Company Filing History:
Years Active: 2012-2013
Title: Katsuyuki Kakizaki: Innovator in Electrical Connectivity
Introduction
Katsuyuki Kakizaki, based in Tokyo, Japan, is an accomplished inventor with a notable contribution to the field of electrical connectivity. With two patents to his name, Kakizaki has made significant advancements in how electrical contacts operate, enhancing efficiency and functionality in various applications.
Latest Patents
His latest patent focuses on a "Contact and Electrical Connecting Apparatus." This innovative apparatus features a plate-shaped first plunger designed to connect with one member, alongside a second plunger that overlaps the first and conducts electricity between two members in synergy. The device incorporates a compression coil spring that facilitates the movement of the plungers, ensuring a reliable electrical connection. This design is pivotal for applications requiring robust and efficient electrical connections, showcasing Kakizaki's ingenuity in electrical engineering.
Career Highlights
Katsuyuki Kakizaki is currently employed at Kabushiki Kaisha Nihon Micronics. His role at this company allows him to explore innovative technological solutions in the electronics sector. With a strong emphasis on research and development, Kakizaki continuously seeks to improve existing technologies and contribute to the evolution of electrical connection systems.
Collaborations
Throughout his professional journey, Kakizuki has collaborated with talented colleagues, including Ken Kimura and Eichi Osato. These partnerships have enabled him to share ideas and foster innovation, leading to the successful development of patents that enhance the electrical connectivity landscape.
Conclusion
Katsuyuki Kakizaki remains a prominent figure in the field of electrical engineering. His innovative spirit and dedication to enhancing electrical connections position him as a valuable contributor to the industry and an inspiration for future inventors. As technology continues to advance, Kakizaki's work will likely leave a lasting impact on how electrical systems function in various applications.