Company Filing History:
Years Active: 2003
Title: The Innovations of Peter Robert John Cox
Introduction
Peter Robert John Cox is a notable inventor based in Colchester, GB. He has made significant contributions to the field of electron gun technology. His innovative designs have led to the development of a unique patent that enhances the functionality and efficiency of electron guns.
Latest Patents
Cox holds a patent for "Electron gun arrangements having closely spaced cathode and electrode and a vacuum seal." This invention features an electron gun arrangement that includes a cathode with a front surface and a control grid positioned in front of it. The control grid is mounted via a cylindrical support on a Kovar mount. The cathode is supported by a cylindrical support mounted on a Kovar support, with ceramic material located between the two supports. The vacuum envelope containing the electron gun includes the Kovar support and a flexible member that creates a vacuum seal, made of copper. This copper member is sealed to a ceramic cylinder via metal flanges. The assembly allows for the maintenance of spacing between the cathode and grid while accommodating thermal expansion to preserve vacuum integrity.
Career Highlights
Cox is associated with EEV Limited, a company known for its advancements in electron technology. His work at EEV Limited has positioned him as a key player in the development of innovative electron gun systems. His patent reflects his expertise and commitment to enhancing technological capabilities in this field.
Collaborations
Cox has collaborated with notable colleagues, including Alfred Christopher Thwaites and David Ward Carr. These partnerships have contributed to the advancement of their collective work in electron technology.
Conclusion
Peter Robert John Cox is a distinguished inventor whose contributions to electron gun technology have made a significant impact. His innovative patent showcases his expertise and dedication to advancing the field. His work continues to influence the development of efficient electron systems.