Company Filing History:
Years Active: 1984-1985
Title: Innovations of Charles A. Gage
Introduction
Charles A. Gage is a notable inventor based in Webster, NY (US). He has made significant contributions to the field of electrostatography, holding a total of 4 patents. His work primarily focuses on methods and apparatuses for toner transfer, which are essential in modern printing technologies.
Latest Patents
Gage's latest patents include a toner transferring method and apparatus, as well as an electrostatic reproducing machine. The toner transferring method involves a sophisticated technique for transferring charged toner from an insulating layer to a copy substrate. This process utilizes a sandwich structure that includes a conductive substrate, a dielectric layer, and a conductive electrode. The apparatus is designed to create an electric field that facilitates the transfer of toner, ensuring high-quality image reproduction. The electrostatic reproducing machine features a reusable imaging web that allows for the formation and development of electrostatic latent images, which are then transferred to a copy sheet. This innovative design enhances the efficiency and effectiveness of the imaging process.
Career Highlights
Charles A. Gage has had a distinguished career at Xerox Corporation, where he has been instrumental in advancing electrostatographic technologies. His inventions have played a crucial role in improving the quality and efficiency of printing processes. Gage's expertise in this field has made him a valuable asset to his company and the industry as a whole.
Collaborations
Throughout his career, Gage has collaborated with notable colleagues, including Timothy T. Blair and Thomas W. Morgan. These partnerships have contributed to the development of innovative technologies and have furthered the advancements in electrostatography.
Conclusion
Charles A. Gage's contributions to the field of electrostatography through his patents and work at Xerox Corporation highlight his importance as an inventor. His innovative methods for toner transfer and electrostatic reproduction continue to influence the printing industry today.