Company Filing History:
Years Active: 2011
Title: **Dirk Kirby: Innovator in Valve Actuation Technology**
Introduction
Dirk Kirby, an accomplished inventor based in Stolberg, Germany, has made significant contributions to the field of valve actuation technology. With one patent to his name, he demonstrates a commitment to innovation within the mechanical engineering sector.
Latest Patents
Dirk Kirby's notable invention is a "Valve lever assembly having a switchable valve actuating mechanism." This innovative assembly features a first follower surface that tracks a first cam, alongside at least one second follower surface programmed to follow a second cam. The design includes a valve lever that is supported both on an engine-affixed component and on the valve to be actuated. Notably, the second follower surface can rotate relative to the first follower surface, thanks to a lockable eccentric device integrated into the valve lever. This eccentric device is designed with an eccentric opening that runs transversely through the valve lever and rotates in unison with it. An eccentric shaft, which is rotatable within the eccentric opening, effectively defines the position of the second follower surface, showcasing a clever engineering solution aimed at enhancing valve actuation mechanics.
Career Highlights
Dirk Kirby currently works at Meta Motoren-und Energie-technik GmbH, where he applies his expertise in mechanical design and innovation. His career reflects a dedication to advancing engineering practices, particularly in the area of valve systems in machinery.
Collaborations
Throughout his professional journey, Dirk has collaborated with esteemed coworkers, including Joachim Reinecke-Murmann and Rüdiger Erz. Their collective efforts foster a creative environment that encourages groundbreaking solutions and the advancement of technology in their field.
Conclusion
Dirk Kirby exemplifies the spirit of innovation in engineering through his patent and teamwork within Meta Motoren-und Energie-technik GmbH. His work continues to inspire developments in valve actuator technologies, promising enhanced efficiency and functionality in mechanical applications.