Company Filing History:
Years Active: 1996
Title: Wilmer A Wink: Innovator in Ultrasonic Measurement Technology
Introduction
Wilmer A Wink is a notable inventor based in Appleton, Wisconsin. He has made significant contributions to the field of ultrasonic measurement technology, particularly in the context of web-like materials such as paper and paperboard. His innovative approach has led to advancements in measuring the velocity of ultrasonic signals, which is crucial for various industrial applications.
Latest Patents
Wilmer A Wink holds a patent for a "Method and system of measuring ultrasonic signals in the plane of a moving web-like material." This patent describes an improved system for measuring the velocity of ultrasonic signals within the plane of moving materials. The system not only measures the velocity in the machine direction and cross direction but also provides on-line indications of the polar specific stiffness of the moving web. The invention utilizes a plurality of ultrasonic transducers carried by synchronously driven wheels or cylinders, which helps to eliminate undue wear on the transducers. Additionally, the design ensures a relatively constant contact force between the transducers and the moving web, enhancing measurement accuracy.
Career Highlights
Wilmer A Wink is associated with the Institute of Paper Science and Technology, Inc., where he has applied his expertise in ultrasonic measurement technology. His work has been instrumental in advancing the methods used in the paper industry, contributing to improved efficiency and product quality.
Collaborations
Throughout his career, Wilmer has collaborated with notable colleagues, including Maclin S Hall and Theodore G Jackson. These collaborations have fostered innovation and have led to the development of new technologies in the field.
Conclusion
Wilmer A Wink's contributions to ultrasonic measurement technology have had a lasting impact on the paper industry. His innovative methods and systems continue to enhance the efficiency and quality of web-like materials.