Siying Ling

Title: Innovations of Siying Ling in Gear Helix Artifacts

Introduction

Siying Ling is a notable inventor based in Liaoning, China. He has made significant contributions to the field of gear technology, holding a total of 7 patents. His work focuses on advanced measurement and lapping methods for gear helix artifacts, showcasing his expertise and innovative spirit.

Latest Patents

One of his latest patents is the "Pure-rolling generating measurement method and device for gear helix artifact." This invention proposes a method that utilizes a dividing table to accurately control the linear rail slide block assembly component. It rotates according to the helix angle of different base circles, ensuring that the measuring point is always located on the dividing cylindrical surface of the gear helix artifact. The device allows for high-precision linear motion, enabling the measurement of helix deviations of gear helix artifacts with varying base circle helix angles.

Another significant patent is the "Lapping device for gear helix artifact with equal common normal by rolling method." This device employs a rotary table to control the angle between the lapping surface of the whetstone and the axis of the base-circle cylinder. It ensures precise adjustments to the processing length of the three-tooth common normal of the gear helix artifact, adhering to the generation principle of the involute helicoid without any machining principle errors.

Career Highlights

Siying Ling has worked with esteemed institutions such as Dalian University of Technology and Guangxi Academy of Sciences. His experience in these organizations has contributed to his development as an inventor and researcher in the field of gear technology.

Collaborations

Some of his notable coworkers include Ming Ling and Liding Wang, who have collaborated with him on various projects related to gear technology.

Conclusion

Siying Ling's innovative contributions to gear helix artifacts demonstrate his commitment to advancing technology in this field. His patents reflect a deep understanding of mechanical engineering principles and a dedication to precision in measurement and processing methods.