Company Filing History:
Years Active: 1999-2001
Title: Innovations by Robert Lee Holewinski
Introduction
Robert Lee Holewinski is a notable inventor based in Menasha, Wisconsin. He has made significant contributions to the field of cutting technology, holding a total of four patents. His work primarily focuses on developing advanced knife apparatuses and methods for cutting materials efficiently.
Latest Patents
Among his latest patents is the "Non-symmetrical heavy duty knife apparatus and cutting method." This innovative knife apparatus is designed for cutting multiple articles from a sheet or web of material. The knife can be integrated into the outer surface of a rotary die cutter. It features a first cutting member with a first end, along with second and third cutting members that are joined to the first end. These members are arranged to form an arcuate section, creating a non-symmetrical configuration. This unique design allows for the simultaneous cutting of two adjacently arranged articles with zero clearance between their outer peripheries. Another patent titled "Non-symmetrical knife apparatus and cutting method" shares similar innovative features, emphasizing the efficiency and precision of his cutting methods.
Career Highlights
Robert Lee Holewinski is associated with Kimberly-Clark Worldwide, Inc., where he applies his expertise in cutting technology. His innovative designs have contributed to advancements in manufacturing processes, enhancing productivity and material utilization.
Collaborations
Throughout his career, Holewinski has collaborated with talented individuals such as Peter Truttmann and Brian Dennis Clare. These collaborations have fostered a creative environment that encourages innovation and the development of cutting-edge technologies.
Conclusion
Robert Lee Holewinski's contributions to cutting technology through his patents and collaborations highlight his role as a significant inventor in the industry. His innovative approaches continue to influence manufacturing processes and improve efficiency in material cutting.