Company Filing History:
Years Active: 1978
Title: Andrew Hugh Maguire: Innovator in High-Temperature Environments
Introduction
Andrew Hugh Maguire is a notable inventor based in Flemington, NJ (US). He has made significant contributions to the field of engineering, particularly in the development of devices that operate under extreme conditions. His innovative approach has led to the creation of a unique patent that addresses specific challenges faced in high-temperature environments.
Latest Patents
Maguire holds a patent for a Ceramic rapper rod assembly. This invention is designed for electrostatic precipitators and other devices that require vibration in high-temperature settings. The patent details a transmission or rapper rod that includes tapered ends, which are intentionally short to prevent bottoming in the corresponding mounting sleeves. Additionally, the design incorporates a pair of thin, malleable metallic shims positioned between the tapered ends and the sleeves. This feature accommodates dimensional tolerances and distinct surface finishes, effectively eliminating fracture-inducing impacts. Maguire's innovative design enhances the durability and reliability of devices operating under extreme conditions.
Career Highlights
Maguire is associated with Plessey Incorporated, where he applies his expertise in engineering and innovation. His work at the company has allowed him to focus on developing solutions that meet the demands of high-performance applications. With a patent portfolio that includes 1 patent, he has established himself as a valuable contributor to the field.
Collaborations
Maguire has worked alongside talented colleagues, including John Francis Konyak and Edrol Ford Troxtel. Their collaborative efforts have fostered an environment of innovation and creativity, leading to advancements in their respective fields.
Conclusion
Andrew Hugh Maguire's contributions to the engineering sector, particularly through his patented Ceramic rapper rod assembly, demonstrate his commitment to innovation in high-temperature environments. His work continues to influence the development of reliable and efficient devices in challenging conditions.