Company Filing History:
Years Active: 2002-2003
Title: The Innovations of Jill R. Gnass
Introduction
Jill R. Gnass is a notable inventor based in Fowlerville, MI (US). She has made significant contributions to the field of automotive engineering, particularly in the design of differential bearing assemblies. With a total of 2 patents to her name, her work reflects a commitment to innovation and improvement in vehicle performance.
Latest Patents
Jill's latest patents include a one-piece differential bearing adjuster lock and fastener. This invention pertains to a drive axle assembly for motor vehicles, which features an axle housing, a differential bearing, a differential assembly, an adjustment nut, and an adjuster lock. The differential assembly is rotatably supported within the axle housing by the differential bearing. The design includes a bearing cap with an aperture, allowing the adjustment nut to engage with the differential bearing. This mechanism enables the adjustment nut to axially displace the differential bearing through rotation. The adjuster lock is ingeniously designed with a first portion that includes a barb in the bearing cap aperture and a second portion with a lock pin in the retention aperture, effectively preventing the adjustment nut from rotating relative to the bearing cap.
Career Highlights
Jill R. Gnass is currently employed at American Axle & Manufacturing, Inc., where she continues to innovate and contribute to the automotive industry. Her work has been instrumental in enhancing the functionality and reliability of vehicle components.
Collaborations
Throughout her career, Jill has collaborated with esteemed colleagues such as David Marshall Morse and Joseph M. Endreszl. These partnerships have fostered a creative environment that encourages the development of groundbreaking automotive technologies.
Conclusion
Jill R. Gnass exemplifies the spirit of innovation in the automotive sector. Her patents and contributions to American Axle & Manufacturing, Inc. highlight her dedication to advancing vehicle technology. Her work continues to influence the industry and inspire future inventors.