The A4VG 90DA1DMT2/32R-NZF02F021FH hydraulic pump belongs to the A4VG series, known for its robust construction and superior performance.
It has a displacement of 90 cm³/rev, indicating the volume of fluid it can deliver per revolution. This displacement capacity makes it suitable for a wide range of hydraulic systems, including industrial machinery, construction equipment, and agricultural vehicles.
The pump operates using axial piston swashplate technology, ensuring precise and consistent fluid flow. It is designed to withstand high pressures, with a maximum pressure rating of up to 350 bar (5076 psi). This enables it to handle demanding applications that require powerful hydraulic force.
The A4VG 90DA1DMT2/32R-NZF02F021FH pump features a variable displacement design, allowing for adjustable flow rates based on the system requirements. This flexibility is particularly useful in applications where varying speeds and loads are encountered, as it optimizes energy consumption and enhances overall system efficiency.
To ensure smooth and reliable operation, the pump incorporates advanced features such as pressure cut-off control and load sensing capabilities. These features help regulate the pressure and flow according to the load demand, improving system response and efficiency while reducing wear and tear on the pump components.
The pump is equipped with a 32° bent-axis design, which facilitates easy integration into hydraulic systems and allows for compact installation.
It also features a rugged construction and high-quality materials, ensuring durability and longevity even in harsh operating conditions.
The A4VG 90DA1DMT2/32R-NZF02F021FH pump is compatible with various hydraulic fluids, including mineral oil-based and synthetic fluids, making it versatile for different applications. It is equipped with a filtration system to maintain fluid cleanliness and protect the internal components from contamination, enhancing the pump's lifespan.
In terms of noise and vibration levels, the pump is designed to minimize both, ensuring quieter operation and reducing stress on the system. This is particularly important in applications where noise reduction is crucial, such as in mobile machinery or indoor industrial environments.
