Company Filing History:
Years Active: 1976
Title: Friedrich Schneiders - Innovator in Textile Treatment Technology
Introduction
Friedrich Schneiders is a notable inventor based in Mönchengladbach, Germany. He has made significant contributions to the field of textile treatment technology. His innovative approach has led to the development of a unique apparatus designed to enhance the processing of textile materials.
Latest Patents
Schneiders holds a patent for an "Apparatus for treating textile materials." This apparatus features an inner cylinder and an outer cylinder that are telescoped with respect to one another, creating an annular treatment chamber. Within this chamber, materials such as textiles are treated with a fluid medium. The design includes radial flanges that close the ends of the annular chamber, with clearances sealed by pressurized seals. The material to be treated is wound onto the inner cylinder, while fluid medium circulates through the chamber. One cylinder rotates while the other remains stationary. At the end of the treatment process, one of the cylinders is moved axially to expose the inner cylinder for unloading and reloading. The invention also incorporates novel T-shaped seals made of rubberlike material, which enhance the sealing capabilities of the apparatus.
Career Highlights
Friedrich Schneiders has dedicated his career to advancing textile treatment technologies. His innovative designs have improved efficiency and effectiveness in the processing of textile materials. He is associated with D. Dupuis & Co., where he continues to contribute to the field.
Collaborations
Schneiders has worked alongside Alfred Korsch, collaborating on various projects that aim to enhance textile treatment processes. Their partnership has fostered innovation and development in this specialized area.
Conclusion
Friedrich Schneiders is a prominent figure in the textile treatment industry, known for his inventive apparatus that revolutionizes the way textiles are processed. His contributions continue to impact the field positively.