The present invention relates to a stacker crane (2) for transporting, inserting and picking containers of biological material test tubes in/from locations (3) of a plurality of shelves (4) of a warehouse (1) for storing containers of biological material test tubes. The stacker crane (2) is able to move the containers of biological material test tubes in the three Cartesian directions x, y and z, so as to reach the locations (3), wherein the stacker (2) comprises a first carriage (21) and a second carriage (22) able to slide independently of, and to be released from, the first carriage (21) in direction y.

Bin retrieval robots configured to pick or put-away bins within a logistics facility and to transport one or more picked bins. Methods and systems for autonomous picking or put-away of bins within a logistics facility that include the bin retrieval robot(s) are also disclosed. The systems include a remote server and at least one bin retrieval robot, wherein the remote server is configured to communicate with the bin retrieval robot(s) to send and receive picking data, and the bin retrieval robot(s) are configured to autonomously navigate and position within the logistics facility.

The application relates to a carrying robot including a fork. The fork includes a telescopic arm and a temporary storage tray. The telescopic arm includes a fixed arm and a movable arm connected to the fixed arm. The movable arm is telescopically movable relative to the fixed arm. The temporary storage tray is mounted to the fixed arm and is configured to temporarily store goods. The temporary storage tray is able to extend relative to the fixed arm. An extending direction of the temporary storage tray is consistent with an extending direction of the movable arm. When the fork pulls in or pushes out the goods, containers can be stably transferred between a stationary rack and the temporary storage tray.

A transfer device includes: a mounting unit (132) on which a target article (90) is to be mounted; and a transfer unit (T) that transfers the target article (90) between a storage unit (A) and the mounting unit (132), the transfer unit (T) includes a first transfer device (10T) that holds the target article (90) and moves the target article (90) in a depth direction (L), and a second transfer device (20T) that moves a portion of the target article (90) in the depth direction (L), the portion being mounted on the mounting unit (132), a first transfer distance (dl) by which the target article (90) is to be moved by the first transfer device (10T) is shorter than a total transfer distance by which the target article (90) is to be moved in the depth direction (L) between the mounting unit (132) and the storage unit (A).

The disclosure relates to a method for controlling a warehouse robot to store and fetch inventory materials. The method includes: instructing a material handling device to fetch a second inventory material located in the front row, and placing the second inventory material on a first tray; instructing the material handling device to fetch a first inventory material located in the back row, and placing the first inventory material on a second tray; and instructing the material handling device to return the second inventory material to the front row. By instructing the material handling device to fetch the inventory materials and storing the inventory materials in the trays, the inventory materials can be extracted from a designated shelf and stored in a warehouse, navigation is realized in a crowded warehouse filled with obstacles, and the inventory materials whose positions have been transferred can be processed.

An industrial truck includes a base chassis, a rigid transport frame having at least one transport platform on which goods are transportable and at least one supporting beam which is arranged above the at least one transport platform, a lifting apparatus which raises, lowers and laterally shifts the rigid transport frame, and a moving apparatus which raises, lowers and laterally shifts the goods at least relative to the rigid transport frame. The moving apparatus is mounted on the at least one supporting beam.

An Automated Guided Robot (AGV) system designed for carrying, storing and retrieving inventory items to and from storage shelves. The AGV (100) can move between warehouse shelves and reach to the inside of a shelf without turning. The AGV (100) is equipped with a material handling device (130). The material handling device (130) comprises a lateral device that is configured to move in a lateral direction either to the right side or to the left side. The movement of the lateral device can be either rotational or translational. The material handling device (130) further comprises a retractable device that retracts or extends in a direction perpendicular to the lateral direction. The retractable device allows the material handling device (130) to extend into the storage shelf to fetch or place an inventory item.

The application relates to a carrying robot including a fork. The fork includes a telescopic arm and a temporary storage tray. The telescopic arm includes a fixed arm and a movable arm connected to the fixed arm. The movable arm is telescopically movable relative to the fixed arm. The temporary storage tray is mounted to the fixed arm and is configured to temporarily store goods. The temporary storage tray is able to extend relative to the fixed arm. An extending direction of the temporary storage tray is consistent with an extending direction of the movable arm. When the fork pulls in or pushes out the goods, containers can be stably transferred between a stationary rack and the temporary storage tray.

A method for retrieving an inventory item based on a handling robot, where the handling robot includes: a storage frame; and a material handling device installed on the storage frame, and including a telescopic arm and a manipulator installed to the telescopic arm; and the method for retrieving an inventory item includes: driving, by the telescopic arm, the manipulator to extend to a preset position of warehouse shelf along a preset horizontal reference line; loading, by the manipulator that is remained on the reference line, the inventory item located in the preset position; driving, by the telescopic arm, the manipulator loaded with the inventory item to move to the storage frame along the reference line; and unloading, by the manipulator that is remained on the reference line, the inventory item to the storage frame.

Disclosed is a robot including a travelling apparatus, a body, a containing apparatus and an item grabbing apparatus. The travelling apparatus is disposed at a bottom of the robot and configured to travel to a preset position based on a travelling path received by the robot. The body is disposed above the travelling apparatus. The containing apparatus is connected to the body and includes multiple containing positions that are interlayers stacked in a vertical direction. One of the interlayers may contain at least one target item. The item grabbing apparatus is disposed on the body and configured to, based on a task received by the robot, grab, at the preset position, a first target item from an item storage apparatus and automatically place the first target item at a containing position of the containing apparatus, or grab, at the preset position, a second target item from the containing position of the containing apparatus and automatically place the second target item in the item storage apparatus.