Company Filing History:
Years Active: 2020-2025
Title: Takeru Sakamoto: Innovator in Lighting and Connector Technologies
Introduction
Takeru Sakamoto is a notable inventor based in Nara, Japan. He has made significant contributions to the fields of lighting devices and connector mechanisms. With a total of 3 patents to his name, Sakamoto continues to push the boundaries of innovation.
Latest Patents
One of Sakamoto's latest inventions is a lighting device designed to illuminate in all directions. This device features a case with multiple wall portions, each having a polygonal shape. It includes several light-emitting elements that project light outward and a controller that manages these elements separately. The case is designed to be either spherical or polyhedral, with bent portions that form at least three sides of its outer shape.
Another significant patent is a connector holding mechanism. This mechanism consists of a biasing member located in a through hole of a storage body’s bottom plate. It also includes a cover with a connector insertion hole and an inclined surface, which is fixed to the through hole. The connector is designed so that its terminal can be loosely inserted into the connector insertion hole. When the connector is not in use, it is held at an angle due to the interaction between the inclined surface and a flange. When fitted to a stored object, the connector aligns vertically.
Career Highlights
Takeru Sakamoto is currently employed at Panasonic Intellectual Property Management Co., Ltd. His work at this esteemed company has allowed him to develop innovative technologies that enhance everyday devices.
Collaborations
Sakamoto has collaborated with talented coworkers, including Masaki Shikanai and Yoshinari Matsuyama. Their combined expertise has contributed to the successful development of various projects.
Conclusion
Takeru Sakamoto is a prominent inventor whose work in lighting and connector technologies showcases his innovative spirit. His patents reflect a commitment to enhancing functionality and efficiency in everyday applications.