Design and Construction:
The A4VG 71EP4DT1/32R-NZF02F071S pump features an axial piston design, where the pistons are arranged in a radial pattern around a central drive shaft.
This design ensures smooth operation, reduced noise levels, and high efficiency. The pump is constructed with high-quality materials, such as hardened steel, to provide durability and longevity.
Variable Displacement:
The pump offers variable displacement capability, meaning it can adjust the flow rate and pressure output according to the system requirements. This feature allows for precise control of the hydraulic system and efficient energy utilization. The displacement can be adjusted manually or through external controls, such as electronic control units.
Flow and Pressure Ratings:
The A4VG 71EP4DT1/32R-NZF02F071S pump is capable of delivering a maximum flow rate of [specify the flow rate, e.g., 180 liters per minute]. It can generate pressures up to [specify the pressure rating, e.g., 350 bar], making it suitable for demanding hydraulic applications that require high power and performance.
Control Options:
The pump supports various control options to optimize its operation within different hydraulic systems.
It can be equipped with pressure compensators, load-sensing controls, or electronic control units, depending on the specific application requirements. These control mechanisms ensure precise regulation of flow and pressure, enhancing system performance and efficiency.
Mounting and Connection:
The A4VG 71EP4DT1/32R-NZF02F071S pump is designed for easy installation and integration into hydraulic systems. It features standard SAE flange mounts and shaft connections, allowing for straightforward coupling with the prime mover, such as an electric motor or an internal combustion engine. The pump also incorporates standard hydraulic ports for inlet and outlet connections.
Efficiency and Noise Reduction:
This hydraulic pump utilizes advanced engineering techniques to minimize internal leakage and improve overall efficiency. The precise manufacturing tolerances and optimized design result in reduced energy losses and increased system productivity. Additionally, the pump incorporates noise reduction features, including damping elements and efficient flow control, to ensure quieter operation.