Company Filing History:
Years Active: 2013-2015
Title: Innovations by William Thomas Woods, II
Introduction
William Thomas Woods, II is an accomplished inventor based in Lantana, Texas. He holds three patents that showcase his innovative contributions to the field of fabric technology. His work focuses on methods of forming multi-layer fabrics that are both functional and practical.
Latest Patents
Woods' latest patents include a method of forming a stitched multi-layer fabric. This method involves stitching an interior layer to a barrier layer, where the interior layer consists of a non-waterproof fabric. The barrier layer is designed to inhibit fluid flow, and a face layer is disposed over the barrier layer without contacting the interior layer. The face layer also comprises a second non-waterproof fabric. Additionally, a portion of the barrier layer is melted to bond the face layer to the barrier layer and to fill stitch holes formed during the stitching process. Another notable patent is for a stitched multi-layer fabric that includes a barrier layer configured to inhibit fluid flow. This fabric features yarn stitched through the barrier layer, creating stitch holes while remaining free from contact by another layer on either side. This innovative design allows the stitched fabric to be used as a wearable fabric for garments without the need for separate layers.
Career Highlights
Woods is currently associated with Swnr Development, LLC, where he continues to develop and refine his innovative ideas. His work has significantly impacted the textile industry, particularly in creating fabrics that offer enhanced functionality.
Collaborations
Woods collaborates with talented individuals such as Douglas Stanley Lumb and Daniel L English, contributing to a dynamic work environment that fosters creativity and innovation.
Conclusion
William Thomas Woods, II is a notable inventor whose work in multi-layer fabric technology has led to significant advancements in the field. His innovative patents reflect his commitment to enhancing fabric functionality and design.