In order to be able to shingle articles individual slices or partial portions of slices shingled in a longitudinal direction in a transverse direction relative to the running direction of conveyor units on which these articles are transported, the two conveyor units, on each of which one of the two articles is fully supported, are not brought to overlap in order to achieve the transverse shingling, but one of the articles is transported on its conveyor unit with a lateral overhang to the other conveyor unit, and the other article placed there on the edge side with such a height difference that the two articles can finally overlap and be placed on top of each other. However, the two conveyor units only have to be guided closely next to each other for this purpose without overlapping themselves. This simplifies the design of the overlapping unit and reduces its overall height.

An apparatus is disclosed including a robotic system having a robotic picking workstation, tote storage and retrieval and transit decks. The system has bots that autonomously transport totes from the storage and retrieval system to the robotic picking workstation via the transit decks. The robotic picking workstation may have a picking lane where a robotic handler transports eaches from totes on the bots to order totes in the workstation. The robotic picking workstation further has a queuing buffer where bots are cued for the picking lane.

In order to be able to shingle articles individual slices or partial portions of slices shingled in a longitudinal direction in a transverse direction relative to the running direction of conveyor units on which these articles are transported, the two conveyor units, on each of which one of the two articles is fully supported, are not brought to overlap in order to achieve the transverse shingling, but one of the articles is transported on its conveyor unit with a lateral overhang to the other conveyor unit, and the other article placed there on the edge side with such a height difference that the two articles can finally overlap and be placed on top of each other. However, the two conveyor units only have to be guided closely next to each other for this purpose without overlapping themselves. This simplifies the design of the overlapping unit and reduces its overall height.

A method and a device for filling containers with products, in which the products are successively conveyed horizontally to a filling installation in which the products, while being combined to form individual product groups, are grouped, and an offered-up container, which is conveyed horizontally to the filling installation, is filled in a single track with one or a plurality of product groups, wherein the filled containers subsequently are in particular horizontally transported away. The method includes conveying the products in multiple tracks to the filling installation, grouping the products to form product groups, feeding the product groups in multiple tracks to a common revolving vertical conveyor of the filling installation, conveying the product groups to an ejection position from which the product groups are conveyed onward in a single track to an offered-up container, and filling the offered-up container with at least one of the product groups.

A method for packaging and processing products in a continuously operating production line, including filling individual packaging containers with products in a filling station; dispensing the filled containers to an individualizing device in multiple tracks by a dispensing station, the individualizing device transferring the packaging containers onto a single track of a conveyor; transporting the containers by the conveyor one after another to at least one additional processing station, and operating the individualizing device in one of the following three operating modes: a) a normal mode in which the packaging containers are transferred from the dispensing station onto the single track of the conveyor, b) an on-stock mode in which the packaging containers are transferred from the dispensing station to a temporary store, and c) a low-load mode in which the packaging containers are transferred from the temporary store onto the single track of the conveyor.

While deterioration in processing efficiency caused by printing devices with slow printing speed is suppressed, facilities necessary to manufacture can bodies are able to be shared. A can body manufacturing system includes: a can body conveyance route, by which can bodies are conveyed, provided to branch halfway and thereafter merge again, the can body conveyance route at least including a first branching conveyance route and a second branching conveyance route; a first printing device performing printing on can bodies conveyed by the first branching conveyance route; and a second printing device performing printing on can bodies conveyed by the second branching conveyance route, the number of can bodies on which printing is performed by the second printing device per unit time being different from the number of can bodies on which printing is performed by the first printing device per unit time.

A configurable assembly is provided for conveying products along a longitudinal direction; the assembly has a supporting structure and at least two conveyor units; at least one of said units is provided with at least two tracks which receive, in use, respective products and diverge from or converge towards each other along a lateral direction, proceeding longitudinally from an inlet to an outlet; the units are movable with respect to the supporting structure by the action of an actuator device between a working area and at least one storage area, so as to selectively arrange one of said units in the working area.

A system for unloading items from a container includes: a movable chassis configured for deployment into an open end of the container, to a selectable depth within the container; a conveyor supported by the movable chassis, the conveyor configured to extend from an input end positioned within the container according to the selectable depth to a output end external to the container; and a bulk transfer assembly supported by the movable chassis at the selectable depth and an adjustable height, the bulk transfer assembly including: (i) a feeder configured to engage with the items and displace a portion of the items towards the conveyor, and (ii) a collector configured to receive and direct the displaced items to the input end of the conveyor for transport to the output end of the conveyor.

Method for merging, within a logistical warehouse, k incoming flows of payloads, transported respectively by k FIFO conveyor lanes α.sub.i with i∈{1, . . . , k} into one outgoing flow of payloads transported by a collector conveyor. The k lanes are distributed along the collector and numbered a.sub.1 to a.sub.k. Δ.sub.i is a time-related distance between the lanes a.sub.i and a.sub.k. A control system obtains a set L having n payloads distributed on the k lanes and having to be injected into the collector to form an exit sequence; computes a date t.sub.0 at which the first payload σ.sub.1 of the exit sequence σ passes in front of the lane a.sub.k; and computes n dates of injection of the n payloads into the collector, as a function of t.sub.0; and commands the collector and the k alleys, for an injection of the n payloads into the collector in compliance with the injection dates.

An article transport facility includes a main conveyor device and induction conveyors. The main conveyor device includes belt conveyors and carriage bodies. The induction conveyor includes a first conveyor device for loading article onto a second transport path and a second conveyor device that is provided for an article-loading position on a transport path and loads the article onto the belt conveyor. The first conveyor device adjusts the timing of loading the article to the article-loading position, by controlling the timing of loading the article onto the second conveyor device. The second conveyor device adjusts, on the belt conveyors, loading position of the article loaded onto the belt conveyor by controlling the timing of loading the article onto the belt conveyor.