Company Filing History:
Years Active: 2013
Title: Max Herrmann - Innovator in Turbocharger Technology
Introduction
Max Herrmann is a notable inventor based in Neuss, Germany. He has made significant contributions to the field of internal combustion engines, particularly in the area of turbocharger technology. His innovative approach has led to the development of a unique air control valve that enhances engine performance.
Latest Patents
Max Herrmann holds a patent for an ambient-air pulsed valve designed for internal combustion engines equipped with a turbocharger. This air control valve is strategically placed inside a bypass channel between the pressure side and the intake side of a boost pressure pump of the turbocharger. The valve features a housing that incorporates an electromagnetic drive unit and a movable valve unit. The valve unit consists of a valve rod and a valve closing body, along with a circular sealing element. An innovative arrangement ensures that the moving valve unit remains in a closed position when no current is supplied. Additionally, the valve closing body has a cylindrical lateral surface that effectively seals the housing interior towards either the pressure side or the intake side.
Career Highlights
Max Herrmann is currently employed at Pierburg GmbH, a company known for its advanced automotive technology. His work at Pierburg has allowed him to focus on developing solutions that improve engine efficiency and performance. His dedication to innovation has positioned him as a key figure in the automotive engineering sector.
Collaborations
Throughout his career, Max has collaborated with talented professionals, including Michael Thiery and Harald Krause. These collaborations have fostered an environment of creativity and innovation, leading to advancements in turbocharger technology.
Conclusion
Max Herrmann's contributions to the field of internal combustion engines and turbocharger technology are noteworthy. His innovative patent and collaborative efforts reflect his commitment to enhancing automotive performance. His work continues to influence the industry and inspire future innovations.