Embodiments of product handling systems facilitate transfer of individual product items from incoming bulk form into dedicated trays for inspection, sorting, selection, and packaging. Inspection may comprise interrogation of product items within a tray by electromagnetic (e.g., optical, hyperspectral) or other (e.g., physical, acoustic, gas sensing, etc.) techniques. Prior to packaging, product items disposed within the tray may be stored in a movable carousel responsible for controlling environmental factors such as temperature, humidity, illumination, ambient gases, product-to-product interactions, and/or others. Movement of product items from a carousel's transfer station to an outside staging position may be accomplished using robots and/or conveyor belts. Embodiments may allow rapid, low-cost consumer selection of specific individual product items based upon their accompanying metadata (e.g., source, identifier), in combination with the results of inspection (e.g., visual appearance). Embodiments may receive product items pre-packaged in tray format to expedite inspection, sorting, selection, and packaging.

A method and apparatus for feeding a plurality of tread bands in a process for building tyres for vehicle wheels. Each tread band initially includes, on a side thereof, a service fabric. The tread bands are initially arranged at different heights. The method includes positioning a first auxiliary conveyor belt of an auxiliary collection device including a plurality of juxtaposed auxiliary conveyor belts at a first height corresponding to the height of a first tread band, then, proceeding with the removal of the service fabric from the first tread band while the first tread band is transferred onto the first auxiliary conveyor belt. The method also includes positioning at least one second auxiliary conveyor belt of the auxiliary collection device at at least one second height corresponding to that of at least one second tread band.

A transport system includes a transport vehicle that transports an article, and a transport controller that controls the transport vehicle based on a host transport instruction received from a host controller. The transport controller includes a transport instructor which, in accordance with a host transport instruction, provides the transport vehicle with a transport instruction to transport an article at a pickup point to an unloading point, an overwriting processor which, in accordance with a host cancellation instruction to cancel the host transport instruction received from the host controller, overwrites the transport instruction provided to the transport vehicle with a move instruction which instructs to travel to a predetermined position and not to unload at the predetermined position, and provides the overwritten instruction to the transport vehicle, and a completion reporter which, upon the overwriting processor completing the overwriting, transmits to the host controller a cancellation completion report indicating the completion of the host cancellation instruction.

An article conveying equipment includes: a carrying apparatus (1), configured to carry one or more articles to be transported; a communication apparatus (3), configured to learn a height of a receiving end of a transferring apparatus matched with the article conveying equipment; and a height adjusting apparatus (2), when the article conveying equipment approaches the transferring apparatus, the height adjusting apparatus is configured to adjust the height of the carrying apparatus to the height matched with receiving end of the transferring apparatus.

Embodiments of product handling systems facilitate transfer of individual product items from incoming bulk form into dedicated trays for inspection, sorting, selection, and packaging. Inspection may comprise interrogation of product items within a tray by electromagnetic (e.g., optical, hyperspectral) or other (e.g., physical, acoustic, gas sensing, etc.) techniques. Prior to packaging, product items disposed within the tray may be stored in a moveable carousel responsible for controlling environmental factors such as temperature, humidity, illumination, ambient gases, product-to-product interactions, and/or others. Movement of product items from a carousel's transfer station to an outside staging position may be accomplished using robots and/or conveyor belts. Embodiments may allow rapid, low-cost consumer selection of specific individual product items based upon their accompanying metadata (e.g., source, identifier), in combination with the results of inspection (e.g., visual appearance). Embodiments may receive product items pre-packaged in tray format to expedite inspection, sorting, selection, and packaging.

An apparatus for transferring and accumulating objects. The apparatus includes at least a first group and a second group of accumulation channels parallel to each other. Each accumulation channel having an elongated extension along a direction parallel to an accumulation direction between a loading end and an unloading end of objects. The accumulation channels of the first group having the loading ends aligned with each other and the accumulation channels of the second group having the loading ends aligned with each other. The apparatus further includes at least a first and a second transfer device for transferring objects to said accumulation channels. The first and second transfer devices receive objects in an alternating manner and the loading ends of the accumulation channels of the first group are misaligned with respect to the loading ends of the accumulation channels of the second group.

Embodiments of product handling systems facilitate transfer of individual product items from incoming bulk form into dedicated trays for inspection, sorting, selection, and packaging. Inspection may comprise interrogation of product items within a tray by electromagnetic (e.g., optical, hyperspectral) or other (e.g., physical, acoustic, gas sensing, etc.) techniques. Prior to packaging, product items disposed within the tray may be stored in a moveable carousel responsible for controlling environmental factors such as temperature, humidity, illumination, ambient gases, product-to-product interactions, and/or others. Movement of product items from a carousel's transfer station to an outside staging position may be accomplished using robots and/or conveyor belts. Embodiments may allow rapid, low-cost consumer selection of specific individual product items based upon their accompanying metadata (e.g., source, identifier), in combination with the results of inspection (e.g., visual appearance). Embodiments may receive product items pre-packaged in tray format to expedite inspection, sorting, selection, and packaging.

Embodiments of product handling systems facilitate transfer of individual product items from incoming bulk form into dedicated trays for inspection, sorting, selection, and packaging. Inspection may comprise interrogation of product items within a tray by electromagnetic (e.g., optical, hyperspectral) or other (e.g., physical, acoustic, gas sensing, etc.) techniques. Prior to packaging, product items disposed within the tray may be stored in a moveable carousel responsible for controlling environmental factors such as temperature, humidity, illumination, ambient gases, product-to-product interactions, and/or others. Movement of product items from a carousel's transfer station to an outside staging position may be accomplished using robots and/or conveyor belts. Embodiments may allow rapid, low-cost consumer selection of specific individual product items based upon their accompanying metadata (e.g., source, identifier), in combination with the results of inspection (e.g., visual appearance). Embodiments may receive product items pre-packaged in tray format to expedite inspection, sorting, selection, and packaging.

Embodiments of product handling systems facilitate transfer of individual product items from incoming bulk form into dedicated trays for inspection, sorting, selection, and packaging. Inspection may comprise interrogation of product items within a tray by electromagnetic (e.g., optical, hyperspectral) or other (e.g., physical, acoustic, gas sensing, etc.) techniques. Prior to packaging, product items disposed within the tray may be stored in a moveable carousel responsible for controlling environmental factors such as temperature, humidity, illumination, ambient gases, product-to-product interactions, and/or others. Movement of product items from a carousel's transfer station to an outside staging position may be accomplished using robots and/or conveyor belts. Embodiments may allow rapid, low-cost consumer selection of specific individual product items based upon their accompanying metadata (e.g., source, identifier), in combination with the results of inspection (e.g., visual appearance). Embodiments may receive product items pre-packaged in tray format to expedite inspection, sorting, selection, and packaging.

A physical distribution system includes first and second conveyance paths, first and second sensors, and a processor. The first sensor detects a package passing along the first conveyance path. The second conveyance path merges with the first conveyance path at a junction. The second sensor detects a package passing along the second conveyance path. The processor counts a first number of packages present in a first convergence monitoring section determined in the first conveyance path upstream the junction, and counts a second number of packages present in a second convergence monitoring section determined in the second conveyance path upstream the junction, determines an order in which packages in the first and second convergence monitoring sections pass the junction, based on the first number and the second number, and control the first and second conveyance paths, such that the packages pass the junction in the determined order.