Company Filing History:
Years Active: 1988-2007
Title: Philip Stanley Baker: Innovator in Foam Part Manufacturing
Introduction
Philip Stanley Baker, an esteemed inventor based in Fairport, NY, has made significant contributions to the field of manufacturing with his innovative ideas. With a total of five patents to his name, Baker has developed cutting-edge techniques that enhance the production of thermoformed foam parts.
Latest Patents
Two of his latest patents focus on the Method of forming a thermoformed foam part, which involves a pair of form keys. The first patent describes a male form key that is reciprocally mounted in a first mold half, while a female form key is rotatably mounted in a second mold half. This unique arrangement allows for the formation of undercuts in foam sheets as the mold closes. The male form key engages the foam sheet, creating an undercut, while the female form key rotates to ensure a precise fit. The design allows for the retraction of both form keys after the product is formed, facilitating the easy removal of the finished product while maintaining the undercut feature. In a further embodiment, the form keys can be fluid actuated, adding versatility to the molding process.
Career Highlights
Philip Baker has built a successful career working with notable organizations such as Pactiv Corporation and Mobil Oil Corporation. His work in these companies has provided a strong foundation for his inventive endeavors, allowing him to explore and implement innovative manufacturing techniques.
Collaborations
Throughout his career, Baker has collaborated with talented professionals, including Kenneth James Simmons and John Gardner Fuller. These partnerships have enabled him to refine his ideas and expand the potential applications of his inventions.
Conclusion
Philip Stanley Baker stands out as a key inventor in the field of foam part manufacturing. His innovative patents not only demonstrate his expertise but also contribute significantly to the evolution of the industry. With continued collaboration and innovation, Baker's work is poised to influence future developments in manufacturing processes.