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.

An automated carrier system is disclosed for moving objects to be processed. The automated carrier system includes a discontinuous plurality of track sections on which an automated carrier may be directed to move, and the automated carrier includes a base structure on which an object may be supported, and at least two wheels assemblies being pivotally supported on the base structure for pivoting movement from a first position to a second position to effect a change in direction of movement of the carrier.

Stacking storage arrangement for containers and method of forming stacking storage arrangement. The stacking storage arrangement includes at least one transverse connector; multiple uprights that are connected to one another by the at least one transverse connector; and connection elements configured to connect the at least one transverse connector to multiple uprights. Each connection element is arranged to bear against a contact surface of an upright and the contact surface includes a slot into which at least one screw protruding through the connection element is screwed.

A temporary storage shelf board, a goods shelf, a control method, an apparatus and a system are provided. The temporary storage shelf board is used for providing multiple temporary storage positions. The temporary storage shelf board is provided with fork pockets, and the fork pockets is used for cooperating with a fork arm of a first robot. A goods storage and retrieval channel of the first robot is formed below the temporary storage shelf board, and when goods are stored and retrieved, the first robot is located at the goods storage and retrieval channel, and the fork pockets cooperate with the fork arm on the first robot to store and retrieve the goods. Thus, the efficiency of goods storage and retrieval can be improved.

Disclosed is a first dispenser module with a product holder for holding a plurality of beverage cans and a dispensing mechanism for dispensing one beverage can of the plurality of beverage cans at a time in a dispensing direction from the product holder, wherein the product holder is arranged for holding the plurality of beverage cans with their central axes parallel to said product orientation direction. The dispensing mechanism has a retaining cam that is movable with at least a vector component in the production orientation direction between a retaining position for retaining the plurality of beverage cans and a release position for releasing the beverage cans from the product holder, wherein the retaining cam, in the retaining position, is arranged to be in the path of the top rim or the bottom rim of one of the beverage cans in the dispensing direction.

A lift system for an automated storage system of the type where storage containers are stacked in storage columns arranged in a grid, and where automated container handling vehicles retrieve and replace containers from a top level of the grid. The lift system has a platform vertically movable adjacent to a face of the grid, arranged for receiving and transporting one or more containers. A dedicated mechanical device is arranged for grabbing, lifting and moving the storage containers from a staging area at the top of the grid and placing containers on the platform and vice versa.

An automated carrier system is disclosed for moving objects to be processed. The automated carrier system includes a discontinuous plurality of track sections on which an automated carrier may be directed to move, and the automated carrier includes a base structure on which an object may be supported, and at least two wheels assemblies being pivotally supported on the base structure for pivoting movement from a first position to a second position to effect a change in direction of movement of the carrier.

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. A direction-change assembly is arranged to raise or lower the first set of wheels and or lower or raise the second set of wheels with respect to the body to engage and disengage the wheels with the tracks. The direction-change assembly includes a linkage-set having a series of members arranged between a traveller and a fixed brace, wherein the traveller is arranged to move under an applied force to cause the wheels to raise or lower.

An automatic storage and retrieval system includes: a delivery vehicle; a storage container carried by the delivery vehicle; and an unloading station for unloading an item from the storage container while it is being carried by the delivery vehicle. The unloading station includes: an unloading device; and a destination conveyor configured to convey the item to a target destination, wherein the unloading device is configured to move the item through a side opening of the storage container to the destination conveyor.

Goods storage and retrieval systems and materials handling vehicles are provided. The goods storage and retrieval system includes a multilevel warehouse racking system; a materials handling vehicle comprising a mast assembly, a picking attachment, and vehicle-based cart engagement hardware; a mobile storage cart; and a transporter comprising transporter-based engagement hardware. The transporter-based engagement hardware enables the transporter to engage, transport, and disengage the mobile storage cart. The vehicle-based cart engagement hardware is coupled to the mast assembly to (i) engage and disengage the mobile storage cart and (ii) transport the mobile storage cart to multiple levels of the multilevel warehouse racking system. The mast assembly and the picking attachment are configured to access multiple levels of the multilevel warehouse racking system. The picking attachment is configured to transfer totes between the multilevel warehouse racking system and the mobile storage cart.