Company Filing History:
Years Active: 2002-2003
Title: The Innovative Contributions of Ronald R Gschwandtner
Introduction
Ronald R Gschwandtner is a notable inventor based in Mt. Airy, MD (US). He has made significant contributions to the field of filtration technology, holding 2 patents that showcase his innovative approach to filter cartridge manufacturing.
Latest Patents
Gschwandtner's latest patents include an "Apparatus for making melt-blown filter cartridges." This invention involves filter cartridges that feature a core element made of a non-filtering, self-supporting non-woven mass of indefinite length continuous synthetic polymeric core fibers. Additionally, it includes at least one annular filtration zone layer formed of a mass of non-woven indefinite length continuous synthetic polymeric filtration fibers. The core element is formed in situ during the manufacturing process by melt-blowing synthetic polymeric core fiber streams toward a forming mandrel. The core element solidifies completely before the filtration zone fibers are melt-blown onto it, ensuring that the core and filtration fibers are predominantly mechanically interlocked rather than melt-bonded. Furthermore, filter cartridges of predetermined length can be cut from an upstream filter cartridge preform of indefinite length, minimizing shrinkage over time through forced cooling air.
Career Highlights
Throughout his career, Ronald R Gschwandtner has worked with prominent companies in the filtration industry, including Usf Filtration & Separations, Inc. and Pall Corporation. His experience in these organizations has contributed to his expertise in developing advanced filtration solutions.
Collaborations
Gschwandtner has collaborated with notable colleagues such as Brian Mozelack and Robert J Schmitt, further enhancing his innovative endeavors in the field.
Conclusion
Ronald R Gschwandtner's contributions to filtration technology through his patents and career experiences highlight his role as a significant inventor in the industry. His innovative approaches continue to influence the development of effective filtration solutions.