Company Filing History:
Years Active: 1999-2006
Title: Charles Bradley Hager: Innovator in Gas Regulation Technologies
Introduction
Charles Bradley Hager is an accomplished inventor based in Davenport, IA (US). He holds a total of 4 patents that showcase his expertise in gas regulation technologies. His innovative contributions have significantly impacted the field of gas generation systems.
Latest Patents
Hager's latest patents include the "Air Conserving Slide Valve," which is designed for regulating a gas generating system. This slide-type valve features an outer body with a slide face that has at least three open ports communicating with an interior cavity. The design includes a vent port and at least two bed ports that facilitate air flow with a gas concentrating bed unit. A slide block with a flat face moves along the slide face interior surface, allowing for controlled air flow through its openings.
Another notable patent is the "Variable Inlet Air Restriction for Composition Control of Product Gas." This controller system manages the product gas generated by molecular sieve beds for separating gas from an input supply. The valve assembly has multiple states, creating variable restrictions in gas flow, which enhances the efficiency of the gas separation process.
Career Highlights
Throughout his career, Hager has worked with reputable companies such as Litton Systems, Inc. and Carleton Life Support Systems Inc. His experience in these organizations has contributed to his development as a leading inventor in his field.
Collaborations
Hager has collaborated with notable coworkers, including Russell F. Hart and Tuan Q. Cao. Their combined expertise has likely fostered innovative solutions in their respective projects.
Conclusion
Charles Bradley Hager's contributions to gas regulation technologies through his patents demonstrate his innovative spirit and technical proficiency. His work continues to influence advancements in gas generation systems, showcasing the importance of inventors in driving technological progress.