The A10VO 45DFR/52L-PSC62K04 is a member of the A10VO series of axial piston variable displacement pumps manufactured by Bosch Rexroth, a leading name in hydraulic solutions.
This particular model has a displacement of 45 cm³/rev and features a 52 mm nominal pressure size. It operates with a maximum pressure of 350 bar and has a peak pressure capability of up to 400 bar, making it suitable for handling high-pressure applications.
One notable feature of the A10VO 45DFR/52L-PSC62K04 is its axial tapered piston geometry. This design ensures smooth and efficient operation, reducing friction and wear, while also minimizing noise levels. The pump's compact size and lightweight construction make it easy to install and integrate into various hydraulic systems.
The pump utilizes a variable displacement control mechanism, allowing the operator to adjust the output flow according to the requirements of the system. This feature enhances energy efficiency by delivering only the necessary amount of hydraulic fluid, reducing energy consumption and operational costs.
The A10VO 45DFR/52L-PSC62K04 incorporates a pressure relief valve, which protects the pump and the hydraulic system from excessive pressure. This safety feature prevents damage caused by overloading or system malfunctions, ensuring reliable and long-lasting performance.
The pump is equipped with a swashplate design that enables precise control of the fluid flow and system pressure.
This design also facilitates quick response times, making the pump suitable for applications that require rapid changes in operating conditions.
Furthermore, the A10VO 45DFR/52L-PSC62K04 offers a wide range of mounting options and auxiliary ports, allowing for flexible installation and integration with different hydraulic systems. The pump can be mounted vertically or horizontally, depending on the requirements of the application.
Maintenance and service are made convenient with the pump's modular design. The components can be easily accessed and replaced, reducing downtime and enhancing overall system reliability.