Company Filing History:
Years Active: 2017
Title: **Innovative Mind: Fa Yun Andreas Qi and His Contribution to Electric Parking Brake Systems**
Introduction
Fa Yun Andreas Qi is an inventive mind hailing from Shenzhen, China. With a passion for engineering and innovation, he has made significant strides in the field of automotive technology, particularly focusing on electric parking brake systems. His work exemplifies the intersection of creativity and technical expertise.
Latest Patents
Qi holds a notable patent titled "Actuator for an Electric Parking Brake System." This invention encompasses an actuator mechanism designed with essential components such as an outer housing, a motor, a planetary gear mechanism, a belt-wheel mechanism, and an isolation member. The belt-wheel mechanism features a driving wheel linked to the motor and a follower wheel connected with the planetary gear mechanism. An integral part of this patent is the isolation member, which effectively absorbs vibrations caused by the motor and gear mechanism, ensuring efficient and reliable performance.
Career Highlights
Fa Yun Andreas Qi is currently associated with Johnson Electric S.a., where he implements his groundbreaking ideas and designs in cutting-edge technology. His dedication to innovation in automotive systems showcases his commitment to enhancing vehicle safety and efficiency.
Collaborations
Throughout his career at Johnson Electric, Qi has collaborated with notable colleagues such as Li Li and Rui Feng Qin. This teamwork has fostered a collaborative environment that thrives on idea-sharing and collective problem-solving, leading to advancements in electric parking brake technology.
Conclusion
In conclusion, Fa Yun Andreas Qi stands out as a dynamic inventor in the automotive industry. His patent for the actuator mechanism not only highlights his technical aptitude but also contributes significantly to the development of safer and more efficient electric parking brake systems. As he continues to innovate, Qi's work will undoubtedly leave a lasting impact on automotive engineering.