The GP1C072X is a hydraulic gear pump designed for medium-duty applications.
Its robust construction ensures longevity and dependable performance even in demanding conditions. The pump consists of two meshed gears, a driving gear, and a driven gear, housed within a sturdy casing. These gears rotate to create a suction and discharge action, propelling hydraulic fluid through the system.
Flow Rate:
This hydraulic gear pump is capable of delivering a consistent and controlled flow of hydraulic fluid. The flow rate of the GP1C072X is specified at [Insert Flow Rate Value] liters per minute ([Insert GPM Value] gallons per minute). This flow rate can be adjusted to suit the specific requirements of the hydraulic system it is integrated into.
Pressure Rating:
The GP1C072X is designed to generate hydraulic pressure to operate various hydraulic components. It boasts a maximum pressure rating of [Insert Pressure Rating Value] bar ([Insert PSI Value] psi). This pressure rating ensures that it can provide sufficient force to drive hydraulic cylinders, motors, and other actuators.
Mounting Options:
Partsdic® offers various mounting options for the GP1C072X hydraulic gear pump, making it adaptable to different equipment configurations.
Common mounting options include flange mount, SAE mount, and European mount. This versatility allows for easy integration into diverse hydraulic systems.
Material and Sealing:
The construction materials of the GP1C072X are chosen for their resistance to wear, corrosion, and abrasion. The gears and casing are typically made from high-quality materials such as cast iron or aluminum, depending on the specific model. The pump is also equipped with advanced sealing mechanisms to prevent fluid leakage, ensuring efficient operation.
Temperature Range:
This hydraulic gear pump is designed to operate effectively within a broad temperature range, typically between -20°C to [Insert Maximum Temperature Value]°C (-4°F to [Insert Maximum Temperature Value]°F). This wide operating range makes it suitable for use in both cold and hot environments.