One of the key features of the A2F016/61R-PAB06 motor is its axial piston design.
It consists of a series of pistons arranged in a circular pattern around a central drive shaft. These pistons are responsible for generating the rotational motion required to drive the pump. The axial piston configuration ensures smooth operation, high torque output, and excellent power density.
The A2F016/61R-PAB06 motor offers a displacement of 16 cc per revolution. Displacement refers to the volume of fluid that can be moved by the motor in one revolution. This specification determines the motor's capacity and suitability for specific pump truck applications. The 16 cc displacement of this motor indicates its medium size, making it ideal for a range of pump truck sizes and operating conditions.
Furthermore, the A2F016/61R-PAB06 motor is designed for high-pressure applications. It can withstand operating pressures of up to 350 bar (5,076 psi). This capability ensures reliable performance in demanding pump truck operations that require efficient fluid transfer and substantial power output. The motor's robust construction and durable materials allow it to operate under extreme conditions without compromising performance.
The motor also features a wide speed range, allowing flexibility in pump truck operations.
It can operate at speeds ranging from a minimum of 400 rpm to a maximum of 3,600 rpm. This versatility ensures that the motor can adapt to different working conditions, providing optimal performance across a range of flow and pressure requirements.
In addition to its technical specifications, the A2F016/61R-PAB06 motor incorporates various design elements for enhanced functionality and ease of use. It features a compact and lightweight design, making it easier to install and integrate into pump truck systems. The motor is also designed for quiet operation, minimizing noise levels during operation and providing a more comfortable working environment.
Maintenance and servicing are also simplified with the A2F016/61R-PAB06 motor. It incorporates a swashplate mechanism, which enables easy adjustment of the motor's displacement and control of the fluid flow. This feature allows for on-the-fly customization and optimization of the motor's performance according to specific application requirements.