Company Filing History:
Years Active: 1976
Title: Milton K Burford: Innovator in Target Discriminating Technology
Introduction
Milton K Burford is a notable inventor based in China Lake, California. He has made significant contributions to the field of weaponry with his innovative designs. His work primarily focuses on creating advanced systems that enhance the effectiveness of military technology.
Latest Patents
Burford holds a patent for a "Target Discriminating Bomblet." This invention is a target discriminating antipersonnel/antimaterial cluster weapon capable of distinguishing between hard and soft targets. Upon striking a hard target, such as armor or concrete, shear rivets are defeated, causing a striker to plunge a firing pin into a stab detonator. This action leads to immediate detonation of the bomblet. Conversely, when hitting a soft target, the shear rivets remain intact, allowing an inertia firing weight to activate a firing pin assembly, which then leads to a propellant charge that causes the bomblet to pop back up into the air. The bomblet is detonated through a pyrotechnic delay in the air, and it is armed during its descent via a flutter plate that converts oscillatory motion into rotary motion. This rotary motion aligns the primer and detonator with the firing pins.
Career Highlights
Burford's career is marked by his work with the United States Navy, where he is represented by the Secretary of the Navy. His innovative approach to weapon design has garnered attention and respect within the military technology community.
Collaborations
Throughout his career, Burford has collaborated with notable colleagues, including Joseph F Mattis and Peter D Gratton. These partnerships have contributed to the development of advanced technologies in the field.
Conclusion
Milton K Burford's contributions to the field of weaponry through his patent for the Target Discriminating Bomblet exemplify his innovative spirit and dedication to enhancing military technology. His work continues to influence advancements in this critical area.