Company Filing History:
Years Active: 1989
Title: The Innovative Contributions of Robert Willoughby
Introduction
Robert Willoughby is an accomplished inventor based in Washington, OH (US). He is known for his significant contributions to the field of tool technology, particularly in the development of mechanisms that enhance the functionality and safety of fluid-operated tools. His innovative approach has led to the creation of a unique patent that addresses common challenges faced by users of screwdrivers.
Latest Patents
Willoughby holds a patent for a "Torque sensing, automatic shut-off and reset clutch for screwdrivers." This invention features an improved torque control and fluid shut-off mechanism for fluid-operated tools. The design includes a bit holder and driving clutch member that are connected for uniform cojoint axial movement while allowing independent rotary movement. The mechanism utilizes spring-biased ball bearings to facilitate cojoint rotary movement, which is overridden when the spring biasing force associated with the driving clutch member exceeds a predetermined threshold level. Additionally, a locking sleeve fitted over the driving clutch member works in conjunction with a control rod to manage the fluid inlet to the rotary vane air motor, thereby controlling the initiation, termination, and resetting of the tool.
Career Highlights
Robert Willoughby is currently employed at The Aro Corporation, where he continues to innovate and contribute to advancements in tool technology. His work has not only improved the efficiency of tools but has also enhanced user safety through the implementation of automatic shut-off features.
Collaborations
Willoughby collaborates with Phil D Thorp, a fellow inventor and coworker at The Aro Corporation. Their partnership exemplifies the spirit of teamwork in the pursuit of innovation.
Conclusion
Robert Willoughby’s contributions to the field of tool technology through his patent for a torque sensing clutch mechanism demonstrate his commitment to innovation and safety. His work continues to influence the industry and improve the functionality of fluid-operated tools.