Company Filing History:
Years Active: 2022
Title: The Innovative Contributions of Sarah Smith
Introduction
Sarah Smith is a notable inventor based in Claremore, OK (US). She has made significant contributions to the field of electrical engineering, particularly with her innovative designs for electrical connectors. Her work has been recognized for its practicality and effectiveness in enhancing the functionality of electrical submersible pumps.
Latest Patents
Sarah holds a patent for a "Power connector for electrical submersible pump." This invention features an electrical connector that includes an electrical conductor member with a first opening and a second opening. Grab rings mounted in these openings have inner diameters containing teeth with crests that define a superimposed inner diameter. The teeth of the grab rings deflect and frictionally engage the outer diameter of the wires to securely retain them in the openings. Additionally, a sleeve of insulation material covers the exterior of the conductor member, with ends that protrude past the openings to receive an insulation layer of the wires. Resilient electrical contact members are recessed from the grab rings in the openings, ensuring reliable electrical connections.
Career Highlights
Sarah is currently employed at Baker Hughes Oilfield Operations LLC, where she continues to innovate and develop new technologies. Her work at this company has allowed her to apply her expertise in electrical engineering to real-world applications, contributing to advancements in the oilfield operations sector.
Collaborations
Throughout her career, Sarah has collaborated with talented individuals such as Sean A. Cain and Scott C. Strattan. These collaborations have fostered a creative environment that encourages the exchange of ideas and the development of innovative solutions.
Conclusion
In summary, Sarah Smith is a pioneering inventor whose work in electrical connectors has made a significant impact in her field. Her patent for the power connector exemplifies her commitment to innovation and her ability to solve complex engineering challenges.