The A6VM 80EZ3/63W-VZB020B motor features a displacement of 80 cm³ per revolution, which determines its volumetric output.
This displacement value indicates the amount of fluid that the motor can displace in a single revolution, thus determining its speed and torque characteristics. The motor operates at a maximum pressure of 450 bar, allowing it to generate substantial power and deliver high torque output.
With its compact design, the A6VM 80EZ3/63W-VZB020B motor offers excellent power-to-weight ratio, making it suitable for applications where space is limited or weight restrictions apply. The motor's efficient design ensures optimal performance while minimizing energy consumption, contributing to overall system efficiency.
The motor incorporates high-quality materials and advanced engineering techniques, ensuring durability and reliability in harsh operating conditions. It features precision-machined components and sealed bearings to withstand heavy loads, shocks, and vibrations, prolonging the motor's service life and reducing maintenance requirements.
The A6VM 80EZ3/63W-VZB020B motor utilizes a variable displacement axial piston design.
This design allows for precise control of the motor's speed and torque output, making it highly versatile for applications requiring varying power levels. The variable displacement feature enables the motor to adjust its output based on load demands, optimizing energy usage and reducing system wear.
The motor is equipped with a built-in flushing and pressure relief valve system, ensuring safe and reliable operation. This system protects the motor from excessive pressures and contaminants, preventing damage and enhancing the motor's longevity. Additionally, it facilitates easy installation and maintenance, simplifying the overall hydraulic system design.
The A6VM 80EZ3/63W-VZB020B motor is compatible with various hydraulic fluids, including mineral oils, synthetic fluids, and environmentally friendly options. This versatility allows for flexibility in fluid selection based on specific application requirements.