Location History:
- Kanagawa, JP (2019)
- Aiko-gun, JP (2017 - 2023)
Company Filing History:
Years Active: 2017-2023
Title: Yasunori Masumiya: Innovator in Machining Technology
Introduction
Yasunori Masumiya is a prominent inventor based in Aiko-gun, Japan. He has made significant contributions to the field of machining technology, holding a total of 11 patents. His innovative work focuses on enhancing machining processes through advanced program generation and tool path methods.
Latest Patents
Masumiya's latest patents include a machining program generation device and a machining method. The machining program generation device is equipped with a storage unit that retains machining conditions for various tool regions, determined by the number of effective edges in a multi-blade tool. It features a contact region calculation unit that identifies the tool region in contact with the workpiece during machining, based on the shapes of both the workpiece and the tool. Additionally, a machining program generation unit creates a machining program by associating the tool path with the stored machining conditions. The tool path generating method involves inputting a first function derived from a polynomial expression, generating a first tool path, and machining a workpiece through relative movement along this path. It also includes measuring the workpiece's shape at multiple points and calculating correction points to generate a second tool path based on a new function.
Career Highlights
Yasunori Masumiya is currently employed at Makino Milling Machine Company, Ltd., where he continues to develop innovative machining solutions. His work has significantly impacted the efficiency and precision of machining processes in the industry.
Collaborations
Masumiya collaborates with talented coworkers, including Kyohei Suzuki and Keitaro Suzuki, who contribute to his projects and innovations.
Conclusion
Yasunori Masumiya's contributions to machining technology through his patents and work at Makino Milling Machine Company, Ltd. highlight his role as a key innovator in the field. His advancements continue to shape the future of machining processes.