Company Filing History:
Years Active: 1988
Title: The Innovations of Toshihiro Gotou
Introduction
Toshihiro Gotou is a notable inventor based in Okazaki, Japan. He has made significant contributions to the field of automotive engineering, particularly in power steering systems. His innovative approach has led to the development of a unique hydraulic reaction mechanism that enhances the functionality of these systems.
Latest Patents
Toshihiro Gotou holds a patent for a hydraulic reaction mechanism designed for power steering systems. This mechanism is characterized by its ease of manufacture and effective performance in automotive applications. The design includes an input shaft and an output shaft that rotate relative to each other, housed within a robust casing. A servovalve is strategically placed between the shafts, responding to their relative movement. The mechanism features radially protruding portions on the input shaft, which interact with reaction pistons housed in the output shaft's enlarged portion. These pistons are crucial for hydraulically pushing both sides of the protruding portions, ensuring efficient operation.
Career Highlights
Toshihiro Gotou has dedicated his career to advancing automotive technology. His work at Toyoda Koki Kabushiki Kaisha has been instrumental in developing innovative solutions that improve vehicle performance and safety. His patent reflects his commitment to engineering excellence and his ability to address complex challenges in the automotive sector.
Collaborations
Throughout his career, Toshihiro Gotou has collaborated with various professionals in the field. One notable coworker is Susumu Honaga, with whom he has likely shared insights and expertise to further enhance their projects.
Conclusion
Toshihiro Gotou's contributions to automotive engineering, particularly through his patented hydraulic reaction mechanism, demonstrate his innovative spirit and technical prowess. His work continues to influence the development of power steering systems, showcasing the importance of creativity in engineering.