Ronald S Griffiths

Title: The Innovative Contributions of Ronald S Griffiths

Introduction

Ronald S Griffiths is a notable inventor based in Rochester, GB, recognized for his contributions to the field of liquid dispensing technology. With a total of three patents to his name, Griffiths has made significant advancements that enhance the efficiency and usability of beverage dispensing systems.

Latest Patents

One of Griffiths' latest patents is a liquid measuring-dispenser tap designed for beverage bottles and similar articles. This innovative dispensing measure is particularly useful for liquids with high viscosity, such as cream-based liqueurs. The design features a measuring chamber equipped with an entry port and an exit port, along with an internal operating standard that can be actuated to move between a dispensing position and a resting position. This mechanism ensures that the entry port is sealed when dispensing, while the exit port is sealed when at rest. Additionally, the design includes a nose external to the measuring chamber, which guides the fluid flow into a receptacle below. The cylindrical portion of the internal operating standard fits within a cylindrical internal wall of the outlet portion, ensuring that the wall is wiped clean as the standard returns to its resting position.

Career Highlights

Throughout his career, Ronald S Griffiths has worked with several companies, including R. and A. Bailey & Company Limited and A.G. (Patents) Limited. His experience in these organizations has contributed to his expertise in developing innovative solutions for liquid dispensing.

Collaborations

Griffiths has collaborated with notable individuals in his field, including John E Searles. These partnerships have likely fostered the exchange of ideas and further innovation in their respective projects.

Conclusion

Ronald S Griffiths stands out as an inventor whose work in liquid dispensing technology has made a significant impact. His patents reflect a commitment to improving the functionality and efficiency of beverage dispensing systems.