Model and Manufacturer: The part number "26009A03" likely represents the specific model of the hydraulic gear pump.
The manufacturer's name or brand should also be mentioned, which is essential for sourcing replacement parts and understanding the product's origin and quality.
Type: Hydraulic gear pumps fall into different categories, such as external gear pumps, internal gear pumps, or gerotor pumps. Understanding the type can give insights into the pump's operation and capabilities.
Flow Rate: The flow rate indicates how much hydraulic fluid the pump can deliver per unit of time, typically measured in gallons per minute (GPM) or liters per minute (LPM). This specification is crucial for determining if the pump meets the hydraulic system's requirements.
Pressure Rating: Hydraulic systems often require specific pressure levels to operate efficiently. The pressure rating indicates the maximum pressure the pump can generate, measured in pounds per square inch (PSI) or bars.
Material: Hydraulic gear pumps are typically constructed from materials like cast iron, aluminum, or stainless steel. The choice of material affects durability and resistance to corrosion.
Mounting Type: The pump's mounting configuration is important for compatibility with the equipment it will be used with.
Common types include flange-mounted and foot-mounted designs.
Shaft Configuration: The pump's shaft configuration determines how it connects to a motor or engine. This can include spline shafts, keyed shafts, or other designs.
Port Size and Type: Hydraulic gear pumps have inlet and outlet ports for fluid connections. These ports are specified in terms of size (e.g., 1/2 inch, 3/4 inch) and type (e.g., NPT, SAE).
Seal Type: Effective sealing is crucial to prevent hydraulic fluid leakage. Pumps may use different sealing options, such as O-rings or lip seals, to ensure a reliable seal between moving parts.
Efficiency and Noise Levels: Specifications related to efficiency and noise levels can provide insights into the pump's performance characteristics. Efficient pumps can reduce energy consumption, while lower noise levels may be preferred in certain applications.
Temperature Range: Hydraulic systems can operate in a range of temperatures, so it's important to know the pump's specified temperature range to ensure it can perform reliably in various environments.