Company Filing History:
Years Active: 1987
Title: Michael F Durstin: Innovator in Robotic Control Systems
Introduction
Michael F Durstin is an accomplished inventor based in Harwinton, CT (US). He has made significant contributions to the field of robotics, particularly in the control systems that drive robotic appendages. His innovative approach has led to the development of a unique patent that enhances the functionality and safety of robotic operations.
Latest Patents
One of Michael's notable patents is titled "Control for Electric Motor that Drives a Robotic Appendage." This invention provides a control mechanism for an electric motor that enables a robotic appendage to engage with objects effectively. The control system allows the robotic appendage to approach an object at a high speed initially, which expedites the work operation. As the appendage nears the object, the control system reduces the speed to protect both the object and the motor from potential damage. A timer is integrated into the system to determine the optimal moment to alter the motor speed, ensuring precision and safety during operation. Michael holds 1 patent for this innovative technology.
Career Highlights
Michael F Durstin is associated with Durstin Machine & Manufacturing, Inc., where he applies his expertise in robotics and control systems. His work at the company has allowed him to explore and develop advanced technologies that contribute to the manufacturing sector. His dedication to innovation has positioned him as a key player in the field.
Collaborations
Michael collaborates with talented individuals in his field, including his coworker George Joseph Yagusic. Together, they work on projects that push the boundaries of robotic technology and enhance the capabilities of their inventions.
Conclusion
Michael F Durstin is a visionary inventor whose work in robotic control systems has made a significant impact on the industry. His innovative patent demonstrates his commitment to advancing technology and improving operational efficiency in robotics.