Company Filing History:
Years Active: 2011
Title: Innovations of Sandrine Lornage: Pioneering Conical Roller Bearings
Introduction
Sandrine Lornage, an innovative inventor based in Andrezieux Boutheon, France, has made significant contributions to the field of mechanical engineering. With a focus on enhancing the functionality and efficiency of roller bearings, Lornage holds a notable patent that showcases her expertise and creativity.
Latest Patents
Lornage's patent, titled "Conical roller bearing comprising a filter cage," presents a groundbreaking design for roller bearings. This innovative bearing system comprises a plurality of conical roller bodies arranged between inner and outer rings, complemented by a unique cage featuring an annular sectional body. This body is positioned between the inner and outer rings and includes annular oil throwers on each side. These oil throwers, with their internal and external radial projections, ensure optimized lubrication while effectively preventing solid particle ingress. The design of the bearing facilitates functional axial and radial clearances, which aid in the efficient passage of lubrication fluids.
Career Highlights
Sandrine Lornage's career has flourished at SNR Roulements, a company known for its expertise in manufacturing bearings. Throughout her tenure, she has focused on developing innovative solutions that improve the performance and longevity of industrial bearings. Her patented designs are pivotal in advancing technology within this sector.
Collaborations
During her career, Lornage has collaborated with esteemed colleagues such as Stéphane Beluffi and Julien Berthier. These partnerships have fostered a creative environment that encourages the sharing of knowledge and the development of cutting-edge technologies in the field of roller bearings.
Conclusion
Through her innovative designs and collaborative spirit, Sandrine Lornage has made a lasting impact in the arena of mechanical engineering and roller bearings. Her patent not only exemplifies her inventiveness but also contributes to the ongoing evolution of engineering solutions aimed at enhancing operational efficiency across various industries. Her work continues to inspire future advancements in the field.