Company Filing History:
Years Active: 1988-1989
Title: Richard J McKay: Innovator in Fluid Control and Actuator Technology
Introduction
Richard J McKay is a notable inventor based in Wolverhampton, GB. He has made significant contributions to the field of fluid control and actuator technology, holding a total of 2 patents. His work is characterized by innovative designs that enhance the functionality and efficiency of mechanical systems.
Latest Patents
One of McKay's latest patents is the "Electrically-operable fluid control valve." This invention features a first control element that is movable to regulate fluid flow between ports in a housing. A second control element, driven by an electric force motor, engages the first element through biasing springs, allowing both elements to move in unison during normal operation. The design includes an arrangement of ports and passages that ensures fluid pressure is applied to the first element to overcome any jamming that may occur.
Another significant patent is the "Geared actuator arrangement." This actuator includes epicyclic gearing with compound planetary gears. Each pinion meshes with a ring gear on a relatively fixed body and with two output ring gears, driving them in opposite directions. The innovative design allows the gearing to overcome dimensional restraints that are often imposed by prior art systems.
Career Highlights
Richard J McKay is currently associated with Lucas Industries Public Limited Company, where he continues to develop and refine his inventions. His work at this esteemed company has allowed him to contribute to advancements in technology that have practical applications in various industries.
Collaborations
McKay has collaborated with fellow inventor Philip Hudson, working together to push the boundaries of innovation in their respective fields.
Conclusion
Richard J McKay's contributions to fluid control and actuator technology exemplify the spirit of innovation. His patents reflect a commitment to solving complex engineering challenges and improving mechanical systems.