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 system, comprising: a storage workspace including a first framework defined by a series of first uprights, the first uprights supporting a grid of two substantially perpendicular sets of rails; and a plurality of containers for storing objects, wherein the plurality of containers are arranged in stacks, each stack of containers is located underneath a grid space in the workspace; and a grid extension including a continuation of the two substantially perpendicular sets of rails, and wherein the plurality of containers can be moved by one or more load handling devices between the storage workspace and an area beneath the grid extension, wherein the area beneath the grid extension is configured for positioning a roll cage such that containers can be placed or removed from the roll cage.

Various examples of arrangements and methods are provided for loading and unloading first and second load units carried by a vehicle. A landing device is arranged between a first end of the first load unit and a second end of the second load unit so that a first portion of the landing device is supported to the first end of the first load unit and a second portion of the landing device is supported to the second end of the second load unit. The landing device can move the first end of the first load unit into a lower level than the second end of the second load unit after the first end of the first load unit is moved so that it passes the second end of the second load unit.

In a method and arrangement for distributing articles, an order management system acquires an order for delivering articles, the articles to be delivered are transferred from an article store and the articles included in an order are order-picked into at least one mobile shelf unit shelf compartment. The mobile shelf unit is subsequently transported to a dispensing station including a first article storage region separated by a first separating wall and a customer access region and is brought into a handover position, in which the at least one shelf compartment is accessible via a closeable opening in the first separating wall. When an article dispensing system receives a request for picking up the articles by a person or a machine associated therewith, it uncovers the closeable opening if authorization exists for picking up the articles. Alternatively a loadings robot can load the articles to be delivered into the machine.

In a method and arrangement for distributing articles, an order management system acquires an order for delivering articles, the articles to be delivered are transferred from an article store and the articles included in an order are order-picked into at least one mobile shelf unit shelf compartment. The mobile shelf unit is subsequently transported to a dispensing station including a first article storage region separated by a first separating wall and a customer access region and is brought into a handover position, in which the at least one shelf compartment is accessible via a closeable opening in the first separating wall. When an article dispensing system receives a request for picking up the articles by a person or a machine associated therewith, it uncovers the closeable opening if authorization exists for picking up the articles. Alternatively a loadings robot can load the articles to be delivered into the machine.

A shipping system is configured to facilitate transfer of a package into and/or out of a room in a building. The shipping system is for controlling a shiftable panel of the building to selectively provide a path into and out of the room. The shipping system includes a control system. The control system broadly includes a vehicle sensor and a system processor. The system processor is configured to receive package identification data associated with the package, have the panel opened to allow room ingress and egress along the path based on the package identification data, move an autonomous vehicle to a location adjacent the panel to facilitate package transfer, based on vehicle location data, and have the panel closed to restrict room ingress and egress along the path in response to a determination that the package has been transferred into or out of the room via the path.

An autonomous transport vehicle includes a frame forming a payload section configured to hold one or more pickfaces, a transfer arm movably mounted to the frame, a drive section connected to the frame, and a controller connected to the drive section, the controller being configured to effect an on-the-fly sortation of pickfaces carried by the autonomous transport vehicle according to a predetermined case out order sequence where the controller commands the drive section so that two or more pickfaces are picked from one or more first case unit holding locations and placed at one or more different second case unit holding locations according to the predetermined case out order sequence.

An autonomous transport vehicle includes a frame forming a payload section configured to hold one or more pickfaces, a transfer arm movably mounted to the frame, a drive section connected to the frame, and a controller connected to the drive section, the controller being configured to effect an on-the-fly sortation of pickfaces carried by the autonomous transport vehicle according to a predetermined case out order sequence where the controller commands the drive section so that two or more pickfaces are picked from one or more first case unit holding locations and placed at one or more different second case unit holding locations according to the predetermined case out order sequence.

A ceiling conveyance vehicle includes a traveling wheel to roll on a track including a first track and a second track and a main body below the track and coupled to the traveling wheel. The ceiling conveyance vehicle includes a direction changer to change between a first state in which the traveling wheel rolls on the first track and a second state in which the traveling wheel rolls on the second track, with an orientation of the main body with respect to the track maintained, an article holder capable of holding an article, a hoisting-and-lowering driver to hoist and lower the article holder, a lateral slider to slidingly move the hoisting-and-lowering driver in a horizontal, linear direction, and a first rotational driver to rotationally drive the lateral slider around a first perpendicular axis with respect to the main body.

A ceiling conveyance vehicle includes a traveling wheel to roll on a track including a first track and a second track and a main body below the track and coupled to the traveling wheel. The ceiling conveyance vehicle includes a direction changer to change between a first state in which the traveling wheel rolls on the first track and a second state in which the traveling wheel rolls on the second track, with an orientation of the main body with respect to the track maintained, an article holder capable of holding an article, a hoisting-and-lowering driver to hoist and lower the article holder, a lateral slider to slidingly move the hoisting-and-lowering driver in a horizontal, linear direction, and a first rotational driver to rotationally drive the lateral slider around a first perpendicular axis with respect to the main body.