Company Filing History:
Years Active: 2012-2019
Title: **Innovator Profile: Timothy Davison**
Introduction
Timothy Davison, an accomplished inventor based in Pittsburgh, PA, has made significant contributions to the field of defense-related robotic systems. With a total of three patents to his name, Davison represents the innovative spirit that drives advancements in technology and robotics.
Latest Patents
Among his latest patents, Davison has developed a groundbreaking quick-release assembly for robotic systems. This invention features a first joint member that supports a robot component, equipped with a first coupler and a second joint member. The robot arm mounted on the assembly includes a second coupler, a clamp, and a locking collar. The innovative design allows for the first coupler to be coaxially aligned and pressed into the second joint member, enabling a secure yet detachable connection. Additionally, the first mechanical coupler transfers power across the assembly, enhancing the functionality of the robotic component through an additional electrical connector. This quick-release assembly exerts large forces while requiring minimal torque, utilizing a two-stage wedge engagement, and may also incorporate a sequencing system.
Career Highlights
Timothy Davison has honed his expertise through significant work experience at reputable companies such as Re2, Inc. and Raytheon Company. His tenure at these organizations underscores his commitment to pioneering advancements in robotic technologies, particularly in defense applications.
Collaborations
Throughout his career, Davison has collaborated with talented professionals like Jorgen Pedersen and Jesse Easudes. These partnerships have fostered a creative environment conducive to the development of innovative robotic solutions.
Conclusion
In summary, Timothy Davison stands out as a prominent inventor in the realm of defense robotics. His patented innovations reflect a deep understanding of mechanical systems and robotic functionality, contributing to the evolution of robotic technology. As the field continues to advance, Davison’s work will undoubtedly leave a lasting impact on the industry.