Company Filing History:
Years Active: 2008-2013
Title: Innovations of Christopher F. Dunmire
Introduction
Christopher F. Dunmire is an accomplished inventor based in Palos Verdes Estates, CA. He has made significant contributions to the field of engineering, particularly in the development of innovative solutions for mechanical systems. With a total of 2 patents to his name, Dunmire's work focuses on enhancing the functionality and longevity of mechanical components.
Latest Patents
Dunmire's latest patents include a method for retaining lubrication for life extension in existing splined joints. This method involves forming a seal between the inward surface of a grease seal cup and a first component, as well as another seal between the outward surface of the grease seal cup and a sealing member extending from a second component. The design ensures that the grease seal cup resists axial displacement during engagement, thereby maintaining lubrication effectively. His second patent is for a grease seal cup specifically designed for splined joints between a drive shaft and a driven shaft. This cup is made from a flexible polymer material and is engineered to form tight seals during installation, ensuring optimal performance without compromising weight balance.
Career Highlights
Dunmire is currently employed at Honeywell International Inc., where he continues to innovate and develop new technologies. His work at Honeywell has allowed him to apply his expertise in practical applications, contributing to the company's reputation for engineering excellence.
Collaborations
Some of Dunmire's notable coworkers include Trung Tran and Christopher L. Scott. Their collaborative efforts have further enhanced the innovative environment at Honeywell, leading to the development of cutting-edge technologies.
Conclusion
Christopher F. Dunmire's contributions to the field of engineering through his patents and work at Honeywell International Inc. highlight his commitment to innovation and excellence. His inventions are set to make a lasting impact on mechanical systems and their efficiency.