Company Filing History:
Years Active: 2010-2014
Title: Innovations by Troy L. Smith, II
Introduction
Troy L. Smith, II is an accomplished inventor based in Tulsa, OK. He has made significant contributions to the field of engineering, particularly in the oil and gas industry. With a total of 2 patents to his name, Smith has developed innovative solutions that enhance the efficiency and safety of subsurface operations.
Latest Patents
One of Smith's latest patents is for a downhole shock absorber with a guided crushable nose. This shock-absorbing system features a nose assembly designed to inwardly collapse upon impact, guided by a sleeve that can either slide with the nose or extend while being held fixed. This design minimizes the risk of binding in surrounding tubulars and softens the impact on a closed ball when the tool is dropped.
Another notable patent is for a switching apparatus between independent control systems for a subsurface safety valve (SSV). This system allows for seamless switching between redundant control systems while isolating the closure spring from hydrostatic pressure in the unused control line. The innovative design ensures that the force needed to close the SSV is not affected by pressure fluctuations, enhancing operational reliability.
Career Highlights
Troy L. Smith, II is currently employed at Baker Hughes Corporation, a leading company in the oil and gas sector. His work focuses on developing advanced technologies that improve safety and efficiency in subsurface operations.
Collaborations
Throughout his career, Smith has collaborated with notable colleagues, including Anthony S. Coghill and David Z. Anderson. These partnerships have contributed to the successful development of his patented technologies.
Conclusion
Troy L. Smith, II exemplifies innovation in the engineering field with his patented inventions that address critical challenges in the oil and gas industry. His contributions continue to impact the sector positively, showcasing the importance of inventive solutions in enhancing operational safety and efficiency.