Company Filing History:
Years Active: 2020-2025
Title: Chikara Tango: Innovator in Machine Tool Technology
Introduction
Chikara Tango is a prominent inventor based in Yamanashi, Japan. He has made significant contributions to the field of machine tool technology, holding a total of nine patents. His innovative designs and systems have advanced the capabilities of numerical control machinery.
Latest Patents
One of Chikara Tango's latest patents is a machine tool designed to easily acquire the distance between a spindle of a first unit and a holder of a second unit. This machine tool features relative movement mechanisms that move a table for supporting an object to be machined in relation to a support unit. It also includes a movement control unit, a relative position detection unit, and a distance calculation unit that calculates the distance between the first and second units based on relative positions.
Another notable patent is a numerical control system with distributed look-ahead processing of multiple numerical controllers. This system aims to detect positions in a machining program where speed control abnormalities may occur. It features a program execution unit, first and second program look-ahead units, and a look-ahead allocation unit that divides storage for efficient processing.
Career Highlights
Chikara Tango is currently employed at Fanuc Corporation, a leading company in automation and robotics. His work at Fanuc has allowed him to develop cutting-edge technologies that enhance the performance and reliability of machine tools.
Collaborations
Chikara has collaborated with notable coworkers such as Daisuke Uenishi and Masahiro Murota. Their combined expertise has contributed to the successful development of innovative solutions in the field of machine tools.
Conclusion
Chikara Tango's contributions to machine tool technology through his patents and work at Fanuc Corporation highlight his role as a key innovator in the industry. His advancements continue to shape the future of numerical control systems and machining processes.