Company Filing History:
Years Active: 1998-2001
Title: Innovations by Gregory A. Davis
Introduction
Gregory A. Davis is an accomplished inventor based in Maynardville, TN (US). He holds 2 patents that showcase his innovative contributions to motion control systems and sewing technology. His work reflects a commitment to enhancing the functionality and efficiency of various mechanical systems.
Latest Patents
One of his notable inventions is the "Motion Control Coupling Apparatus." This motion control system features a signal conduit that interlinks various devices, such as motion controllers and motor drive modules. The design allows for flexibility in the order of module connections, ensuring that system operability remains unaffected. The system can utilize a rigid substrate with conductive lines or a flexible cable, promoting a "plug-and-play" experience that simplifies assembly and operation.
Another significant patent is the "Electronically Geared Sewing Machine." This invention revolutionizes the sewing process by electronically gearing the bobbin to the needle, eliminating the need for mechanical linkages. Servo motors provide the necessary torque, and a computer calculates motion commands to synchronize the movements of the needle and bobbin. This innovation enhances the precision and efficiency of sewing machines, addressing common issues related to machine jerk.
Career Highlights
Gregory has worked with several companies, including Tice Engineering and Sales, Inc. and Robotic Control Group, LLC. His experience in these organizations has contributed to his expertise in motion control and automation technologies.
Collaborations
Throughout his career, Gregory has collaborated with notable individuals such as Moshe Shloush and William A. Tice. These partnerships have likely enriched his work and led to further advancements in his field.
Conclusion
Gregory A. Davis is a notable inventor whose work in motion control and sewing technology has made significant contributions to the industry. His innovative patents reflect a deep understanding of mechanical systems and a commitment to improving their functionality.