The A10VG 18HD3/10L-NSC16N005S hydraulic pump is part of the A10VG series of axial piston variable displacement pumps manufactured by a reputable hydraulic equipment company.
It features a displacement of 18 cm³/rev and a nominal pressure of 280 bar, making it suitable for high-pressure hydraulic systems. The pump is designed to handle demanding applications that require precise control of flow and pressure.
One of the notable features of the A10VG 18HD3/10L-NSC16N005S hydraulic pump is its variable displacement capability. This means that the pump can adjust its output volume according to the system's requirements, providing efficient and energy-saving operation. The variable displacement feature also allows for precise control of the hydraulic system, enabling smooth and accurate movements in various applications.
The A10VG 18HD3/10L-NSC16N005S hydraulic pump is equipped with a highly efficient swashplate design. The swashplate mechanism converts the rotary motion of the pump's drive shaft into a reciprocating motion of the pistons, resulting in the pumping action. The design ensures minimal friction and wear, maximizing the pump's lifespan and reducing maintenance requirements.
To ensure optimal performance and durability, the A10VG 18HD3/10L-NSC16N005S hydraulic pump is built with high-quality materials and advanced engineering techniques.
The pump's housing is made from rugged and corrosion-resistant materials, providing excellent protection against harsh operating conditions. The internal components are precision-machined to tight tolerances, ensuring smooth operation and minimizing internal leakage.
The A10VG 18HD3/10L-NSC16N005S hydraulic pump is also designed with user-friendly features. It incorporates a compact and lightweight design, making it easy to install and integrate into hydraulic systems. The pump is compatible with various control options, allowing for flexible integration with different control architectures. Additionally, the pump's modular design simplifies maintenance and repair procedures, reducing downtime and enhancing overall system efficiency.