The present invention relates to the technical field of vertical automatic storage cabinets and provides a vertical automatic storage cabinet that comprises: a cabinet body; storage racks; a grasping structure and a conveying structure. In the present vertical automatic storage cabinet, at least two storage racks are provided to be spaced apart in the height direction of the cabinet body, and the grasping structure is located in the area between the two storage racks. When in use, the storage boxes on both the upper and lower sides can be taken off the mounting rack, then can be transferred to the conveying structure, and the storage boxes can be conveyed to the outside of the cabinet body.

An object processing system is disclosed that includes an object induction station at which objects are provided for processing. The object induction station includes at least one perception unit for providing perception data regarding an object, and an object processing system for receiving objects from the object induction station, and for urging an object into a first end of one of a plurality of chute location, each of which including a first end that is accessible by the carrier and a second end that is accessible by a mobile destination container of a plurality of mobile destination containers.

An object processing system is disclosed that includes an object induction station at which objects are provided for processing. The object induction station includes at least one perception unit for providing perception data regarding an object, and an object processing system for receiving objects from the object induction station, and for urging an object into a first end of one of a plurality of chute location, each of which including a first end that is accessible by the carrier and a second end that is accessible by a mobile destination container of a plurality of mobile destination containers.

Embodiments provide for systems and methods related to kiosks for personalizing a packaged article. The kiosks may also be used for storage, inventory management, retrieval, packaging, and/or personalization of packaged articles. The kiosks discussed herein differ from non-kiosk personalization systems, such as personalization systems installed on a factory or warehouse floor, in that the kiosks are self-contained personalization systems. In some embodiments, the kiosks are portable and can be moved between different sites or events. This portability allows the kiosks to personalize packaged articles for concerts, festivals, conventions, trade shows, and the like.

A system for dispensing an item from a dispensing apparatus is disclosed. The system is attached to a dispensing apparatus lower portion of the dispensing apparatus. The system includes a plate and a flap movably attached to the plate. The flap has a flap open position and a flap closed position. As stop extends outward from a flap first surface of a flap lower portion. A movable arm is in attachment with the flap and moves the flap between the flap open position and the flap closed position. A heating element at least proximate to the flap. An opening on the flap extends between the flap first surface and a flap second surface. A rod is substantially vertically arranged and in attachment with the plate and configured such that the rod passes through the opening when the flap moves between the flap open position and the flap closed position.

An automated storage system for storing large quantities of samples in trays includes a storage compartment, a tray shuttle compartment abutting the storage compartment on one side and a plurality of independent modules on the other side. The modules perform processing of samples that are retrieved from the storage compartment by a tray shuttle, including extraction of selected samples from retrieved source trays and transfer of the selected samples into a separate, destination tray that can be further processed or removed from the system for use. The independent operation of the modules permits handling and processing to be performed simultaneously by different modules while the tray shuttle accesses additional samples within the storage compartment. In one embodiment, a vertical carousel is used to vertically align a desired tray with the tray shuttle, while the tray shuttle operates within a horizontal plane.

A storage system comprises a rack defining a plurality of storage locations arranged one above the other, trays removably stored at the storage locations, and an elevator configured for moving a selected tray between its assigned storage location and a retrieval space below the storage locations. The storage locations are formed by pairs of horizontally opposite spaced apart rails with inwardly projecting sidewalls on which a tray can be rested. The elevator comprises a platform configured to carry and transfer the trays to and from the rack, and a drive system configured to move the platform that includes a servomotor. The platform carries optical sensors used cooperatively with the servomotor to detect a selected storage location of a tray to be stored or retrieved. Upon input of a selected storage location, the platform is displaced initially at a high speed until reaching a vertically offset position relative to the selected storage position detected using the servomotor, and therefrom at a low speed until sidewalls of the rails of the selected storage location are detected using the optical sensors.

A storage system comprises a rack defining a plurality of storage locations arranged one above the other, trays removably stored at the storage locations, and an elevator configured for moving a selected tray between its assigned storage location and a retrieval space below the storage locations. The storage locations are formed by pairs of horizontally opposite spaced apart rails with inwardly projecting sidewalls on which a tray can be rested. The elevator comprises a platform configured to carry and transfer the trays to and from the rack, and a drive system configured to move the platform that includes a servomotor. The platform carries optical sensors used cooperatively with the servomotor to detect a selected storage location of a tray to be stored or retrieved. Upon input of a selected storage location, the platform is displaced initially at a high speed until reaching a vertically offset position relative to the selected storage position detected using the servomotor, and therefrom at a low speed until sidewalls of the rails of the selected storage location are detected using the optical sensors.

An embodiment mobility for delivering articles includes a frame defining a body of the mobility, a chain member coupled to a first side of the frame, wherein the chain member has a closed curve shape along an up-down direction, is movable relative to the frame, and includes a standby section provided at a fixed position with respect to the frame irrespective of a movement of the chain member, wherein the standby section includes a plurality of bent areas, a tray member having a first side coupled to the chain member, the tray member being movable in connection with a movement of the chain member, a wheel coupled to a lower portion of the frame, and a driver configured to provide a driving force to the chain member.

An embodiment mobility for delivering articles includes a frame defining a body of the mobility, a chain member coupled to a first side of the frame, wherein the chain member has a closed curve shape along an up-down direction, is movable relative to the frame, and includes a standby section provided at a fixed position with respect to the frame irrespective of a movement of the chain member, wherein the standby section includes a plurality of bent areas, a tray member having a first side coupled to the chain member, the tray member being movable in connection with a movement of the chain member, a wheel coupled to a lower portion of the frame, and a driver configured to provide a driving force to the chain member.