Company Filing History:
Years Active: 2013-2024
Title: The Innovative Contributions of Bonnie Earl
Introduction
Bonnie Earl is a prominent inventor based in Carbondale, Colorado, known for her significant contributions to architectural design through her innovative patents. With a total of 14 patents to her name, she has made a remarkable impact in her field.
Latest Patents
One of Bonnie Earl's latest patents focuses on a covering for architectural features, which includes related systems and methods of manufacture. This invention features generally horizontal vane elements that are coupled to and located between front and rear vertical support members. In preferred embodiments, these support members are adjustable, allowing for control over the amount of light transmitted through the covering. The design includes three-dimensional multi-layered cellular vanes, and the support members can be formed in varying colors to enhance aesthetic appeal. Additionally, the openness factor of the support members can range from about 65% to 90%. Other embodiments of her patent include structures, assemblies, and methods for controlling the closure of the covering, as well as bottom rail assemblies. A method of manufacturing this innovative covering is also provided.
Career Highlights
Bonnie Earl has established herself as a key figure in her industry, particularly through her work with Hunter Douglas, Inc. Her inventive spirit and dedication to improving architectural features have garnered her recognition and respect among her peers.
Collaborations
Throughout her career, Bonnie has collaborated with notable coworkers such as Kent A. Smith and Wendell B. Colson, contributing to the advancement of innovative solutions in architectural design.
Conclusion
Bonnie Earl's work exemplifies the intersection of creativity and functionality in architectural innovation. Her patents not only enhance the aesthetic appeal of structures but also improve their practicality. Her contributions continue to influence the field of architectural design significantly.