The A6VM107EZ3/63W-VZB0200B is part of the A6VM series manufactured by a renowned hydraulic systems company.
It features a displacement of 107 cm³ per revolution, making it suitable for medium to heavy-duty applications that require substantial power output. The displacement refers to the volume of fluid displaced by the motor's internal components in a single revolution.
The "EZ3/63W" designation in the model number indicates the specific design and configuration of this motor. The "EZ3" represents the control device, indicating that it utilizes a proportional pressure control with an integrated electric proportional directional valve. This design allows for precise control of the motor's speed and direction, making it suitable for applications that require high precision.
The "63W" designation signifies the connection style and size of the motor's ports. In this case, it uses a flange connection with a nominal size of 63 mm, providing a secure and reliable connection to the hydraulic system. This connection size ensures compatibility with various hydraulic systems and allows for easy integration.
The "VZB0200B" indicates the motor's output shaft design and features.
It features a plain output shaft, which is a standard configuration suitable for connecting to other mechanical components such as gears, pulleys, or couplings. The "0200B" further specifies the shaft dimensions and keyway details, ensuring compatibility and ease of installation.
This hydraulic motor is designed for demanding applications and can handle high pressures and speeds. It has a maximum operating pressure of 450 bar (6,526 psi), allowing it to withstand high-pressure conditions without compromising its performance. The motor's maximum speed rating is 3,000 rpm, enabling it to deliver fast and efficient power transmission in various operational scenarios.
The A6VM107EZ3/63W-VZB0200B hydraulic motor incorporates advanced engineering and materials to ensure durability and reliability. It features a robust housing made from high-quality materials that can withstand harsh operating conditions, including temperature variations, vibrations, and external impacts. This motor is built to withstand demanding industrial environments and provide consistent performance over an extended service life.
Additionally, the motor's design incorporates efficient internal components and hydraulic circuits to optimize energy consumption. This feature enhances the overall efficiency of the motor, reducing energy costs and minimizing environmental impact.