Company Filing History:
Years Active: 1995
Title: Jerome M Long: Innovator in Hydromechanical Control Systems
Introduction
Jerome M Long is a notable inventor based in Northeast, PA (US). He has made significant contributions to the field of hydromechanical control systems, particularly through his innovative patent. His work has implications for engine timing control systems, showcasing his expertise in mechanical engineering.
Latest Patents
Jerome M Long holds a patent for a "Viscosity sensitive auxiliary circuit for hydromechanical control valve." This invention features a viscosity-sensitive, pressure divider arrangement designed for use in an engine timing control tappet system. The system includes a block oil pressure supply, a hydromechanical control valve, and an oil sump. The pressure divider arrangement consists of an inlet chamber, a divider chamber, and an exit chamber. The inlet chamber connects to the divider chamber via a short first connecting conduit, while the exit chamber connects to the divider chamber through a longer second connecting conduit. This design allows the viscosity of oil flowing into the pressure divider to influence the controlling pressure within the divider chamber, which in turn affects the operation of the hydromechanical control valve.
Career Highlights
Jerome M Long is associated with Cummins Engine Company, Inc., where he has applied his innovative ideas to enhance engine performance and efficiency. His work has been instrumental in developing advanced control systems that improve the functionality of engine components.
Collaborations
Throughout his career, Jerome has collaborated with notable colleagues, including Walter Wayne Eberhard and John J McCosby. These partnerships have fostered a collaborative environment that encourages innovation and the sharing of ideas.
Conclusion
Jerome M Long's contributions to hydromechanical control systems exemplify the impact of innovative thinking in engineering. His patent reflects a deep understanding of mechanical principles and their application in real-world scenarios. His work continues to influence the field and inspire future innovations.