With its compact design and advanced engineering, the A7VO 55HD1/61L-PZB01 hydraulic pump delivers exceptional performance in demanding conditions.
It is specifically designed to meet the requirements of heavy-duty hydraulic systems, providing consistent power and reliability.
This hydraulic pump features a displacement of 55 cm³/rev, which refers to the amount of fluid it can deliver per revolution. The displacement determines the flow rate and torque output of the pump, making it suitable for a wide range of applications.
The A7VO 55HD1/61L-PZB01 hydraulic pump operates at a maximum pressure of 450 bar (6,526 psi), enabling it to handle high-pressure hydraulic systems efficiently. This robust design ensures the pump's durability and ability to withstand demanding working environments.
Equipped with a variable displacement axial piston pump, the A7VO 55HD1/61L-PZB01 offers excellent control over hydraulic flow. It allows for precise adjustment of the pump's output according to the application's requirements, optimizing energy efficiency and reducing unnecessary power consumption.
The pump incorporates a swashplate design, which converts the rotating motion of the drive shaft into axial movement of the pistons.
This mechanism ensures smooth and reliable operation, reducing vibration and noise while providing consistent hydraulic power.
The A7VO 55HD1/61L-PZB01 hydraulic pump is equipped with a pressure-compensated axial piston pump. This feature allows the pump to automatically adjust the flow rate based on the system's pressure requirements, maintaining a constant pressure and preventing damage to the hydraulic components.
Additionally, the pump is designed to work with a wide range of hydraulic fluids, including mineral oils, synthetic fluids, and biodegradable fluids. This versatility makes it suitable for various applications and ensures compatibility with different hydraulic systems.
The A7VO 55HD1/61L-PZB01 hydraulic pump also features a compact and lightweight design, making it easy to install and integrate into different hydraulic systems. Its small size allows for flexible placement, even in space-constrained environments.
