METHOD, DEVICE, AND ELECTRONIC DEVICE FOR CONTROLLING 3D PRINTING

Organization Name

Hangzhou Regenovo Bio-technology Co., Ltd.

Inventor(s)

Ling Wang of Hangzhou (CN)

Shanshan Yang of Hangzhou (CN)

Mingen Xu of Hangzhou (CN)

Gongle Huang of Hangzhou (CN)

METHOD, DEVICE, AND ELECTRONIC DEVICE FOR CONTROLLING 3D PRINTING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240239050 titled 'METHOD, DEVICE, AND ELECTRONIC DEVICE FOR CONTROLLING 3D PRINTING

The present disclosure introduces a method, device, and electronic device for controlling 3D printing. The method involves controlling a 3D printing device based on preset printing parameters, monitoring the printing environment and structure, adjusting parameters based on monitoring information, and time-programming the printing results for precise positioning.

• The method involves controlling a 3D printing device based on preset printing parameters.
• Monitoring the printing environment, structure, and results to obtain corresponding monitoring information.
• Adjusting preset printing parameters based on monitoring information to improve printing results.
• Time-programming the printing results for precise positioning based on monitoring information.
• Utilizing a spatiotemporal recombination control strategy for accurate spatiotemporal positioning control.

Potential Applications: - Manufacturing industries for precise and efficient 3D printing processes. - Research and development for advanced printing technologies. - Educational institutions for teaching 3D printing control strategies.

Problems Solved: - Inefficient 3D printing processes due to lack of real-time monitoring and adjustment. - Inaccurate positioning of printed objects leading to wastage of materials. - Limited control over printing parameters resulting in subpar printing results.

Benefits: - Enhanced printing precision and quality. - Reduction in material wastage. - Improved efficiency in 3D printing processes.

Commercial Applications: Title: Advanced 3D Printing Control Technology for Enhanced Precision This technology can be utilized in various industries such as aerospace, automotive, and healthcare for precise and efficient 3D printing processes. The market implications include improved product quality, reduced production costs, and increased competitiveness in the market.

Questions about 3D Printing Control Technology: 1. How does this technology improve the efficiency of 3D printing processes? - This technology enhances efficiency by allowing real-time monitoring and adjustment of printing parameters based on monitoring information, leading to improved printing results. 2. What are the potential applications of this advanced 3D printing control technology? - The potential applications include manufacturing industries, research and development, and educational institutions for teaching advanced printing control strategies.

Original Abstract Submitted

the present disclosure provides a method, device, and electronic device for controlling 3d printing. the method comprises: controlling a 3d printing device to print based on the preset printing parameters by a preset printing control strategy to obtain printing results; monitoring the printing environment, printing structure, and the printing results by a monitor to obtain the corresponding monitoring information; adjusting the preset printing parameters based on the monitoring information by a printing feedback control strategy to obtain adjusted results of the printing parameters; time-programing the printing results to position printing based on the monitoring information using a spatiotemporal recombination control strategy to obtain printing results of spatiotemporal positioning control.