Flow Rate: The pump is designed to deliver a specific flow rate of hydraulic fluid, which can vary depending on the application and model.
Pressure Rating: It can generate a specific pressure, typically measured in pounds per square inch (PSI), to meet the demands of the hydraulic system.
Material: The pump is constructed from high-quality materials such as cast iron, aluminum, or steel to ensure durability and resistance to wear and corrosion.
Size: The physical dimensions of the pump, including its length, width, and height, can vary depending on the model.
Mounting: The pump may feature specific mounting options, such as flange or bracket mounts, to facilitate installation in different systems.
Port Configuration: It has inlet and outlet ports to connect to the hydraulic lines of the system.
Fluid Intake: The pump draws hydraulic fluid from the reservoir or sump through its inlet port.
Fluid Compression: Inside the pump, a set of interlocking gears mesh together to trap and compress the hydraulic fluid.
Pressure Generation: As the gears rotate, they create a high-pressure area, which forces the compressed fluid out through the outlet port.
Fluid Delivery: The pressurized hydraulic fluid is then delivered to various components within the hydraulic system, such as hydraulic motors, cylinders, or valves.
Circulation: The pump continues to circulate fluid, maintaining a consistent flow and pressure to power the machinery effectively.
Construction Machinery: Hydraulic gear pumps are integral to construction equipment like excavators, loaders, and bulldozers, where they power hydraulic arms, buckets, and other attachments.
Agricultural Equipment: Tractors, combines, and other agricultural machinery rely on hydraulic gear pumps to operate functions like steering, lifting, and tilting.
Material Handling: Forklifts, conveyor systems, and pallet jacks often use hydraulic systems with gear pumps for smooth material handling.