Toshiyuki Sugimura

Title: The Innovative Contributions of Toshiyuki Sugimura

Introduction: Toshiyuki Sugimura, an esteemed inventor based in Amagasaki, Japan, has made significant contributions to the field of temperature measurement technology. With one patent to his name, Sugimura has demonstrated his expertise and innovative spirit through his unique approach to measuring the surface temperature of metallic bodies.

Latest Patents: Sugimura's sole patent, titled "Method of and apparatus for measuring surface temperature of metallic," presents a novel method for accurately determining the surface temperature of metallic materials. The method involves positioning a reflecting member to work as a resonator in conjunction with a flat surface of the metallic body. Key steps in the process include measuring the mean reflectivity over a specific frequency band that aligns with the resonator's resonance frequency, along with measuring the luminance temperature of the resonator. These measurements are then utilized to compute the surface temperature of the metallic body. This innovative apparatus is especially beneficial for measuring the temperature of steel sheets heated between 500°C and 800°C.

Career Highlights: Sugimura's professional journey is marked by his affiliation with Sumitomo Metal Industries, Inc., a leading company in the metal industry. His work there has positioned him as a valuable contributor to advancing measurement technologies within the sector.

Collaborations: Throughout his career, Sugimura has collaborated with notable coworkers, including Akio Hatono and Sumio Kobayashi. Their collective efforts have fostered innovation within their projects, further enhancing the technological advancements in their field.

Conclusion: Toshiyuki Sugimura's innovative method and apparatus for measuring surface temperature exemplify the importance of inventiveness in industrial applications. His contributions not only serve to enhance measurement accuracy but also reflect the spirit of collaboration and advancement in modern technology, benefiting industries that rely on precise temperature measurements.