Company Filing History:
Years Active: 1990
Title: The Innovative Contributions of Inventor Shane Childs
Introduction
Shane Childs, an inventive mind based in Sterling Heights, Michigan, has made a notable contribution to the field of automotive technology with her patent for a deck lid release actuator. With a proactive approach towards innovation, Shane has demonstrated her capabilities as an inventor, as well as a collaborator within her industry.
Latest Patents
Shane Childs holds a patent for a revolutionary deck lid release actuator. This device features a uni-directional motor mounted on a housing that drives a screw with high lead threads. The inventive design allows the screw to rotatably journal within the housing while a saddle nut engages these threads. Upon the motor’s energization, the rotation of the screw propels the saddle nut along the screw, which in turn activates the detent lever of the deck lid latch. A spring mechanism efficiently returns the actuator member, revealing the sophisticated engineering behind this latch mechanism.
Career Highlights
Shane has significantly impacted automotive innovation whilst working at GM Global Technology Operations LLC. Her role in developing technology for the automotive sector aligns with her commitment to enhancing vehicle functionality and user experience. Her patent showcases her engineering acumen and underscores her contributions to modern automotive systems.
Collaborations
During her career, Shane has collaborated with notable colleagues, including David E. Compeau and Lloyd W. Rogers. These partnerships accentuate her team-oriented approach and collective drive toward advancing technology in their field. Collaboration fosters innovation, and Shane’s work with these peers exemplifies the synergy that can result from effective teamwork.
Conclusion
In conclusion, Shane Childs represents the epitome of modern inventiveness in the automotive industry. Her patent for a deck lid release actuator exemplifies her innovative spirit and her commitment to improving vehicle technology. As she continues to collaborate with fellow innovators, Shane is poised to make further contributions that will undoubtedly shape the future of automotive engineering.