Company Filing History:
Years Active: 2007
Title: **Innovator Spotlight: James F. Stulen**
Introduction
James F. Stulen is an accomplished inventor based in Brantford, Canada. With a focus on enhancing maintenance practices in industrial settings, he has contributed significantly to the field of engineering through his innovative patent. His work, particularly in the realm of rotating equipment, showcases the potential for technological improvements in predictive maintenance.
Latest Patents
James F. Stulen holds a patent for a **Diagnostic Method for Predicting Maintenance Requirements in Rotating Equipment**. This innovative method is designed to assess the condition of rotating equipment, specifically drive spindles, enabling timely maintenance or replacement. The process utilizes an electrical signal from a vibration sensor to measure vibration energy while the equipment operates under both loaded and unloaded conditions. By analyzing the relative vibration levels, this method serves as a crucial indicator of equipment health, helping to prevent unplanned downtime and extend the lifespan of critical machinery.
Career Highlights
Currently, James is associated with Dofasco Inc., where he applies his expertise in the engineering sector. His patent represents a significant achievement in his career, marking his dedication to improving operational efficiency through innovative solutions. His contributions offer valuable insights into maintaining complex mechanical systems.
Collaborations
Throughout his career, James has collaborated with talented individuals, including his coworkers William Lindsay and Kevin G. Hunt. These collaborations have fostered an environment of innovation, allowing for the development and refinement of ideas that play an essential role in working towards enhanced engineering solutions within their industry.
Conclusion
James F. Stulen exemplifies the spirit of innovation with his patent aimed at optimizing maintenance for rotating equipment. His contributions, alongside his collaborative efforts with colleagues, underline the importance of teamwork and ingenuity in driving progress in engineering practices. As advancements continue, James's work will likely inspire further innovations in the field of predictive maintenance technology.