Company Filing History:
Years Active: 2013
Title: Innovations of Didier Larousse
Introduction
Didier Larousse is a notable inventor based in La Ferte Saint-Aubin, France. He has made significant contributions to the field of ammunition and protection systems, holding two patents that showcase his innovative spirit and technical expertise.
Latest Patents
One of Didier Larousse's latest patents is an "Ammunition comprising means for neutralizing its explosive charge." This invention relates to ammunition that contains an explosive charge confined in a compartment, along with a deconfinement device capable of neutralizing the explosive charge upon command. The design includes means for activating the deconfinement device, which are controllable, ensuring safety and precision in handling ammunition.
Another significant patent is the "Extensible protection system." This system features a frame that can be deployed around a central tube, consisting of two ends and a covering fabric. The design incorporates at least two pairs of rigid tubes, which are articulated to yokes secured to the ends of the central tube. The system is engineered to transition from a folded position to a deployed position through a pressurizing mechanism, enhancing its functionality and effectiveness.
Career Highlights
Didier Larousse is associated with TDA Armements Sas, where he applies his inventive skills to develop advanced technologies in the defense sector. His work has contributed to the enhancement of safety and operational efficiency in ammunition and protective systems.
Collaborations
Throughout his career, Didier has collaborated with notable colleagues such as Alain Bourel and Christophe Bar. These partnerships have fostered a creative environment that encourages innovation and the development of cutting-edge technologies.
Conclusion
Didier Larousse exemplifies the spirit of innovation through his patents and contributions to the field of ammunition and protection systems. His work not only advances technology but also enhances safety in critical applications.