Company Filing History:
Years Active: 2019
Title: **Innovative Spirit of Chen-Kuie Liu: Revolutionizing Quick Release Mechanisms**
Introduction
Chen-Kuie Liu, an inventive mind from Changhua County, Taiwan, has made a notable contribution to mechanical innovations with his patent for an axially-switchable quick release device. This invention reflects his commitment to enhancing functional designs in engineering.
Latest Patents
Liu holds a patent for an axially-switchable quick release device, which features a rod extending in an axial direction. The device comprises a clutch shaft located at the end of the rod, integrated with a meshing teeth portion and an idling ring portion. This innovative quick release lever includes a fitting portion and a turning portion connected to the fitting, allowing the fitting teeth portion to connect seamlessly with the clutch shaft. This mechanism establishes two positions: the meshing position, where the fitting teeth engage with the clutch shaft, and the idling position, which allows free rotation. This clever design enhances usability and efficiency in devices requiring quick-release functionality.
Career Highlights
Currently, Chen-Kuie Liu is part of the team at J.D. Components Co., Ltd., where he works diligently to foster innovation within the company. His role involves integrating cutting-edge technology with practical applications, making him a key player in the development of new product lines.
Collaborations
Collaboration is crucial in the world of innovation. Liu often collaborates with his coworker, Chun-Wei Huang, to develop and refine their designs. Together, they aim to push the boundaries of engineering and design, ensuring that their contributions are both practical and pioneering.
Conclusion
Chen-Kuie Liu’s innovative approach to design is exemplified through his patent for the axially-switchable quick release device. His work at J.D. Components Co., Ltd. demonstrates the importance of creativity and collaboration in engineering. As Liu continues to develop his ideas, the impact of his innovations could lead to significant advances in the functionality of mechanical devices.