Company Filing History:
Years Active: 1987-1989
Title: Jack Kimble: Innovator in Electromechanical Actuation
Introduction
Jack Kimble is a notable inventor based in Rancho Santa Fe, California. He has made significant contributions to the field of electromechanical actuation, holding a total of 2 patents. His innovative designs focus on improving the efficiency and functionality of linear actuators.
Latest Patents
One of Jack's latest patents is for a "Moving Coil Linear Actuator with Interleaved Magnetic Circuits." This invention features a double-ended moving coil linear actuator that includes a cylindrical core and a hollow shell. The design defines an annular space between the core and shell, which is divided by a non-magnetic spacer into two cavities. Each cavity contains a set of magnets that create distinct magnetic circuits, with an additional interleaved magnetic circuit formed by their interaction. This innovative approach enhances the actuator's performance.
Another significant patent is for a "Variable Force Linear Actuator." This actuator is designed to have a variable drive force, utilizing a moving coil that responds to input current. The magnetic circuit is engineered to provide non-uniform flux density along the stroke path, allowing for cost-effective materials and reduced dimensions of the magnetic components. This design not only improves performance but also lowers construction costs.
Career Highlights
Jack Kimble is currently associated with Bei Electronics LLC, where he continues to develop cutting-edge technologies in the field of electromechanical systems. His work has garnered attention for its practical applications and innovative solutions.
Collaborations
Jack collaborates with Mikhail Godkin, contributing to the advancement of their projects and sharing insights that enhance their work.
Conclusion
Jack Kimble's contributions to electromechanical actuation through his patents demonstrate his commitment to innovation and efficiency. His work continues to influence the industry, paving the way for future advancements in actuator technology.