Company Filing History:
Years Active: 2019-2025
Title: Tatsuya Kenjo: Innovator in Image Forming Technology
Introduction
Tatsuya Kenjo is a prominent inventor based in Tokyo, Japan. He has made significant contributions to the field of image forming technology, holding a total of 4 patents. His innovative designs focus on enhancing the efficiency and functionality of image processing systems.
Latest Patents
Kenjo's latest patents include an image forming system, a post-processing apparatus, and a binding device. The image forming system features an apparatus designed to create images on sheets, complemented by a post-processing apparatus that includes a binding device. This binding device is capable of executing binding processes through a staple forming process and a staple striking-out process. The control unit of the system is designed to manage the binding device, allowing it to repeat the staple forming process multiple times without the need for immediate staple striking-out.
Another notable invention is an electric stapler, which consists of a binding part that binds sheet bundles by striking out staples. The design includes a first guide part and a second guide part that face each other, ensuring proper alignment and functionality during the binding process. The lengths from the end portions of the guide parts to the binding part are designed to be 15 mm or longer, enhancing the stapler's usability.
Career Highlights
Tatsuya Kenjo is currently employed at Max Co., Ltd., where he continues to innovate and develop new technologies in the field of image forming. His work has significantly impacted the efficiency of binding processes in various applications.
Collaborations
Kenjo collaborates with talented individuals such as Masashi Shimamura and Kazuhiko Kishi, contributing to a dynamic and innovative work environment.
Conclusion
Tatsuya Kenjo's contributions to image forming technology through his patents and collaborative efforts highlight his role as a key innovator in the industry. His work continues to influence advancements in image processing and binding technologies.