Company Filing History:
Years Active: 2022-2025
Title: Qile Bo: Innovator in Soft Robotics
Introduction
Qile Bo is a prominent inventor based in Liaoning, China. He has made significant contributions to the field of soft robotics, particularly through his innovative patent that enhances the functionality of soft robotic systems. His work focuses on creating adaptable and efficient robotic solutions that can respond to various environmental stimuli.
Latest Patents
Qile Bo holds a patent for a "Magnetic-induced stiffness changed soft robot drive module and production method thereof." This invention features a magnetic-induced stiffness changed layer, a two-degree-of-freedom pneumatic driver, a magnetic core, and a sealing fixing device. The design allows for the magnetic-induced stiffness changed layer and the pneumatic driver to be printed and formed together. The magnetic core can deform with the driver and generates a magnetic field when energized. This innovative module enables fast, reversible, and controllable stiffness adjustments under the influence of an electromagnetic field. The configuration ensures that the pneumatic driver is restricted from over-expansion and over-extension, making its bending deformation controllable.
Career Highlights
Qile Bo is affiliated with Dalian University of Technology, where he continues to advance research in soft robotics. His work has garnered attention for its practical applications in various fields, including automation and robotics. His innovative approach to soft robotic design has positioned him as a key figure in this emerging area of technology.
Collaborations
Qile Bo collaborates with notable colleagues such as Te Li and Yongqing Wang. Their combined expertise contributes to the advancement of research and development in soft robotics, fostering innovation and creativity in their projects.
Conclusion
Qile Bo's contributions to soft robotics through his patented inventions demonstrate his commitment to advancing technology in this field. His innovative designs and collaborative efforts continue to inspire future developments in robotics.