Pump Type: The A4VSO40DR/10R-PPB13N00 is a variable displacement axial piston pump.
It uses a swashplate design to generate hydraulic pressure by converting mechanical energy into fluid power.
Displacement: The displacement of this pump is 40 cc per revolution. This indicates the volume of fluid displaced by the pump in one complete revolution.
Pressure Rating: The pump is designed to operate at high pressures. It has a maximum pressure rating of 280 bar (4,060 psi). This allows it to handle demanding applications that require high pressure output.
Rotation: The pump is designed for clockwise rotation when viewed from the shaft end. This rotation direction is crucial for ensuring proper operation and compatibility with other hydraulic components.
Mounting Type: The A4VSO40DR/10R-PPB13N00 features a flange mounting design, which enables easy installation and integration into hydraulic systems. The pump is securely attached to the mounting surface using bolts or other suitable fasteners.
Control Type: This pump has a 10° angular control range.
The control angle determines the displacement setting of the pump and, consequently, the flow rate and pressure output. The 10° angular control range provides precise control over the pump's performance.
Pressure Control: The pump is equipped with a pressure compensator, denoted by the "PP" in its model code. The pressure compensator maintains a constant pressure regardless of the load variations, ensuring stable system performance.
Shaft Design: The pump features a splined shaft, denoted by the "10R" in its model code. The splined shaft allows for a secure connection with other hydraulic components such as motors or other pumps, ensuring efficient power transmission.
Porting Configuration: The A4VSO40DR/10R-PPB13N00 pump has a specific porting configuration referred to as "PPB13N00." This configuration determines the inlet, outlet, and control ports, allowing for proper fluid flow and control within the hydraulic system.
Noise Reduction: Rexroth has implemented advanced noise reduction techniques in the design of this piston pump. These measures help minimize noise levels during operation, contributing to a quieter and more comfortable working environment.
