Model: The 5B1 1517222359 is part of the 5B1 series of hydraulic gear pumps.
The model number, 1517222359, likely corresponds to its unique identifier or batch information.
Type: This hydraulic gear pump is categorized as a gear pump, which means it uses meshing gears to create a flow of hydraulic fluid.
Flow Rate: The flow rate of this pump is a crucial specification. It defines the volume of hydraulic fluid it can deliver per unit of time. The 5B1 1517222359 likely has a specific flow rate, which can vary depending on the model and size.
Pressure Rating: Hydraulic systems operate under varying pressure conditions. The pressure rating of this pump is important as it determines the maximum pressure it can handle without damage.
Mounting Configuration: The 5B1 1517222359 may have specific mounting configurations, such as flange or foot mounting, to ensure it can be securely installed in hydraulic systems.
Material: The materials used in the construction of the pump are critical for its durability and performance. Common materials include cast iron, aluminum, and stainless steel.
Port Size: The port size of the pump indicates the size of the connections where hydraulic lines are attached. It is essential for ensuring compatibility with the hydraulic system.
Shaft Configuration: The pump may have different shaft configurations, such as keyed or splined, to connect it to the driving source, such as an electric motor or an engine.
Direction of Rotation: The direction in which the pump rotates can be specified to match the system's requirements.
Key Features:
Efficiency: Hydraulic gear pumps are known for their high volumetric efficiency, which means they can deliver a consistent and reliable flow of hydraulic fluid.
Compact Design: These pumps are relatively compact, making them suitable for applications where space is limited.
Durability: Depending on the materials used, hydraulic gear pumps can withstand high pressures and have a long service life.
Noise Level: Some hydraulic gear pumps are designed to operate quietly, making them suitable for noise-sensitive environments.
