Company Filing History:
1 out of 832,812 Years Active: 2013
Title: Ambrosia Danielle Bowlus: Innovator in Seismic Technology
Introduction
Ambrosia Danielle Bowlus is a notable inventor based in Anchorage, AK (US). She has made significant contributions to the field of seismic technology, particularly with her innovative designs aimed at enhancing safety during seismic events. Her work focuses on creating systems that can effectively absorb and dissipate seismic energy, thereby protecting structures and sensitive equipment.
Latest Patents
Ambrosia holds a patent for a "Seismic base isolation and energy dissipation device." This device utilizes a plurality of swing plates placed on a central wall, creating a robust load-bearing swing beam that operates in a true pendulum fashion. The system is designed to be positioned between the structural load and its foundation, effectively absorbing seismic wave displacement energy in all directions. This unique design can be scaled for large and heavy loads or adjusted to protect sensitive cargo and equipment from destructive motion. The swing plates within the swing beam provide support and motion absorption by moving as a pendulum, redirecting and dissipating seismic energy. The simplicity of the design makes it inexpensive to construct, easy to engineer and deploy, and requires minimal maintenance.
Career Highlights
Ambrosia's career is marked by her dedication to advancing seismic safety technology. Her innovative approach has garnered attention in the engineering community, and her patent reflects her commitment to creating practical solutions for real-world challenges.
Collaborations
Ambrosia has collaborated with her coworkers, including Larry Bowlus and Heidi Bowlus, who have contributed to her projects and innovations. Their teamwork has played a crucial role in the development of her seismic isolation technology.
Conclusion
Ambrosia Danielle Bowlus is a pioneering inventor whose work in seismic technology is making a significant impact. Her innovative designs not only enhance safety during seismic events but also demonstrate the potential for practical applications in engineering. Her contributions are paving the way for future advancements in the field.