Type: The 5C1 26210RACS is a hydraulic gear pump, which means it operates using the principle of positive displacement.
It is designed to deliver a consistent flow of hydraulic fluid under pressure.
Flow Rate: This pump has a specified flow rate, typically measured in gallons per minute (GPM) or liters per minute (LPM). The exact flow rate can vary depending on the model and application requirements.
Pressure Rating: The 5C1 26210RACS hydraulic gear pump is rated for a certain maximum pressure. It can withstand hydraulic pressures commonly found in industrial and mobile hydraulic systems.
Material: The construction material of this pump is typically robust, durable, and corrosion-resistant to ensure a long service life. Common materials include cast iron or steel.
Mounting: It is designed for easy installation and can be mounted in various orientations to suit different system configurations.
Port Configuration: The pump is equipped with ports for both input and output of hydraulic fluid. These ports are designed to accommodate standard hydraulic fittings and hoses.
Features:
Compact Design: The 5C1 26210RACS boasts a compact and space-saving design, making it suitable for applications where space is limited.
High Efficiency: Hydraulic gear pumps are known for their high efficiency.
They can deliver a consistent flow of fluid, even at varying pressures, making them ideal for precise control in hydraulic systems.
Low Noise Operation: Many hydraulic gear pumps, including the 5C1 26210RACS, are designed to operate quietly, reducing noise pollution in industrial settings.
Reliability: These pumps are known for their reliability and durability. They can withstand harsh operating conditions and maintain performance over extended periods.
Ease of Maintenance: Maintenance of hydraulic gear pumps is typically straightforward, with easy access to internal components for servicing or replacement.
Functions:
The primary function of the 5C1 26210RACS hydraulic gear pump is to generate hydraulic flow by utilizing rotating gears within a housing. When the pump is in operation, hydraulic fluid is drawn into the pump's inlet port and forced through the gears. As the gears rotate, they trap and pressurize the fluid, creating a continuous flow at the pump's outlet port.
