Company Filing History:
Years Active: 2017
Title: Ruilei Tan: Innovator in Horizontal External Ignition Technology
Introduction
Ruilei Tan is a prominent inventor based in Beijing, China. He has made significant contributions to the field of ignition technology, particularly with his innovative designs that enhance the functionality of external ignition apparatuses. His work is characterized by a focus on precision and efficiency.
Latest Patents
Ruilei Tan holds a patent for a "Positioning device for horizontal external ignition apparatus." This invention discloses a positioning device that comprises a rotating module, an expansion module, a lifting module, and a mounting member fixed at the bottom of a water cooling device of the ignition apparatus. The rotating module drives the mounting member and the external ignition chamber of the ignition apparatus to rotate around the spindle member of the rotating module and adjust the rotation angle. The expansion module adjusts the lateral movement of the mounting member and the external ignition chamber along the expansion member of the expansion module. The lifting module adjusts the longitudinal movement of the mounting member and the external ignition chamber. This patent showcases his innovative approach to improving ignition systems.
Career Highlights
Ruilei Tan is associated with Naura Technology Group Co., Ltd., where he applies his expertise in developing advanced ignition technologies. His work at the company has positioned him as a key player in the field, contributing to the advancement of ignition apparatus design.
Collaborations
Ruilei Tan collaborates with Jinwei Dong, a fellow innovator, to further enhance their research and development efforts in ignition technology. Their partnership exemplifies the importance of teamwork in driving innovation.
Conclusion
Ruilei Tan's contributions to the field of ignition technology through his patent and work at Naura Technology Group Co., Ltd. highlight his role as a significant inventor. His innovative designs continue to influence the development of more efficient ignition systems.