Company Filing History:
Years Active: 2023
Title: Innovations of Chad M Huls in Hydraulic Technology
Introduction
Chad M Huls is an accomplished inventor based in Royal Oak, MI (US). He has made significant contributions to the field of hydraulic technology, particularly in the design of pumps for automatic transmissions. His innovative approach has led to the development of a unique hydraulic gerotor pump that enhances the efficiency and performance of automotive systems.
Latest Patents
Chad M Huls holds a patent for a hydraulic gerotor pump designed for automatic transmissions. This invention features a housing and a gear set that is rotatably disposed within the housing. The gear set consists of an inner gear and an outer gear with radially opposed intermeshing teeth, which together create a series of circumferentially disposed variable volume pumping chambers. Notably, the housing is constructed from a first aluminum-based material, while the inner and outer gears are made from a second aluminum-based material. The linear coefficient of thermal expansion of both materials is substantially the same, ensuring optimal performance under varying temperature conditions.
Career Highlights
Chad M Huls is currently employed at GM Global Technology Operations LLC, where he continues to innovate and develop advanced technologies for the automotive industry. His work focuses on improving the efficiency and reliability of hydraulic systems, contributing to the overall advancement of automotive engineering.
Collaborations
Chad has collaborated with notable colleagues, including Robert Benson Parrish and Wenying Yang. These partnerships have fostered a creative environment that encourages the exchange of ideas and the development of cutting-edge technologies.
Conclusion
Chad M Huls is a prominent figure in the field of hydraulic technology, with a patent that showcases his innovative spirit and technical expertise. His contributions to the automotive industry are significant, and his work continues to influence the development of efficient hydraulic systems.