Company Filing History:
Years Active: 2024
Title: Michael Gräber: Innovator in Gearbox Technology
Introduction
Michael Gräber is a notable inventor based in Berlin, Germany. He has made significant contributions to the field of gearbox technology, particularly in gas turbine engines. With a total of 2 patents, Gräber's work showcases his innovative approach to engineering challenges.
Latest Patents
Gräber's latest patents include a planetary gearbox and a gas turbine engine featuring a planetary gearbox. The planetary gearbox invention relates to a design where a plurality of planetary gears are mounted on a planetary gear bearing journal by a slide bearing. A unique aspect of this invention is the inclusion of a bushing arranged in the inner bore of at least one planetary gear, which spatially separates the sliding surface of the slide bearing from the inner bore of the planetary gear. This bushing is designed as a replacement part, particularly as a sacrificial part. The second patent focuses on a gear wheel of a transmission, specifically for a gas turbine engine. This gear wheel is designed with a groove extending in the circumferential direction on the outer periphery of its base body, where fibers running at least in the circumferential direction are arranged. These fibers provide support for the operating loads on the gear wheel, particularly in the event of a breakage of the base body.
Career Highlights
Michael Gräber is currently employed at Rolls-Royce Deutschland Ltd & Co. KG, where he continues to develop innovative solutions in the field of gas turbine technology. His work at Rolls-Royce has allowed him to apply his expertise in gearbox design and engineering.
Collaborations
Gräber collaborates with Greg Blake, a fellow engineer, to further enhance the development of advanced gearbox technologies.
Conclusion
Michael Gräber's contributions to gearbox technology, particularly in gas turbine engines, highlight his innovative spirit and engineering prowess. His patents reflect a commitment to improving the efficiency and functionality of mechanical systems.