Company Filing History:
Years Active: 2014-2016
Title: Innovations of Timothy R. Doherty
Introduction
Timothy R. Doherty is a notable inventor based in Woburn, MA (US). He has made significant contributions to the field of engineering, particularly in the development of high-temperature conveyor systems. With a total of 4 patents to his name, his work has had a considerable impact on industrial processes.
Latest Patents
One of Timothy's latest innovations is a high-temperature conveyor belt. This conveyor belt features a non-metallic conveying surface that prevents scratching, abrasion, or contamination of products being transported through a furnace. In one embodiment, the conveyor consists of a high-temperature fabric belt attached to a metal belt, which may be a conventional woven metal conveyor belt. Another embodiment includes a non-metallic high-temperature strand woven or threaded through a metal belt, providing a non-metallic conveying surface. Additionally, the design incorporates non-metallic product support elements coupled to roller chains on each side of the furnace chamber, which work with a drive mechanism to transport the conveyor through the furnace. The roller chains are strategically located outside the furnace chamber to avoid exposure to high temperatures.
Career Highlights
Timothy R. Doherty has established himself as a key figure in his field through his innovative designs and practical solutions. His work at Btu International, Inc. has allowed him to collaborate with other talented professionals and contribute to advancements in conveyor technology.
Collaborations
Some of Timothy's coworkers include Derek James Butland and James DiMento. Their collaborative efforts have further enhanced the development of innovative solutions in their industry.
Conclusion
Timothy R. Doherty's contributions to the field of engineering, particularly through his patents on high-temperature conveyor belts, demonstrate his commitment to innovation and excellence. His work continues to influence industrial processes and improve product handling in high-temperature environments.