Company Filing History:
Years Active: 2014-2019
Title: The Innovative Contributions of Allen Madrid
Introduction
Allen Madrid, an inventive mind based in Peyton, Colorado, has made significant strides in the field of locking mechanisms. With a total of three patents to his name, his work showcases his commitment to enhancing security technologies. His innovative spirit and technical expertise have positioned him as a valuable asset in the industry.
Latest Patents
Among Allen Madrid's latest contributions are his patents related to sensor assemblies for locks. These advancements describe a locking assembly that features first and second hubs rotatably mounted within a case, along with a latch assembly that retracts in response to the rotation of either hub. A locking member is included to selectively prevent the rotation of at least one of the hubs. Notably, the sensor assembly linked to at least one hub is designed to transmit a signal in response to its rotation, enhancing the functionality and security of locking systems.
Career Highlights
Currently, Allen Madrid plays a pivotal role at Schlage Lock Company LLC, where he spearheads innovative projects that aim to improve safety and convenience in locking mechanisms. His work at Schlage has been instrumental in developing technologies that meet the evolving demands of modern security solutions.
Collaborations
Allen has collaborated with notable coworkers, including Sundar Raj Dore Vasudevan and Dilip Bangaru. Together, they contribute their diverse skills and innovative ideas to advance the product offerings at Schlage Lock Company LLC, ensuring the creation of reliable and advanced locking technologies.
Conclusion
Allen Madrid's innovative contributions to locking technology through his patented inventions reflect his dedication to improving security solutions. His work at Schlage Lock Company LLC and collaborations with fellow inventors highlight the significance of teamwork in driving innovation forward. As a key player in his field, Allen continues to inspire future developments in locking mechanisms.