Company Filing History:
Years Active: 2015-2019
Title: Michael Langer: Innovator in Hydraulic Systems
Introduction
Michael Langer is a notable inventor based in Bad Rodach, Germany. He has made significant contributions to the field of hydraulic systems, holding a total of 2 patents. His work focuses on enhancing the efficiency and functionality of hydraulic devices, particularly in internal combustion engines.
Latest Patents
Langer's latest patents include a hydraulic conveying device and a vane pump. The hydraulic conveying device is designed for internal combustion engines and features a pendulum slide pump. This device includes an inner rotor that is drivingly connected to an outer rotor through multiple pendulum slides. It also incorporates a hydraulic actuation device that adjusts the eccentricity between the inner and outer rotors via an actuation member, which is prestressed by a spring device. Additionally, the actuation device consists of two pressure-setting chambers that help in adjusting the actuation member, with connections to a pressure side of the pendulum slide pump. The hydraulic line connects the pendulum slide pump downstream to a hydraulic medium filter, ensuring efficient operation. The vane pump, on the other hand, includes an inner rotor and at least one vane, which is configured in a substantially radial slot within the rotor, arranged asymmetrically for optimal performance.
Career Highlights
Michael Langer is currently employed at Mahle International GmbH, where he continues to innovate in hydraulic technology. His work has been instrumental in developing advanced hydraulic systems that improve engine performance and reliability.
Collaborations
Langer collaborates with talented colleagues such as Marco Kirchner and Christian Richter, contributing to a dynamic team focused on innovation in hydraulic systems.
Conclusion
Michael Langer's contributions to hydraulic technology through his patents and work at Mahle International GmbH highlight his role as a significant inventor in the field. His innovative designs continue to influence the efficiency of hydraulic systems in modern engineering.