Method for operating a block storage arrangement and a block storage arrangement that has multiple container stacking chambers, a loading chamber arranged below the container stacking chambers, and at least one loading vehicle, which includes a travel drive and a lifting drive, that is movable in the loading chamber. The method includes positioning, via the travel drive, the at least one loading vehicle below a preselected container stacking chamber; via the lifting drive, one of storing a container in the container stacking chamber from below or removing a container downwardly from the container stacking chamber; and prior to a person gaining access to at least the loading chamber, placing the block storage arrangement into a secure state by inactivating at least the lifting drive of the loading vehicle.

Block stacking arrangement that includes a plurality of container receiving slots, a loading space arranged below the container receiving slots in a direction of gravity, a pass-through opening between respective container receiving slots and the loading space, and a holding device, which is arranged in the pass-through opening, having a flap pivotable about a shaft between a holding position and a release position. The shaft is mounted in an edge of the pass-through opening, and the shaft is mounted at at least one end in a bolt socket that is upwardly open in the direction of gravity. The block stacking arrangement further includes a shaft hold-down device, which is fastened to the edge of the pass-through opening, arranged at least partially above the bolt socket in the direction of gravity to act on the end of the shaft.

A block storage arrangement and method of operating same. The block storage arrangement includes multiple container stacking compartments; a loading compartment arranged below the container stacking compartments; at least one loading vehicle, which is movable in the loading compartment and with which containers are storable from below into a container stacking compartment and/or removable from below from the container stacking compartment, has an electric drive assembly and an electrically rechargeable battery; and at least one transfer station. An electrical charging device for the battery is arranged in the transfer station.

A block storage arrangement that includes a plurality of container stacking spaces, a loading space arranged below the container stacking spaces, and at least one loading vehicle which is movable in the loading space and has a lifting arrangement, with which containers can be loaded from below into a container stacking space and can be removed from below from the container stacking space. It would be desirable to enable a high productivity of the block storage arrangement. For this purpose, the lifting arrangement includes at least two lifting units that can be actuated independently of one another.

A block stacking arrangement that includes a plurality of container receiving slots, a loading space arranged in the direction of gravity below the container receiving slots and at least one loading vehicle configured to be moved in the loading space and that can be positioned the container in the container receiving slots and removed from the container receiving slots. The intention is to be able to reliably design the operation of a block stacking arrangement. For this purpose, the block stacking arrangement includes a loading vehicle maintenance area that is connected to the loading space via a travel path.

A Hock stacking arrangement includes multiple container holding spaces; a loading space arranged below the container holding spaces; and a frame arrangement between the container holding spaces and the loading space, The frame arrangement has node elements that are arranged at corners of the container holding spaces, and each pair of two adjacent node elements is releasably connected by a same beam.

There is provided an automated storage and retrieval system including: a rack storing a plurality of bins for containing items; a picking station for picking the item from the bin; and a transportation robot for transporting the bin between the rack and the picking station. The picking station defines one or more picking positions at which the transportation robot transporting the bin is arranged to enable picking work of the item from the bin, and one or more retracted positions at which the transportation robot temporarily retracts the bin from the picking position.

A maintenance system is disclosed for assisting in maintaining an automated carrier system for moving objects to be processed. The maintenance system includes a plurality of automated carriers that are adapted to move on an array of discontinuous standard track sections, each said automated carrier including a carrier body that is no larger in either a length or width direction that a standard track section, and an automated maintenance carrier that is adapted to move on the array of discontinuous track sections, said automated maintenance system including a maintenance body that is larger in at least one of a length or width direction than the standard track section.

A load handling device is disclosed for lifting and moving storage containers stacked in a grid framework structure having first and second sets of parallel rails or tracks. The load handling device includes a body mounted on first and second sets of wheels arranged to engage with the tracks. The wheels have spokes connecting a rim to a hub, and wherein the wheel is at least partially resiliently deformable, wherein the wheel rim and wheel hub are made from a rigid material relative to the spoke material, and wherein the wheel includes two or more layers.

A system may include a vehicle for delivering items and a moveable track that cooperates with the vehicle. The moveable track may cooperate with a storage system having storage locations for storing items. The vehicle may drive into the moveable track and lift the track using a vertical drive mechanism. The vehicle may include a horizontal drive system operable to drive the vehicle horizontally along the ground to carry the moveable track to a position adjacent the storage location. The vehicle may operate the vertical drive system to drop the moveable track adjacent the storage system. Additionally, the vehicle may operate the vertical drive to drive up the moveable track to an elevated position adjacent one of the storage locations in the storage system. The vehicle may include a transfer mechanism for transferring items between the vehicle and the storage location while the vehicle is in the elevated position.