Company Filing History:
Years Active: 1987-1989
Title: Masaru Sugino: Innovator in Vibration Damping Technology
Introduction
Masaru Sugino is a prominent inventor based in Fujisawa, Japan. He has made significant contributions to the field of vibration damping technology, holding a total of 6 patents. His work focuses on improving the performance and reliability of automotive components through innovative designs.
Latest Patents
Sugino's latest patents include an "Apparatus for Supporting a Vibrating Object" and a "Method of Determining and Damping Vibrations." The apparatus is designed to support a vibration body, such as a power unit in an automotive vehicle. It features an orifice in a partitioning member that communicates between two fluid chambers, allowing for the adjustment of the resonant frequency. This design effectively reduces multiple vibrations by utilizing the dynamic spring constant of a fluid dynamic damper. The method of determining and damping vibrations involves identifying the first resonant frequency of a system that includes a vibratory body, a supporting body, and a vibration damping device. This method dampens vibrations at the first resonant frequency by creating separate chambers that communicate through a passage, imparting a second resonant frequency to the fluid.
Career Highlights
Masaru Sugino is currently employed at Nissan Motor Company Limited, where he applies his expertise in vibration damping technology to enhance automotive performance. His innovative approaches have contributed to the development of more efficient and reliable vehicles.
Collaborations
Sugino has collaborated with notable colleagues, including Shinichi Matsui and Shin Takehara. Their combined efforts have led to advancements in vibration control technologies within the automotive industry.
Conclusion
Masaru Sugino's contributions to vibration damping technology have made a significant impact on the automotive sector. His innovative patents and collaborative efforts continue to drive advancements in vehicle performance and reliability.