Provided herein is a methods, apparatus, and system for the configuration of customizable trays for the storage and dispensing of articles. Methods may include: receiving an indication of a plurality of articles to be stored in a tray; determining a plurality of bins corresponding to the plurality of articles; generating a layout of the bins on the tray; identifying locations of the plurality of articles within the bins on the tray; and causing the tray to be configured according to the layout of the plurality of bins on the tray. Methods may include: receiving an indication of an article to be loaded into a bin of the plurality of bins; receiving a unique identifier of the bin of the plurality of bins into which the article is loaded; and storing, in a memory, a correlation between the unique identifier of the bin and the article loaded into the bin.

To make it possible to freely move a moving body between level surfaces located at different heights that are not connected by a vertical member. A moving body includes a movable moving part, an expansion/contraction part disposed in the moving part and configured to expand and contract in a vertical direction, a first engagement part disposed at a tip of the expansion/contraction part and configured to engage with a member located in a surrounding environment, and a control unit configured to control the moving part and the expansion/contraction part. The control unit moves the moving part to a target height position by engaging the first engagement part with a member located at the target height position and then expanding or contracting the expansion/contraction part.

A lift for automatic storage systems, comprising: a platform (2), predisposed to support one or more objects on a substantially horizontal rest plane (A); a guide structure (3), predisposed to guide the platform (2) in displacement along a vertical direction; a motor means, predisposed to activate the platform (2) in motion along the guide structure (3). The lift comprises a manipulator (4) associated with the platform (2) and configured to translate an object to be loaded/unloaded from the platform (2), along a horizontal exchange direction (X) in opposed directions.

A storage system includes a storage grid structure having a top rail grid upon which container handling vehicles work to store and retrieve storage containers in and from storage columns beneath the top rail grid. The storage system includes multiple transfer rails forming a horizontal transfer rail grid arranged at a level below the top rail grid. At least one transport vehicle operates on the transfer rail grid. The storage system includes a picking/stocking station for picking/stocking items between a storage container and a packaging box, and an unloading/loading assembly for unloading/loading packaging boxes containing such items. The transport vehicle is arranged to move upon the transfer rail grid in two perpendicular directions and comprises a carrier platform. The transfer rail grid is arranged to allow access for the transport vehicle to transport one or more packaging boxes at a time between the picking/stocking station and the unloading/loading assembly.

There is provided a conveying device that can support a car weight with a mechanism lighter in weight. A driving device (6) of a conveying device that lifts and lowers a loading-weight support along a rail (3) includes a wheel unit (13) and a link (14). The wheel unit (13) drives to rotate a driving wheel (15) in contact with a guide surface (11) to lift and lower the loading-weight support. The link (14) includes a first joint (17) connected to the wheel unit (13) and a second joint (18) rotatably supported by the loading-weight support. The second joint (18) is arranged in a position further apart from the guide surface (11) than the first joint (17), and above the first joint (17). The link (14) is arranged such that a straight line connecting the first joint (17) and the second joint (18) is tilted smaller than 45 degrees.

A transfer driver includes a transfer drive transmission mechanism drivingly coupled to a contact section, and a transfer drive source configured to drive the transfer drive transmission mechanism. A guide driver includes a guide drive transmission mechanism drivingly coupled to a pair of guide sections, and a guide drive source configured to drive the guide drive transmission mechanism. The transfer drive source and the guide drive source are disposed on a transfer-direction scooping side relative to a holder, and the transfer drive transmission mechanism and the guide drive transmission mechanism intersect each other in a vertical view at an intersection portion, and are adjacent to each other in a vertical direction at the intersection portion.

A transfer device includes: a pusher configured to push a container during a delivery operation; a lockable portion lockable to the container during a pick-up operation; a transfer drive unit configured to cause the pusher and the lockable portion to reciprocate in the transfer direction; and a lock drive unit configured to drive the lockable portion separately from the pusher and causes the lockable portion to change in orientation. The transfer device performs a delivery operation by moving, toward a delivery side in the transfer direction, the pusher in contact with a container rear face portion with use of the transfer drive unit, and performs a pick-up operation by moving the lockable portion in the locking orientation toward a pick-up side in the transfer direction with use of the transfer drive unit.

A pair of drive wheels are disposed in a middle region of a travel body section in a body length direction and are separated from each other in a body width direction. A first drive source is disposed on a first side in the body length direction relative to a width direction reference line and a first side in a body width direction relative to a length direction reference line in top-down view. A second drive source is disposed on a second side in the body length direction relative to the width direction reference line and a second side in the body width direction relative to the length direction reference line in top-down view.

A smart moving platform for transport of components in manufacturing includes a vehicle body, a transmission device, a conveying system, a detection device, a tag installation device, a control unit, and a tag reader. The conveying system conveys components. The detection device detects a location of the component and in a first predetermined area, the tag installation device installs and activates a tag on the component. The control unit writes component information to the activated tag and sets a predetermined period. The tag starts to count time elapsing, and the conveyor belt conveys the component to a second predetermined area. The tag reader reads the component information, the elapsed time, and a predetermined period of the tag. When the elapsed time matches the predetermined period, the conveying system sends the component to a third predetermined area.

A storage system includes a rack with a plurality of layers, each layer including an aisle and a plurality of rows extending from the aisle defining storage locations for items. A shuttle usable with the rack includes a first cart movable along the aisle and a second cart configured to be carriable by the first cart and to be movable along a row. The second cart is configured to carry an item between the first cart and the storage locations. A conveyor is located on one of the first or second carts to move the item onto or off the first cart. Related methods of storing and/or retrieving items from a rack are also disclosed. A rack system is disclosed and is readily assembled without welding, transferring loading so that the weight of the rack and any item stored therein is supported by the upright elements via support brackets.