The present disclosure discloses an Industrial Internet of Things, a control method, and a medium for automatically controlling working parameters of a manufacturing device. The Industrial Internet of Things may include an obtaining module and a determination module, wherein the obtaining module is configured to obtain a finished product-required parameter information and a user instruction, wherein the finished product-required parameter information includes finished gear-required parameter information of a gear machining device; and the determination module is configured to: obtain historical relating data information; determine a plurality of initial parameter combinations; and determine a target parameter combination of a gear processing process by a preset algorithm; generate combined data of the manufacturing device based on at least one of the target parameter combination of the gear processing process, a target parameter combination of a screw machining process, and a target parameter combination of a bearing machining process.

A method for compensating for the deflection of a milling cutter during the machining of a workpiece by a numerically controlled machine tool having a plurality of axes includes: executing a learning cut on a test workpiece having a known geometry by the milling cutter mounted on a tool spindle in a climb milling mode, and in doing so, ascertaining a correlation between a quantity that is proportional to the torque of the drive of the tool spindle and the deflection of the milling cutter normal to a surface of the test workpiece, the deflection being determined by comparing the actual contour of the test workpiece to a setpoint contour. This is followed by storing of the correlation for the milling cutter and machining of the workpiece by the milling cutter in a climb milling mode, while utilizing the stored correlation for compensating for the deflection of the milling cutter by applying a positional correction that is proportional to the quantity to a setpoint position of the axes of the machine tool.

A method and system for embedding a database in a 3D object uses a 3D dimensional printing device and a computer-readable memory that stores a build sequence comprising instructions that, when executed by a processor, will cause the 3D printing device to form a three-dimensional object by depositing layers of build material and by including, in one or more of the layers, physical representations that represent a data set that includes a record of information for production of the 3D object.

A method and system for embedding a database in a 3D object uses a 3D dimensional printing device and a computer-readable memory that stores a build sequence comprising instructions that, when executed by a processor, will cause the 3D printing device to form a three-dimensional object with an embedded data structure by depositing layers of build material and by including, in one or more of the layers, physical representations that represent a data structure.