Company Filing History:
Years Active: 2005-2011
Title: Innovations by Shawn Brent Harline
Introduction
Shawn Brent Harline is an accomplished inventor based in Tucson, AZ. He has made significant contributions to the field of projectile technology, holding a total of 4 patents. His work focuses on enhancing the performance and safety of projectiles during launch.
Latest Patents
One of Harline's latest patents is for a "Projectile with filler material between fins and fuselage." This invention addresses the issue of undesired outward force against projectile fins during launch. By incorporating lightweight solid materials, such as suitable plastics or closed cell foams, the filler material prevents pressurized gases from entering the space between the fins and the fuselage. This innovative design ensures that when the fins deploy after emerging from the launch tube, the filler material falls away harmlessly.
Another notable patent is for a "Projectile having fins with spiracles." This design features fins that wrap around the fuselage when the projectile is in a gun or launch tube. The fins are equipped with spiracles, which are openings that allow pressurized gases to escape. This mechanism prevents undesired movement or bending of the fins during launch, particularly when encountering a muzzle brake that causes a sudden release of pressure.
Career Highlights
Shawn Brent Harline is currently employed at Raytheon Company, where he continues to innovate in the field of defense technology. His work has been instrumental in developing advanced projectile systems that enhance operational effectiveness.
Collaborations
Harline has collaborated with notable colleagues, including Chris Eugene Geswender and Nicholas E. Kosinski. Their combined expertise contributes to the success of their projects and innovations.
Conclusion
Shawn Brent Harline's contributions to projectile technology demonstrate his commitment to innovation and safety in defense applications. His patents reflect a deep understanding of the challenges faced during projectile launch and offer practical solutions to enhance performance.