Company Filing History:
Years Active: 2025
Title: The Innovations of James Caie: An Insight into His Patent Contributions
Introduction: James Caie, an accomplished inventor based in Huntingdon, Cambridgeshire, GB, holds a significant patent in the realm of fluid dynamics technology. His innovative work primarily focuses on the development of actuator components for droplet ejection heads, a vital component in various printing technologies.
Latest Patents: Caie's sole patent is entitled “Actuator component for a droplet ejection head and method for manufacturing the same.” This invention comprises a substrate with one or more strips of piezoelectric material that are permanently attached. The piezoelectric strips are designed to encompass fluid chambers extending in a specific array direction. Notably, the actuator component features cover parts that contain multiple openings, allowing fluid to be delivered efficiently to selected fluid chambers. The associated manufacturing methods further enhance the design's applicability in creating advanced droplet ejection systems.
Career Highlights: Currently, James Caie is associated with Xaar Technology Limited, a company at the forefront of digital inkjet printing technology. His innovative contributions continue to enhance product performance in the competitive landscape of printing solutions.
Collaborations: Throughout his career, Caie has collaborated with notable colleagues such as Michael Walsh and Alin Ristea. These partnerships have potentially facilitated the exchange of ideas and expertise, driving advancements in the field of actuator technologies and printing applications.
Conclusion: James Caie's dedication to innovation is evident through his patent, which exemplifies the critical intersection of technology and manufacturing processes in droplet ejection heads. His work at Xaar Technology Limited, along with collaborative efforts with his peers, underlines his valuable contributions to the industry. As technology continues to advance, the impact of his inventions will likely be felt across various applications in digital printing and fluid dynamics.