Company Filing History:
Years Active: 2004
Title: **Innovative Contributions of Masaki Degichi in Sheet Transport Devices**
Introduction
Masaki Degichi is a notable inventor based in Kashiba, Japan, recognized for his contributions to the field of sheet transport technology. With one patent to his name, Degichi’s innovation addresses critical challenges in the efficiency of sheet transport systems.
Latest Patents
Degichi holds a patent for a unique sheet transport device. This innovation features a projecting tab that includes a bulged portion and an indent on the upper side, which projects inwardly into the transport path. When a sheet is transported, it is formed into a seemingly wavy configuration across the width of the transport path while in contact with this tab. This design ensures that the sheet maintains a sufficient transport backup force in the direction of movement. Consequently, it effectively prevents issues such as curled edges, folded corners, and paper jams, thereby enhancing the reliability of sheet transport processes.
Career Highlights
Masaki Degichi is employed at Kyocera Mita Corporation, a company renowned for its dedication to innovative solutions in imaging and document management technology. His work at this organization has contributed significantly to the advancement of machinery utilized in various industries, helping to streamline operations and improve overall efficiency.
Collaborations
Throughout his career, Degichi has collaborated with forward-thinking colleagues such as Masayuki Kakuta and Kuniaki Araishi. Their combined efforts have fostered a collaborative environment that encourages innovation and leads to groundbreaking developments in their shared field of expertise.
Conclusion
Masaki Degichi's inventive prowess, particularly evidenced by his patent for a novel sheet transport device, demonstrates his commitment to solving practical challenges in the industry. His work, alongside his colleagues at Kyocera Mita Corporation, continues to pave the way for advancements that enhance operational efficiency and reliability in equipment design.