Company Filing History:
Years Active: 2003
Title: Scott Van Weelden: Innovator in Aerodynamic Technologies
Introduction
Scott Van Weelden is a notable inventor based in Lancaster, CA (US). He has made significant contributions to the field of aerodynamics and munitions technology. With a total of two patents to his name, Van Weelden's work focuses on innovative solutions for mounting payloads and enhancing aerodynamic control.
Latest Patents
Scott Van Weelden's latest patents include a "Mounting structure for attaching a payload, such as a warhead, to munitions." This invention involves an apparatus designed to securely mount a payload to bulkheads carried by munitions. The apparatus features fore and aft bulkheads, each with centrally located openings, and a bulkhead attaching structure that engages with the payload. The design includes various embodiments, such as an annular ring element and a step element, to ensure secure attachment.
Another significant patent is for "Aerodynamic control for separation of unstable bodies." This apparatus is designed to separate aerodynamic objects from a vehicle by creating a nose-down pitching moment. It includes a first element that conforms to the object surface and a second element that projects into the airstream, facilitating the separation process when enabled.
Career Highlights
Scott Van Weelden is currently employed at Lockheed Martin Corporation, where he applies his expertise in aerodynamics and munitions technology. His work at Lockheed Martin has allowed him to contribute to advanced defense technologies and innovative solutions in the aerospace sector.
Collaborations
Some of Scott's coworkers include Steve Ericson and Axel Sehic. Their collaboration fosters a creative environment that enhances the development of cutting-edge technologies.
Conclusion
Scott Van Weelden is a distinguished inventor whose work in aerodynamic technologies and munitions has led to significant advancements in the field. His innovative patents reflect his commitment to enhancing safety and efficiency in aerospace applications.