The A8VO107SR/60R-1PZG05F48 hydraulic pump is a variable displacement axial piston pump.
It is capable of delivering a maximum displacement of 107 cc per revolution. This displacement feature allows for flexible control of the pump output, enabling it to meet varying system requirements efficiently. The pump operates within a pressure range of up to 350 bar (5,076 psi), making it suitable for applications requiring high-pressure operation.
The pump is designed with a 60-degree swashplate angle, which determines the stroke length of the pistons. This angle enables precise control of the pump's output and ensures smooth operation. It also contributes to reducing noise and vibration, resulting in enhanced user comfort.
The A8VO107SR/60R-1PZG05F48 hydraulic pump features a robust construction that enhances its durability and reliability. The pump housing is made of high-quality materials, providing excellent resistance to wear, corrosion, and high temperatures. This ensures prolonged service life even in challenging operating conditions. Moreover, the pump is designed with high-precision components and tight tolerances to minimize internal leakage, further improving its overall efficiency.
To enhance efficiency, the A8VO107SR/60R-1PZG05F48 hydraulic pump incorporates a pressure and flow compensator.
This feature allows the pump to automatically adjust its output according to the system's demands, optimizing energy usage and reducing power consumption. By maintaining consistent pressure and flow levels, it ensures the hydraulic system operates at its peak efficiency.
The A8VO107SR/60R-1PZG05F48 hydraulic pump is equipped with a 48-tooth internal gear pump, which drives the variable displacement mechanism. This internal gear design ensures smooth and precise operation, minimizing friction and improving overall efficiency. It also contributes to the pump's compact size, making it suitable for installations with limited space.
The pump includes a wide range of optional features and configurations, allowing customization to meet specific application requirements. These options include different control methods, such as electric proportional control or hydraulic control, to provide flexibility in system integration. Additionally, the pump can be equipped with various shaft options to accommodate different coupling arrangements with prime movers.