The A6VM 80HA1R2/63W-VZB010A hydraulic motor belongs to the A6VM series, which is known for its compact design and high power density.
This particular model has a displacement of 80 cm³ per revolution, indicating the volume of fluid that the motor can displace in a single revolution. With its 80 cm³ displacement, the motor is capable of delivering substantial torque and power output.
The motor features a HA design, which stands for the size and mounting type. The HA design ensures easy installation and integration into various hydraulic systems. It has a flange mount, making it compatible with a wide range of applications. The compact size allows for flexibility in installation, even in space-constrained environments.
The A6VM 80HA1R2/63W-VZB010A hydraulic motor has a maximum operating pressure of 450 bar. This high-pressure rating enables the motor to deliver superior performance in demanding conditions, providing reliable and efficient operation. The motor is suitable for applications requiring high torque and power output, such as construction equipment, mining machinery, and industrial systems.
With a maximum speed of 3500 rpm, the motor offers excellent rotational speed capabilities. This high-speed range allows for efficient operation and quick response in dynamic applications. The motor can adapt to varying operational requirements, ensuring optimal performance across different load conditions.
The 63W-VZB010A designates the motor's control device and shaft end configuration.
The motor comes with a 63W control device, which provides precise control and smooth operation. It ensures accurate speed and torque control, enhancing the motor's overall performance. The VZB010A shaft end configuration indicates the specific shaft type and size, allowing for compatibility with various driven components or attachments.
Partsdic® hydraulic motors are renowned for their exceptional quality and durability. The A6VM 80HA1R2/63W-VZB010A motor is no exception, built to withstand demanding operating conditions. It features robust construction, high-quality materials, and advanced engineering, ensuring reliable performance and long service life.
The motor incorporates advanced hydraulic technology, including efficient internal flow paths, optimized porting, and low-friction components. These features contribute to the motor's high efficiency, minimizing energy losses and reducing heat generation. The increased efficiency translates into improved overall system performance and reduced operational costs.