The 5H1 40062SANA01 is a hydraulic gear pump, which is a type of positive displacement pump commonly used in hydraulic systems.
Its operation relies on a pair of intermeshing gears that create hydraulic flow by trapping and pushing fluid between their teeth, generating both pressure and flow.
Flow Rate and Pressure Range:
One of the most crucial specifications of any hydraulic pump is its flow rate and pressure range. The 5H1 40062SANA01 is designed with specific flow rates and pressure capabilities, which may vary depending on the model or variant. These parameters are tailored to suit the specific requirements of the intended hydraulic system.
Material and Durability:
Partsdic® places great importance on the durability and reliability of their hydraulic components, and the 5H1 40062SANA01 is no exception. It is constructed using high-quality materials that are carefully selected to resist wear, corrosion, and environmental factors, ensuring a long and dependable service life.
Mounting Options:
This hydraulic gear pump is designed to be adaptable to various system configurations. It offers multiple mounting options, including flange, foot, or bracket mounts, making it versatile and easy to integrate into different hydraulic setups.
Seal and Bearing Design:
The 5H1 40062SANA01 features a meticulously engineered seal and bearing design.
Effective seals prevent hydraulic fluid leakage, while high-quality bearings minimize friction and wear within the pump, contributing to its overall efficiency and longevity.
Fluid Compatibility:
The compatibility of hydraulic pumps with the type of hydraulic fluid used in a system is crucial. Partsdic® ensures that the 5H1 40062SANA01 is designed to work with a range of hydraulic fluids, making it suitable for a variety of applications while maintaining optimal performance.
Noise and Vibration Control:
Partsdic® pays special attention to noise and vibration control in the design of their hydraulic gear pumps. The 5H1 40062SANA01 is equipped with features that reduce noise and vibration during operation, resulting in a quieter and smoother hydraulic system.
