Company Filing History:
Years Active: 2002
Title: Ken Vinson: Innovator in Swash Plate Guidance and Control
Introduction
Ken Vinson is a notable inventor based in Coldspring, Texas. He has made significant contributions to the field of engineering, particularly in the development of methods and apparatus for swash plate guidance and control. His innovative approach has led to the creation of a unique apparatus that enhances the control of spinning objects.
Latest Patents
Ken Vinson holds a patent for "Methods and apparatus for swash plate guidance and control." This invention includes apparatuses and methods for controlling an object spinning at a first rate in a first direction. The apparatus comprises a swash plate, a rotor, a spin actuator, a roll actuator, and a pitch actuator. The rotor is coupled to the swash plate, while the spin actuator is designed to spin the rotor in a second direction opposite the first direction at a second rate. The roll actuator displaces the swash plate along a longitudinal axis, and the pitch actuator tilts the swash plate in a tilt direction about the longitudinal axis, with the tilt direction being adjustable by modifying the second rate relative to the first rate. The roll actuator may also be coupled to the pitch actuator, ensuring that the pitch actuator maintains a substantially identical orientation with the swash plate as it is displaced.
Career Highlights
Ken Vinson is currently employed at BAE Systems Integrated Defense Solutions Inc., where he continues to apply his expertise in engineering and innovation. His work has been instrumental in advancing technologies that enhance operational capabilities in defense systems.
Collaborations
Ken collaborates with various professionals in his field, including his coworker, Bradley T. Sallaee. Their combined efforts contribute to the development of cutting-edge technologies and solutions.
Conclusion
Ken Vinson's innovative work in swash plate guidance and control exemplifies the impact of engineering advancements in modern technology. His contributions continue to shape the future of control systems in various applications.