Location History:
- Weilenbach, DE (1999)
- Wielenbach, DE (1996 - 2011)
Company Filing History:
Years Active: 1996-2011
Title: Manfred Färber: Innovator in Vehicle Mechanisms
Introduction
Manfred Färber is a notable inventor based in Wielenbach, Germany. He has made significant contributions to the automotive industry, particularly in the development of mechanisms for vehicle components. With a total of three patents to his name, Färber's innovations focus on enhancing the functionality and efficiency of vehicle systems.
Latest Patents
Färber's latest patents include a mechanism for an adjustable body component of a vehicle. This invention relates to a mechanism that generates pivot and displacement motions of a chassis component. The design features a displaceable carriage that engages with guide elements on the chassis component, simplifying the mechanism's operation. This invention is particularly suitable for the panel of a sliding tilting sunroof in vehicles. Another notable patent is a panel device for a sliding roof arrangement of a vehicle. This device includes a panel element that closes the gap between the frame of the sliding roof and an externally-guided sliding cover. It incorporates a holding element and an actuating element that deploys the panel element, along with force-absorbing means to manage perpendicular forces acting on the panel.
Career Highlights
Throughout his career, Manfred Färber has worked with prominent companies in the automotive sector, including Webasto AG and Webasto SE. His experience in these organizations has allowed him to refine his skills and contribute to innovative vehicle solutions.
Collaborations
Färber has collaborated with notable colleagues such as Thomas Rudolph and Michael Kölbl. Their combined expertise has likely fostered a creative environment that encourages innovation in vehicle technology.
Conclusion
Manfred Färber's contributions to the automotive industry through his patents and collaborations highlight his role as a significant inventor. His work continues to influence the design and functionality of vehicle mechanisms, showcasing the importance of innovation in this field.