Company Filing History:
Years Active: 1997
Title: The Innovative Mind of John Samuel Piscitelli
Introduction: John Samuel Piscitelli is an inventive mind based in Pittsburgh, PA. He has contributed significantly to the engineering field through his innovative designs, particularly in the realm of fluid control systems. With a focus on efficiency and simplicity, Piscitelli has patented a unique by-pass ball valve that showcases his ingenuity.
Latest Patents: Piscitelli holds a patent for a by-pass ball valve, designed to streamline the fluid flow process. This valve is characterized by its three ports that lie in parallel planes and utilizes two forged parts: a valve body and an elbow element. This design reduces the number of operations required to seal the valve, making it more efficient. The valve's control stem allows for a simple 90-degree rotation, enabling smooth switching of the fluid path between two distinct routes. The first port directs fluid flow to either the second or third port, which can be oriented in the same direction for added convenience. The inclusion of a rotary ball valve retaining bonnet further facilitates assembly and ensures proper sealing.
Career Highlights: John Piscitelli works with Amcast Industrial Corporation, where his expertise in valve design has been invaluable. His innovative approach has helped the company advance its offerings in industrial applications, improving both product efficiency and reliability.
Collaborations: While specific collaborations are not detailed, Piscitelli's work at Amcast Industrial Corporation likely involves teamwork with other engineers and innovators focused on developing cutting-edge solutions in valve technology.
Conclusion: John Samuel Piscitelli exemplifies the spirit of innovation within the engineering community in Pittsburgh, PA. His patented by-pass ball valve is a testament to his ability to simplify complex processes and improve functional design. As he continues to work at Amcast Industrial Corporation, Piscitelli's contributions will undoubtedly influence future advancements in fluid control systems.