Company Filing History:
Years Active: 1997
Title: Albert A Cuffe: Innovator in Actuator Technology
Introduction
Albert A Cuffe is a notable inventor based in Richmond, CA. He has made significant contributions to the field of actuator technology, particularly with his innovative designs that enhance mechanical movement. His work is characterized by a focus on efficiency and precision in converting rotational movement to linear movement.
Latest Patents
Cuffe holds a patent for a "Rotational to linear movement actuator with limiter." This actuator is designed to convert rotational movement into linear movement while transmitting a limited linear force without the need for slip clutches. The actuator features an electric motor housed in a fixed casing, with a drive shaft aligned along a longitudinal axis. A drive gear, which is substantially free of backlash, connects to the drive shaft and drives a nut with an internal screw thread. The output shaft, equipped with an external screw thread, engages with the drive nut's internal thread, allowing for linear movement when the drive nut is rotated. Additionally, a voltage control system enables the adjustment of voltage to the motor, ensuring a predetermined longitudinal force on the output shaft.
Career Highlights
Cuffe is currently employed at Measurex Devron Inc., where he continues to develop and refine his innovative actuator technologies. His work has garnered attention for its practical applications in various industries, showcasing his ability to merge theoretical concepts with real-world functionality.
Collaborations
Cuffe collaborates with Werner E Jordi, a fellow innovator in the field. Their partnership exemplifies the importance of teamwork in driving technological advancements and fostering innovation.
Conclusion
Albert A Cuffe's contributions to actuator technology highlight his inventive spirit and dedication to improving mechanical systems. His patent for the rotational to linear movement actuator demonstrates his ability to create solutions that enhance efficiency and functionality in engineering applications.