Company Filing History:
Years Active: 2008-2010
Title: The Innovative Contributions of Jeffrey D. Heath
Introduction
Jeffrey D. Heath is a notable inventor based in Orion, Michigan, recognized for his contributions to vehicle technology. With a total of two patents to his name, Heath has made significant advancements in the design and functionality of gooseneck hinge assemblies for vehicles. His work reflects a commitment to enhancing vehicle performance and user experience.
Latest Patents
Heath's latest patents include innovative designs for gooseneck hinge assemblies. The first patent describes a gooseneck hinge assembly for a vehicle closure, which features a body side strap connected to the vehicle body and a closure side strap with a gooseneck shape. This design allows for rotational movement between the straps, facilitated by a pivot pin. Additionally, the assembly includes a wedge bumper that enables the decklid to rise fully and dampens the impact of the closure side strap. The second patent also focuses on a gooseneck hinge assembly, incorporating a body side bracket and a closure side bracket, along with a torque rod assembly that is infinitely adjustable to counterbalance the weight of the closure when opening and closing the aperture.
Career Highlights
Heath is currently employed at GM Global Technology Operations LLC, where he continues to innovate and develop new technologies for the automotive industry. His work at GM highlights his role in advancing vehicle design and functionality, contributing to the company's reputation for innovation.
Collaborations
Heath has collaborated with notable coworkers, including David T. Renke and Martin R. Manley. These partnerships have likely fostered a creative environment that encourages the development of cutting-edge automotive technologies.
Conclusion
Jeffrey D. Heath's contributions to vehicle technology through his innovative patents demonstrate his expertise and commitment to improving automotive design. His work continues to influence the industry and enhance the functionality of vehicle components.