Company Filing History:
1 out of 8 
1 out of 1 Years Active: 1993
Title: The Innovative Contributions of Lothar Machule
Introduction
Lothar Machule, an inventive mind located in Weissbach, Germany, has made significant contributions to the field of welding technology. With a focus on improving methods for joining materials, Machule holds a patent that showcases his expertise and innovative approach to solving industrial challenges.
Latest Patents
Lothar Machule's patent is titled "Method for welding at least one region of an overlay sheet to a receiving surface of a carrier layer." This innovative method utilizes high-frequency energy to weld overlay sheets to carrier layers efficiently. The patented process involves placing an electrically conductive foil on the surface of the carrier layer, positioning the overlay sheet accordingly, and applying high-frequency energy through electrodes while maintaining pressure. This technique enhances the quality and efficiency of welding operations, providing a valuable advancement in manufacturing processes.
Career Highlights
Throughout his career, Lothar Machule has worked with notable companies including Konrad Hornschuch AG and HFT-Obermeier Maschinenbau GmbH. His experiences in these organizations helped him to refine his skills as an inventor, allowing him to develop groundbreaking technologies that improve manufacturing efficiencies.
Collaborations
In his professional journey, Machule has had the opportunity to collaborate with Hans R. Obermeier, a figure in the industry who likely contributed to the development and refinement of his innovative welding methods. Such collaborations have been instrumental in fostering new ideas and advancing welding technology.
Conclusion
Lothar Machule’s dedication to innovation and his patent for a high-frequency welding method stand as a testament to his impact in the field. His work continues to influence manufacturing practices, showcasing the importance of inventive solutions in modern industries. As technology evolves, Machule's contributions remain vital for future advancements in welding and material joining techniques.