Company Filing History:
Years Active: 1993
Title: **John W Mezas: An Innovator in Fluid Control Technology**
Introduction
John W Mezas, based in Granger, Indiana, is a notable inventor recognized for his innovation in fluid control technology. With a unique approach to solenoid valves, he has secured one patent that exemplifies his contributions to the field.
Latest Patents
Mezas's patent is focused on a solenoid valve, which features a laminar flow control system integrated within a unitary housing. This valve is coupled with a housing for an electrically powered solenoid device, showcasing a modern design that emphasizes efficiency. A key aspect of his invention is the poppet, which is loosely secured to the valve stem using a magnet. This design allows for lateral movement between the poppet and the valve stem, ensuring optimal performance. In the preferred embodiment, a hemispherical poppet is mounted to the operating mechanism's stem by a magnet that is fixedly secured. This enables self-alignment with the valve seat upon closing. An alternative embodiment of the valve incorporates conical surfaces for enhanced functionality.
Career Highlights
Mezas is currently associated with South Bend Controls, Inc., where he contributes to innovative projects in fluid dynamics and control technologies. His work not only demonstrates his technical knowledge but also adds significant value to his organization.
Collaborations
Throughout his career, Mezas has had the opportunity to collaborate with talented colleagues, including Peter G Hutchings and Matthew E Leinheiser. Their collective expertise in engineering and design plays a crucial role in advancing their projects and driving innovation within their respective field.
Conclusion
John W Mezas represents the spirit of innovation in fluid control systems. His patent for a solenoid valve reflects his dedication to improving technology and showcases his ability to create solutions that meet contemporary demands. As he continues his journey at South Bend Controls, Inc., the impact of his work will likely inspire future advancements in this essential area of engineering.