The motor belongs to the A6VM series, which is manufactured by a renowned hydraulic equipment company.
It is specifically designed for high-pressure applications and offers a wide range of operating speeds and torque outputs. The model number, A6VM107HD1/63W-VZB010B, represents the motor's specific configuration and specifications.
The "A6VM107" indicates the displacement of the motor, which refers to the volume of fluid it can displace in a single revolution. In this case, it has a displacement of 107 cm³/rev. This displacement value determines the motor's torque output and speed characteristics. Higher displacements generally result in higher torque outputs.
The "HD1" designation signifies the motor's control device. It indicates that the motor is equipped with a hydrostatic displacement control system, allowing for precise control over the motor's speed and output torque. This feature makes it suitable for applications that require accurate speed control or constant torque.
The "63W" represents the motor's output shaft design and mounting flange. It indicates a metric design with a 63 mm output shaft and a flange suitable for direct mounting onto compatible equipment. This design simplifies the installation process and ensures a secure connection between the motor and the driven machinery.
The "VZB010B" identifies the motor's configuration and options. It may refer to specific porting configurations, shaft sealing options, or additional features available with the motor. These details vary depending on the manufacturer's product line and customer requirements.
The hydraulic motor is designed to operate under high pressure and withstand demanding conditions.
It is constructed with high-quality materials, including robust housing and internal components, to ensure long-lasting performance and durability. This makes it suitable for heavy-duty industrial applications such as construction equipment, mining machinery, and material handling systems.
The motor utilizes hydraulic fluid to generate rotational motion. It converts the fluid's pressure and flow into mechanical power, which can be transmitted to various driven components such as pumps, conveyors, or winches. The high-efficiency design of the motor minimizes energy losses, resulting in improved overall system efficiency and reduced operating costs.
