Company Filing History:
Years Active: 2020
Title: Florent Orget: Innovator in Pneumatic Control Systems
Introduction
Florent Orget is a notable inventor based in Hannover, Germany. He has made significant contributions to the field of pneumatic control systems, showcasing his expertise through innovative designs and patents. His work is particularly focused on enhancing the functionality and reliability of working cylinders in various applications.
Latest Patents
Florent Orget holds a patent for a pneumatic control system. This system is designed for a working cylinder, enabling resistance-free manual motion of the device driven by the working cylinder in the event of a failure or switch-off of the compressed air supply. The system operates independently of electrical supply, addressing critical operational challenges. The patent describes a double-acting working cylinder with two chambers that can be connected oppositely to a compressed air source and a compressed air outlet. It features a controllable supply device with two operating positions and an independently resetting 3/2-way valve that connects the chambers to bleeding outlets and the supply device. This innovative design ensures that the system remains functional even during power failures.
Career Highlights
Florent Orget is currently associated with Aventics Corporation, where he continues to develop and refine pneumatic technologies. His work has been instrumental in advancing the capabilities of pneumatic systems, making them more efficient and reliable for various industrial applications.
Collaborations
Florent has collaborated with notable colleagues, including Norbert Fortmann and Tim Warning. These partnerships have fostered a creative environment that encourages innovation and the sharing of ideas.
Conclusion
Florent Orget's contributions to pneumatic control systems exemplify his commitment to innovation and engineering excellence. His patent reflects a deep understanding of the challenges faced in the industry and offers practical solutions that enhance operational efficiency.