Company Filing History:
Years Active: 2018
Title: Christan Becker: Innovator in Pressure-Regulating Valve Technology
Introduction
Christan Becker is a notable inventor based in Neunkirchen, Germany. He has made significant contributions to the field of hydraulic technology, particularly with his innovative designs in pressure-regulating valves. His work has implications for various applications, including vehicular work machines.
Latest Patents
Christan Becker holds a patent for a "Pressure-regulating valve having an electrical control unit." This invention features a pressure-regulating valve that is connected to an electrical control unit via a first plug connector. The electrical control unit is responsible for controlling the valve using a regulated current signal and allows for the connection to additional devices. The design includes two additional plug connectors, with electrical energy supplied through a second plug connector. A data bus facilitates a signal-carrying connection to a higher-priority controller or set-point generator. Furthermore, a third plug connector enables connections to bus-compatible electrical devices or additional pressure-regulating valves without dedicated control units. This system is applicable in electro-hydraulic feedforward controllers for direction-control valves, variable hydraulic pumps, and variable hydraulic motors.
Career Highlights
Christan Becker is currently employed at Thomas Magnete GmbH, where he continues to develop innovative solutions in hydraulic technology. His expertise and contributions have positioned him as a key figure in his field.
Collaborations
Throughout his career, Becker has collaborated with notable colleagues such as Josef Kerber and Jorg Schneider. These partnerships have fostered an environment of innovation and creativity, leading to advancements in their respective projects.
Conclusion
In summary, Christan Becker is a distinguished inventor whose work in pressure-regulating valve technology has made a significant impact in the industry. His innovative designs and collaborations continue to drive advancements in hydraulic systems.