Company Filing History:
Years Active: 2022
Title: Ashley Gin: Innovator Behind the Press-to-Deploy Rotatable Latch Assembly
Introduction
Ashley Gin, an accomplished inventor based in Fremont, California, has made a significant contribution to the field of mechanical engineering with her innovative design of a latch assembly. Her patent reflects a clever solution to common challenges in latch mechanisms, showcasing her inventive spirit and technical expertise.
Latest Patents
Gin holds a patent for her invention titled "Press-to-Deploy Rotatable Latch Assembly." This innovative latch assembly features a latch arm with a rotational axis and an engagement surface at its distal end. In its stowed state, the engagement surface remains concealed. The latch arm is designed to absorb a pushing force that allows it to depress a predetermined distance along the rotational axis. Upon receiving this force, the turret assembly elevates and rotates the latch arm from a stowed state to a deployed state, exposing the engagement surface for use.
Career Highlights
Currently employed at The Boeing Company, Ashley Gin has leveraged her engineering knowledge to advance the development of aviation technologies. Her tenure at Boeing has been marked by the pursuit of practical and efficient solutions to enhance mechanical systems used in aircraft, with her patented latch assembly being one of her notable achievements.
Collaborations
In her efforts to refine her invention, Gin collaborates closely with her colleagues, including Harold G Erickson. This teamwork enhances the development process, allowing for the integration of diverse ideas and perspectives, thereby strengthening the innovation’s potential impact.
Conclusion
Ashley Gin exemplifies the innovative spirit essential for driving advancements in engineering. Her patent for the Press-to-Deploy Rotatable Latch Assembly not only highlights her technical proficiency but also her commitment to developing effective solutions for modern challenges. As a member of The Boeing Company, Gin continues to push the boundaries of mechanical engineering, contributing to the future of aviation technology.