Company Filing History:
Years Active: 2020-2024
Title: The Innovative Contributions of Takayuki Matsui
Introduction
Takayuki Matsui is a notable inventor based in Kurobe, Japan. He has made significant contributions to the field of fasteners, holding a total of four patents. His work focuses on enhancing the functionality and reliability of molded surface fasteners.
Latest Patents
One of Matsui's latest patents is the Molded Surface Fastener. This innovative fastener includes a member with multiple engagement elements that are upright on the first surface of a base portion. A back member is secured to the second surface of the fastener member, featuring a structure that allows the passage of synthetic resin. The design incorporates a first base region of a predetermined thickness and a second base region that is thicker, which increases the adhesion strength of the back member to the fastener member.
Another significant patent is the Molded Surface Fastener and Manufacturing Method of Molded Surface Fastener. This invention consists of a base portion, right and left outer wall portions on the upper surfaces of the base, and a series of engaging elements positioned between the outer wall portions. The fastener is molded by integrating two types of synthetic resin, one of which contains magnetic particles. This design allows for stable formation of the magnetic wall portions into predetermined shapes.
Career Highlights
Matsui is currently employed at YKK Corporation, a leading company in the fastener industry. His work at YKK has allowed him to develop innovative solutions that enhance the performance of fastening systems.
Collaborations
Throughout his career, Matsui has collaborated with talented individuals such as Zhiyu Ren and Atsushi Nakaya. These collaborations have contributed to the advancement of his inventions and the overall success of his projects.
Conclusion
Takayuki Matsui's contributions to the field of fasteners through his innovative patents demonstrate his expertise and commitment to enhancing product functionality. His work continues to influence the industry and inspire future innovations.