The A4VSO355DP/22R-PPB13N00-SO736 belongs to the A4VSO series of axial piston pumps manufactured by a reputable company.
It has a displacement of 355 cc per revolution, indicating its capacity to deliver a substantial volume of hydraulic fluid with each rotation.
One of the notable features of this pump is its dual-pressure control design. It allows for flexible operation and efficient power management in hydraulic systems. The pump can handle two different pressure levels simultaneously, enabling the system to optimize performance based on the specific requirements of different hydraulic components.
The A4VSO355DP/22R-PPB13N00-SO736 incorporates a 22-degree swashplate angle, which influences the pump's output flow rate and pressure characteristics. This design feature contributes to the pump's ability to deliver consistent and precise hydraulic power, ensuring smooth operation of the connected machinery.
To ensure durability and reliability, the A4VSO355DP/22R-PPB13N00-SO736 is constructed with high-quality materials and undergoes rigorous testing.
It can withstand challenging working conditions, including high pressures and heavy loads, without compromising its performance. This makes it suitable for demanding industrial applications such as construction equipment, material handling systems, and marine applications.
The pump also features a robust bearing design that enhances its overall longevity and reduces maintenance requirements. The bearings are engineered to withstand high radial and axial forces, ensuring stable operation and extended service life.
In terms of control options, the A4VSO355DP/22R-PPB13N00-SO736 offers versatility. It can be controlled through various methods, including manual control, hydraulic control, and electric control. This flexibility allows integration into different hydraulic systems and compatibility with diverse control architectures.
The A4VSO355DP/22R-PPB13N00-SO736 incorporates a built-in pressure compensator, which helps maintain a constant output pressure even when the load conditions vary. This feature enhances system efficiency by eliminating pressure fluctuations and reducing energy consumption.