Company Filing History:
Years Active: 1994-2000
Title: Mark D. Medved: Innovator in Fluid Connection Technologies
Introduction
Mark D. Medved is a notable inventor based in Stillwater, Minnesota, recognized for his contributions to fluid connection technologies. With two patents to his name, Medved has developed innovative solutions that enhance the efficiency and functionality of fluid systems. His work is particularly relevant in industries such as air conditioning and fluid management.
Latest Patents
Medved's latest patents include a "High Flow Valved Fitting" and an "Apparatus for Gripping and Sealing a Fluid Conduit." The High Flow Valved Fitting features a body with a fluid passage that allows for a higher flow rate compared to conventional fittings. This design includes a removable valve assembly that can be replaced as needed, making it particularly useful for service valve blocks in air conditioning systems. The second patent, the Apparatus for Gripping and Sealing a Fluid Conduit, involves a connection apparatus that utilizes a seal member, sleeve member, and collet assembly to effectively grip and seal fluid conduits. This innovative design incorporates a resilient member and a control valve to facilitate the gripping and sealing process.
Career Highlights
Mark D. Medved is currently associated with Fastest, Inc., where he continues to develop and refine his inventions. His work at the company has positioned him as a key player in the field of fluid connection technologies. Medved's innovative designs have the potential to significantly improve the performance and reliability of fluid systems.
Collaborations
Medved collaborates with Stanlee W. Meisinger, contributing to the development of advanced fluid connection solutions. Their partnership has fostered a creative environment that encourages innovation and the exploration of new ideas.
Conclusion
Mark D. Medved's contributions to fluid connection technologies through his patents demonstrate his commitment to innovation and improvement in the industry. His work continues to influence the design and functionality of fluid systems, making a lasting impact on the field.