Fumiaki Harada

Title: Fumiaki Harada: Innovator in Image Reading Technology

Introduction

Fumiaki Harada is a notable inventor based in Kawasaki, Japan. He has made significant contributions to the field of image reading technology, holding 2 patents that showcase his innovative approach to improving image scanning processes.

Latest Patents

One of Harada's latest patents is an "Image reading apparatus having a steeply inclined paper transport path." This invention is designed to enhance the efficiency of image scanners by allowing them to read a large number of paper sheets successively and rapidly. It accommodates various paper sizes, ranging from small to large. The apparatus includes a paper supply mechanism, a paper transport mechanism, an optical image reading mechanism, and a paper stacking mechanism. The transport mechanism features an inclined transport path and a paper reversing transport path, along with multiple transport rollers that ensure smooth operation.

Another significant patent is the "Image forming apparatus." This device is engineered for continuously feeding sheets and transferring images onto them. It consists of an endless type rotatable image forming body, an image forming unit, a transfer unit, and a feeding unit. The apparatus is equipped with position detectors that help control the feeding speed of the sheets, ensuring precise image transfer.

Career Highlights

Fumiaki Harada is currently employed at Fujitsu Corporation, where he continues to develop innovative technologies in the imaging sector. His work has been instrumental in advancing the capabilities of image reading and forming devices.

Collaborations

Harada has collaborated with notable colleagues, including Yoshihiro Takashimizu and Masahiro Yoshida. Their combined expertise has contributed to the successful development of advanced imaging technologies.

Conclusion

Fumiaki Harada's contributions to image reading technology reflect his dedication to innovation and excellence. His patents demonstrate a commitment to improving the efficiency and functionality of imaging devices, making a lasting impact in the field.