The A2FO45 pump features a drive shaft configuration, which enables it to be coupled with an external power source, such as an electric motor or an engine.
This drive shaft design allows for easy integration into hydraulic systems, providing seamless power transmission and control.
One of the key specifications of the A2FO45 pump is its displacement. With a displacement of 45 cm³/rev (cubic centimeters per revolution), this pump is capable of delivering a substantial amount of hydraulic fluid per rotation. This displacement value determines the flow rate and ultimately influences the performance of the hydraulic system in which it is installed.
The A2FO45 pump offers a maximum operating pressure of up to 400 bar (5,800 psi). This high-pressure capability makes it suitable for demanding applications that require efficient power transmission and precise control, such as construction equipment, agricultural machinery, and industrial systems.
In terms of efficiency, the A2FO45 pump is designed to minimize energy consumption and optimize performance. It utilizes advanced hydraulic technologies, including axial piston design and precise control of internal clearances, to achieve high volumetric efficiency and overall system efficiency.
The A2FO45 pump incorporates a robust construction to ensure durability and long service life.
It is made from high-quality materials, including hardened steel components, to withstand demanding operating conditions and resist wear and tear. This reliability is crucial for continuous operation and to minimize downtime in critical applications.
To facilitate easy installation and maintenance, the A2FO45 pump features a compact and modular design. It is designed for easy integration into hydraulic systems, with standard mounting interfaces and port connections. Additionally, the pump's modular construction allows for convenient servicing and replacement of individual components, reducing downtime and maintenance costs.
The A2FO45 pump is also equipped with advanced control options, enabling precise and responsive operation. It can be combined with various control valves, such as proportional valves or electro-hydraulic control systems, to achieve the desired level of performance and functionality in specific applications.