Company Filing History:
Years Active: 2012
Title: Lohithaswa Thimmappa: Innovator in Lock Assembly Technology
Introduction
Lohithaswa Thimmappa is a notable inventor based in Colorado Springs, CO (US). He has made significant contributions to the field of lock assembly technology. His innovative approach has led to the development of a unique patent that enhances the functionality of key-in-knob lock systems.
Latest Patents
Thimmappa holds a patent for a method of manufacturing a lock assembly. This invention enables the use of a key-in-knob lock cylinder assembly in various types of lock assemblies. The method involves providing a key-in-knob lock assembly with a key-in-knob housing and a plug that is rotatably engaged within the housing. Additionally, it includes an interchangeable core lock assembly with an interchangeable core housing. The key-in-knob housing can be inserted into the interchangeable core housing, allowing for universal exchangeability between the two lock assemblies. This innovation simplifies the manufacturing process and enhances the versatility of lock systems.
Career Highlights
Lohithaswa Thimmappa is currently employed at Schlage Lock Company LLC, where he continues to develop innovative locking solutions. His work at Schlage has positioned him as a key player in the advancement of security technology. With a focus on practical applications, Thimmappa's contributions are shaping the future of lock design.
Collaborations
Thimmappa collaborates with talented professionals in his field, including coworkers Evan Earl Evans and Vinod Kumar Rajan. Their combined expertise fosters a creative environment that drives innovation in lock technology.
Conclusion
Lohithaswa Thimmappa is a pioneering inventor whose work in lock assembly technology is making a significant impact. His patent for a versatile lock assembly method exemplifies his commitment to innovation and security. As he continues to work at Schlage Lock Company LLC, Thimmappa's contributions will undoubtedly influence the future of locking mechanisms.