Location History:
- Inazawa, JP (1992)
- Kani, JP (2004)
- Aichi, JP (2012)
Company Filing History:
Years Active: 1992-2012
Title: The Innovative Contributions of Takashi Nishimoto
Introduction
Takashi Nishimoto is a prominent inventor based in Aichi, Japan, known for his significant contributions to the field of machining technology. With a total of three patents to his name, Nishimoto has developed innovative solutions that enhance the efficiency and precision of machining processes.
Latest Patents
One of Nishimoto's latest patents is a tailstock control device. This device supports an object to be machined by driving and controlling a servo motor, which operates the driving system of a tailstock. The tailstock is designed to move in forward and backward directions, allowing a tailstock center to contact the center hole of the object being machined. The device includes a limit torque value calculating unit that determines the necessary drive torque value for supporting the object, ensuring optimal performance during machining.
Another notable patent is a method of machining a female screw and dressing a grinding wheel for female screw machining. This method involves tilting the spindle of an internal grinding wheel at an angle smaller than the lead angle of the female screw. By supplying specifications and data to a program, the grinding wheel can be dressed accurately, allowing for precise machining of the female screw groove in the workpiece.
Career Highlights
Throughout his career, Takashi Nishimoto has worked with reputable companies such as Okuma Corporation and Okuma Machinery Works Ltd. His experience in these organizations has contributed to his expertise in machining technologies and innovation.
Collaborations
Nishimoto has collaborated with notable coworkers, including Fumitoshi Terasaki and Yoshiichi Ichikawa. Their combined efforts have led to advancements in machining techniques and technologies.
Conclusion
Takashi Nishimoto's innovative patents and career achievements highlight his significant impact on the machining industry. His work continues to influence the development of advanced machining technologies, showcasing the importance of innovation in this field.