The 5H3-40101POW hydraulic gear pump is constructed with precision engineering to ensure optimal performance and durability.
It consists of a pair of intermeshing gears – one is the driving gear (input), while the other is the driven gear (output). These gears rotate within a sealed housing, creating a chamber that traps hydraulic fluid and moves it through the system.
Flow Rate and Pressure Rating:
One of the crucial specifications of this hydraulic gear pump is its flow rate and pressure capabilities. The 5H3-40101POW model offers a flow rate that typically ranges from 10 to 60 liters per minute (LPM), making it suitable for various hydraulic applications. Additionally, it is designed to handle pressures up to 250 bar (3625 psi), ensuring efficient power transmission even in demanding tasks.
Material Composition:
The pump's longevity and resistance to wear are determined by its material composition. The 5H3-40101POW hydraulic gear pump is commonly crafted from high-quality materials like cast iron or aluminum. These materials provide excellent resistance to corrosion and wear, ensuring a long service life even in challenging environments.
Mounting Options:
Partsdic® offers versatile mounting options for the 5H3-40101POW hydraulic gear pump, allowing it to be easily integrated into various hydraulic systems.
Common mounting styles include SAE flange, European flange, and multiple shaft options, ensuring compatibility with a wide range of equipment and applications.
Sealing and Leakage Control:
Leakage in hydraulic systems can lead to performance degradation and fluid loss. To address this, the 5H3-40101POW hydraulic gear pump is equipped with precision-engineered seals and gaskets. These seals are designed to minimize internal and external leakage, ensuring efficient fluid transfer and system reliability.
Efficiency and Low Noise Operation:
Efficiency is a critical factor in hydraulic systems to minimize energy consumption and heat generation. This pump is designed for high volumetric efficiency, meaning it maximizes the volume of fluid transferred with minimal losses. Additionally, the gear design reduces noise levels during operation, contributing to a quieter working environment.
