The AA6VM55 motor is designed with a displacement of 55 cc/rev, making it suitable for applications where moderate hydraulic power is required.
It offers reliable performance and is known for its durability, making it a popular choice in industries such as construction, agriculture, and material handling.
The AA6VM80 motor, with a displacement of 80 cc/rev, provides a higher power output compared to the AA6VM55. This makes it suitable for applications that demand increased hydraulic power, such as in forestry equipment, mining machinery, and certain industrial processes. Its design ensures efficient operation and long-lasting performance.
Stepping up in displacement, the AA6VM107 motor offers even greater power output at 107 cc/rev. This motor is well-suited for heavy-duty applications where maximum hydraulic power is required. Its robust construction and advanced engineering make it a reliable choice for demanding industries like mining, marine, and oil and gas.
At the top of the AA6VM series, the AA6VM160 motor boasts a displacement of 160 cc/rev, providing high torque and power capabilities. This motor is ideal for applications requiring maximum hydraulic performance, such as large construction machinery, marine propulsion systems, and other heavy-duty industrial equipment.
All motors in the AA6VM series share common features that contribute to their high-performance capabilities.
They are designed with precision to ensure efficiency, reliability, and durability. The motors incorporate advanced materials and engineering techniques to withstand harsh operating conditions, making them resistant to rust and corrosion.
The hydraulic piston motors in the AA6VM series are known for their axial piston design, which enables smooth and efficient operation. The axial piston design also contributes to the compact size and high power density of these motors, making them suitable for installations where space is limited.
These motors are equipped with various control options, allowing for flexible integration into different hydraulic systems. The design includes features for easy maintenance, reducing downtime and ensuring a longer lifespan for the motors.
