Company Filing History:
Years Active: 1998
Title: Gerald Larocque: Innovator in Cryogenic Liquid Measurement
Introduction
Gerald Larocque is an accomplished inventor based in Bedford, MA (US). He has made significant contributions to the field of cryogenic liquid measurement through his innovative patent. His work focuses on developing methods and apparatuses that enhance the accuracy and reliability of measuring liquid volumes in containers.
Latest Patents
Gerald holds a patent for a "Method and apparatus for determining quantity of liquid in a container." This invention describes a sensor apparatus that detects and indicates the volume of cryogenic liquid in a Dewar container, independent of the spatial orientation and physical motions acting on the container. The sensor apparatus includes a first conductor positioned adjacent to the container's inner shell wall and a second conductor comprising a plurality of axially spaced and concentric endless conductor bands. These bands are mounted inside the container in a proximately spaced and parallel relationship with respect to the first conductor. The design allows for the division of the first conductor into zones, creating distinct capacitors. A computer measures the capacitance of each capacitor and compares the measurements to reference values corresponding to known volumes of cryogenic fluid at specific angles of inclination.
Career Highlights
Gerald Larocque is currently associated with Figgie International, Inc., where he continues to apply his expertise in the field of cryogenics. His innovative approach to liquid measurement has positioned him as a valuable asset within the company.
Collaborations
Gerald has collaborated with notable coworkers, including Wendy Power and Michael A Reed, who contribute to the innovative environment at Figgie International, Inc.
Conclusion
Gerald Larocque's contributions to cryogenic liquid measurement through his patented technology demonstrate his commitment to innovation and excellence in engineering. His work not only enhances measurement accuracy but also advances the field of cryogenics.