The motor features a displacement of 200 cm³/rev, indicating the volume of fluid it can displace in a single revolution.
This displacement capability allows it to generate substantial torque and rotational power, making it suitable for demanding tasks that require high force output.
One of the notable features of the A6VM200EZ2/63W-VAB027B motor is its high-speed performance. With a maximum speed rating of 4000 RPM, it enables rapid and dynamic operation in applications such as construction machinery, agricultural equipment, and industrial machinery.
The motor incorporates an axial tapered piston design, which enhances its efficiency and power density. This design ensures optimal contact between the pistons and the swash plate, reducing friction and maximizing energy transfer. As a result, the motor can operate with minimal energy loss, leading to improved overall system efficiency.
To ensure durability and reliability, the A6VM200EZ2/63W-VAB027B motor is built with high-quality materials and precision machining. Its components are engineered to withstand heavy loads, high pressures, and harsh operating conditions. Additionally, the motor features advanced sealing technology to prevent leakage and maintain consistent performance over time.
The A6VM200EZ2/63W-VAB027B motor is designed for easy integration into hydraulic systems.
It is compatible with a range of hydraulic fluids, allowing flexibility in various operating environments. The motor also offers versatile mounting options, enabling seamless installation in different equipment configurations.
Furthermore, the motor incorporates advanced control features to optimize its performance and adapt to specific application requirements. It supports various control options, such as proportional pressure control and load-sensing control, which allow precise adjustment of speed and torque based on the operational needs.
In terms of maintenance, the A6VM200EZ2/63W-VAB027B motor is designed for easy servicing and repair. It features a modular design, allowing individual components to be replaced or repaired without requiring a complete motor replacement. This design minimizes downtime and reduces maintenance costs, contributing to increased productivity.
