Location History:
- Kanagawa, JP (2019)
- Fujisawa, JP (2021 - 2023)
Company Filing History:
4 out of 779 
1 out of 45 
1 out of 18 Years Active: 2019-2023
Title: Exploring the Innovations of Inventor Kousuke Oura
Introduction
Kousuke Oura, an innovative inventor based in Fujisawa, Japan, has made significant contributions to the field of electroconductive materials. With a total of four patents to his name, he is recognized for developing advanced technologies that improve electroconductive rolls, which are crucial in various applications.
Latest Patents
Kousuke Oura's latest inventions include two notable patents focused on electroconductive rolls. The first patent, titled "Electroconductive Roll," describes a unique design that features a core member surrounded by a rubber base material and a surface layer. The invention boasts an arithmetic mean peak curvature of the surface layer between 1,880 (1/mm) and 14,024 (1/mm), optimizing its performance for specific applications.
The second patent, "Charging Roll," also highlights an electroconductive roll with a similar structure. This invention specifies that the surface area of the surface layer per unit projected area is between 1.255 and 6.635, enhancing its efficiency in operational uses.
Career Highlights
Throughout his career, Kousuke Oura has been associated with reputable companies, including Nok Corporation and Synztec Co., Ltd. His work at these organizations has allowed him to apply his innovative ideas and contribute to technological advancements in electroconductive materials.
Collaborations
During his journey as an inventor, Kousuke Oura has collaborated with esteemed colleagues such as Shogo Suzuki and Satoshi Fukuoka. Working together, they have driven forward innovative projects and shared ideas that have led to the successful development of cutting-edge technologies.
Conclusion
Kousuke Oura represents a remarkable example of ingenuity in the realm of electroconductive materials. With four patents to his name and a career marked by collaborations and significant innovations, he continues to play a pivotal role in advancing the technology that underpins modern electroconductive applications.