Company Filing History:
Years Active: 2004
Title: Innovations of Hendrikus Johannes Joseph Van Soest
Introduction
Hendrikus Johannes Joseph Van Soest is a notable inventor based in Helden, Netherlands. He has made significant contributions to the field of technology, particularly in the area of ink application processes. His innovative approach has led to the development of a unique apparatus that enhances the efficiency of applying ink images to receiving materials.
Latest Patents
Van Soest holds a patent for an "Apparatus for positioning receiving material during the application of an ink image thereto." This invention is designed to keep a receiving material flat against a plate during the ink application process. The plate features V-shaped channels that guide the receiving material as it moves stepwise. The ribs separating these channels are equipped with suction openings that draw in bubbles formed by moisture absorption, preventing them from interfering with the ink application means. Additionally, the outermost channels have suction openings to keep wrinkles and corrugations at bay, ensuring a smooth application.
Career Highlights
Van Soest is associated with Océ-technologies B.V., a company known for its advancements in printing technology. His work at Océ-technologies has allowed him to focus on innovative solutions that improve the quality and efficiency of printing processes. His patent reflects his commitment to enhancing the functionality of ink application systems.
Collaborations
Throughout his career, Van Soest has collaborated with talented individuals such as Andreas Cornelis Stoot and Marius Petrus Josef Johannes Robertus Ponten. These collaborations have contributed to the development of innovative technologies in the printing industry.
Conclusion
Hendrikus Johannes Joseph Van Soest is a distinguished inventor whose work has significantly impacted the field of ink application technology. His innovative apparatus demonstrates his dedication to improving printing processes and enhancing the quality of printed materials.