Company Filing History:
Years Active: 2015-2018
Title: Innovations of Wang Gongmin
Introduction
Wang Gongmin is a notable inventor based in Shenzhen, China. He has made significant contributions to the field of biomedical electronics, particularly in the development of advanced fluid control systems. With a total of 3 patents to his name, his work has the potential to enhance medical equipment and improve patient care.
Latest Patents
Wang's latest patents include a "Power switch for auxiliary common gas outlet" and a "Valve assembly for controlling the flow rate of a fluid." The power switch patent describes a system where the flow rate of gases, such as oxygen and nitrous oxide, can be electronically or mechanically controlled. This innovation allows for precise direction of gas mixtures to either a primary breathing machine or an anesthesia delivery machine. The system features a piloted shuttle valve that can divert gas mixtures based on the position of a piston, which is toggled electronically.
The valve assembly patent outlines an electronic flow selector that can operate in both electronic and manual modes. This dual functionality ensures that fluid flow can be controlled effectively, even in the event of a system failure. The design includes mechanical backup flow selectors with a position detection system, allowing for accurate flow rate selection.
Career Highlights
Wang Gongmin is currently employed at Shenzhen Mindray Bio-medical Electronics Co., Ltd. His work at this leading biomedical company has positioned him at the forefront of innovation in medical technology. His patents reflect a commitment to improving the efficiency and safety of medical devices.
Collaborations
Wang has collaborated with notable colleagues, including Geoffrey C Jawidzik and Xiong Zhibin. These partnerships have likely contributed to the successful development of his innovative patents.
Conclusion
Wang Gongmin's contributions to biomedical electronics through his patents demonstrate his dedication to advancing medical technology. His work has the potential to significantly impact patient care and the efficiency of medical devices.