A system, comprising: a storage workspace including a first framework defined by a series of first uprights, the first uprights supporting a grid of two substantially perpendicular sets of rails; and a plurality of containers for storing objects, wherein the plurality of containers are arranged in stacks, each stack of containers is located underneath a grid space in the workspace; and a grid extension including a continuation of the two substantially perpendicular sets of rails, and wherein the plurality of containers can be moved by one or more load handling devices between the storage workspace and an area beneath the grid extension, wherein the area beneath the grid extension is configured for positioning a roll cage such that containers can be placed or removed from the roll cage.

Detecting, locating, identifying, engaging, and/or shifting objects in automated or semi-automated fashion as well as methods, systems, apparatuses, and computer-program products therefor. Embodiments used for shifting objects in automated or semi-automated fashion may be implemented in stationary environments, and/or in moving, e.g., in-transit, environments, and may be used to transfer, route, and/or organize objects based on their designated destinations. The embodiments may further be implemented in a logistics network, thereby increasing the efficiency and capacity of the logistics network, among other benefits.

An automated warehouse system and method for climate controlled storage and order fulfilment comprises a control system, an automated storage and retrieval system (“ASRS”) with a storage rack defining storage locations for storage receptacles for containing goods, where either at least some of the storage receptacles are individually temperature controllable or the storage rack is at least partially disposed in a frozen environment. A transportation system is coupled with the ASRS for transporting storage receptacles to and from the automated storage and retrieval system, and a workstation is in communication with the transportation system for picking goods to a temperature-controlled order receptacle. The control system directs order fulfilment operations comprising directing goods requiring stable temperature control from the ASRS to the workstation and directs an operator to pick the goods from the storage receptacle to the temperature-controlled order receptacle to maintain the goods within a required temperature range.

A robotic picking device for picking items from a containerised storage system wherein items are stored in storage bins in stacks within a framework having a grid system disposed above the stacks of bins. Robotic picking devices are disposed on the grid, the devices acting to pick containers from the stacks of bins. The storage system is provided with at least one picking device for picking items from bins and depositing them directly in delivery containers DT.

A storage system for storing product items includes a grid structure and a number of first storage bins configured to be stored in vertical stacks in the grid structure. Each first storage bin is configured to contain at least one product item. A vehicle is arranged to move horizontally at the top level of the grid structure, and further arranged to pick up, carry, and place the first storage bins at desired locations within the grid structure. The storage system further includes a robot device that includes a movable arm with a picking mechanism in one end thereof. The robot device is configured to move a storage item between a first location and a second location by means of its picking mechanism. The first location is the location of a first storage bin stored in the storage grid.

A grid framework structure configured to support one or more load handling devices includes a grid structure including a first set of grid members extending in a first direction and a second set of grid members extending in a second direction, the second set of grid members running transversely to the first set of grid members in a substantially horizontal plane in a grid pattern containing plural grid cells; plural vertical uprights supporting the grid structure; and an adjustable grid levelling mechanism for adjusting the level of the grid structure.

A track for a grid framework structure configured to guide a load handling device operative to move one or more containers, the rid framework structure including a plurality of grid members converging or intersecting at nodes in a grid pattern to form a grid structure 40 including a plurality of grid cells. The track comprising a plurality of track sections mountable to the grid structure to form a track surface upon which the load handling devices may move on the grid structure, wherein each track section of the plurality of track sections is formed as a unitary body so as to provide a track surface extending in transverse directions.

Systems and methods are disclosed for interconnected sortation systems with multiple inputs and destinations. In one embodiment, an example system may include a first sortation system, a second sortation system, a first induction station to induct items into the system, and a second induction station to induct items into the system. The system may include a track configured to connect the first sortation system to both the first induction station and the second induction station, and to connect the second sortation system to both the first induction station and the second induction station. The system may include a number of shuttles configured to move along the track.

A suspension conveyor system for sorting products, having a plurality of conveyor bags for at least one product. The conveyor bags may be moved along a continuous closed conveyor path, wherein the suspension conveyor system comprises conveyor means, configured to move the conveyor bags, at least one loading source, configured to load the conveyor bags with the at least one product, a control unit, configured to control the conveyor means, and at least one first unloading line having a plurality of unloading positions along a first closed conveyor path. At least one further unloading line is arranged having a plurality of unloading positions along at least one further closed conveyor path, wherein the at least two closed conveyor paths are connected to one another via at least two gates, wherein the conveyor bags may be controlled, independently from one another, in regard to the conveyor path using the conveyor means.

A system for storing and transporting storage containers includes an automated storage and retrieval grid including vertical members defining multiple storage columns for storing storage containers on top of each other in vertical stacks. The vertical members are interconnected at their upper ends by a container handling vehicle rail system arranged to guide at least one container handling vehicle being configured to raise storage containers from, and lower storage containers into, the storage columns, and to transport the storage containers above the storage columns. The container handling vehicle rail system includes a first set of parallel rails arranged in a first horizontal plane and extending in a first direction, and a second set of parallel rails arranged in the first 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 first 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. A transfer column is adapted for transport of a storage container between the container handling vehicle and a delivery space is situated at a lower end of the transfer column. A delivery system includes a first delivery rail system having at least one set of parallel rails arranged in a second horizontal plane guiding at least one delivery vehicle thereon. The delivery vehicle is adapted to receive and/or deliver a storage container at a storage container delivery location arranged below the delivery space of the transfer column and to move between the storage container delivery location and a second location, the first delivery rail system covers at least an area extending from the storage container delivery location to the second location. A vehicle lift device is for transfer of the at least one delivery vehicle between a first lift stop position adjacent the second location in the second horizontal plane and a second lift stop position adjacent a third location arranged in a third horizontal plane being at a different vertical level than the second horizontal plane.