Systems, methods, and computer-readable media are disclosed for container transporters and related item manipulation devices. In one embodiment, an example item manipulation device may include a support platform, and a conveyance surface attached to the support platform and configured to convey a container at least a portion of a distance from a first side of the support platform to a second side of the support platform, where the conveyance surface defines at least a portion of a container passage through which a container can be conveyed. The item manipulation device may include a manipulator comprising a first arm disposed along a longitudinal axis of the item manipulation device and a second arm disposed along the longitudinal axis of the item manipulation device, where the manipulator is engageable with the container to move the container at least partially onto the conveyance surface.

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 transport system for picking products and/or goods. The transport system includes an order-picking device with a rigid base frame and a transport and/or work platform, and two individual vehicles each of which are couplable to the order-picking device and each of which have a drive device, a steering device, and a lifting device which can raise and lower a load-carrying device. The two individual vehicles, when in a decoupled state from the order-picking device, are each operatable completely independently of one another, and, when in a coupled state to the order-picking device, are coupled with the order-picking device so as to provide a driving and steering behavior of a rigid overall vehicle made up of the two individual vehicles and the order-picking device, and a lifting behavior of a complete lifting device made up of the lifting device of each of the two individual vehicles.

To provide an unmanned conveying apparatus that achieves low flooring of a vehicle body and enlarges a placing space for a load and is capable of stably traveling without driving wheels rising even if an inclination or unevenness is present on a traveling surface. There is provided an unmanned conveying apparatus that is loaded with a load on a loading section supported by a base section and travels and conveys the load to a designated point. First auxiliary wheels and driving wheels are respectively supported by a first wheel supporting section. The first wheel supporting section is swingably supported, via a swinging shaft, by a swing supporting section provided in the base section.

A product order fulfillment system includes multiple decks arrayed at different levels and defining multilevel decks, at least one autonomous transport vehicle on each of the decks, and configured for holding and transporting a pickface on each deck, at least one lift, traversing and connecting more than one level of the decks, and arranged for lifting and lowering the pickface from the decks, and at least one pickface transfer station on each deck interfacing between the transport vehicle and the at least one lift to effect transfer of the pickface between the transport vehicle and the at least one lift, the at least one lift defines a fulfillment stream of mixed case pickfaces outbound from the multilevel decks to a load fill, at least one stream of the fulfillment stream has an ordered sequence of streaming pickfaces wherein the ordered sequence of streaming pickfaces is based on another fulfilment stream.

A photographing method for picking or placing, applied includes: obtaining first multi-dimensional image information of a target position in a target shelf; determining, according to the first multi-dimensional image information, whether there is a first item in the target position; and determining a photographing strategy of the photographing module according to a determining result, wherein the photographing strategy includes one of: the photographing module not moving with the handling apparatus in a telescopic direction for continued photographing, the photographing module moving a preset distance along the telescopic direction with the handling apparatus, and performing an operation of starting a solution; the solution includes at least one of stopping photographing, sending a warning signal, and reporting to a server to which the transport robot belongs.

An apparatus is disclosed including a robotic system having a robotic picking workstation, tote storage and retrieval and transit decks. The system has bots that autonomously transport totes from the storage and retrieval system to the robotic picking workstation via the transit decks. The robotic picking workstation may have a picking lane where a robotic handler transports eaches from totes on the bots to order totes in the workstation. The robotic picking workstation further has a queuing buffer where bots are cued for the picking lane.

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.

An automatic warehouse for storing loading units (C), including a support structure defining a plurality of levels, superimposed on each other, each including a corridor and a. plurality of lanes, which cross the corridor and which communicate with the corridor, along which the loading units (C) are stored. At least one entry/exit area for the loading units (C) is provided for, as well as at least one elevator for transporting the loading units (C) from the height of the entry/exit area up to heights corresponding to each of the levels, and vice versa. The elevator includes a movable platform provided with at least one housing for containing at least one loading unit (C), and means for loading/unloading the loading units on/from the housing. Also provided for are a plurality of vehicles, movable along the corridor and the lanes, for moving the loading units (C) within each of the levels.