CANTILEVER ASSEMBLY AND RAPID PROTOTYPING DEVICE

Organization Name

SHENZHEN ANYCUBIC TECHNOLOGY CO., LTD.

Inventor(s)

Xiaolin Zhan of Shenzhen (CN)

Fei Xie of Shenzhen (CN)

CANTILEVER ASSEMBLY AND RAPID PROTOTYPING DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240316871 titled 'CANTILEVER ASSEMBLY AND RAPID PROTOTYPING DEVICE

Simplified Explanation:

The patent application describes a cantilever assembly with a force sensor to detect deformation during the release of a model, ensuring successful printing without affecting light transmission.

• A cantilever assembly with a force sensor
• Detection of deformation during model release
• Determination of successful printing
• Avoidance of light transmission issues
• Sensor located on cantilever body

Key Features and Innovation:

• Integration of force sensor on cantilever body
• Real-time detection of deformation during printing process
• Ensures successful printing without affecting light transmission
• Improved accuracy in determining printing success

Potential Applications:

• 3D printing technology
• Rapid prototyping devices
• Quality control in manufacturing processes
• Research and development in material science

Problems Solved:

• Ensures successful printing without affecting light transmission
• Improves accuracy in determining printing success
• Enhances quality control in manufacturing processes

Benefits:

• Increased efficiency in 3D printing processes
• Reduced material wastage
• Improved quality control measures
• Enhanced user experience

Commercial Applications:

Commercial Applications:

• 3D printing industry
• Manufacturing sector
• Research and development organizations

Questions about Cantilever Assembly with Force Sensor:

1. How does the force sensor on the cantilever body improve the printing process? 2. What are the potential implications of this technology in the manufacturing industry?

2. How does the force sensor on the cantilever body improve the printing process? - The force sensor on the cantilever body allows for real-time detection of deformation during the printing process, ensuring successful printing without affecting light transmission. This improves the accuracy of determining printing success and enhances overall efficiency in the 3D printing process.

2. What are the potential implications of this technology in the manufacturing industry? - The integration of a force sensor on a cantilever body in rapid prototyping devices has the potential to revolutionize quality control measures in the manufacturing industry. By ensuring successful printing without affecting light transmission, this technology can enhance the accuracy and efficiency of manufacturing processes, leading to reduced material wastage and improved overall product quality.

Original Abstract Submitted

a cantilever assembly and a rapid prototyping device are provided. a force sensor is arranged on a cantilever body to detect a degree of deformation in a process of the cantilever pulling a model for release, so as to determine whether a printing is successful or not, thereby avoiding the problem of affecting light transmission caused by a sensing member arranged between a display screen and a release liner.