Company Filing History:
Years Active: 2017
Title: Bernd Risse: Innovator in Transmission Turbo Machines
Introduction
Bernd Risse is a notable inventor based in Bochum, Germany. He has made significant contributions to the field of mechanical engineering, particularly in the development of transmission turbo machines. His innovative approach has led to the creation of a unique patent that enhances the efficiency of machine trains.
Latest Patents
Risse holds a patent for a transmission turbo machine, which integrates drive units and/or driven units into a machine train via a transmission. The design features a central large wheel with a shaft and multiple pinions with pinion shafts. The large wheel is operatively connected to the pinions, while the ends of the pinion shafts connect to a drive unit and/or driven unit. Notably, the shaft of the large wheel is also connected to a drive unit and/or driven unit. This invention is characterized by the inclusion of an axial expander, which is mounted in a cantilevering manner in one or more stages. Risse's patent represents a significant advancement in the efficiency and functionality of transmission systems.
Career Highlights
Bernd Risse is associated with Man Diesel & Turbo SE, a company renowned for its innovative solutions in the field of turbo machinery. His work at the company has allowed him to apply his inventive skills to real-world applications, contributing to the advancement of technology in the industry.
Collaborations
Throughout his career, Risse has collaborated with talented individuals such as Emil Aschenbruck and Carsten Bennewa. These collaborations have fostered a creative environment that encourages innovation and the development of cutting-edge technologies.
Conclusion
In summary, Bernd Risse is a distinguished inventor whose work in transmission turbo machines has made a lasting impact on the field of mechanical engineering. His innovative patent and contributions to Man Diesel & Turbo SE highlight his commitment to advancing technology and improving efficiency in machine systems.