Company Filing History:
Years Active: 2003
Title: Innovator Hans-Ulrich Kluth: Pioneering Mixing Valve Technology
Introduction
Hans-Ulrich Kluth is an accomplished inventor based in Weil im Schönbuch, Germany. He has contributed significantly to the field of fluid control technologies with his innovative solutions. One of his notable inventions is a mixing valve that revolutionizes how fluid connections are managed in various applications.
Latest Patents
Hans-Ulrich Kluth holds a patent for a "Mixing Valve with Axially Segmented Stator Windings for Axially Positioning a Control Element for Controlling the Fluid Connection Between Inlets and Outlets." This inventive valve features multiple inlets and a single outlet, enabling precise control of fluid flow. The mix valve operates with a pump wheel that regulates the communication between the inlets and the outlet. By utilizing a hollow shaft, driven by an electric motor, the pump wheel achieves selective axial displacements through the actuation of stator segments. This innovative mechanism allows for three distinct axial positions, facilitating varied fluid mixing scenarios.
Career Highlights
Hans-Ulrich Kluth is associated with Honeywell, a leading multinational company known for its technological advancements and product innovation. His work at Honeywell has positioned him as a key player in the development of cutting-edge solutions for fluid management.
Collaborations
In his pursuit of innovation, Hans-Ulrich collaborates closely with his coworker, Wolfgang Muller. Together, they contribute to advancements in technology within their field, enhancing the performance and functionality of fluid control devices.
Conclusion
Hans-Ulrich Kluth's pioneering work in mixing valve technology exemplifies the impact of innovation in engineering. His patent demonstrates a significant advancement in fluid control mechanisms, showcasing his talent and commitment to enhancing technological solutions in the industry. As he continues to work at Honeywell, his contributions are expected to play a vital role in shaping the future of fluid management technologies.