Company Filing History:
Years Active: 2011-2016
Title: Innovations of Tetsuya Sukegawa
Introduction
Tetsuya Sukegawa is a notable inventor based in Kodaira, Japan. He has made significant contributions to the field of appearance inspection and tire manufacturing technology. With a total of two patents to his name, Sukegawa's work focuses on enhancing the quality and efficiency of inspection processes.
Latest Patents
Sukegawa's latest patents include an appearance inspection apparatus and method designed to detect surface characteristics such as shape, unevenness, shine, and color tone changes. This innovative method involves acquiring reflected luminance data from a sample surface using a specialized slit light. The apparatus utilizes multiple wavelengths of light to accurately assess surface conditions, enabling precise detection of imperfections.
Another significant patent is a device and method for generating reference geometric data for tire inspection. This invention involves a split mold for vulcanizing tires, which is held on a rotatable base. The measuring section of the device captures distances to the inner surface of the mold, allowing for the acquisition of two-dimensional and three-dimensional geometric data. This data is crucial for ensuring the quality and safety of tire manufacturing.
Career Highlights
Sukegawa is currently employed at Bridgestone Corporation, a leading company in the tire industry. His work at Bridgestone has allowed him to apply his innovative ideas to real-world applications, contributing to the company's reputation for quality and technological advancement.
Collaborations
One of Sukegawa's notable coworkers is Takao Kokubu. Their collaboration has likely fostered an environment of innovation and creativity within their projects.
Conclusion
Tetsuya Sukegawa's contributions to the fields of appearance inspection and tire manufacturing demonstrate his commitment to innovation and quality. His patents reflect a deep understanding of technology and its application in improving industrial processes.