James Edward Gutknecht

Introduction

James Edward Gutknecht, a prominent inventor based in Cincinnati, OH, has made significant contributions to the field of gas turbine technology. With a total of five patents to his name, Gutknecht has demonstrated a commitment to innovation in engineering, particularly with his latest advancements.

Latest Patents

His recent patents reflect his expertise and creativity. The first patent, titled "Variable stator vane assembly and bushing thereof," introduces a bushing designed for optimal performance in gas turbine engines. This assembly not only includes a rotatable trunnion but also a first metal bushing located in a through hole of the compressor casing. This innovative design features wear-resistant coatings that ensure durability under the demanding conditions of turbine operation.

Another notable patent is the "Bolting arrangement including a two-piece washer for minimizing bolt bending." This design features a two-piece washer that allows for tilting movement between its components. With a convex annular surface engaging a concave annular surface, this bolting arrangement prevents bending loads on the connecting bolt, enhancing the reliability of mechanical connections under shifting conditions.

Career Highlights

Gutknecht's career is closely tied to his work at General Electric Company, a leading player in the field of aerospace and energy solutions. His role in developing advanced components highlights his expertise and dedication to engineering innovation.

Collaborations

Throughout his career, Gutknecht has collaborated with notable colleagues, including Albert E. McDaniel and Jan Christopher Schilling. These partnerships have likely contributed to the successful development of groundbreaking technologies within their respective fields.

Conclusion

James Edward Gutknecht's work reflects an unwavering dedication to innovation in gas turbine technology. His patents not only showcase his engineering prowess but also contribute to advancements that potentially improve the efficiency and performance of gas turbine engines. As he continues to collaborate and innovate, the engineering community eagerly anticipates his future contributions.