This application provides a method for controlling a planar drive system, where the planar drive system comprises at least a controller, a stator module having a stator surface, and a rotor that may is positionable and movable on the stator surface. The method comprises positioning an object on a rotor in a first arrangement state of the object in a positioning step, carrying out an accelerating movement of a defined movement pattern of the rotor; and, by the accelerating movement, arranging the object positioned on the rotor in the first arrangement state in a second arrangement state relative to the rotor, in an arranging step. The application further provides a planar drive system.

A storage and order-picking system including a warehouse, wherein the warehouse includes a storage module formed by two racks including one rack aisle therebetween; separation stations associated with the storage module, each separation station having associated therewith a respective pick up location; separate conveying systems for feeding storage containers from the warehouse to the pick up locations of the separation stations, respectively; and a robot arranged between the separate conveyors such that the robot can pick up during one movement cycle from each of the separate conveying systems respectively one article and can deliver between the corresponding article pick up locations one article which has already been picked up to a deposition location.

An extraction station for the extraction from a transport system for an at least partially complete cartridge; the extraction station has: a collecting device; at least one holding head, which is designed to grab at least one end of the cartridge; and a moving device which supports the holding head and moves the holding head between a pick-up position, in which the holding head is in the area of the transport system and grabs the cartridge, and a release position, in which the holding head releases the cartridge.

The present invention provides devices, systems and methods for reliably inserting packing trays into packing crates. Thus, the present invention solves the problems of conventional packaging lines by providing a positioning device for depositing packing trays into packing crates. Particularly, the present invention can be incorporated into existing fruit and vegetable packing lines.

Provided are a parcel sorting system and method. The parcel sorting system is arranged in layers and includes: a parcel sorting layer located on an upper layer of the parcel sorting system, a moveable container carrying layer located on a lower layer of the parcel sorting system, a parcel delivery robot and a control device. The parcel sorting layer includes a modular entity platform that is a physical platform formed by splicing multiple splicable units and used for sorting parcels. The modular entity platform includes multiple delivery lattices arranged in an array and a traveling area constituted by gaps between the lattices and used for the parcel delivery robot traveling. One delivery lattices corresponds to one or more delivery path directions. The moveable container carrying layer includes multiple moveable containers, and a part of the containers are located below the lattices and receive the parcel from the parcel sorting layer.

Coordinated conveyors in an automated system. In an embodiment, the system comprises transport conveyor(s) and storage conveyors, wherein each storage conveyor comprises a plurality of segments configured to hold at least one item, and a portion that is aligned with a portion of a transport conveyor, such that items are moveable from the storage conveyor to the transport conveyor. Software module(s), executed by a processor, receive an instruction to collect item(s) at a single destination location, and, for each of the item(s), identify a segment on a storage conveyor on which the item is held, control that storage conveyor to align the segment with the transport conveyor, move the item from the segment onto the transport conveyor, control the transport conveyor to align the item with the destination location, and move the item from the transport conveyor to the destination location.

A loading device for loading a container with packages, comprising a transport channel for transport of the packages in the direction of the container. The transport channel has an upper inlet to supply packages into the transport channel and a lower outlet to supply packages into the container. At least one upper, and at least one lower, finger position each with at least one finger element are provided in the transport channel. The at least one of the finger elements of the upper and lower finger positions in each case have at least two flexible flank elements extending from one end to the opposing end of the finger element. In each case, the at least two flexible flank elements are flexibly connected via a plurality of webs. The finger elements in each case may be adjusted from at least one curved position into at least one extended position and back.

A method of sorting cargo using an automated guided vehicle is provided. The method of sorting cargo includes: recognizing the pieces of cargo; assigning a location of a carrier pocket into which the recognized cargo is loaded among the plurality of carrier pockets in the automated guided vehicle and a location of the destination chute from which the carrier pocket discharges the cargo; loading the cargo into the location of the assigned carrier pocket; for consecutively supplied pieces of cargo thereafter, repeatedly performing identifier information recognition of the cargo, location assignment, and cargo loading sequentially; sequentially discharging the pieces of cargo to the locations of the assigned destination chutes by allowing the automated guided vehicle into which all pieces of cargo are loaded to start and move along a movement path; and returning the automated guided vehicle after the automated guided vehicle has finished discharging.

Coordinated conveyors in an automated system. In an embodiment, the system comprises transport conveyor(s) and storage conveyors, wherein each storage conveyor comprises a plurality of segments configured to hold at least one item, and a portion that is aligned with a portion of a transport conveyor, such that items are moveable from the storage conveyor to the transport conveyor. Software module(s), executed by a processor, receive an instruction to collect item(s) at a single destination location, and, for each of the item(s), identify a segment on a storage conveyor on which the item is held, control that storage conveyor to align the segment with the transport conveyor, move the item from the segment onto the transport conveyor, control the transport conveyor to align the item with the destination location, and move the item from the transport conveyor to the destination location.

A robotic kitchen system for preparing food items in combination with at least one kitchen appliance such as a fryer comprises an automated bin assembly, a robotic arm, and a basket held by the robotic arm. The automated bin assembly comprises at least one automated bin for holding the food items. A camera or sensor array collects image data of the food items in the bin(s). A central processor is operable to compute and provide directions to the first robotic arm and automated bin assembly based on the image data and stored data to (a) move the robotic arm to the bin; (b) actuate the bin to drop the food items from the bin into the basket; (c) and to move the basket into the fryer all without human interaction. Related methods are also described.