Company Filing History:
Years Active: 2021
Title: Innovations of Jacob Rice in Variable Stiffness Actuation
Introduction
Jacob Rice is an innovative inventor based in Milwaukee, WI (US). He has made significant contributions to the field of robotics and mechanical engineering. His work focuses on developing advanced actuation systems that enhance the performance and adaptability of robotic devices.
Latest Patents
Jacob Rice holds a patent for a Variable Stiffness Series Elastic Actuator. This actuator features a flexure plate that includes a first cantilevered beam extending inward from the outer periphery of the flexure plate. The design incorporates a housing and a flexure plate that can rotate about a common joint axis. A first contactor is pivotably secured at a revolute joint to the housing, allowing it to rotate about the revolute joint at a first rotation axis. This rotation axis is offset from the joint axis on the housing. The first contactor engages the first cantilevered beam at a variable angle about the rotation axis, enabling the adjustment of stiffness in the mechanical connection between the flexure plate and the housing. This innovation has the potential to improve the functionality of robotic systems by allowing for variable stiffness control.
Career Highlights
Jacob Rice is affiliated with Marquette University, where he contributes to research and development in robotics and mechanical systems. His work is characterized by a commitment to advancing technology through innovative design and engineering solutions. He has successfully secured 1 patent that showcases his expertise in the field.
Collaborations
Jacob collaborates with notable colleagues, including Joseph M Schimmels and Andrew Bernhard. Their combined efforts contribute to the advancement of research and innovation in their respective fields.
Conclusion
Jacob Rice's contributions to the field of variable stiffness actuation represent a significant advancement in robotics. His innovative designs and collaborative efforts continue to push the boundaries of technology and engineering.