Company Filing History:
Years Active: 1999
Title: The Innovative Mind of Jonathan David Masters
Introduction
Jonathan David Masters is an inventive engineer based in Bury St. Edmunds, GB, best known for his contributions to refrigeration technology. With a focus on enhancing the efficiency and functionality of refrigeration systems, Jonathan has made strides in improving traditional mechanisms, leading to a significant innovation in the field.
Latest Patents
Jonathan holds a patent for a Refrigerant Thermostatic Valve, which is designed for use in lubrication oil circulation systems associated with refrigeration compressors. This invention features a valve that allows internal operating components to be removed through a sealable access opening in the valve body. This innovative design facilitates the connection of the valve body to the circulation system via welded joints, rather than the previously used butt joints. Additionally, the invention encompasses a lubrication oil circulation system that utilizes this advanced valve mechanism, showcasing Jonathan’s commitment to enhancing operational efficiency.
Career Highlights
Currently, Jonathan is associated with Amot Controls Corporation, a company recognized for its expertise in temperature control and management systems. Through his work, he has contributed to developing solutions that optimize the performance of refrigeration systems, supporting industries that rely heavily on efficient temperature regulation.
Collaborations
In his professional journey, Jonathan has collaborated with notable colleagues, including Kevin John Hosking and Jolyon Francis Torbitt. These partnerships have fostered an environment of innovation and knowledge exchange, driving forward-thinking solutions in refrigeration technology.
Conclusion
Jonathan David Masters exemplifies the spirit of innovation in today's engineering landscape. His patented work with refrigerant thermostatic valves represents a significant advancement in the field, promoting improved efficiency in refrigeration systems. Through his contributions and collaborations, Jonathan continues to play a pivotal role in shaping the future of temperature control technologies.