Company Filing History:
Years Active: 2013
Title: James Michael Campbell: Innovator in Gear Drive Technology
Introduction
James Michael Campbell is a notable inventor based in Aberdeen, South Dakota, recognized for his contributions to gear drive technology. With two patents to his name, Campbell has made significant strides in the fields of mechanical engineering and innovative design.
Latest Patents
His latest patents include the "Housing assembly and method of assembling the same," which presents a housing assembly for a gear drive that incorporates an end member with a mating surface, alongside a body member that extends from the end member. This design involves a unique mating arrangement that forms a joint, enhancing the assembly's functionality.
Another significant patent is the "High efficiency right angle gearbox," which features an enclosure specifically designed to serve as a drop-in replacement for a gearbox that includes a worm gear set. This innovative gearbox design includes both an input member with a helical gear set and an output member that comprises a hypoid gear set, effectively allowing for efficient power transmission with an orthogonal output configuration.
Career Highlights
James has dedicated his talent and expertise to Hub City, Inc., where he has played an integral role in advancing the company's engineering capabilities. His work focuses on developing solutions that improve the efficiency and functionality of gear drives, making a lasting impact on the industry.
Collaborations
Throughout his career, Campbell has collaborated with talented coworkers, including Harold Oscar Schlenker and Larry Gene Anderson. These partnerships have fostered a creative environment that encourages innovation and problem-solving in engineering challenges.
Conclusion
With a commitment to mechanical innovation and a proven track record in design and engineering, James Michael Campbell stands out as a significant figure in the field of gear drive technology. His contributions continue to shape the landscape of mechanical systems, ensuring enhanced efficiency and functionality for various applications.