Company Filing History:
Years Active: 1984
Title: Tomohiko Terada: Innovator in Fuel Injection Systems
Introduction
Tomohiko Terada is a notable inventor based in Higashi Matsuyama, Japan. He has made significant contributions to the field of fuel injection systems, holding a total of 2 patents. His work focuses on enhancing the efficiency and functionality of fuel injection mechanisms in automotive applications.
Latest Patents
Terada's latest patents include innovative designs for fuel injection systems. The first patent describes a fuel injection system that incorporates a booster to intensify fuel supply from a reservoir. This system features a nozzle needle actuator that operates the fuel injector, allowing for precise control over fuel injection timing. The design includes a hydraulic circuit that adjusts fluid pressure based on engine operating parameters, ensuring optimal performance.
The second patent also pertains to a fuel injection system, which includes a fuel supply line extending from a reservoir to a fuel injector through a booster. This system is hydraulically isolated from the circuits that operate the booster and nozzle needle actuator. It utilizes an electronically operated pressure control valve to manage hydraulic fluid pressure in response to varying engine loads, enhancing the overall efficiency of fuel delivery.
Career Highlights
Tomohiko Terada is currently employed at Diesel Kiki Co., Ltd., where he continues to develop advanced fuel injection technologies. His expertise in hydraulic systems and fuel management has positioned him as a key player in the automotive industry.
Collaborations
Terada collaborates with Hideaki Komada, working together to innovate and improve fuel injection systems. Their combined efforts contribute to the advancement of technology in this critical area of automotive engineering.
Conclusion
Tomohiko Terada's contributions to fuel injection systems demonstrate his commitment to innovation and excellence in engineering. His patents reflect a deep understanding of hydraulic systems and their application in modern vehicles.