Gaylen O Kline

Title: The Innovative Contributions of Gaylen O Kline

Introduction

Gaylen O Kline is a notable inventor based in Tiffin, Ohio, recognized for her significant contributions to the field of forging machinery. With a total of six patents to her name, Kline has developed innovative solutions that enhance the efficiency and functionality of forging processes.

Latest Patents

One of Kline's latest patents is the "Progressive Former with Removable Tooling." This invention features a progressive forging machine where a tool pack is removably mounted, allowing for easy tool changeovers. The design ensures that the tools are guided by the tool pack itself, which mitigates inaccuracies caused by bolster alignment. Additionally, the tool pack includes various components such as shear, transfer, strippers, and kickouts, all designed to improve the overall performance of the machine.

Another significant patent is the "Forging Machine Transfer." This invention includes a gripper support structure that features a housing with a longitudinal bore, where cylindrical sleeve bearings are mounted. The design allows for limited longitudinal movement of the gripper support, which is resiliently urged in the direction of workpiece gripping by a spring. The housing fully encloses the working parts of the gripper, protecting them from damage.

Career Highlights

Kline's career has been marked by her dedication to advancing forging technology. Her work at the National Machinery Company has positioned her as a key player in the industry, where she continues to innovate and improve machinery design.

Collaborations

Throughout her career, Kline has collaborated with notable colleagues, including Robert E Wisebaker and Harry A Dom. These partnerships have contributed to the development of her innovative patents and have fostered a collaborative environment for technological advancement.

Conclusion

Gaylen O Kline's contributions to the field of forging machinery exemplify her innovative spirit and dedication to improving industrial processes. Her patents reflect a commitment to enhancing efficiency and functionality in forging technology.