Company Filing History:
Years Active: 2018
Title: Innovations of Jing-Jhong Wu
Introduction
Jing-Jhong Wu is a notable inventor based in Taipei, Taiwan. He has made significant contributions to the field of engineering, particularly with his innovative designs and patents. His work reflects a commitment to enhancing functionality and safety in mechanical systems.
Latest Patents
Jing-Jhong Wu holds a patent for a "Suspension type sliding bracket having anti-dropping mechanism." This invention features a sliding bracket that utilizes a first sliding rail of suspension type to slide on a first bracket. Additionally, it employs a second sliding rail of suspension type to slide on a second bracket. The design includes a first locating plate at the front-end portion of the first sliding rail and a first locating post at the front-end portion of the first bracket. The first locating post can enter a first slot of the first locating plate, effectively blocking a closure portion of the first slot. This mechanism allows the first sliding rail to form a first anti-dropping position, preventing unintended sliding. The first slot can escape from the first locating post when an extension portion of the first locating plate is pressed, ensuring both safety and ease of use.
Career Highlights
Jing-Jhong Wu is currently employed at Cyberpower Systems, Inc., where he continues to innovate and develop new technologies. His work at the company has been instrumental in advancing their product offerings and enhancing their market position.
Collaborations
He collaborates with talented coworkers, including Chun-Chao Liao and Wen-Ju Hsieh, who contribute to the innovative environment at Cyberpower Systems, Inc. Their teamwork fosters creativity and leads to the development of cutting-edge solutions.
Conclusion
Jing-Jhong Wu's contributions to the field of engineering through his patent and work at Cyberpower Systems, Inc. highlight his role as an influential inventor. His innovative designs not only improve functionality but also enhance safety in mechanical systems.