Norman John Webster

Title: Innovations by Norman John Webster

Introduction

Norman John Webster is an accomplished inventor based in Cramlington, GB. He has made significant contributions to the field of monitoring apparatuses, particularly those related to breathing apparatuses. With a total of 2 patents to his name, Webster's work showcases his dedication to enhancing safety and functionality in critical environments.

Latest Patents

Webster's latest patents include innovative monitoring apparatuses designed for users of breathing apparatuses. The first patent describes a monitoring apparatus that includes a breathing detector to determine if the wearer has commenced breathing using the apparatus. This device is equipped with a mobile monitoring unit that activates upon detecting breathing, allowing for real-time monitoring of the wearer's motion. The second patent focuses on a pressure detecting device that monitors the gas supply pressure of the breathing apparatus. It features a pressure transducer and a wireless transmitter that sends signals when the pressure exceeds a predetermined threshold. This mobile monitoring unit is designed to alert the wearer through an alarm and monitor their motion.

Career Highlights

Norman John Webster is currently associated with Draeger Safety UK Limited, a company known for its commitment to safety and innovation in the field of medical and safety technology. His work at Draeger Safety has allowed him to develop cutting-edge solutions that enhance the safety of individuals using breathing apparatuses.

Collaborations

Webster has collaborated with notable colleagues, including Simon Christopher Hogg and Marcus Berney-Smith. These collaborations have contributed to the advancement of safety technologies and the development of innovative monitoring solutions.

Conclusion

Norman John Webster's contributions to the field of monitoring apparatuses reflect his commitment to innovation and safety. His patents demonstrate a forward-thinking approach to enhancing the functionality of breathing apparatuses, ultimately benefiting users in critical situations.