The 5H2 39979MF is a hydraulic gear pump, characterized by its positive displacement design.
The "5H2" in the model number indicates its series and configuration, while "39979MF" represents a unique identification code or part number for this specific pump.
Flow Rate and Pressure Rating:
This hydraulic gear pump is capable of delivering a specific flow rate of hydraulic fluid measured in gallons per minute (GPM) or liters per minute (LPM). The actual flow rate may vary depending on factors like pump size and motor speed. The pressure rating indicates the maximum pressure the pump can handle in pounds per square inch (PSI) or bars. It is essential to choose a pump with the appropriate flow rate and pressure rating for the intended application.
Construction and Materials:
The 5H2 39979MF is constructed using high-quality materials such as cast iron or aluminum alloy for the pump housing and gears. These materials are chosen for their durability, corrosion resistance, and ability to withstand the rigors of hydraulic applications. The use of precision machining ensures tight tolerances and smooth operation.
Gear Design:
This pump utilizes a gear mechanism, which consists of meshing gears to create suction and discharge of hydraulic fluid.
The gear design plays a crucial role in determining the pump's efficiency and reliability. The 5H2 39979MF likely features helical or spur gears, known for their consistent and efficient fluid displacement.
Mounting Options:
The 5H2 39979MF can be mounted in various orientations to suit different hydraulic system configurations. Common mounting options include flange mounting, foot mounting, and direct-drive mounting. The choice of mounting method depends on the specific installation requirements.
Shaft and Seal Configuration:
This pump may come with different shaft and seal options to accommodate specific applications. Common configurations include single or double shafts and various types of seals like lip seals, mechanical seals, or packing seals. The choice of shaft and seal configuration depends on factors such as the fluid being pumped and environmental conditions.