Company Filing History:
Years Active: 2010
Title: Yoshinori Kanazawa - A Pioneering Inventor in Electric Machine Manufacturing
Introduction
Yoshinori Kanazawa is an esteemed inventor based in Tokyo, Japan. He has made significant contributions to the field of electrical engineering, particularly through his innovative methods for manufacturing components of electric machines. His work showcases a blend of practical application and engineering insight.
Latest Patents
Kanazawa holds a patent for a "Method of manufacturing stator of rotating electric machine." This innovative method includes a conductor end shaping process, which is designed to transform multiple lead wires into a specific configuration. The process is pivotal for creating flat-patterned winding assemblies that are essential in optimizing the functionality of electric machinery. The shaping technique utilizes a stairstep conductor shaping jig to achieve bent lead wires, which are then realigned to their original positions, enhancing manufacturing efficiency and product quality.
Career Highlights
Yoshinori Kanazawa is currently associated with Mitsubishi Electric Corporation, a leading entity in the electrical equipment industry. His career at Mitsubishi has been marked by forwards-thinking approaches in the production of electric machines, where he has played an integral role in enhancing manufacturing processes.
Collaborations
Throughout his career, Kanazawa has collaborated with notable colleagues, including Yasukazu Nishimura and Yoshihiro Harada. These professional relationships have fostered an environment of innovation and knowledge sharing, leading to advancements in various engineering projects.
Conclusion
Yoshinori Kanazawa exemplifies the spirit of innovation in the electrical engineering arena. His patented methods not only contribute to the efficiency of manufacturing processes but also embody the continuous pursuit of technological advancement within the industry. As he continues his work at Mitsubishi Electric Corporation, his contributions will undoubtedly influence the future of electric machine manufacturing.