Company Filing History:
Years Active: 1987
Title: Walter C Snyder: Innovator in Canister Handling Systems
Introduction
Walter C Snyder is a notable inventor based in Frederick, MD (US). He has made significant contributions to the field of canister handling systems, showcasing his innovative spirit through his patented inventions. With a focus on practical solutions, Snyder's work has the potential to enhance efficiency in various industrial applications.
Latest Patents
Walter C Snyder holds a patent for a canister handling system. This system features a canister dumper with pentagonally arranged rows of holders on a structure that is rotatable about a horizontal axis. This design allows for the indexing of the rows of holders from a vertical position, where the canisters are loaded, through two steps to a canister content unloading station. At this station, the contents are gravity unloaded, followed by a canister unloading station where the canisters are dropped from the holders. The canisters are designed with vertical ribs that define an enlarged outside diameter, which interlocks with curved carrier walls to retain the canisters securely on carriers.
Career Highlights
Snyder's career is marked by his dedication to innovation and problem-solving. His work at Neutron Products Inc. has allowed him to develop and refine his ideas, leading to the successful patenting of his canister handling system. This invention not only demonstrates his technical expertise but also his commitment to improving industrial processes.
Collaborations
Throughout his career, Walter C Snyder has collaborated with talented individuals such as Jackson A Ransohoff and Edward A Wentz. These partnerships have likely contributed to the development and success of his innovative projects.
Conclusion
Walter C Snyder's contributions to the field of canister handling systems exemplify the impact of innovation in industrial applications. His patented designs reflect a deep understanding of engineering principles and a commitment to enhancing operational efficiency.