Company Filing History:
Years Active: 2020
Title: Ying Li: Innovator in LED Panel Lighting Systems
Introduction
Ying Li, an esteemed inventor based in Nashua, New Hampshire, has made notable strides in the field of lighting technology. With a passion for innovation, he has secured a patent for a state-of-the-art LED panel lighting system, showcasing his commitment to enhancing lighting solutions.
Latest Patents
Ying Li holds a patent for an advanced LED panel lighting system that incorporates a unique design. This lighting device features a frame with an access panel, where at least one LED is affixed to the interior edge. The design includes a light guide panel strategically positioned to improve light distribution. Furthermore, it employs light injection optics to direct the LED light efficiently towards the panel’s edge. Reflectors and reflective sheets enhance the functionality of the system, ensuring bright and effective illumination.
Career Highlights
Ying Li is associated with Bambu Vault LLC, a company focused on innovative technological solutions. His contributions to the field of lighting technology highlight his expertise and vision for improving everyday lighting applications. The development of his LED panel lighting system is a testament to his ingenuity and understanding of user needs in the modern world.
Collaborations
In his journey as an inventor, Ying Li collaborates with M Glenn Horner, a talented coworker who shares his passion for innovation. Together, they work towards advancing lighting solutions that can meet the demands of various consumers and industries. Their combined efforts reflect a strong collaboration aimed at driving significant improvements in lighting technology.
Conclusion
Ying Li stands out as an influential figure in the realm of lighting innovations. Through his patent on an LED panel lighting system, he demonstrates the power of creativity and technical expertise. His work at Bambu Vault LLC, alongside M Glenn Horner, signifies a dedicated approach towards pioneering solutions that could revolutionize the way we perceive lighting in our environments.