Company Filing History:
Years Active: 2013
Title: The Innovative Contributions of Dale Smiley in Armored Vehicle Design
Introduction
Dale Smiley, an inventor based in Cincinnati, OH, has made significant strides in the field of vehicle safety and design. With a focus on creating innovative solutions for armored vehicles, Dale has earned recognition for her contributions to military and tactical vehicle protection.
Latest Patents
Dale Smiley holds a patent for a "Lightweight Blast Resistant Armored Cab for Vehicles." This innovative design comprises a top wall, two side walls, a front wall, a back wall, and a bottom wall. Notably, the cab features a longitudinal axis extending from the back wall to the front wall. The unique construction of the bottom wall includes a first downwardly facing convex wall and at least a second downwardly facing convex wall positioned above the first convex wall, along with a plurality of connecting members interconnecting both walls. This inventive approach enhances the protective capabilities of tactical vehicles.
Career Highlights
Dale is employed at BAE Systems Tactical Vehicle Systems LP, a leading company in the development and manufacturing of defense vehicles. Her work focuses on integrating advanced safety technologies into vehicle designs, showcasing her commitment to enhancing soldier safety on the battlefield.
Collaborations
Throughout her career, Dale has worked alongside talented colleagues such as Timothy Sherbeck and Ricky Don Johnson. These collaborations have fostered an environment of creativity and innovation, allowing for the development of cutting-edge military vehicles.
Conclusion
Dale Smiley's contributions to armored vehicle design not only demonstrate her innovative spirit but also highlight the importance of safety in military applications. With her patent on the lightweight blast-resistant armored cab, she has paved the way for improved protection in tactical vehicles. Dale's ongoing work at BAE Systems Tactical Vehicle Systems LP continues to make a lasting impact in the field of defense technology.