At the core of the A10VO 45DFR1/52L-VSC62N00 hydraulic pump is its axial piston design.
It consists of a series of pistons arranged in a circular pattern within a cylinder block. These pistons move back and forth, drawing in hydraulic fluid from the reservoir and delivering it at high pressure to the hydraulic system. The axial piston design ensures smooth and consistent fluid flow, enabling precise control and reliable operation.
The "45DFR1/52L" designation refers to specific features and technical characteristics of the pump. The "45" denotes the nominal displacement, indicating the volume of fluid delivered by the pump in one revolution. This pump has a displacement of 45 cm³ per revolution, which influences the flow rate and overall performance of the hydraulic system.
The "DFR1" signifies the control device and pressure limitation of the pump. This particular model incorporates a pressure control function, allowing the operator to adjust and maintain the desired pressure level within the system. It ensures safe and efficient operation by preventing overpressure situations that could lead to damage or failure.
The "52L" represents the flange connection type and size. In this case, the pump is designed to be mounted using a 52L flange connection, providing a secure and rigid attachment to the hydraulic system. Proper mounting and alignment are essential for optimal performance and longevity.
The "VSC62N00" designation refers to additional features and specifications of the pump.
The "VSC" stands for variable displacement control, indicating that this pump allows the operator to adjust the displacement volume based on the system's requirements. This feature enables energy efficiency by delivering the necessary flow only when needed, reducing power consumption and increasing overall system efficiency.
The "62N00" component denotes the control device type and model. This pump utilizes a specific control device that enables precise adjustment of the pump's displacement, ensuring accurate and responsive control of the hydraulic system. It contributes to improved system performance and versatility.