Company Filing History:
Years Active: 1989
Title: Eberhard Schlucker: Innovator in Diaphragm Pump Technology
Introduction
Eberhard Schlucker is a notable inventor based in Erlangen, Germany. He has made significant contributions to the field of pump technology, particularly with his innovative designs that enhance the efficiency and functionality of diaphragm pumps. His work is characterized by a focus on improving fluid dynamics and reducing gas bubble entrapment in pumping systems.
Latest Patents
One of Eberhard Schlucker's key patents is for a diaphragm pump with circulation flushing. This invention features a diaphragm that separates a delivery chamber from a work chamber filled entirely with fluid medium. The design includes a piston chamber connected to the diaphragm work chamber through at least two passages. These passages are uniquely shaped to ensure that the mean velocity of flow in each passage is directed in one stroke direction, effectively flushing out gas bubbles. The arrangement of the passages is such that the total resistance to flow differs depending on the direction, facilitating the transport of gas bubbles contained in the fluid medium.
Career Highlights
Eberhard Schlucker is associated with Lewa Herbert Ott GmbH & Co., where he has applied his expertise in pump technology. His innovative approach has led to advancements in the efficiency and reliability of diaphragm pumps, making them more effective for various applications.
Collaborations
Eberhard Schlucker has worked alongside his coworker, Adolf Muller, contributing to the development of cutting-edge pumping solutions. Their collaboration has focused on enhancing the performance and reliability of diaphragm pumps in industrial settings.
Conclusion
Eberhard Schlucker's contributions to diaphragm pump technology exemplify his commitment to innovation and efficiency. His patent for a diaphragm pump with circulation flushing showcases his ability to solve complex engineering challenges. Through his work, he continues to influence the field of fluid dynamics and pump design.