Company Filing History:
3 out of 706 
1 out of 1,307 
1 out of 180 
Years Active: 1996-2014
Title: Innovations by Shannon K Sweeney
Introduction
Shannon K Sweeney is a notable inventor based in Erie, PA (US). She has made significant contributions to the field of engineering, particularly in the development of innovative damping systems. With a total of 4 patents to her name, her work focuses on enhancing safety and performance in various applications.
Latest Patents
One of her latest patents is the "Compressed elastomer damper for earthquake hazard reduction." This invention features a passive damper designed to mitigate earthquake hazards. It includes an inner member received in an outer member, with elastomeric material filling the gaps between them. The elastomeric material consists of at least a first and a second portion. The first portion is bonded to both members to prevent slippage, while the second portion allows for slippage with at least one of the members.
Another significant patent is the "Safetied sandwich mount assembly with integral holding and centering." This assembly includes an elastomer portion with a protrusion that engages the outer periphery of a rigid spacer. This design holds the elements of the mount assembly together until the supported member, such as an engine or cab of an off-highway vehicle, can be securely bolted.
Career Highlights
Shannon has worked with prominent companies such as Lord Corporation and The Penn State Research Foundation. Her experience in these organizations has allowed her to develop and refine her innovative ideas, contributing to advancements in engineering solutions.
Collaborations
Throughout her career, Shannon has collaborated with talented individuals, including Roger D Krause and Gary A Gukeisen. These partnerships have fostered a creative environment that has led to the successful development of her patented technologies.
Conclusion
Shannon K Sweeney's contributions to engineering through her innovative patents demonstrate her commitment to enhancing safety and performance in various applications. Her work continues to inspire future advancements in the field.