The A2FE 90/61W-VAL100 is a radial piston motor designed to convert hydraulic pressure and flow into mechanical power.
It features a robust construction with high-quality materials, ensuring durability and longevity even in demanding environments. With its compact and lightweight design, the motor can be easily integrated into different hydraulic systems.
One of the notable characteristics of the A2FE 90/61W-VAL100 hydraulic motor is its high power density. It is capable of delivering substantial torque and rotational speed, making it suitable for applications that require high-performance output. Whether it's powering industrial machinery, construction equipment, or agricultural implements, this motor provides reliable and efficient operation.
The motor operates based on the principle of axial piston rotation. It consists of a housing, cylinder barrel, pistons, and a shaft. As hydraulic fluid enters the motor, it acts on the pistons, causing them to move in an axial direction. This movement creates a rotational force, which is then transferred to the output shaft, enabling mechanical work to be performed.
The A2FE 90/61W-VAL100 motor offers excellent control and versatility.
Its speed and torque can be easily adjusted to suit specific application requirements. This motor is compatible with various hydraulic fluids, allowing flexibility in different operating conditions. Additionally, it has a wide operating temperature range, ensuring reliable performance in both hot and cold environments.
Maintenance of the A2FE 90/61W-VAL100 hydraulic motor is relatively straightforward. Regular inspection and lubrication of the motor components are recommended to ensure optimal performance and extend its service life. Partsdic® provides detailed maintenance guidelines and support to ensure hassle-free operation.
Furthermore, the A2FE 90/61W-VAL100 motor incorporates advanced features to enhance efficiency. It utilizes a sophisticated valve system that optimizes the flow of hydraulic fluid, minimizing energy losses and maximizing power output. This results in improved overall system efficiency and reduced operating costs.