An automated storage and retrieval system includes a grid-based rail structure and a plurality of remotely operated vehicles arranged to operate on the grid-based rail structure. The automated storage and retrieval system includes a locking device arranged in a zone of the grid-based rail structure where a human and/or a robotic operator is permitted to interact with the remotely operated vehicle or contents of a storage container that the remotely operated vehicle is carrying. The locking device is arranged to lock the remotely operated vehicle against accidental displacement prior to interaction with the human and/or robotic operator, and wherein the locking device being arranged to unlock the remotely operated vehicle once interaction with the human and/or robotic operator is no longer required.

An order management system and method for automated logistics based on-demand box supplying is disclosed. The system pre-estimates a dimension required by all of the merchandise according to an order data, and selects a sheet material according to the size to form a finished container. The dimension of the unfolded sheet material before folding into the finished container is quite small. In terms of warehouse space utilization, a space required by a single finished and folded box is able to stack dozens of sheet materials, so that the warehousing efficiency is greatly improved. By integrating with a box folding module and a sealing module, fully automated logistics can be achieved with human intervention.

The present invention relates to a picking system for a job-related picking of goods in output bins, said picking system comprising a plurality of automated picking cells; comprising a first conveying system for the supply and/or discharge of the supply bins to and/or from the picking cells; and a second conveying system for the supply and/or discharge of the output bins to and/or from the picking cells, and a job management control for working through a plurality of picking jobs by controlling the first and second conveying systems and the plurality of picking cells, wherein at least one first picking cell has different goods handling properties than a second picking cell; and/or in that the job management control uses at least one first picking cell for working through different jobs and/or partial jobs than a second picking cell.

A storage, retrieval and processing system for processing objects includes: a plurality of bins including objects to be distributed, said plurality of bins being provided on an input conveyance system; a programmable motion device that includes an end effector for grasping and moving any of the objects, a perception system for providing perception data regarding a selected object that is presented to the perception system by the programmable motion device, and a routing conveyance system for receiving the selected object, and for moving the selected object in each of horizontal and vertical directions toward a selected destination container responsive to the perception data, the routing conveyance system including at least one object conveyor for urging the selected object toward the selected destination container in a third direction that is generally orthogonal to the horizontal and vertical directions.

The present disclosure relates to the technical field of automated warehousing, and relates to an inventory scheduling method and device and a non-transitory computer readable storage medium. The method of the present disclosure includes: obtaining an order to be picked, the order to be picked comprising a kind(s) of goods to be picked; determining order processing capability information of each of a plurality of picking workstations, according to at least one of position distribution information of a rack(s) storing at least one kind of the goods to be picked relative to each of the picking workstations, position distribution information of an available transfer machine(s) relative to each of the picking workstations, or load information of each of the picking workstation; and allocating the order to be picked to one of the picking workstations according to the order processing capability information of each of the picking workstations.

According to one embodiment, a handling system includes a first mobile robot, a first transfer robot, and a picking robot. The first mobile robot transports a first container out of a loading location of the first container. An article is stored in the first container. The first transfer robot transfers the first container from one of the first mobile robot or a first loading platform to the other of the first mobile robot or the first loading platform. The picking robot moves the article from the first container placed on the first loading platform to a second container placed on a second loading platform.

A distribution system for use in an induction system with an object processing system. The distribution system provides dissimilar objects into one of a plurality of receiving units. The distribution system includes an air intake system with an opening that is a fixed distance from a conveyor section, said air intake system aiding in moving an object on the conveyor section from the conveyor section to one of a plurality of adjacent transport units.

A method of fulfilling orders of goods of mixed packs and single packs of the same type. The goods are first stored as single packs of the same type and all of the goods allocated to an order are removed from a specified order storage rack aisle of a storage rack. Goods present in the storage racks required for the order that are not present within the specified order storage rack aisle are transferred into the order storage rack aisle from another storage rack aisle by a transverse transport process. A mixed pack for the order is generated by picking from packs of the same type, and a picking station is supplied with corresponding packs of the same type from the same storage racks, and the mixed pack is stored into the order storage rack aisle. The order, comprising single packs of the same type and mixed packs, is removed from the specified order storage rack aisle.

At a workstation for an order-picking system, with a remote control device are a source load carrier, and a target loading aid of a picking order, wherein the operator reloads at least one article unit according to an order. By actuating a confirmation control element, the operator indicates the completed reloading to a process controller of the workstation, which is configured to trigger a step following the current order. The confirmation control element has a base station and a mobile unit, between which a coupled wireless data communication connection is established. The mobile unit has an actuating element with an electric contactor, an electric energy storage, and a micro controller with a communication interface. Moreover, the data communication connection is only established during an actuation of the actuating element and the transmission of the data telegram.

A storage system includes a storage grid structure having a top rail grid upon which container handling vehicles work to store and retrieve storage containers in and from storage columns beneath the top rail grid. The storage system includes multiple transfer rails forming a horizontal transfer rail grid arranged at a level below the top rail grid. At least one transport vehicle operates on the transfer rail grid. The storage system includes a picking/stocking station for picking/stocking items between a storage container and a packaging box, and an unloading/loading assembly for unloading/loading packaging boxes containing such items. The transport vehicle is arranged to move upon the transfer rail grid in two perpendicular directions and comprises a carrier platform. The transfer rail grid is arranged to allow access for the transport vehicle to transport one or more packaging boxes at a time between the picking/stocking station and the unloading/loading assembly.