Company Filing History:
Years Active: 1994
Title: Gunther Machguth: Innovator in Printing Technology
Introduction
Gunther Machguth is a notable inventor based in Wurenlos, Switzerland. He has made significant contributions to the field of printing technology, particularly with his innovative designs for rotary printing presses. His work has led to advancements that enhance the efficiency and quality of printing processes.
Latest Patents
Gunther Machguth holds a patent for a printing cylinder of a rotary printing press. This invention features a support that is fixed against relative rotation and a jacket that is rotatable around the support. The jacket is supported by a row of support elements that are disposed axially side-by-side and are individually controllable and radially displaceable. This design allows for an even printing pressure across the width of the cylinder while avoiding any bending of the jacket. The jacket is constructed of three coaxial tubes, which can be easily exchanged to accommodate different print patterns or diameters. By manipulating the pressure within the sealed interior chamber, the individual jacket parts can achieve a press fit and rotate together, enhancing the functionality of the printing press.
Career Highlights
Gunther Machguth has worked with Sulzer-Escher Wyss AG, a company known for its engineering and manufacturing expertise. His role in the company has allowed him to develop and refine his innovative ideas in printing technology. His patent is a testament to his dedication to improving the printing industry.
Collaborations
Throughout his career, Gunther has collaborated with notable colleagues such as Beat Muller and Rolf Lehmann. These partnerships have contributed to the development of his inventions and have fostered a collaborative environment for innovation.
Conclusion
Gunther Machguth's contributions to printing technology through his innovative patent demonstrate his commitment to advancing the industry. His work continues to influence the efficiency and quality of printing processes today.