Company Filing History:
Years Active: 2019
Title: Efrén Díez Jiménez: Innovator in Magnetic Vibration Dampers
Introduction
Efrén Díez Jiménez is a notable inventor based in Madrid, Spain. He has made significant contributions to the field of mechanical engineering, particularly in the development of innovative vibration dampers. His work focuses on enhancing the efficiency and effectiveness of these devices, which are crucial in various applications.
Latest Patents
Efrén holds a patent for an "Enhanced magnetic vibration damper with mechanical impedance matching." This invention features a magnetic vibration damper that includes three coaxial elements. The first coaxial element is equipped with first permanent magnets, while the second coaxial element contains first soft magnets. The third coaxial element is designed with second permanent magnets. Notably, the first soft magnets are strategically positioned between the first and second permanent magnets in a radial direction. The spacing of the second permanent magnets is larger than that of the first permanent magnets. Additionally, the damper incorporates an energy conversion component, such as conductive layers or coils, to convert the mechanical movement of the magnets into heat or electric current. Efrén has been granted 1 patent for this innovative design.
Career Highlights
Efrén has built a successful career in the field of mechanical engineering. He is currently associated with Mag Soar S.L., where he continues to develop cutting-edge technologies. His expertise in vibration dampers has positioned him as a key player in the industry.
Collaborations
Efrén has collaborated with several talented individuals in his field. Notable coworkers include José Luis Pérez Díaz and Ignacio Valiente Blanco. Their combined efforts have contributed to the advancement of technologies in vibration damping.
Conclusion
Efrén Díez Jiménez is a distinguished inventor whose work in magnetic vibration dampers showcases his innovative spirit and technical expertise. His contributions to the field are significant and continue to influence advancements in mechanical engineering.