Company Filing History:
Years Active: 2016-2021
Title: David P. Richter: Innovator in Turbocharging Technology
Introduction
David P. Richter is a notable inventor based in Columbus, IN (US). He has made significant contributions to the field of internal combustion engine technology, particularly in turbocharging systems. With a total of 3 patents to his name, Richter's work has advanced the efficiency and performance of engine systems.
Latest Patents
Richter's latest patents include innovative designs that enhance the functionality of turbocharged engines. One of his patents, titled "Compressor bypass flow arrangement," discloses methods and devices for introducing a compressor bypass flow that is returned from a location downstream of a pressure source of an internal combustion engine to an air filter housing located upstream of the pressure source. Another significant patent is the "Multi-stage turbocharger system with off-engine low pressure stage," which describes a turbocharged internal combustion engine system that includes at least one high-pressure turbocharger mounted on-engine and at least one low-pressure turbocharger mounted off-engine. This design can also incorporate an intercooler mounted off-engine with the low-pressure turbocharger and an aftercooler mounted on-engine with the high-pressure turbocharger.
Career Highlights
Richter has built a successful career at Cummins Inc., a leading company in the field of engine technology. His work has been instrumental in developing advanced turbocharging solutions that improve engine performance and efficiency.
Collaborations
Throughout his career, Richter has collaborated with talented individuals such as Alan C. Anderson and Matthew Keith Sease. These collaborations have contributed to the innovative advancements in engine technology.
Conclusion
David P. Richter's contributions to turbocharging technology have made a significant impact on the automotive industry. His innovative patents and collaborative efforts continue to drive advancements in engine performance and efficiency.