The displacement of the AA6VM80HD2 pump ranges from 71 cm³/rev to 110 cm³/rev.
This wide range of displacement options enables flexibility in various hydraulic setups, allowing users to select the appropriate flow rate for their specific application requirements. The maximum operating pressure of the pump is up to 400 bar (5800 psi), ensuring it can handle high-pressure hydraulic systems.
The pump is designed for both open and closed circuit applications. In open circuits, the pump supplies hydraulic fluid from the tank to the system, while in closed circuits, it provides the necessary pressure for the system to operate. This versatility makes the AA6VM80HD2 pump suitable for a wide range of industrial applications, including construction machinery, material handling equipment, agricultural machinery, and more.
The AA6VM80HD2 pump features a compact design, allowing for easy installation and integration into existing hydraulic systems. Its compact size also enables efficient space utilization in equipment designs. The pump is designed for horizontal mounting, which further enhances its adaptability to various machinery configurations.
To ensure smooth and efficient operation, the AA6VM80HD2 pump incorporates high-quality components and advanced technologies.
It utilizes a variable displacement control system that adjusts the pump's output flow based on the system's demand, optimizing energy efficiency and reducing power consumption. This results in cost savings and improved overall system performance.
The pump is equipped with a pressure compensator that maintains a consistent pressure level in the hydraulic system, even when the demand fluctuates. This feature ensures stable and reliable operation, protecting the system components from excessive pressure and preventing potential damage.
The AA6VM80HD2 pump also incorporates a through-drive option, allowing the connection of additional pumps or motors in a series configuration. This feature enables the pump to meet higher flow rate requirements or drive multiple hydraulic functions simultaneously, enhancing system versatility and performance.