A modular, scalable prescription dispensing and verification system includes a four-tiered central conveyor, dispensing control system with stored patient orders for creating dispensing and routing itineraries, carriers transporting itineraries and dispensed medications, induction station, pairs of processing stations divided by the conveyor, including automated and manual dispensing, verification, cold chain, and ambient packaging. Crossover conveyors transport carriers between dispensing station pair members for dispensing multiple products per station pair. One conveyor tier returns empty carriers to induction, another transports carriers from each dispensing station to verification, then to packaging, another transports carriers from induction to dispensing, then to additional dispensing, another conveys carriers from induction to dispensing stations. Carrier stops halt carriers at stations for removal for processing, replacement, and transport to the next station, or deposit on another tier and transport to a different station. The system may include two conveyor modules, one for refrigerated or ambient unit-of-use items, another for ambient countables.

A method for removing a piece good from a conveying means of a sorting system, wherein the sorting system includes the conveying means for conveying the piece good in a transport direction along a conveyor line, and wherein the conveying means is configured in such a way that a piece good arranged in a cell area on the conveying means is movable at right angles to the transport direction, includes the steps generating image data by means of a camera arranged on the conveyor line, wherein the image data represent at least the conveying means in one section of the conveyor line; by means of a controller, detecting a piece good not placed completely in the cell area on the conveying means on the basis of the image data generated; generating a blowoff command for a blowoff device arranged on the conveyor line, wherein the blowoff command is generated while considering a time of the generation of the image data, a conveying speed of the conveying means, and an arrangement of the camera, the conveyor line and the blowoff device relative to one another; and by means of the blowoff device, blowing off the piece good not placed completely in the cell area on the conveying means on the basis of the blowoff command.

Disclosed is a sorting and distribution system for sorting a number of different types of articles to a number of different clients depending on types and amounts of articles ordered by the different clients. The system comprises a plurality of article tracks and a plurality of order tracks arranged substantially transverse to the plurality of article tracks. Each order track is divided into m order track parts. The system further comprises a control unit controlling movement of the plurality of order tracks and movement of articles arranged on the plurality of article tracks to the plurality of order tracks such that an article positioned on a first article track is moved to a first order track part of a first order track when a first client to which the first order track part is associated has ordered a first article type.

Disclosed is a sorting and distribution system for sorting a number of different types of articles to a number of different clients depending on types and amounts of articles ordered by the different clients. The system comprises a plurality of article tracks and a plurality of order tracks arranged substantially transverse to the plurality of article tracks. Each order track is divided into m order track parts. The system further comprises a control unit controlling movement of the plurality of order tracks and movement of articles arranged on the plurality of article tracks to the plurality of order tracks such that an article positioned on a first article track is moved to a first order track part of a first order track when a first client to which the first order track part is associated has ordered a first article type.

Methods for preparing parcels for final sorting. The methods include dividing a mass flow of parcels into individual streams, separating and singulating the parcels in each stream, delivering each stream at a steady rate to a human operator that faces and culls the parcels, reading identifying indicia on the parcels, delivering the scanned parcels to a presorter in parallel lanes, and selectively discharging parcels from the lane closest to a side of the presorter off the side at multiple discharge points.

A sorting device for articles has at least two main conveyor lines, each conveying consecutively arranged articles, at least two feeder devices, which respectively feed the articles to one of the main conveyor lines, at least two recognition devices for detecting a sorting destination for each article, a plurality of sorting outlets arranged at the end of each main conveyor line, each assigned to sorting destinations, and to which the articles are transported. The sorting device further has at least two connecting conveyor lines, each branching off the main conveyor lines at branch points, by way of which the articles can be conveyed from one main conveyor line to another main conveyor line. The articles can be temporarily stored in a storage device, which feeds temporarily stored articles to one of the main conveyor lines in the direction of conveyance before at least one of the branch points.

Disclosed are a guiderail of an underslung robot, an underslung robot and an operating system thereof. The guiderail of an underslung robot includes: a main guiderail, suspended in the air by a support frame; and an auxiliary guiderail, communicating with the main guiderail and suspended in the air by a support frame. An intersection of the main guiderail and the auxiliary guiderail is provided with a gap through which a traveling underslung robot can pass. The guiderail further includes path indicators mounted on the main guiderail and the auxiliary guiderail. An underslung robot, comprising: wheels for bearing the underslung robot, wherein at least one of the wheels is a power wheel; and two booms, wherein the top of the booms is connected to the wheels, the bottom of the booms is connected to a frame of the underslung robot.

Shipment receiving systems and methods are disclosed. Invoice and store inventory management data is provided to an invoice processor for assigning expected destinations to lanes of a material transporter having and a plurality of outlet lanes that each have an indicator. A scanner determines a case identifier for each case which is routed accordingly. One or more notifications is provided to the indicator of one or more of the plurality of outlet lanes. Received shipment data enables reconciliation of upstream supply change management systems and downstream store inventory systems.

A system, method, and apparatus for the routing of totes and bottles within a pharmacy fulfillment center are disclosed. The system, method, and apparatus are configured to transmit routing tables from an application server to station controllers (e.g., PLCs) to enable each station to locally make a routing decision. Since the routing logic is locally stored at each station, the controllers do not need to transmit request messages to the server every time a tote or bottle is scanned. The system, method, and apparatus increase conveyor throughput by enabling each station to make a routing decision without having to wait for a response from a server.

A material conveyor apparatus is described comprising a conveyer device having a material receiving end suitable for receiving material such as overburden or mineral at a working site, a material discharge end distal of the material receiving end, and a material transport system disposed between the material receiving end and the discharge end so as in use to cause material received at the material receiving end to be conveyed to the material discharge end; an scanning system comprising a scanning device disposed to scan the material being conveyed to the material discharge end and obtain a response from the material from which the material may be classified at least into two classes comprising at least a waste class and a useable ore class based on the response; a chassis supporting the conveyor device and the scanning device; a transport carriage supporting the chassis and adapted to cause the chassis to be movable across a surface for deployment in use.