Company Filing History:
Years Active: 2005
Title: Wesley McCall - Innovator in Mechanical Bladder Pump Technology
Introduction
Wesley McCall is a notable inventor based in Salina, Kansas, recognized for his innovative contributions to fluid sampling technology. He has developed a unique mechanical bladder pump that enhances the efficiency of collecting groundwater samples. His work is significant in the field of environmental monitoring and resource management.
Latest Patents
Wesley McCall holds a patent for a mechanical bladder pump designed for collecting fluid samples from wells. The pump features an outer tubular member with a longitudinal bore and an inner tubular member that oscillates within it. This design allows for the expansion and compression of a compressible bladder, which is crucial for the effective sampling of groundwater. The pump includes check valves to regulate fluid flow and a return spring that stores and releases energy during operation. This innovative mechanism ensures that the samples collected are highly representative of the groundwater.
Career Highlights
Wesley McCall is associated with Kejr Inc., where he applies his expertise in mechanical engineering to develop advanced fluid sampling technologies. His work at the company has contributed to significant advancements in environmental monitoring tools. With a focus on practical applications, McCall's inventions aim to improve the accuracy and reliability of groundwater sampling.
Collaborations
Wesley has collaborated with notable colleagues such as Thomas M. Christy and David W. Cooper. Their combined efforts in research and development have led to innovative solutions in the field of fluid sampling and environmental monitoring.
Conclusion
Wesley McCall's contributions to the field of mechanical engineering, particularly through his patented mechanical bladder pump, demonstrate his commitment to innovation and environmental stewardship. His work continues to impact the way groundwater samples are collected and analyzed, ensuring better resource management for the future.