Company Filing History:
Years Active: 1988
Title: Innovations of James J Pippel in Adaptive Control Technology
Introduction
James J Pippel is an accomplished inventor based in Rockford, IL (US). He is known for his innovative contributions to the field of tape laying technology. His work focuses on enhancing the efficiency and precision of composite tape application processes.
Latest Patents
James J Pippel holds a patent for an invention titled "Adaptive control for tape laying head having natural path generation." This patent describes a tape laying machine designed to deposit composite tape on the surface of a mandrel. The machine features a tape laying head that can be positioned in multiple axes through a linear interpolative feedback control system. This system works in conjunction with an adaptive control mechanism. The feedback control receives a commanded position from a natural path part program and regulates the motion of the tape laying head along a track. This ensures that the edges of the tape are not unequally tensioned and that the process is highly reproducible. The adaptive control allows for separate variations in motion along individual axes without altering the tracking path, ensuring optimal tape laying conditions.
Career Highlights
James J Pippel is associated with the Ingersoll Milling Machine Company, where he applies his expertise in adaptive control technology. His work has significantly contributed to advancements in manufacturing processes, particularly in the aerospace and automotive industries.
Collaborations
James collaborates with Bernd A Messner, who is also a key figure in the development of innovative manufacturing technologies. Their combined efforts have led to improvements in the efficiency and effectiveness of tape laying systems.
Conclusion
James J Pippel's innovative work in adaptive control technology has made a significant impact on the manufacturing industry. His patent for a tape laying machine exemplifies his commitment to enhancing precision and efficiency in composite material applications.