Location History:
- Tainchung, TW (2015)
- Taichung, TW (2011 - 2018)
Company Filing History:
Years Active: 2011-2018
Title: Innovations of Ming-Yao Lin
Introduction
Ming-Yao Lin is a prominent inventor based in Taichung, Taiwan. He has made significant contributions to the field of mechanical engineering, particularly in the development of advanced ball screw technologies. With a total of 10 patents to his name, Lin's work has had a substantial impact on the industry.
Latest Patents
One of Lin's latest patents is the "Circulation member positioning structure for ball screw." This invention includes a nut and a circulation member designed to simplify the assembly process while maintaining a compact size. The nut features a threaded channel, a socket, and a positioning notch, while the circulation member includes a circulation portion and a positioning protrusion that engages with the nut. This innovative design enhances the efficiency of ball screw assemblies.
Another notable patent is the "External circulation ball screw." This invention consists of an elongate shaft with a helical rolling groove and a nut that accommodates the shaft's extension. The design incorporates rolling elements and a circulator, collectively defining a circulation channel that improves the performance of the ball screw mechanism.
Career Highlights
Ming-Yao Lin is currently employed at Hiwin Technologies Corporation, a leading company in the field of motion control and automation. His work at Hiwin has allowed him to focus on developing cutting-edge technologies that enhance the functionality and efficiency of mechanical systems.
Collaborations
Lin has collaborated with several talented individuals in his field, including Zong-Sian Jiang and Yan-Yu Chen. These collaborations have fostered innovation and contributed to the successful development of various projects.
Conclusion
Ming-Yao Lin's contributions to the field of mechanical engineering through his patents and innovations have established him as a key figure in the industry. His work continues to influence the development of advanced technologies in motion control systems.