Company Filing History:
Years Active: 2003
Title: Hiroyoshi Nimura: Innovator in Electromagnetic Control Technology
Introduction
Hiroyoshi Nimura is a notable inventor based in Aichi-ken, Japan. He has made significant contributions to the field of electromagnetic control technology, particularly through his innovative designs and patents. His work has been instrumental in advancing the functionality and efficiency of various mechanical systems.
Latest Patents
Hiroyoshi Nimura holds a patent for a compound electromagnetic valve, high pressure pump, and apparatus for controlling a high pressure pump. This invention features an electromagnetic control valve that includes a passage for conducting fluid. An electromagnetic actuator generates an electromagnetic force, which is utilized to open and close the main valve body in accordance with the generated force. Additionally, a bypass is formed in the main valve body, with a sub valve body that also opens and closes based on the electromagnetic force. This innovative design allows for precise control of fluid flow, enhancing the performance of high-pressure systems. He has 1 patent to his name.
Career Highlights
Hiroyoshi Nimura is currently employed at Toyota Jidosha Kabushiki Kaisha, a leading automotive manufacturer known for its commitment to innovation and quality. His role at Toyota has allowed him to apply his expertise in electromagnetic technology to develop advanced automotive systems.
Collaborations
Throughout his career, Hiroyoshi has collaborated with talented individuals such as Yoshiharu Takemoto and Koji Kasahara. These collaborations have fostered a creative environment that encourages the development of cutting-edge technologies.
Conclusion
Hiroyoshi Nimura's contributions to electromagnetic control technology exemplify the spirit of innovation in the automotive industry. His patent for a compound electromagnetic valve showcases his ability to solve complex engineering challenges. His work continues to influence the development of efficient and effective mechanical systems.