A bag handling system for a mass transit environment is disclosed. The bag handling system includes a first set of autonomous automated guided vehicles and a second set of autonomous automated guided vehicles. The first and second sets of autonomous automated guided vehicles are configured to transport bags through one or more bag processing areas.

An object processing system is disclosed that includes a plurality of track sections, and a plurality of remotely actuatable carriers for controlled movement along at least portions of the plurality of track sections, wherein each of the remotely controllable carriers is adapted to support and transport an object processing bin.

A device for conveying products within an industrial line, comprising a conveyor transporting a stream of products along at least one line. The device comprises at least one main zone delimited by primary beacons and covering a segment of the stream; and above the conveyor, at least one member for detecting the primary beacons and for counting the number of products at least inside the main zone. Also a method for conveying products, in which a stream of products is transported along at least one line and, by means of primary beacons at least one main zone is delimited, covering a segment of the stream; the primary beacons are detected and the number of products in the main zone is counted.

A system includes an article supply location, wherein the article supply location includes a plurality of articles to be sorted, first and second transport vehicles, each having a first position in which an article is stowed about the vehicle and a second position in which the article is deposited into a proximal container. And a control system. The control system is configured to receive an order for a plurality of disparate articles, determine one destination container of a plurality of destination containers to direct the transport vehicle to deposit a selected article, direct the first transport vehicle to transport a selected article to the destination container and deposit the article by manipulation of the first transport vehicle from the first position to the second position for deposit of the selected article in the destination container.

A right angle transfer device has a conveying surface defined by a plurality of conveying members that are driven to convey objects in a conveyance direction. A diverting conveying member is mounted to a frame and is driven to divert objects in a direction angled away from the conveyance direction. A lift drive rotates a cam to move a bar in a substantially horizontal direction. The movement of the bar causes a frame link connected to the bar and the frame to raise and lower the frame. Once the frame has been moved upward to a sufficient extent, the diverting conveying member will be raised above the conveying members to come into contact with the object to thereby move and divert the object away from the conveyance direction.

A system includes an article supply location, wherein the article supply location includes a plurality of articles to be sorted, first and second transport vehicles, each having a first position in which an article is stowed about the vehicle and a second position in which the article is deposited into a proximal container. And a control system. The control system is configured to receive an order for a plurality of disparate articles, determine one destination container of a plurality of destination containers to direct the transport vehicle to deposit a selected article, direct the first transport vehicle to transport a selected article to the destination container and deposit the article by manipulation of the first transport vehicle from the first position to the second position for deposit of the selected article in the destination container.

Various embodiments disclosed herein provide for an improved accumulation conveyor and systems and methods for controlling a high rate, high density tunable accumulation conveyor. In one embodiment, an accumulation conveyor system determines whether an item detection variable associated with a second zone of a plurality of zones is satisfied, wherein the second zone is downstream of a first zone. In an instance where the item detection variable and an operational characteristic variable are satisfied, the accumulation conveyor system is configured to set a zone operating state associated with the first zone to inactive and send a command signal comprising the zone operating state associated with the first zone to a control module associated with the first zone. In another embodiment, a method for adjusting aggressiveness is disclosed. In another embodiment, a tunable release rate accumulation conveyor is disclosed. In still another embodiment, a tunable crowding accumulation conveyor is disclosed.

A storage device (1′) for storing transport units (3′) includes a number of transport units (3′), a number of storage lines (12a′-12g′) which are configured to store transport units (3′), a feeding line (11′) which is connected by a respective first switch point (111′) to the storage lines (12a′-12g′), a measuring device (15′) which is arranged on the feeding line (11′) and which is configured to determine a respective extent of a transport unit (3′), and a controller (16′) which is connected to the measuring device (15′) and to the first switch pointes (111′) and which is configured to select a storage line (12a′-12g′) for storing the transport unit (3′) on the basis of the extent of the transport unit (3′) determined by the measuring device (15′).

The invention relates to a device and a method for controlling a steep conveyor, comprising a control unit (15), a conveyor drive system (5) for driving a conveyor belt (2), and a sensor unit for determining a weight G.sub.1-n of the material to be conveyed (4) assigned to a predetermined section T.sub.1-n of the conveyor belt (2), wherein the sensor unit is adapted to transmit information about the weight to the control unit (15), wherein the control unit (15) is adapted to determine from the information about the weight G.sub.1-n a length L.sub.1-n assigned to the predetermined section T.sub.1-n in a steep conveyor region S of the conveyor belt (2) and to adjust a strain of a drive belt (2) of the conveyor drive system (5) based on the determined lengths L.sub.1-n assigned to the predetermined sections T.sub.1-n.

A system and method for enhanced monitoring and sorting of delivery items, such as packages, which are moved and sorted via a delivery service conveyor device. Conventional systems may employ photocells, which detect interrupted light beams, to identify packages or delivery items along a conveyor path. The present system and method enhances photocell function by adding image detection and analysis to the mail path; and further by modifying the photocell signals to the sorter/conveyor control. The present sensing system is located in the same area on the transport as the photocell, and uses a camera to capture an image of the mail path in the photocell area. The system and method then analyze a package image to formulate a more accurate item detection signal, based on photocell data and image data, for input to the sorter/conveyor control system.