Company Filing History:
Years Active: 2019
Title: Kiyotaka Nakagawa: Innovator in Machining Technology
Introduction
Kiyotaka Nakagawa is a prominent inventor based in Tokyo, Japan. He has made significant contributions to the field of machining technology, holding a total of 2 patents. His work focuses on enhancing the accuracy and speed of machining processes, which are crucial in various industrial applications.
Latest Patents
Kiyotaka Nakagawa's latest patents include a combined machining apparatus and a combined machining method. This innovative apparatus is designed to perform machining with higher accuracy and at a high speed. It features a stage unit, a mechanical machining unit with a machining head, and a laser machining unit that emits laser for machining workpieces. The laser machining head is equipped with a laser turning unit that allows for precise control of the laser's position relative to the workpiece.
Another notable patent is a laser processing apparatus and method. This apparatus includes a first optical system with prisms, a condensing optical system, and driving devices that rotate the prisms synchronously. The controller adjusts the irradiation conditions of the laser light, ensuring optimal machining results.
Career Highlights
Kiyotaka Nakagawa is currently employed at Mitsubishi Heavy Industries Limited, a leading company in the manufacturing sector. His role involves developing advanced machining technologies that improve production efficiency and product quality. His innovative approaches have positioned him as a key figure in the industry.
Collaborations
Kiyotaka has collaborated with notable coworkers such as Tsugumaru Yamashita and Yoshihito Fujita. Their combined expertise has contributed to the successful development of cutting-edge machining solutions.
Conclusion
Kiyotaka Nakagawa's contributions to machining technology through his patents and work at Mitsubishi Heavy Industries Limited highlight his role as an influential inventor. His innovations continue to shape the future of machining processes, making them more efficient and precise.