Company Filing History:
Years Active: 2017
Title: The Innovations of Roland Mager - An Insight into His Contribution to Actuator Apparatus
Introduction
Roland Mager, an accomplished inventor based in Offenau, Germany, has made significant strides in the field of actuator technology. With one notable patent to his name, Mager's work reflects the intersection of innovation and engineering excellence.
Latest Patents
Mager holds a patent for an "Actuator apparatus and method for manufacturing an actuator apparatus." This inventive apparatus comprises a stator device, a cover device, a contact device, and an attenuation device. The stator and cover devices are designed to create a hollow space between them. A unique feature of the cover device is its opening, through which the contact device is inserted, allowing it to function both within the hollow space and the cover device itself. The installation of an attenuation device in the opening enhances the attenuation of high-frequency electromagnetic radiation, showcasing Mager's commitment to improving efficiency and effectiveness in actuator design.
Career Highlights
Roland Mager is affiliated with Robert Bosch GmbH, a renowned multinational engineering and technology company. His position at Bosch has allowed him to work at the forefront of actuator innovation, contributing to projects that enhance product performance and reliability.
Collaborations
Mager collaborates closely with talented colleagues, including Martin Haas and Jochen Huebl. This teamwork has fostered an environment of creativity and innovation, enabling them to tackle complex challenges and develop cutting-edge technologies in actuator systems.
Conclusion
Through his invention of the actuator apparatus and his role at Robert Bosch GmbH, Roland Mager demonstrates the importance of innovation in engineering. His patent not only reflects his technical expertise but also contributes to advancements in actuator technology that can benefit various industries. With ongoing collaborations, Mager continues to push the boundaries of what is possible in actuator design.