Company Filing History:
Years Active: 2017
Title: Christian Klatt: Innovator in Strip Guidance Technology
Introduction
Christian Klatt, based in Aachen, Germany, stands out as a notable inventor with a focus on innovations in strip guidance technology for hot mediums. With a total of two patents to his name, Klatt's contributions have significantly advanced the field.
Latest Patents
Klatt's most recent patents include:
1. **Device for Strip Guidance in a Hot Medium (II)** - This invention details a sophisticated device designed for the guidance of strips in hot mediums. It features a deflection roller affixed to supporting arms via ceramic journal bearings. The innovation addresses the challenge of balancing varying heat expansion coefficients by employing a force-fit mechanism, thereby ensuring stability and durability under extreme conditions.
2. **Device for Strip Guidance in a Hot Medium (I)** - This patent presents a similar yet distinct approach to strip guidance, incorporating a floating bearing that permits parallel movement of a supporting arm along the longitudinal axis of the deflection roller. An elastic counter element is included to counteract temperature-induced changes, enhancing the overall reliability and performance of the device.
Career Highlights
Christian Klatt is currently employed at Thyssenkrupp Steel Europe AG, a leader in the steel production industry. His work there emphasizes the application of his inventive technologies, making significant strides in industrial processes.
Collaborations
Throughout his career, Klatt has collaborated with notable colleagues, including Marc Blumenau and Frank Eisner. Their collective expertise has fostered innovation and the successful development of Klatt's patented technologies.
Conclusion
In summary, Christian Klatt's innovative work in the field of strip guidance technology showcases his commitment to engineering advancements within the steel industry. His patents not only reflect his ingenuity but also contribute meaningfully to the effectiveness and efficiency of industrial operations in hot media environments.