The A2FO90 is a displacement-controlled axial piston pump designed for open circuit applications.
It belongs to the well-established A2FO series by Bosch Rexroth, a renowned manufacturer of hydraulic equipment. This pump is specifically engineered for tractors and other heavy-duty machinery that require efficient hydraulic power transmission.
One of the notable features of the A2FO90 pump is its high-pressure capability. It can deliver a maximum operating pressure of up to 450 bar, making it suitable for demanding tasks that involve heavy loads and high pressure requirements. This pump's robust construction and reliable performance ensure optimal power delivery even under challenging conditions.
The displacement of the A2FO90 pump ranges from 28 cm³/rev to 90 cm³/rev, allowing for versatile application possibilities. The displacement determines the volume of hydraulic fluid delivered by the pump per revolution. This flexibility enables the pump to adapt to various hydraulic system requirements and provides the necessary power for different tractor operations.
Another significant feature of the A2FO90 pump is its compact and lightweight design. This compactness allows for easy installation in tractors with limited space availability. Moreover, the lightweight construction ensures that the overall weight of the tractor is not significantly increased, improving its maneuverability and fuel efficiency.
The A2FO90 pump is designed for continuous operation, ensuring reliable and uninterrupted performance.
It incorporates advanced sealing technology and high-quality materials to enhance its durability and longevity. This reliability reduces downtime and maintenance costs, making it a cost-effective solution for tractor hydraulic systems.
The pump is also equipped with advanced hydraulic control options. It offers a range of control modes, including pressure control, load-sensing control, and electric proportional control. These control options enable precise and efficient operation, allowing the pump to adapt to different working conditions and optimize power consumption.