Company Filing History:
Years Active: 2019-2021
Title: The Innovative Contributions of Zihai Lu
Introduction
Zihai Lu is a prominent inventor based in Zhongshan, China, known for his significant contributions to the field of lighting technology. With a total of four patents to his name, Lu has developed innovative solutions that enhance the efficiency and aesthetics of luminaires.
Latest Patents
One of Lu's latest patents is the "Low Profile Large Area Luminaire." This invention features a housing formed by joining four pieces with a first extrusion profile. A second extrusion profile is utilized for the side and end covers, while a third profile is used for access covers. The design frames a lens, such as an acrylic sheet, with long lines of LEDs positioned to shine directly into the side of the lens. A reflective layer on the lens directs the LED light out the front, creating a pleasing lighting effect. The luminaire is designed to be thin and lightweight, with a large surface area, and can be suspended in various ways.
Another notable patent is the "Architectural Linear Luminaire." This invention includes housings for architectural, industrial, and warehouse applications, featuring extrusions with parallel flat sides connected by a cross member. The design allows for easy access to the wireway and provides multiple mounting options. Optical elements can be retained by end caps, ensuring versatility in installation.
Career Highlights
Zihai Lu is currently employed at Nicor, Inc., where he continues to innovate and develop advanced lighting solutions. His work has significantly impacted the industry, making him a respected figure among his peers.
Collaborations
Lu has collaborated with notable coworkers, including Jorge Alfredo Gomez Martinez and David C Brown, contributing to a dynamic and innovative work environment.
Conclusion
Zihai Lu's inventive spirit and dedication to improving lighting technology have led to the development of several impactful patents. His contributions continue to shape the future of luminaire design and functionality.