Company Filing History:
Years Active: 2020
Title: Li Xiang - Innovator in Electrical Linear Machines
Introduction
Li Xiang is a notable inventor based in Stuttgart, Germany. She has made significant contributions to the field of electrical engineering, particularly in the development of innovative machines. Her work focuses on enhancing the efficiency and functionality of electrical linear machines.
Latest Patents
Li Xiang holds a patent for an electrical linear machine. This invention includes a stator that is fixed to a housing and an armature that is configured to be axially displaced while supporting a permanent magnet. The stator features a first stator yoke and a second stator yoke, with each yoke forming a stator pole. The arrangement of the stator poles is distributed radially and uniformly around the armature. The first stator yoke is associated with at least one coil to which current is applied, generating a first magnetic flux through the first stator yoke and the permanent magnet. A magnetic north pole of the permanent magnet is linked to a stator pole of the second stator yoke, while a magnetic south pole is associated with the other stator pole of the second stator yoke, creating a second magnetic flux through the second stator yoke. This innovative design enhances the performance of electrical linear machines.
Career Highlights
Li Xiang is currently employed at Robert Bosch GmbH, where she continues to develop cutting-edge technologies. Her work at Bosch has allowed her to collaborate with leading experts in the field and contribute to various projects that push the boundaries of electrical engineering.
Collaborations
Li Xiang works alongside Anton Paweletz, a talented colleague who shares her passion for innovation in electrical engineering. Their collaboration has led to advancements in their respective projects and has fostered a creative environment for developing new ideas.
Conclusion
Li Xiang is a pioneering inventor whose work in electrical linear machines exemplifies innovation in engineering. Her contributions, particularly her patented designs, are set to influence the future of electrical machinery.