Company Filing History:
Years Active: 2021-2022
Title: Norikazu Kume: Innovator in Vapor Chamber Technology
Introduction
Norikazu Kume is a prominent inventor based in Nagaokakyo, Japan. He has made significant contributions to the field of thermal management through his innovative designs in vapor chamber technology. With a total of 5 patents to his name, Kume has established himself as a key figure in this specialized area of engineering.
Latest Patents
Kume's latest patents include groundbreaking designs for vapor chambers. One notable invention is a vapor chamber that features a housing defining an internal space, which contains a working medium and a wick structure. This vapor chamber is characterized by a first region with a greater thickness and a second region with a reduced thickness, enhancing its efficiency. Another significant patent involves a vapor chamber with pillars that have a decreasing cross-sectional area. This design includes a housing, a pillar, a sealed working fluid, and a wick. The pillar's unique structure allows for improved thermal performance by optimizing the contact surfaces within the chamber.
Career Highlights
Norikazu Kume is currently employed at Murata Manufacturing Co., Ltd., a leading company in electronic components and systems. His work at Murata has allowed him to focus on developing advanced thermal management solutions that are crucial for modern electronic devices. Kume's innovative spirit and technical expertise have led to numerous advancements in vapor chamber technology.
Collaborations
Throughout his career, Kume has collaborated with talented individuals such as Takuo Wakaoka and Haruhiko Ikeda. These partnerships have fostered a creative environment that has resulted in several successful innovations in the field.
Conclusion
Norikazu Kume's contributions to vapor chamber technology exemplify his dedication to innovation and excellence. His patents reflect a deep understanding of thermal management, making him a valuable asset in the engineering community. Kume's work continues to influence the design of efficient thermal solutions in various applications.