A transport robot is disclosed. The transport robot may include a cover driver, a power supply, and a processor. The transport robot may execute an artificial intelligence (AI) algorithm and/or a machine learning algorithm, and may communicate with other electronic devices in a 5G communication environment. As a result, user convenience may be improved.

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 a 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 form a grid which divides the rail system into a plurality of grid cells. A container handling vehicle for operation on the two-dimensional rail system includes a base, a support structure, a container, and a support surface. The base includes moving guides for the container handling vehicle along the rail system in the first direction and the second direction respectively. The support structure is provided on the base and extends from a lower section at the base to an upper section. The container lifting device includes a lifting frame for lifting a storage container up from a storage position below the rail system. The lifting frame is suspended from a set of suspension points of the upper section of the support structure. The support surface supports the storage container and provides a first holding position arranged at a lower elevation than the lifting frame when the lifting frame is in a docked state adjacent the upper section of the support structure. The container handling vehicle includes a movement mechanism to translate horizontally the set of suspension points or the support surface with respect to the base, such that a lifted storage container can be placed on the support surface and the lifting frame disconnected from the lifted storage container.

A storage container for storing product items in an automated storage and retrieval system includes a base; two first parallel side walls; two second parallel side walls perpendicular to the two first parallel side walls; a top opening; and two side openings. The two side openings allow one or more items to be unloaded from the storage container or loaded into the storage container through one of the side openings at an unloading station or at a loading station. The storage container is provided with a restraint which is arranged to restrain movement of the one or more items from exiting through one of the side openings during transportation of the storage container to the unloading or loading station.

A load handling device is disclosed for lifting and moving one or more containers stacked in a storage system having a grid framework structure supporting a pathway arranged in a grid pattern above stacks 1of containers, the load handling device including a vehicle body housing a driving; a lifting device including a lifting drive assembly and a grabber, wherein the lifting drive assembly and/or the driving mechanism includes at least one motor forming an electrical load; a rechargeable energy storage for providing energy to power the electrical load; and a charging system including a first part for charging the rechargeable energy storage including a charge receiving element on the vehicle body, and a second part for delivering energy to the electrical load; wherein the second part includes a DC/DC converter to supply a predetermined DC voltage across the electrical load.

A vehicle tilting device for tilting a delivery vehicle for increasing access to items from a storage container transported on the delivery vehicle. The vehicle tilting device comprises a base structure and a tiltable platform connected to the base structure, wherein the tiltable platform comprises guiding features adapted to guide the delivery vehicle onto the tiltable platform. The tiltable platform is arranged to be connected to a delivery grid cell of a delivery rail system such that that there is a path to and/or from the tiltable platform for the delivery vehicle via the delivery grid cell. The invention is also related to an access station, a delivery system and a method of accessing a storage container.

A container handling vehicle for lifting a storage container from an underlying framework structure includes a vehicle body and a container lifting assembly for lifting the storage container. The vehicle body includes a wheeled base, a support, and at least one cantilevered section. The wheeled base includes a first set of wheels, arranged on opposite sides of the vehicle body, for moving the vehicle along a first direction on a rail grid at a top level of the underlying framework structure, and a second set of wheels arranged on other opposite sides of the vehicle body, for moving the vehicle along a second direction on the rail grid, the second direction being perpendicular to the first direction. The support includes a lower end connected to the wheeled base and an upper portion connected to the cantilevered section. The container lifting assembly includes a lifting frame and a plurality of lifting bands. The lifting frame is for releasable connection to a storage container and suspended from the cantilevered section by the lifting bands, such that the lifting frame may be raised or lowered relative to the cantilevered section. The cantilevered section extends laterally from the upper portion of the support and is arranged to rotate horizontally about a vertical axis relative to the wheeled base between a first position and a second position. In the first position, the cantilevered section extends beyond the wheeled base, such that the lifting frame may retrieve or deliver a storage container from/to a storage column of the framework structure. In the second position the cantilevered section extends in an opposite direction relative to the direction in the first position. The support holds the cantilevered section above the wheeled base at a height corresponding to a height of multiple storage containers, such that a vertical distance between the lifting frame, when the lifting frame is in an upper position, and the lower end of the support is larger than the height of two storage containers stacked on top of each other.

An automated storage and retrieval system includes a three-dimensional storage grid for storing storage containers; first and second container handling vehicles operating on the storage grid; and a central communication system for controlling and communicating with the container handling vehicles for handling storage containers in the storage grid. The automated storage and retrieval system includes a barrier separating the three dimensional storage grid into a first section and a second section. The barrier has two states: a first state in which the container handling vehicles are allowed to move between the first section and the second section; and a second state, in which the container handling vehicles are physically prevented from moving between the first section and the second section by means of the barrier.

A storage system includes a storage grid structure; and a remotely operated storage bin handling vehicle. The storage grid structure comprises a first and a second type of vertical storage column profiles defining multiple storage columns in which storage bins can be stored one on top of another in vertical stacks. The first and second type storage column profiles are interconnected at top ends thereof by rails forming a horizontal rail grid upon which the remotely operated storage bin handling vehicle may move in two perpendicular directions. The first type of storage column profiles has a cross-section comprising a hollow centre section and four corner sections, each of the four corner sections of the first type of storage column profiles comprises two perpendicular bin guiding plates for accommodating a corner of a first storage bin. The second type of storage column profiles has a cross-section comprising a hollow centre section having at least two connecting elements arranged in, or on, an external surface of the hollow centre section, and at least one corner section, the at least one corner section of the second type of storage column profiles comprises two perpendicular bin guiding plates for accommodating a corner of a second storage bin. The storage grid structure comprises a grid supporting structure comprising at least two of the second type of storage column profiles interconnected, via the at least two connecting elements of the at least two second type of storage column profiles, by vertically inclined support struts.

A remotely operated vehicle assembly for picking up storage bins from a storage system includes a vehicle body that displays a cavity for receiving a storage bin situated somewhere within the storage system, a vehicle lifting device at least indirectly connected to the vehicle body for lifting the storage bin into the cavity, driving mechanisms or components connected to the vehicle body allowing remotely controlled movements of the vehicle assembly within the storage system, a wireless communication link that provides wireless communication between the vehicle assembly and a remote control unit such as a computer, one or more main power sources supplying electrical power to the driving mechanisms or components and vehicle coupling means for operational and releasable coupling of the main power source to the vehicle body.

A container-handling vehicle picks up storage containers from a three-dimensional grid of an underlying storage system. The container-handling vehicle has a vehicle body and wheels for moving the vehicle in two perpendicular directions on the grid. The vehicle body surrounds a cavity within which at least a first lifting device and a second lifting device are positioned adjacent to each other. Each lifting device is independently controlled and arranged to lift a storage container from the grid and into the cavity. The vehicle includes at least one vertical frame guiding element arranged inside the cavity. The frame guiding element extends between the lifting devices.