The AP2D36 is a double serial gear pump, which means it consists of two gears that are meshed together to create a pumping action.
These gears are housed within a sturdy pump body, which is typically made of high-quality materials such as cast iron or aluminum alloy. The pump is compact in size and has a lightweight construction, making it suitable for installations with limited space.
One of the standout features of the AP2D36 pump is its high volumetric efficiency. This means that it can deliver a large volume of hydraulic fluid per revolution, resulting in faster and more efficient operation. The pump also exhibits excellent pressure capability, allowing it to generate substantial hydraulic power, even at high pressures. This makes it suitable for demanding applications that require high force or torque.
Another important specification of the AP2D36 pump is its flow rate. It is capable of delivering a specific amount of fluid per unit of time, measured in gallons per minute (GPM) or liters per minute (LPM). The flow rate can be adjusted by varying the pump's rotational speed, allowing for precise control of hydraulic systems.
The pump is designed to handle a wide range of hydraulic fluids, including mineral oils, synthetic oils, and biodegradable fluids.
It is equipped with robust seals and gaskets that provide excellent resistance to fluid leakage, ensuring reliable performance and preventing contamination of the hydraulic system.
In terms of operational characteristics, the AP2D36 pump operates smoothly and quietly, thanks to its precise gear meshing and optimized design. It generates minimal vibration, reducing wear and tear on the pump and other system components. The pump is also designed for easy maintenance, with accessible ports and serviceable components, allowing for quick inspections and repairs.
The AP2D36 hydraulic pump is compatible with various mounting options, including flange, foot, or through-bolt mounting. This versatility enables it to be integrated into different hydraulic systems with ease. The pump can be driven by electric motors, internal combustion engines, or other power sources, providing flexibility in system design.