Company Filing History:
Years Active: 2012-2014
Title: Innovations by Kelly Dale Valtr in Fluid Control Technologies
Introduction
Kelly Dale Valtr, a prominent inventor based in Roanoke, Texas, has made significant contributions to the field of fluid control technologies. With 2 patents to her name, she has demonstrated her ability to innovate and improve upon existing systems, enhancing their efficiency and functionality.
Latest Patents
Among her latest inventions is the "Case flow augmenting arrangement for cooling variable speed electric motor-pumps." This patent introduces a novel fluid circuit system, where a first pump assembly is equipped with an electric motor and fluid pump, which integrates a case drain port. The second pump assembly, powered by hydraulic pressure from the first fluid outlet, works to augment the flow through the case drain region, offering advanced solutions for fluid management in applications such as aircraft.
Her second patent, the "Fluid flow regulator," details a sophisticated valve assembly that defines a fluid passage with varying flow areas. The design incorporates orifices that adapt based on the differential pressure, thereby optimizing fluid flow both in forward and reverse directions. This innovation is crucial for applications requiring precise fluid control, ensuring effective regulation under varying operational conditions.
Career Highlights
Kelly is currently employed at Eaton Corporation, a leader in industrial and automotive technologies. Her role within the company allows her to work on cutting-edge projects that drive the evolution of fluid control systems.
Collaborations
Throughout her career, Kelly has collaborated with notable colleagues such as Phillip Wayne Galloway and Jeffrey David Skinner, Jr. Together, they contribute to Eaton Corporation's mission of innovation, leveraging their collective expertise to advance the development of cutting-edge technologies.
Conclusion
Kelly Dale Valtr's inventions exemplify the intersection of innovative thinking and practical application in the realm of fluid control technology. With her ongoing work at Eaton Corporation, she continues to push the boundaries of what is possible in her field, promising advancements that could enhance various industrial applications.