Type and Configuration: The 5B1 40036BOS is a positive displacement hydraulic gear pump, which means it delivers a fixed amount of hydraulic fluid with each revolution of its gears.
It features an external gear design, consisting of two meshing gears that create chambers to move hydraulic fluid.
Flow Rate: This pump is capable of delivering a flow rate of up to 5 gallons per minute (GPM). This flow rate can be critical in various applications where precise control of hydraulic fluid is required.
Pressure Rating: The 5B1 40036BOS hydraulic gear pump is designed to operate under high pressure conditions. It can handle pressures up to 2500 PSI (pounds per square inch), making it suitable for applications that demand high-pressure hydraulic systems.
Construction and Materials: This pump is typically constructed using high-quality materials such as cast iron or aluminum alloy. These materials provide durability and corrosion resistance, ensuring a long service life even in harsh operating conditions.
Mounting Options: The 5B1 40036BOS pump offers versatile mounting options, including SAE, NPT, and BSP thread connections, making it compatible with a wide range of hydraulic systems and equipment.
Sealing Mechanism: To prevent leakage and ensure optimal performance, this hydraulic gear pump employs efficient sealing mechanisms.
Common seal materials include Nitrile rubber (Buna-N) or Viton, which can withstand various hydraulic fluids and temperatures.
Temperature Range: The pump is designed to operate within a broad temperature range, typically from -20°C to 120°C (-4°F to 248°F). This flexibility allows it to function reliably in environments with varying temperatures.
Shaft Options: Depending on the application's requirements, the 5B1 40036BOS pump may be equipped with different shaft options, including keyed shafts or splined shafts, allowing for compatibility with various motor or engine configurations.
Efficiency and Performance: Hydraulic gear pumps are known for their efficiency, and the 5B1 40036BOS is no exception. Its precise gear meshing design results in minimal internal leakage, reducing energy consumption and heat generation. This efficiency contributes to the overall performance and longevity of the hydraulic system it powers.