Company Filing History:
Years Active: 2025
Title: Innovations of Nicholas Shaun Palmer
Introduction
Nicholas Shaun Palmer is an accomplished inventor based in Dayton, Ohio. He has made significant contributions to the field of mechanical engineering, particularly in the development of advanced gear systems. His innovative approach has led to the creation of a unique patent that enhances the efficiency of power transmission systems.
Latest Patents
Nicholas holds a patent for a "Magnetically-assisted mechanical gear system and method." This invention involves magnetically-assisted mechanical gear systems and other power transmission systems, along with related methods of operation and assembly. In one embodiment, the system comprises a driving gear, a driven gear, and a first magnetomotive force (MMF) source that generates a magnetic flux. A portion of this flux is communicated between the teeth of the driving and driven gears, allowing magnetic forces to be exerted between them. This innovative design enables the driven gear to alternate its rotational movement in sync with the driving gear, effectively reducing backlash movement between the gears.
Career Highlights
Nicholas is currently employed at Kaney Aerospace, Inc., where he applies his expertise in mechanical systems. His work focuses on developing cutting-edge technologies that improve the performance and reliability of aerospace components. His dedication to innovation has positioned him as a valuable asset in his field.
Collaborations
Nicholas collaborates with talented individuals such as Adam White and Joseph Michael Stock. Together, they work on various projects that push the boundaries of mechanical engineering and contribute to advancements in aerospace technology.
Conclusion
Nicholas Shaun Palmer's contributions to the field of mechanical engineering, particularly through his patented innovations, demonstrate his commitment to advancing technology. His work at Kaney Aerospace, Inc. and collaborations with fellow engineers highlight his role in shaping the future of power transmission systems.