Company Filing History:
Years Active: 2007
Title: Innovations by Sharon E. Ross
Introduction
Sharon E. Ross is a notable inventor based in Canton, OH, who has made significant contributions to engineering through her innovative designs. With a total of two patents to her name, she has demonstrated her expertise in creating advanced mechanical systems.
Latest Patents
One of her latest patents is the "Thermally Compensated Bearing System." This invention involves a shaft that rotates within a housing on two single row tapered roller bearings mounted in opposition. The design ensures that the raceways of one bearing taper downwardly toward the raceways of the other bearing. The housing is made from a metal with a higher coefficient of thermal expansion than that of the shaft and bearings. This configuration stabilizes the axis of rotation and prevents the cups of the bearings from becoming loose due to differential thermal expansion. The cups are designed with beveled back faces that abut beveled shoulders at the ends of the bearing seats, maintaining their position during thermal expansion.
Another significant patent is the "Thermally Compensated Differential." This invention comprises a housing that contains a pinion gear, along with a differential case that carries a ring gear. The case is supported by two roller bearings, which are indirectly mounted and contacted by adjustable spacers. This design enhances the performance and reliability of differential systems in various applications.
Career Highlights
Sharon E. Ross is currently employed at The Timken Company, where she continues to innovate and contribute to the field of mechanical engineering. Her work focuses on developing solutions that enhance the performance of bearing and differential systems.
Collaborations
Throughout her career, Sharon has collaborated with talented individuals such as Mircea Gradu and John Feltman. These partnerships have allowed her to expand her knowledge and refine her inventions.
Conclusion
Sharon E. Ross is a pioneering inventor whose work in thermally compensated systems has made a lasting impact in the engineering field. Her patents reflect her commitment to innovation and excellence in mechanical design.