The A2FM 63/61W-PAB03 hydraulic motor boasts several key specifications that make it suitable for a wide range of applications.
It has a displacement of 63/61 cc per revolution, indicating the volume of fluid it can displace in one complete rotation. This displacement capability ensures the motor can handle a significant flow rate, making it suitable for demanding tasks.
The motor's maximum pressure rating is 400 bar, allowing it to operate under high-pressure conditions without compromising performance. This feature makes it ideal for heavy-duty applications that require substantial power output. Additionally, the motor's maximum speed is 3600 rpm, enabling efficient operation even in high-speed applications.
One of the notable features of the A2FM 63/61W-PAB03 hydraulic motor is its axial tapered piston design. This design ensures smooth and efficient power transmission, minimizing energy loss and maximizing overall efficiency. The tapered piston arrangement also contributes to the motor's compact size, making it easier to integrate into various systems.
The A2FM 63/61W-PAB03 hydraulic motor incorporates advanced technologies to enhance its performance and durability.
It utilizes a hydrostatic balancing system, which optimizes the distribution of forces within the motor, resulting in reduced wear and improved overall efficiency. The motor also features a robust construction with high-quality materials, ensuring long-term reliability and resistance to harsh operating conditions.
Furthermore, the A2FM 63/61W-PAB03 hydraulic motor offers excellent control and versatility. It is compatible with a wide range of hydraulic fluids, including mineral oils, synthetic fluids, and biodegradable options, allowing for flexible usage in different environments. The motor also provides precise speed control and quick response times, enabling operators to achieve accurate and efficient system performance.
In terms of installation and maintenance, the A2FM 63/61W-PAB03 hydraulic motor offers convenience and ease of use. It features a compact design that facilitates straightforward integration into existing systems, saving both time and effort during installation. The motor's modular design also simplifies maintenance tasks, as individual components can be easily accessed and serviced, reducing downtime and overall operating costs.