The AA2FM56 and AA2FM63 hydraulic motors are known for their robust construction, high efficiency, and reliable performance.
These motors are designed to deliver power and torque in demanding hydraulic systems, offering exceptional durability and long service life.
One of the notable features of the AA2FM Series motors is their axial piston bent-axis design. This design provides high power density, allowing for compact and space-saving installations. The bent-axis arrangement also contributes to smooth and efficient operation, reducing noise and vibration levels.
The displacement of the AA2FM56 motor is 56 cc/rev, while the AA2FM63 motor has a displacement of 63 cc/rev. This displacement value determines the motor's capacity to deliver hydraulic flow, which directly affects its speed and torque capabilities. These motors offer a wide range of displacement options, allowing for precise matching with specific application requirements.
The AA2FM56 and AA2FM63 motors operate with a maximum continuous pressure of up to 450 bar, enabling them to handle demanding industrial and mobile hydraulic systems. They are equipped with high-quality seals and precision components to ensure reliable performance even under high-pressure conditions.
Efficiency is a crucial factor in hydraulic systems, and the AA2FM Series motors excel in this aspect.
With their advanced design and optimized internal components, they offer high overall efficiency, minimizing energy losses and maximizing output power. This efficiency not only reduces operating costs but also contributes to a more sustainable and environmentally friendly operation.
The motors' speed range is another notable specification. The AA2FM56 motor can operate at speeds up to 6000 RPM, while the AA2FM63 motor can reach speeds up to 5500 RPM. This wide speed range makes these motors suitable for a variety of applications, including machinery, construction equipment, agricultural machinery, and more.
The AA2FM Series motors are also highly versatile when it comes to mounting options. They can be easily integrated into different hydraulic systems and configurations, providing flexibility for system designers and equipment manufacturers.
Furthermore, these motors are designed to withstand harsh operating conditions. They are built with high-quality materials and undergo rigorous testing to ensure resistance to temperature variations, contamination, and other external factors that may impact their performance and longevity.