Kensuke Funada

Title: **Kensuke Funada: Innovator in Electric Linear Actuators**

Introduction

Kensuke Funada is a prominent inventor based in Iwata, Japan, known for his contributions to the field of electric linear actuators. With a repertoire of five patents to his name, Funada has made significant advancements in the functionality and design of electric linear motion systems.

Latest Patents

Among his latest innovations, Funada developed an electric linear actuator that features an electric motor, a speed reduction mechanism, and a ball screw mechanism. This unique actuator converts the rotational motion of the motor into axial linear motion of a drive shaft. The ball screw mechanism consists of a nut and screw shaft, both of which are designed with helical screw grooves and include a multitude of balls. The actuator's housing is composed of two portions: a first housing that accommodates the electric motor and a second housing that interfaces with the first. The design incorporates a cylindrical gear containing portion that safely houses the speed reduction mechanism. Additionally, another patent describes an electric linear actuator with similar components, emphasizing the integration of rolling bearings and securing portions to enhance structural integrity.

Career Highlights

Kensuke Funada's career trajectory includes significant roles at reputable companies such as NTN Corporation and Honda Motor Co., Ltd. His experiences in these organizations have greatly informed his engineering practices and innovative designs in the field of motion control technology.

Collaborations

Throughout his career, Funada has collaborated with notable individuals such as Yoshinori Ikeda and Keisuke Kazuno. These partnerships have contributed to his ability to push the boundaries of conventional actuator technology and implement cutting-edge solutions in his patents.

Conclusion

Kensuke Funada stands out as a dedicated inventor in the realm of electric linear actuators. Through his innovative designs and collaborative spirit, he continues to advance the understanding and application of motion technologies. His contributions not only enhance industrial applications but also promise to impact various fields that rely on precise motion control.