A method and apparatus are provided for sorting or retrieving items to/from a plurality of destinations areas. The items are loaded onto one of a plurality of independently controlled delivery vehicles. The delivery vehicles follow a path to/from the destination areas that are positioned along the path. Along the path, the vehicles are scanned to determine if any item on the vehicles extends beyond a dimensional constraint. If it is determined that an item on a vehicle extends above the pre-determined threshold, the vehicle is controlled, such as by stopping or re-directing the vehicle. Once at the appropriate destination area, an item is transferred between the delivery vehicle and the destination area.

The present disclosure relates to a transit transfer path unit structure connecting a supply/collection cassette and a banknote transfer path of an upper main body in an ATM which includes the upper main body and a lower main body and has a structure in which the supply/collection cassette is mounted on one side of the lower main body. The transit transfer path unit is disposed on one side of the upper main body of the ATM, and detachably provided between the supply/collection cassette and the banknote transfer path provided in the upper main body for separation from a banknote transfer route. Thus, the upper main body may be easily pulled to the front or rear of the ATM without any interference with the transit transfer path unit to perform the maintenance work, enhancing the convenience of the maintenance of the ATM.

An automated storage and retrieval system including at least one autonomous transport vehicle, a transfer deck that defines a transport surface for the vehicle, at least one reciprocating lift, a first and second pickface interface station connected to the deck and spaced apart from each other, each station forming a pickface transfer interfacing between the vehicle on the deck and the lift at each station so that a pickface is transferred between the lift and the vehicle at each station, wherein the vehicle is configured to pick a first pickface at the first station, traverse the deck and buffer the first pickface, or at least a portion thereof, at the second station so that the second station has multiple pickfaces buffered on a common support in an order sequence of pickfaces according to a predetermined case out order sequence of mixed case pickfaces.

An automated storage and retrieval system including at least one autonomous transport vehicle, a transfer deck that defines a transport surface for the vehicle, at least one reciprocating lift, a first and second pickface interface station connected to the deck and spaced apart from each other, each station forming a pickface transfer interfacing between the vehicle on the deck and the lift at each station so that a pickface is transferred between the lift and the vehicle at each station, wherein the vehicle is configured to pick a first pickface at the first station, traverse the deck and buffer the first pickface, or at least a portion thereof, at the second station so that the second station has multiple pickfaces buffered on a common support in an order sequence of pickfaces according to a predetermined case out order sequence of mixed case pickfaces.

This disclosure provides a lifting device, comprising: guide rails extending through a plurality of floors in vertical direction, a lift car frame that is liftably connected to the guide rails, a tray that is detachably connected to the lift car frame, a tray circulation assembly that is mounted on each floor, the tray being detachably connectable to the tray circulation assembly and the tray circulation assembly being used for docking the tray connected thereto on the floor where the tray circulation assembly is mounted or for enabling the tray connected thereto to be connected to the lift car frame. This disclosure further provides a method of operating the lifting device.

A plate changer includes a plate storage that includes therein a plate setting base, and is provided with a transport window for retrieving, in one direction in a horizontal plane, a sample plate set on the plate setting base; and a transport mechanism that has at least a pair of holding portions holding both side surfaces of a sample plate, and holds and transports the sample plate by the holding portions. The plate storage has a plate guide that supports a side surface of the sample plate set on the plate setting base and guides the sample plate to a predetermined setting position. When the holding portion is inserted into the plate storage from the transport window, the plate guide is configured to move to a position not interfering with the action of the holding portion.

A stocker includes a wall that separates an inside and an outside of the stocker, a storage area on an inner side of the wall and in which articles are stored, a fan on the wall to draw in outside air and introduce the outside air into the inside of the stocker, a control panel storage provided on the inner side of the wall and laterally to the storage area to store a control panel, a first thermal insulation layer on a wall side of the control panel storage, and a second thermal insulation layer on a storage area side of the control panel storage.

The present invention relates to an automated storage system, comprising a three-dimensional storage structure and plurality of remotely controlled robot vehicles. The three-dimensional storage structures comprises a plurality of pillars which are positioned with internal distances and in a rectangular arrangement, wherein the rectangular arrangement of the pillars define storage columns for the storage of a plurality of vertically-stacked storage bins, supporting rails arranged in a two-dimensional matrix on the pillars, said supporting rails arranged in a first direction and a second direction orthogonal to the first direction, the supporting rails defining openings for the storage columns. The remotely controlled robot vehicles comprises a vehicle body, a cavity arranged to receive a storage bin from a storage column, and a plurality of wheels attached to the vehicle body, arranged for traveling along the storage structure in the first and second directions, whereby the robot vehicle can move along the storage structure to position the cavity within the cross-sectional area of the storage column to receive the storage bin into the cavity for further transport along the storage structure.

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.

Among a plurality of transportation systems manufactured by different manufacturers, when a collision avoidance function activates with respect to a transportation device belonging to a first transportation system and a transportation device belonging to a second transportation system, the transportation time becomes longer than initially expected and the transportation efficiency decreases. A transportation system includes a first transportation device used for work involving transportation of goods, and a control device. The control device is provided with: a prediction unit for predicting, based on progress information representing the progress of work, the state of travel of a second transportation device used for the work; a determining unit for determining a travel plan for the first transportation device according to the state of travel of the second transportation device predicted by the prediction unit; and a control unit for controlling the first transportation device based on the travel plan.