Company Filing History:
Years Active: 2010
Title: Martin A. Trenkle: Innovating Vehicle Safety in Dearborn, MI
Introduction
Martin A. Trenkle is an innovative inventor based in Dearborn, Michigan, known for his significant contributions to automotive safety. With one patent to his name, he has demonstrated a keen ability to address critical issues within the vehicle environment, particularly relating to window safety during crash events.
Latest Patents
Martin's notable patent is for a "Vehicle Door Glass Blocker and Breaker." This invention encompasses a unique assembly designed to enhance vehicle door safety. The assembly features a blocking bracket that can be securely attached to a vehicle door frame panel. A blocking edge, integrally formed with the blocking bracket, extends vertically and aims to shatter the vehicle window when impacted during a collision. The design also includes a blocking protrusion to prevent transversal displacement of the window and a support bracket that helps reduce vibrations in the window, ultimately enhancing user safety.
Career Highlights
Currently, Martin A. Trenkle is employed at Ford Global Technologies, LLC, where he continues to innovate and develop solutions for automotive challenges. His focus on safety mechanisms reflects the company's commitment to improving vehicle design and ensuring passenger protection.
Collaborations
Throughout his career, Martin has had the opportunity to collaborate with esteemed colleagues such as Donald Paul Iacovoni and Paul L. Heirtzler, Jr. These partnerships exemplify the teamwork and shared vision for advancing automotive safety that is critical in the industry.
Conclusion
In summary, Martin A. Trenkle stands out as a pioneering figure in the realm of automotive safety innovations. His patent for the vehicle door glass blocker and breaker highlights his dedication to enhancing vehicle design and protecting passengers. As he continues to work at Ford Global Technologies, LLC, his contributions are expected to play a significant role in shaping the future of automotive safety.