Company Filing History:
Years Active: 2015-2018
Title: Joe Pfaff: Innovator in Hydraulic Pump Technology
Introduction
Joe Pfaff is a notable inventor based in Wauwatosa, WI (US), recognized for his contributions to hydraulic pump technology. With a total of 2 patents, Pfaff has made significant advancements in the field, particularly in the design and functionality of radial piston pump assemblies.
Latest Patents
Pfaff's latest patents include innovative systems that enhance the efficiency of hydraulic circuits. One of his patents, titled "Radial piston pump assemblies and use thereof in hydraulic circuits," describes a system where radial hydraulic pumps are aligned end-to-end along a common driveshaft axis. This design allows for multiple piston/cylinder units to extend in a radial direction, forming a multi-pump assembly. The system incorporates control valves that combine individual output flows from associated piston/cylinder units into common output flows for each group, effectively directing hydraulic power to machinery. Another patent, "Hydraulic piston pump with throttle control," details a piston pump system featuring a cylinder block with multiple cylinders, each connected to an inlet and outlet port. This design includes a throttle member that independently controls flow in each inlet passage, governed by an electrohydraulic actuator.
Career Highlights
Joe Pfaff is currently employed at Husco International, Inc., where he continues to innovate and develop advanced hydraulic systems. His work has significantly impacted the efficiency and functionality of hydraulic machinery, making him a valuable asset to his company.
Collaborations
Pfaff collaborates with talented individuals such as Bradley James Kramer and Dwight B. Stephenson, contributing to a dynamic team focused on hydraulic technology advancements.
Conclusion
Joe Pfaff's innovative work in hydraulic pump technology exemplifies the spirit of invention and progress in engineering. His patents reflect a commitment to enhancing machinery performance through advanced hydraulic systems.