20240036554. INDUSTRIAL INTERNET OF THINGS, CONTROL METHOD, AND MEDIUM FOR AUTOMATICALLY CONTROLLING WORKING PARAMETERS OF MANUFACTURING DEVICE simplified abstract (CHENGDU QINCHUAN IOT TECHNOLOGY CO., LTD.)

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INDUSTRIAL INTERNET OF THINGS, CONTROL METHOD, AND MEDIUM FOR AUTOMATICALLY CONTROLLING WORKING PARAMETERS OF MANUFACTURING DEVICE

Organization Name

CHENGDU QINCHUAN IOT TECHNOLOGY CO., LTD.

Inventor(s)

Zehua Shao of Chengdu (CN)

Haitang Xiang of Chengdu (CN)

Yaqiang Quan of Chengdu (CN)

Xiaojun Wei of Chengdu (CN)

Yongzeng Liang of Chengdu (CN)

INDUSTRIAL INTERNET OF THINGS, CONTROL METHOD, AND MEDIUM FOR AUTOMATICALLY CONTROLLING WORKING PARAMETERS OF MANUFACTURING DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240036554 titled 'INDUSTRIAL INTERNET OF THINGS, CONTROL METHOD, AND MEDIUM FOR AUTOMATICALLY CONTROLLING WORKING PARAMETERS OF MANUFACTURING DEVICE

Simplified Explanation

The present disclosure describes an industrial internet of things (IIoT) system, a control method, and a medium for automatically controlling working parameters of a manufacturing device. The IIoT system includes an obtaining module and a determination module. The obtaining module is responsible for obtaining parameter information required for a finished product and user instructions. The determination module is responsible for obtaining historical data information, determining multiple initial parameter combinations, and determining a target parameter combination for a gear processing process using a preset algorithm. The system generates combined data for the manufacturing device based on the target parameter combinations of the gear processing process, screw machining process, and bearing machining process.

  • The invention is an IIoT system that automatically controls working parameters of a manufacturing device.
  • The system includes modules for obtaining parameter information and user instructions, as well as determining target parameter combinations.
  • The system utilizes historical data and a preset algorithm to determine the target parameter combinations.
  • The system generates combined data for the manufacturing device based on the determined target parameter combinations.

Potential applications of this technology:

  • Manufacturing industry: The IIoT system can be used in various manufacturing processes, such as gear machining, screw machining, and bearing machining. It can help optimize the working parameters of the manufacturing devices, leading to improved efficiency and quality of the finished products.
  • Automation: The automatic control of working parameters eliminates the need for manual adjustments, reducing human error and increasing productivity.
  • Industrial optimization: By analyzing historical data and determining optimal parameter combinations, the IIoT system can help industries achieve better performance and cost-effectiveness in their manufacturing processes.

Problems solved by this technology:

  • Manual parameter adjustment: The IIoT system eliminates the need for manual adjustments of working parameters, reducing the risk of human error and saving time.
  • Inefficient manufacturing processes: By optimizing the working parameters based on historical data and preset algorithms, the system improves the efficiency and quality of the manufacturing processes.
  • Lack of real-time control: The IIoT system provides real-time control of working parameters, allowing for immediate adjustments and improvements.

Benefits of this technology:

  • Improved efficiency: The automatic control of working parameters and optimization based on historical data lead to increased efficiency in manufacturing processes.
  • Enhanced quality: By determining optimal parameter combinations, the IIoT system improves the quality and consistency of the finished products.
  • Cost savings: The optimization of working parameters can lead to reduced waste, energy consumption, and production costs.
  • Real-time control: The IIoT system provides real-time monitoring and control of working parameters, allowing for immediate adjustments and improvements.


Original Abstract Submitted

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.

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