Company Filing History:
Years Active: 1994-2005
Title: The Innovations of Craig T. Compton
Introduction
Craig T. Compton is a notable inventor based in Green Bay, WI (US). He has made significant contributions to the field of printing technology, holding a total of 5 patents. His work primarily focuses on enhancing the efficiency and functionality of printing presses.
Latest Patents
One of his latest innovations is the "Flexographic printing press with integrated dryer." This invention is particularly suited for printing thin, elastic webs. The design features a plurality of printing decks positioned around a central impression cylinder. A between color dryer is strategically located between each pair of adjacent printing decks, with additional dryers downstream to ensure the web is dried before it exits the central impression cylinder. Notably, the web does not pass any dryers after leaving the central impression cylinder.
Another significant patent is the "Method and apparatus for exchanging a roll of a printing press." This invention introduces a side shift mechanism for a deck of a printing press, allowing a roll, such as a plate roll or anilox roll, to be shifted axially. This design enables one end of the roll to extend out of the frame of the press, making it easily accessible for exchange. Once the roll or sleeve is replaced, it can be shifted back to its original position.
Career Highlights
Craig T. Compton is currently employed at the Paper Converting Machine Company, where he continues to innovate and improve printing technologies. His work has had a lasting impact on the industry, enhancing the capabilities of printing presses.
Collaborations
Throughout his career, Craig has collaborated with talented individuals such as Dale E. Zeman and William J. Van Ryzin. These collaborations have contributed to the development of advanced printing solutions.
Conclusion
Craig T. Compton's contributions to printing technology through his patents and innovations have significantly advanced the industry. His work continues to influence the efficiency and effectiveness of printing processes.