Abstract: A material handling method, the method includes: acquiring a material identification; where a material identified by the material identification is stored in a material box corresponding to the material identification; when an unprocessed order includes the material identification, then querying whether there is an available temporary storage unit in a temporary storage shelf; and triggering a temporary storage instruction when there is an available temporary storage unit in the temporary storage shelf; where the temporary storage instruction is used to instruct to perform a temporary storage behavior triggered according to the material identification on the temporary storage shelf.
Abstract: A handling robot used in a field of warehouse logistics comprises a mobile chassis, and a storage shelf. The storage shelf is mounted to the mobile chassis and comprises a plurality of layered plate components distributed at different heights. The handling robot further comprises a handling device configured to transport a material to a layered plate of the plurality of layered plate components, and a lift component configured to drive the handling device to lift relative to the storage shelf.
Abstract: An intelligent warehousing system, a material fetching and placing method and a processing terminal thereof, where the intelligent warehousing system includes a first warehousing robot and a second warehousing robot, the first warehousing robot is configured to receive a first scheduling instruction, move to a fixed shelf to fetch and place a material box according to the first scheduling instruction, and handle the material box to a first target position; and the second warehousing robot is configured to receive a second scheduling instruction, move to a portable shelf according to the second scheduling instruction, and handle the portable shelf to a second target position. Through the technical solution of the present application, compatibility of the intelligent warehousing system is improved, which may be applied to a warehouse with different shelves, thus improving the utilization rate of the warehouse.
Type:
Grant
Filed:
July 19, 2021
Date of Patent:
January 31, 2023
Assignee:
HAI ROBOTICS CO., LTD.
Inventors:
Yuqi Chen, Jui-Chun Cheng, Hongxia Zhou, Xin Ai
Abstract: 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.
Abstract: A handling robot used in a field of warehouse logistics comprises a mobile chassis, and a storage shelf. The storage shelf is mounted to the mobile chassis and comprises a plurality of layered plate components distributed at different heights. The handling robot further comprises a handling device configured to transport a material to a layered plate of the plurality of layered plate components, and a lift component configured to drive the handling device to lift relative to the storage shelf.
Abstract: 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.