Company Filing History:
Years Active: 2008-2013
Title: **David A. Payne: Innovator in Gas Turbine Technology**
Introduction
David A. Payne is a prominent inventor located in Phoenix, AZ, who has made significant contributions to the field of gas turbine technologies. With a total of seven patents to his name, Payne's innovations have advanced the efficiency and reliability of aircraft systems.
Latest Patents
Among his latest inventions, Payne developed a **Gas Turbine Engine Oil Consumption Monitoring System and Method**. This innovative system focuses on monitoring the oil consumption in gas turbine engines, integrating various sensors for reservoir oil level, temperature, and attitude. The system calculates the current oil quantity and determines the consumption rate based on averaged measurements, enhancing operational efficiency.
Another of his notable patents is for an **Aircraft Door Actuator Mounting Assembly**. This assembly comprises a cap, rod, spring mechanism, and switch assembly, designed to ensure precise actuator functionality. The assembly allows for axial movement when in certain relative positions, providing critical feedback to the system which improves the overall reliability of aircraft door operations.
Career Highlights
David A. Payne has developed his patents while working with Honeywell International Inc., a leading company in aerospace and industrial technology. His inventions not only exhibit his technical prowess but also highlight his commitment to innovation within the industry.
Collaborations
Throughout his career, Payne has collaborated with notable colleagues such as Steve Scott and Paul E. Garland. Working alongside these talented professionals has fostered an environment of creativity and advancement in aerospace technologies, further solidifying the impact of his work.
Conclusion
David A. Payne's contributions to the field of gas turbine technology are a testament to his inventive spirit and expertise in engineering. With seven patents to his name and ongoing collaborations, he continues to influence advancements in aerospace systems, paving the way for future innovations.