The A10VG 18HWL1/10R-NSC16F015S pump belongs to the A10VG series of axial piston variable displacement pumps manufactured by a reputable hydraulic equipment company.
It has a displacement of 18 cm³/rev, which refers to the volume of fluid displaced by the pump per revolution. This displacement value determines the flow rate and power output of the pump, making it suitable for medium to high-demand hydraulic systems.
One notable feature of the A10VG 18HWL1/10R-NSC16F015S pump is its variable displacement capability. This means that the pump can adjust its displacement and flow rate based on the requirements of the hydraulic system. The pump achieves this through its axial piston design, where the angle of the pistons can be varied to control the volume of fluid being pumped. This feature allows for precise control and optimization of the hydraulic system, resulting in energy efficiency and improved performance.
The pump operates at a maximum pressure of 280 bar, indicating its ability to handle high-pressure hydraulic applications. This pressure rating ensures the pump's durability and reliability, even in demanding environments. Additionally, the A10VG 18HWL1/10R-NSC16F015S pump has a maximum speed of 2600 RPM, enabling it to deliver high-performance output in a variety of operating conditions.
To ensure smooth and efficient operation, the pump incorporates a range of advanced technologies and design elements.
These include a hydrostatically balanced swashplate, which reduces wear and ensures optimum efficiency. The pump also features a pressure compensator, which maintains a constant pressure in the hydraulic system, regardless of the load. This feature enhances system stability and protects components from excessive pressure.
In terms of construction, the A10VG 18HWL1/10R-NSC16F015S pump is built to withstand harsh conditions and provide long-lasting performance. It is designed with high-quality materials and precision engineering to ensure durability and resistance to wear. The pump's compact size and lightweight design make it easy to integrate into various hydraulic systems, optimizing space utilization and installation flexibility.