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.

An article carousel may be configured for use with a track system. The article carousel may include a frame and a plate configured for movement with respect to the frame. The plate may include one or more carriers configured to receive one or more trolleys. Movement of the plate may enable each carrier to be aligned with the track system. During alignment, one or more trolleys may be transferred between each carrier and the track system.

Embodiments provide for systems and methods related to kiosks for personalizing a packaged article. The kiosks may also be used for storage, inventory management, retrieval, packaging, and/or personalization of packaged articles. The kiosks discussed herein differ from non-kiosk personalization systems, such as personalization systems installed on a factory or warehouse floor, in that the kiosks are self-contained personalization systems. In some embodiments, the kiosks are portable and can be moved between different sites or events. This portability allows the kiosks to personalize packaged articles for concerts, festivals, conventions, trade shows, and the like.

Embodiments provide for systems and methods related to kiosks for personalizing a packaged article. The kiosks may also be used for storage, inventory management, retrieval, packaging, and/or personalization of packaged articles. The kiosks discussed herein differ from non-kiosk personalization systems, such as personalization systems installed on a factory or warehouse floor, in that the kiosks are self-contained personalization systems. In some embodiments, the kiosks are portable and can be moved between different sites or events. This portability allows the kiosks to personalize packaged articles for concerts, festivals, conventions, trade shows, and the like.

A drive belt assembly for a load handling device includes a drive belt; a drive wheel; and one or more driven wheels. A first tensioning arm, having a fixed end above an elbow and a rotatable distal end pivotally attached at the elbow, is horizontally displaceable relative to the drive wheel and driven wheels. A second tensioning arm is provided wherein the drive belt is routed around the first and second tensioning arms, and the first and second tensioning arms are arranged to put pressure on the drive belt to tension the drive belt.

A two-dimensional rail system includes a first set of parallel rails arranged to guide movement of container handling vehicles in a first direction across the top of the frame structure, and a second set of parallel rails arranged perpendicular to the first set of rails to guide movement of the container handling vehicles in a second direction which is perpendicular to the first direction. The first and second sets of parallel rails dividing the rail system into a plurality of grid cells. A container handling vehicle for operation on the rail system includes a wheel base unit including sets of wheels for guiding the container handling vehicle along the rail system in the first and second directions; a body unit; and a lifting device. The body unit includes: a lower section which is provided on the wheel base unit; a support section extending vertically from the lower section; and a cantilever section extending horizontally from the support section. The lower section has a footprint with a horizontal extent which is equal to or less than the horizontal extent of one of the grid cells and a top surface which is at a first height. The support section has a footprint with a horizontal extent which is smaller than the footprint of the lower section. The cantilever section extends beyond the footprint of the lower section. The lifting device includes a lifting frame that is suspended from the cantilever section of the body unit. The lifting frame has a lowermost part at a second height when the lifting frame is docked in an upper position adjacent the cantilever section. The second height of the lowermost part of the lifting frame, when the lifting frame is docked in its upper position, is above the first height of the top surface of the lower section of the body unit.

In an article transport vehicle that is able to transport a plurality of types of articles, the efficiency of operations is improved in accordance with the type of article, while suppressing an increase in the size of the article transport vehicle. If a control device determines that an article held by a holding portion is a first-type article, the control device controls the transfer mechanism so as to cause the turning mechanism to perform a turning mechanism and cause a sliding mechanism to perform a sliding operation such that operation periods of these operations do not overlap. If the control device determines that the article held by the holding portion is a second-type article, the control device controls the transfer mechanism so as to perform the turning operation and the sliding operation such that the operation periods of these operations overlap.

An automated storage and retrieval system comprising an automated storage and retrieval grid and a delivery system. The automated storage and retrieval grid includes a container handling vehicle rail system for guiding a plurality of container handling vehicles and a delivery column adapted for transport of a storage container arranged in a stack of storage containers beneath the container handling vehicle rail system between a container handling vehicle and a delivery port situated at a lower end of the delivery column. The container handling vehicle rail system includes a first set of parallel rails arranged in a horizontal plane and extending in a first direction, and a second set of parallel rails arranged in the horizontal plane and extending in a second direction which is orthogonal to the first direction, which first and second sets of rails form a grid pattern in the horizontal plane including a plurality of adjacent container handling vehicle grid cells. Each container handling vehicle grid cell includes a container handling vehicle grid opening defined by a pair of neighboring rails of the first set of rails and a pair of neighboring rails of the second set of rails. The delivery system includes a remotely operated delivery vehicle including a container carrier adapted to support the storage container. The delivery vehicle is further adapted to transport the storage container between the delivery port and a second location for handling of the storage container by at least one of a robotic operator and a human operator.

Systems, methods, and machine-executable coded instruction sets are disclosed for fully- and/or partly automated handling of goods. For example, the disclosure provides improvements in storage and retrieval of containers in systems such as order processing systems.

An automated kiosk includes a front panel positioned in front of a conveyor with conveyor slots sized to receive clothing hangers. Dividers separate each conveyor slot from the adjacent conveyor slots, forming a compartment for each conveyor slot. Two doors are positioned in the front panel. An electronic controller moves a conveyor in order to reposition a desired compartment in front of the doors. The doors open inwardly, and are of sufficient length that the extended edge of the doors engages with and overlaps the outer edge of each of the dividers. With each door engaging the divider on each side of the compartment, a user is blocked from being able to access items that are in adjacent compartments.