Company Filing History:
Years Active: 1992-1993
Title: Innovations of Robert R Winkler
Introduction
Robert R Winkler is a notable inventor based in Vernon, CT (US), recognized for his contributions to fuel injection technology. With a total of 2 patents to his name, Winkler has made significant advancements in the field of automotive engineering.
Latest Patents
Winkler's latest patents include a "Calibration system for electrically controlled fuel injection pump" and a "Processor based fuel injection control system." The calibration system features a fuel injection pump equipped with an electrical control valve that regulates fuel injection timing and quantity. It incorporates an electrical control unit (ECU) that stores master calibration data, ensuring precise operation of the control valve. The system also includes a pump-mounted electrical module with a calibration resistor for adjusting the fuel injection quantity.
The processor-based fuel injection control system utilizes a microprocessor and a network of counters to manage the electrical operation of a fuel control valve. This innovative design employs subtraction and addition counters to accurately regulate fuel injection timing and quantity, enhancing the efficiency of the fuel injection process.
Career Highlights
Winkler has dedicated his career to advancing fuel injection systems, contributing to the development of technologies that improve engine performance and efficiency. His work at Stanadyne Automotive Corporation has positioned him as a key player in the automotive industry.
Collaborations
Throughout his career, Winkler has collaborated with notable colleagues, including William W Kelly and Donald C McMahon. These partnerships have fostered innovation and have been instrumental in the development of advanced fuel injection technologies.
Conclusion
Robert R Winkler's contributions to fuel injection technology have significantly impacted the automotive industry. His innovative patents and collaborative efforts continue to drive advancements in engine performance and efficiency.