle at a first end thereof and, at a second end thereof, means provided for attaching the trailer chassis to a tractor in a mobile condition and for fixed mounting in an operational condition. A stacking conveyor is mounted near the first end of the trailer chassis. A power unit for generating electrical and hydraulic power is positioned on the trailer chassis. A feed system is mounted to the trailer chassis and extends generally along the length thereof from the second end to the first end, to receive the solid material at the second end and transport the solid material to the stacking conveyor.

A device conveying a solid material into a radially-arranged stockpile. The device has a a trailer chassis, with at least one wheeled axle at a first end thereof and, at a second end thereof, means provided for attaching the trailer chassis to a tractor in a mobile condition and for fixed mounting in an operational condition. A stacking conveyor is mounted near the first end of the trailer chassis. A power unit for generating electrical and hydraulic power is positioned on the trailer chassis. A feed system is mounted to the trailer chassis and extends generally along the length thereof from the second end to the first end, to receive the solid material at the second end and transport the solid material to the stacking conveyor.

An induction system is disclosed for filtering the induction of objects to a plurality of object processing systems. The induction system includes an evaluation means for evaluating at least one characteristic of an object, and routing means for routing the object in one of a plurality of directions responsive to the evaluated characteristic, at least one of the plurality of directions leading to a selected one of the plurality of object processing systems.

An induction system is disclosed for filtering the induction of objects to a plurality of object processing systems. The induction system includes an evaluation means for evaluating at least one characteristic of an object, and routing means for routing the object in one of a plurality of directions responsive to the evaluated characteristic, at least one of the plurality of directions leading to a selected one of the plurality of object processing systems.

The present invention provides an array of refrigerated or heated food ingredient dispenser provided with an air-conditioning tunnel (ACT) which warps the surface of the DiU, wherein each ACT may have an input-opening and an output-opening. The ingredient dispenser comprising at least one dispensing unit capable of handling a single type of ingredient. Each of the dispensing unit may comprise a food ingredient box (FIB) and a conveying mechanism (CoM) with a conveying-screw unit (CoS). The FIB is provided with a cartridge and two covers, a top cover & bottom cover.

The present invention provides an array of refrigerated or heated food ingredient dispenser provided with an air-conditioning tunnel (ACT) which warps the surface of the DiU, wherein each ACT may have an input-opening and an output-opening. The ingredient dispenser comprising at least one dispensing unit capable of handling a single type of ingredient. Each of the dispensing unit may comprise a food ingredient box (FIB) and a conveying mechanism (CoM) with a conveying-screw unit (CoS). The FIB is provided with a cartridge and two covers, a top cover & bottom cover.

An intensive quenching (IQ) apparatus and method of quenching heated parts is provided. The IQ apparatus includes a chute for placing parts into a tank including liquid quenchant. The parts fall through the quenchant in the chute and are received by a conveyor belt. The parts are then transported on the conveyor through an inner channel of a conduit. An agitation rate of the quenchant in the inner channel is increased by an agitator.

An intensive quenching (IQ) apparatus and method of quenching heated parts is provided. The IQ apparatus includes a chute for placing parts into a tank including liquid quenchant. The parts fall through the quenchant in the chute and are received by a conveyor belt. The parts are then transported on the conveyor through an inner channel of a conduit. An agitation rate of the quenchant in the inner channel is increased by an agitator.

The present application discloses a method, system, and computer system for controlling a gating structure to mediate a flow of items an input source to a pick area. The system includes: (i) the gating structure, which is configured to use a plurality of gate elements to mediate a flow of items from the input source to the pick area, (ii) a sensor configured to provide a sensor output associated with the pick area, and (iii) a processor configured to provide a control input to the gating structure to adjust a configuration of one or more of the plurality of gating elements based at least in part on the sensor output. The sensor output comprises the sensor output comprises one or more of a flow rate, a number, and an orientation of objects in an area associated with picking of objects by one or more robots. The control input is determined based at least in part on one or more of the flow rate, the number, and the orientation of objects in the area associated with picking of objects by one or more robots.