The A4VG 90EP4DT1/32L-NZF02F073DP pump belongs to the A4VG series, which is known for its robust construction, high-pressure capabilities, and precise control of hydraulic fluid.
With its advanced design and engineering, this pump is suitable for demanding industrial and mobile hydraulic systems.
The "A4VG" in the model name refers to the pump series, indicating that it is a variable displacement axial piston pump. It utilizes a swashplate mechanism to vary the displacement, allowing for the regulation of the hydraulic flow according to the system requirements.
The "90EP4DT1/32L" represents the pump's specific displacement and control characteristics. The displacement is a measure of the volume of fluid the pump can deliver per rotation, and in this case, it is 90 cubic centimeters. The control type is EP4DT1, indicating a pressure compensated control with electric proportional control. This enables precise adjustment of flow and pressure based on the system's demands.
The "NZF02F073DP" at the end of the model name denotes additional specifications and features of the pump.
The "NZF" stands for the control device, in this case, a hydraulic servo control. The "02F" refers to the feedback and pilot control options available, enabling accurate control of the pump's performance. The "073" indicates the maximum pressure rating in bar, which is 73 bar. Finally, "DP" signifies the design variant of the pump.
In terms of performance, the A4VG 90EP4DT1/32L-NZF02F073DP offers a maximum operating pressure of 450 bar, allowing it to handle high-pressure applications. It delivers a maximum flow rate of 145 liters per minute, ensuring efficient and reliable hydraulic power delivery. The pump is designed to withstand the rigors of continuous operation and provides long service life with minimal maintenance requirements.
The A4VG 90EP4DT1/32L-NZF02F073DP is compatible with various hydraulic fluids, including mineral oil-based fluids, synthetic fluids, and biodegradable fluids. It features excellent volumetric efficiency, low noise levels, and high overall efficiency, contributing to reduced energy consumption and optimized system performance.