Company Filing History:
Years Active: 1984
Title: **Laurent Gazagne: Innovator in Hydrostatic Motor Technology**
Introduction
Laurent Gazagne, a distinguished inventor based in Paris, France, has made significant strides in the field of hydrostatic motor technology. His notable invention showcases the innovative spirit and engineering prowess that defines contemporary mechanical advancements.
Latest Patents
Laurent holds one patent, titled "Axially slidable vane motor with valves in fluid-based vanes," which represents a pivotal development in hydraulic systems. This hydrostatic motor incorporates vanes that slide axially within rotor lodgings, working against a continuous stator bottom surface embedded with recesses. The unique design features an intercommunication circuit that allows for pressure transmission between the vanes, dependent on their positional changes relative to the recessed stator. This innovative mechanism ensures that the retracted vanes enhance pressure within the system, leading to improved functionality when they extend out of their lodging.
Career Highlights
Laurent Gazagne is currently employed at Compagnie de Construction Mécanique Sulzer, where he is dedicated to advancing mechanical construction techniques. His work has positioned him as a key figure in the development of efficient and reliable hydrostatic motors, which have broad applications in various engineering fields.
Collaborations
During his career, Laurent has had the pleasure of collaborating with his coworker, Daniel Leroy. Together, they have combined their expertise to drive innovation and enhance the capabilities of mechanical systems within their organization.
Conclusion
In summary, Laurent Gazagne's contributions to hydrostatic motor technology exemplify the impact of innovative engineering. His patent not only highlights his creativity and problem-solving skills but also serves as a foundation for further advancements in the field. As technologies continue to evolve, inventors like Laurent play a crucial role in shaping the future of mechanical systems.