Company Filing History:
Years Active: 1992
Title: Innovations of John A Comino in Liquid Spraying Systems.
Introduction: John A Comino is an accomplished inventor based in Turlock, California. He has made significant contributions to the field of liquid spraying systems, particularly through his innovative patent. His work focuses on enhancing the efficiency and control of liquid flow in various applications.
Latest Patents: John A Comino holds a patent for an "Electrically actuated variable flow control system." This invention describes an electrically-actuated liquid spraying system designed to control the volumetric flow through pressure-atomization spray nozzles. Each nozzle is connected to a direct acting, in-line solenoid valve, which is linked to a liquid supply at constant pressure. The valve operates using square wave pulses of variable frequency and duty cycle, allowing it to alternate between fully open and closed positions. This mechanism effectively controls the flow rate without altering droplet size and spray pattern. The system's performance is further enhanced by feedback data regarding target movement, size, shape, and other factors, as well as dynamic pressure sampling between the valve seat and nozzle orifice.
Career Highlights: John A Comino has dedicated his career to advancing technology in liquid spraying systems. His innovative approach has led to the development of a unique system that improves the precision and efficiency of liquid application processes. His work is recognized for its potential applications in various industries, including agriculture and manufacturing.
Collaborations: John A Comino collaborates with Durham Kenimer Giles, contributing to the advancement of their shared research interests. Their partnership exemplifies the importance of teamwork in driving innovation and achieving breakthroughs in technology.
Conclusion: John A Comino's contributions to the field of liquid spraying systems demonstrate his commitment to innovation and excellence. His patented technology represents a significant advancement in controlling liquid flow, showcasing the potential for improved efficiency in various applications.