The "A4VSO" designation refers to the pump series, indicating that it belongs to the axial piston variable displacement pump family.
The "40" signifies the nominal displacement of the pump, which is 40 cm³/rev. This displacement value determines the amount of fluid the pump can deliver per revolution.
The "DFE1/10R" in the product code represents specific design variations and options available for this pump. These variations can include different control options, mounting flanges, and shaft configurations, allowing the pump to be customized to meet specific requirements.
The "PPB13N00" further indicates the specific configuration and features of the pump. The "PPB" stands for the pump series and size, while the "13" refers to the maximum operating pressure of the pump, which is 130 bar (or approximately 1,885 psi). The "N00" signifies the standard design of the pump and its rotation direction.
The A4VSO 40DFE1/10R-PPB13N00 pump offers several notable features and specifications. It has a variable displacement design, meaning that it can adjust the flow rate according to system demands. This feature allows for precise control of hydraulic systems, optimizing energy efficiency and reducing unnecessary power consumption.
The pump utilizes axial piston technology, where a set of pistons reciprocate within the pump's cylinder block to generate hydraulic pressure. This design ensures high efficiency and smooth operation.
With a maximum operating pressure of 130 bar, the pump provides sufficient power for a wide range of applications. It can deliver a maximum flow rate of approximately 40 liters per minute, depending on the specific configuration and operating conditions.
The A4VSO 40DFE1/10R-PPB13N00 pump is designed for demanding environments and offers excellent durability.
It features high-quality materials and precise engineering, ensuring long service life and reliable performance even in harsh conditions.
This Kawasaki pump is compatible with various hydraulic fluids, including mineral oils, synthetic fluids, and water-glycol mixtures. It provides versatility in terms of fluid compatibility, allowing it to be used in diverse industrial applications.
In terms of control options, the pump offers different modes such as pressure control, load-sensing, and remote pressure control. These control options enable users to tailor the pump's performance to meet specific operational requirements, enhancing overall system efficiency.
Additionally, the pump can be combined with other hydraulic components such as valves, cylinders, and motors to create complete hydraulic systems. Its modular design and compatibility with standard hydraulic interfaces make it easy to integrate into existing or new hydraulic setups.
