The PVD-2B-36L pump features a swash plate mechanism, which converts mechanical power into hydraulic power.
The swash plate, positioned at an angle to the pump shaft, allows for the regulation of fluid flow and pressure. By adjusting the swash plate angle, the pump can control the output flow rate and pressure to meet specific operational requirements.
One of the key specifications of the PVD-2B-36L pump is its displacement capacity. It has a displacement of 36 cubic centimeters per revolution, which determines the volume of fluid the pump can deliver per revolution. This displacement capacity is essential for matching the pump's output to the system's requirements and ensuring optimal performance.
The PVD-2B-36L pump is also designed for durability and longevity. It features high-quality materials and precision engineering to withstand harsh operating conditions and maintain reliable performance over an extended period. This pump can handle high pressures, ensuring efficient power transmission while minimizing wear and tear.
Another important specification of the PVD-2B-36L pump is its operating pressure range. It is designed to operate within a specific pressure range, typically between 2800 and 3500 pounds per square inch (psi). This range allows for flexibility in various applications and ensures compatibility with different hydraulic systems.
The pump's efficiency is another noteworthy characteristic. It is designed to deliver high efficiency, minimizing energy losses and maximizing output power. This efficiency is crucial for reducing operating costs, optimizing system performance, and minimizing environmental impact.
In terms of installation and maintenance, the PVD-2B-36L pump is designed to be user-friendly.
It can be easily integrated into hydraulic systems and requires minimal maintenance, reducing downtime and increasing productivity. Regular maintenance, including fluid checks and filter replacements, ensures the pump's longevity and optimal performance.
Furthermore, the PVD-2B-36L pump is compatible with various hydraulic fluids, including mineral oils and synthetic fluids. This compatibility allows for flexibility in fluid selection, depending on the application requirements and environmental considerations.