Company Filing History:
Years Active: 1984
Title: Teruyoshi Tanabe: Innovator in Cable Insulation Technology
Introduction: Teruyoshi Tanabe is a notable inventor based in Ichihara, Japan. He has made significant contributions to the field of electrical engineering, particularly in the development of insulation technology for power cables. His innovative approach has led to the registration of at least one patent, demonstrating his expertise and creativity in his field.
Latest Patents: Teruyoshi Tanabe holds a patent for an "Insulating Joint for Rubber or Plastic Insulated Power Cable." This invention involves the creation of insulation shields around the insulation layers covering the cable conductor joint portions of adjacent cables. The shielding is designed so that the insulation shields align longitudinally with a layer possessing a high dielectric constant and high volume resistivity interposed between them. The composite layer consists of 100 parts by weight of rubber or plastic as a base, along with 50 to 700 parts by weight of silicon carbide or zinc oxide, and 2 to 60 parts by weight of carbon black. This innovative formulation enhances the performance and reliability of power cables.
Career Highlights: Teruyoshi Tanabe has dedicated his career to improving electrical insulation systems. His work at Furukawa Electric Co., Ltd. exemplifies his commitment to advancing technology in this important sector.
Collaborations: Throughout his career, Tanabe has collaborated with esteemed colleagues, including Shin-ichi Irie and Yasuhiro Yamashita. These partnerships have contributed to a deeper understanding of electrical insulation and have helped to drive innovations within their field.
Conclusion: Teruyoshi Tanabe's contributions to the field of insulation technology for power cables reflect his dedication as an inventor. His patented innovations not only showcase his technical skills but also contribute to enhancing electrical systems' safety and efficiency. As the landscape of electrical engineering continues to evolve, Tanabe's work will likely inspire future advancements in cable technology.