A remotely operated vehicle suitable for picking up storage bins from an underlying storage system. The vehicle includes driving means situated at or at least partly within rolling means of the vehicle, providing rolling set specific driving force to the vehicle in either the first direction or the second direction.

A remotely operated delivery vehicle for transport of a storage container includes a vehicle base, rolling device motors, a power source, a container carrier, and a rotational drive. The vehicle base includes rolling devices configured to move the remotely operated delivery vehicle in a horizontal plane along tracks of a rail system. The rail system includes a first set of parallel rails arranged in a first direction and a second set of parallel rails arranged in a second direction perpendicular to the first direction. The rolling device motors drive the rolling devices. The power source is configured to provide propulsion power to the rolling device motors. The container carrier is supported by the vehicle. The container carrier is configured to receive the storage container from above and/or from a side and onto or at least partly into the container carrier. The rotational drive is configured to rotate the container carrier, and any storage container supported thereon, relative the vehicle base.

Various embodiments are directed to a shuttle configured for use in an AS/RS. In various embodiments, the shuttle comprises: a first load arm and a second load arm configured to retractably extend away from a shuttle body in parallel directions, the first and second load arms each being extendable between a retracted configuration and an extended configuration; a load bed including a load area configured to receive the object; and a retractable mechanical finger provided at a distal portion of the first load arm and configured to facilitate handling of the object, the mechanical finger being hingedly connected to the first load arm using a one-way hinge component that defines a portion of the range of rotational movement of the mechanical finger relative to the first load arm and comprising a spring element that facilitates rotational movement of the finger between an expanded finger position and a retracted finger position.

An object handling coordination system includes a plurality of transporting vessels arranged as a three-dimensional cluster of transporting vessels. The plurality of transporting vessels is addressable and the cluster has a self-reconfigurable physical topology. A relocatable transporting vessel is configured to be relocatable within the. A motion control system is configured to determine a path from a start location of the relocatable transporting vessel within the cluster to a destination location within the cluster and arranged to execute movement of the relocatable transporting vessel within the cluster using the determined path.

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 load handling device is disclosed for lifting and moving one or more containers stacked in a storage system having a grid framework structure supporting a pathway arranged in a grid pattern above stacks 1of containers, the load handling device including a vehicle body housing a driving; a lifting device including a lifting drive assembly and a grabber, wherein the lifting drive assembly and/or the driving mechanism includes at least one motor forming an electrical load; a rechargeable energy storage for providing energy to power the electrical load; and a charging system including a first part for charging the rechargeable energy storage including a charge receiving element on the vehicle body, and a second part for delivering energy to the electrical load; wherein the second part includes a DC/DC converter to supply a predetermined DC voltage across the electrical load.

A vehicle tilting device for tilting a delivery vehicle for increasing access to items from a storage container transported on the delivery vehicle. The vehicle tilting device comprises a base structure and a tiltable platform connected to the base structure, wherein the tiltable platform comprises guiding features adapted to guide the delivery vehicle onto the tiltable platform. The tiltable platform is arranged to be connected to a delivery grid cell of a delivery rail system such that that there is a path to and/or from the tiltable platform for the delivery vehicle via the delivery grid cell. The invention is also related to an access station, a delivery system and a method of accessing a storage container.

A container handling vehicle for lifting a storage container from an underlying framework structure includes a vehicle body and a container lifting assembly for lifting the storage container. The vehicle body includes a wheeled base, a support, and at least one cantilevered section. The wheeled base includes a first set of wheels, arranged on opposite sides of the vehicle body, for moving the vehicle along a first direction on a rail grid at a top level of the underlying framework structure, and a second set of wheels arranged on other opposite sides of the vehicle body, for moving the vehicle along a second direction on the rail grid, the second direction being perpendicular to the first direction. The support includes a lower end connected to the wheeled base and an upper portion connected to the cantilevered section. The container lifting assembly includes a lifting frame and a plurality of lifting bands. The lifting frame is for releasable connection to a storage container and suspended from the cantilevered section by the lifting bands, such that the lifting frame may be raised or lowered relative to the cantilevered section. The cantilevered section extends laterally from the upper portion of the support and is arranged to rotate horizontally about a vertical axis relative to the wheeled base between a first position and a second position. In the first position, the cantilevered section extends beyond the wheeled base, such that the lifting frame may retrieve or deliver a storage container from/to a storage column of the framework structure. In the second position the cantilevered section extends in an opposite direction relative to the direction in the first position. The support holds the cantilevered section above the wheeled base at a height corresponding to a height of multiple storage containers, such that a vertical distance between the lifting frame, when the lifting frame is in an upper position, and the lower end of the support is larger than the height of two storage containers stacked on top of each other.

Provided is an article storage apparatus capable of effectively utilizing the capacity of a building. The article storage apparatus includes an article moving device 3. The article moving device 3 includes an X-direction travel wheel 38, a Y-direction travel wheel 48, a travel wheel lifting and lowering unit that lifts and lowers the travel wheels, and an article lifting and lowering unit that lifts and lowers an article. It is possible to lower the X-direction travel wheel 38 or the Y-direction travel wheel 48 so as to be set down on a travel passage by the travel wheel lifting and lowering unit and rotate the set-down travel wheel to cause the article moving device to travel in an X direction or a Y direction. It is possible to lift the article lifting and lowering unit to pick up an article on an article supporting member or lower the article lifting and lowering unit to transfer the article previously lifted by the article lifting and lowering unit onto the article supporting member.

A remotely operated vehicle assembly for picking up storage bins from a storage system includes a vehicle body that displays a cavity for receiving a storage bin situated somewhere within the storage system, a vehicle lifting device at least indirectly connected to the vehicle body for lifting the storage bin into the cavity, driving mechanisms or components connected to the vehicle body allowing remotely controlled movements of the vehicle assembly within the storage system, a wireless communication link that provides wireless communication between the vehicle assembly and a remote control unit such as a computer, one or more main power sources supplying electrical power to the driving mechanisms or components and vehicle coupling means for operational and releasable coupling of the main power source to the vehicle body.