Company Filing History:
Years Active: 2023
Title: Clayton Messinger: Innovator in Tiltrotor Aircraft Technology
Introduction
Clayton Messinger is a notable inventor based in Grapevine, TX (US), recognized for his contributions to the field of aerospace engineering. He holds 2 patents that focus on innovative technologies for tiltrotor aircraft. His work has significantly advanced the capabilities and efficiency of rotary-wing aircraft.
Latest Patents
One of Messinger's latest patents is for a "Lightweight rotor conversion system for tiltrotor aircraft." This system is designed to control the tilting of a pylon assembly relative to the aircraft's wing. It includes a mechanism for generating asymmetric thrust with a propulsion rotor, which creates a first torque on the pylon assembly. Additionally, a brake mechanism selectively resists this torque by applying a second torque in the opposite direction. This coordination allows for precise control of the tilt rate and angle during the conversion between flight modes. Another significant patent is for a "Rotary aircraft hybrid rotor mast," which features a shaft assembly made from composite material with metal fittings. These fittings are designed with a non-circular perimeter and contouring to enhance performance.
Career Highlights
Messinger is currently employed at Avx Aircraft Company, where he continues to innovate in the aerospace sector. His work has been instrumental in developing advanced technologies that improve the functionality and safety of tiltrotor aircraft.
Collaborations
Throughout his career, Clayton has collaborated with notable colleagues, including Stan Messinger and George Steven Lewis. These partnerships have fostered a creative environment that encourages the development of cutting-edge aerospace technologies.
Conclusion
Clayton Messinger's contributions to tiltrotor aircraft technology exemplify the spirit of innovation in the aerospace industry. His patents reflect a commitment to enhancing aircraft performance and safety, making him a significant figure in the field.