An object processing system is disclosed that includes a plurality of track sections, and a plurality of remotely actuatable carriers for controlled movement along at least portions of the plurality of track sections, wherein each of the remotely controllable carriers is adapted to support and transport an object processing bin.

The disclosure relates to a method for traffic routing of transportation means in a high-bay warehouse, comprising at least two storage levels, at least one level of transport with at least one option for a transportation means for accessing and/or leaving the level of transport.

The disclosure relates to a device and a method for storing standardized storage goods in a high-bay warehouse and to the transfer thereof.

An automation apparatus for dispensing groups of individually packaged products, the apparatus including a storage arrangement adapted to store a plurality of products each contained in an individual package. The storage arrangement includes a first module and a second module, where the first module is adapted to store products having a first frequency demand threshold and the second module is adapted to store products having a second frequency demand threshold that is lower than the first frequency demand threshold. The apparatus further includes a plurality of fixed first discharge assemblies adapted to move selected ones of the individual packages from the first module of the storage arrangement and a second discharge assembly comprising a moveable pick device adapted to move selected ones of the individual packages out of the second module of the storage arrangement.

A stacking storage arrangement having multiple container receiving spaces that are arranged in multiple rows and columns, wherein a loading space in which at least one loading vehicle can be moved is arranged below the container receiving spaces. The operation of a stacking storage arrangement of this type is configured to be economical. For this purpose, a transverse transport device is provided with which the loading vehicle can be moved between positions that are respectively assigned to a row.

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.

A warehousing apparatus including a temporary storage layer board used for providing a temporary storage station, and a plurality of shelves with each shelf including at least one storage layer board and a plurality of stand columns arranged at intervals in a horizontal direction. The storage layer board is spaced apart from the temporary storage layer board in a vertical direction by means of a stand column, and the storage layer board is used for providing a storage position, a first robot passage in which a first robot travels and a second robot passage in which a second robot travels.

An automated storage and retrieval system includes a grid-based rail structure and a plurality of remotely operated vehicles arranged to operate on the grid-based rail structure. The automated storage and retrieval system includes a locking device arranged in a zone of the grid-based rail structure where a human and/or a robotic operator is permitted to interact with the remotely operated vehicle or contents of a storage container that the remotely operated vehicle is carrying. The locking device is arranged to lock the remotely operated vehicle against accidental displacement prior to interaction with the human and/or robotic operator, and wherein the locking device being arranged to unlock the remotely operated vehicle once interaction with the human and/or robotic operator is no longer required.

In one aspect, a warehousing apparatus comprises: a temporary storage layer board, with the temporary storage layer board being used for providing a temporary storage station; a plurality of shelves, with each shelf comprising at least one storage layer board and a plurality of stand columns arranged at intervals in the horizontal direction, the storage layer board being spaced apart from the temporary storage layer board in the vertical direction by means of the stand column, and the storage layer board being used for providing a storage position; a first robot passage for a first robot to travel in, with the first robot being used for storing goods on and taking goods to the temporary storage layer board and a second robot passage for a second robot to travel in, with the second robot being used for carrying the goods between the temporary storage layer board and the storage layer board. The warehousing apparatus along with related systems and control methods can improve the efficiency of goods entering and exiting a warehouse.

An inventory management system includes pick stations, automated vehicles having an onboard power source, a first drive system configured to horizontally displace the vehicle, a second drive system configured to vertically displace the vehicle along a guide system, and a platform for supporting an item during displacement of the vehicle. A first plurality of storage locations store inventory items at a first zone of vehicle operation and a second plurality of storage areas store inventory items at a second zone of vehicle operation. A first pick station is closer to the first storage locations than to the second storage locations, Vehicles are configured to transfer a selected item from one of the second plurality of storage locations to the first pick station or to transfer the selected item from the second plurality of storage locations to the first plurality of storage locations.