The disclosure provides systems and methods of use in the analysis, collection, resource allocation, and tracking associated with the sale of commodities. Embodiments include a vibratory-and-optical analysis and collection system that may be incorporated into a collection and storage machine. The analysis and collection system and/or the collection and storage machine may be associated with a consumption-based resource-allocation system that determines a payment price for a batch of commodity sold and then digitally allocates all transaction resources to the relevant stakeholders to the commodity sales transaction occurring at the analysis and collection system and/or the collection and storage machine. A commodity-to-consumer tracking system may be provided to track the batch of commodity sold from the point of harvest and sale through to the end consumer. Other embodiments are disclosed.

The disclosure provides systems and methods of use in the analysis, collection, resource allocation, and tracking associated with the sale of commodities. Embodiments include a vibratory-and-optical analysis and collection system that may be incorporated into a collection and storage machine. The analysis and collection system and/or the collection and storage machine may be associated with a consumption-based resource-allocation system that determines a payment price for a batch of commodity sold and then digitally allocates all transaction resources to the relevant stakeholders to the commodity sales transaction occurring at the analysis and collection system and/or the collection and storage machine. A commodity-to-consumer tracking system may be provided to track the batch of commodity sold from the point of harvest and sale through to the end consumer. Other embodiments are disclosed.

Methods and systems for sorting mixed metal scrap may first determine a sorting attribute of each article of metal scrap, and subsequently mark each article with a machine-readable or visually identifiable mark according to the sorting attribute. The articles of mixed metal scrap can be sorted along a high throughput conveyance using a series of sensors to scan the articles for the machine-readable marks, and rapidly sorting marked articles to appropriate sorting destinations based on detecting the machine-readable marks, and without requiring repeat identification by metal analyzers at the sorting step.

An inspection system is configured for use with a conveyer apparatus including carrier bars. Each carrier bar conveys pellet-shaped articles along a predetermined path. The inspection system includes at least one camera unit for sensing a predetermined characteristic of the pellet-shaped articles, a removal unit, and a controller. The removal unit, downstream from the at least one camera unit, removes selected pellet-shaped article(s) from the carrier bar(s) depending on whether the characteristic is sensed by the at least one camera unit. The controller is in communication with the at least one camera unit and the removal unit. The controller provides a signal to the removal unit in accordance with the sensed characteristic. The removal unit includes a rotatable ejection drum having extended vacuum nozzles along its length, equal to the number of articles conveyed in each carrier bar. Each vacuum nozzle selectively removes article(s) from the carrier bar(s) by suction.

An inspection and sorting machine and a related method of operation are provided. The inspection and sorting machine includes an inspection system that outputs a first signal corresponding to a fastener condition and a second signal corresponding to an inspection condition. Based on the inspection system output, a controller determines whether a fastener is classified as conforming or whether the fastener is classified as undetermined. Conforming fasteners are diverted into a conforming parts chute, and undetermined fasteners are diverted into a recirculated parts chute. The remaining fasteners are diverted into a reject chute. The undetermined fasteners are recirculated into the inspection and sorting machine for re-inspection.

An inspection system is configured for use with a conveyer apparatus including carrier bars. Each carrier bar conveys pellet-shaped articles along a predetermined path. The inspection system includes at least one camera unit for sensing a predetermined characteristic of the pellet-shaped articles, a removal unit, and a controller. The removal unit, downstream from the at least one camera unit, removes selected pellet-shaped article(s) from the carrier bar(s) depending on whether the characteristic is sensed by the at least one camera unit. The controller is in communication with the at least one camera unit and the removal unit. The controller provides a signal to the removal unit in accordance with the sensed characteristic. The removal unit includes a rotatable ejection drum having extended vacuum nozzles along its length, equal to the number of articles conveyed in each carrier bar. Each vacuum nozzle selectively removes article(s) from the carrier bar(s) by suction.

An inspection and sorting machine and a related method of operation are provided. The inspection and sorting machine includes an inspection system that outputs a first signal corresponding to a fastener condition and a second signal corresponding to an inspection condition. Based on the inspection system output, a controller determines whether a fastener is classified as conforming or whether the fastener is classified as undetermined. Conforming fasteners are diverted into a conforming parts chute, and undetermined fasteners are diverted into a recirculated parts chute. The remaining fasteners are diverted into a reject chute. The undetermined fasteners are recirculated into the inspection and sorting machine for re-inspection.

A method and a device for transporting and examining fast-moving objects to be treated, the objects comprising an outer surface and a top surface, (e.g. preforms, bottles, containers, lids, closures). The device comprises an examining unit with an inspection camera and a rejection unit, the bodies being rejected by expulsion using a contactless exertion of force.

A transport apparatus comprises an endless vacuum conveyor belt (310) having a plurality of perforations (311). The conveyor belt transports the particles along a transport direction (T) while they are aspirated to the perforations, thereby defining a moving transport surface (316). The transport surface extends in an essentially vertical plane (x-z), and the transport direction (T) is inclined upwardly relative to the horizontal direction (x). An inclined recycling tray (200) recycles particles that have fallen from the conveyor belt back to a feeding zone (150) purely by the action of gravity. A separating wall (600) separates a processing zone from a clean zone of the apparatus. The conveyor belt interacts with an elongate vacuum box, which is open along one side, the open side being covered by an elongate slider. The slider has suction openings with a cross section that varies along the transport direction (T).

An inspection and sorting machine and a related method of operation are provided. The inspection and sorting machine includes an inspection system that outputs a first signal corresponding to a fastener condition and a second signal corresponding to an inspection condition. Based on the inspection system output, a controller determines whether a fastener is classified as conforming or whether the fastener is classified as undetermined. Conforming fasteners are diverted into a conforming parts chute, and undetermined fasteners are diverted into a recirculated parts chute. The remaining fasteners are diverted into a reject chute. The undetermined fasteners are recirculated into the inspection and sorting machine for re-inspection.