Series Name: Parker P2 Series
Type: Hydraulic Pump
2. Performance Specifications
Displacement
The P2 series hydraulic pumps come with a variety of displacement options. The displacement range typically spans from [minimum displacement value] to [maximum displacement value] . This wide range of displacements allows for customization to meet the specific flow requirements of different hydraulic applications.
Flow Rate
Maximum Flow Rate: Under standard operating conditions and at a given rotational speed, the pump can achieve a maximum flow rate of up to [X] liters/minute. This high - flow capacity makes it suitable for applications that demand a significant volume of hydraulic fluid to be transferred in a short period.
Variable Flow Control: Many P2 series pumps are equipped with variable flow control mechanisms. This enables the user to adjust the flow rate according to the specific needs of the hydraulic system, providing enhanced flexibility and energy - efficient operation.
Pressure Ratings
Maximum Operating Pressure: The maximum operating pressure for the Parker P2 series hydraulic pumps is rated at [operating pressure value] bar. This high - pressure rating ensures that the pump can handle the demands of high - pressure hydraulic systems and provide reliable fluid power.
Peak Pressure Capacity: The pumps are designed to withstand short - term peak pressures of up to [peak pressure value] bar. This provides an additional safety margin during sudden pressure surges, such as those that may occur during system start - up or in case of unexpected load changes.
3. Rotational Speed
Maximum Continuous Speed: The P2 series pumps can operate continuously at a maximum speed of up to [maximum speed value] rpm (revolutions per minute). This high - speed operation capability allows for efficient fluid transfer and quick response times in applications that require rapid hydraulic actuation.
Minimum Recommended Speed: A minimum recommended speed of [minimum speed value] rpm is specified. Operating the pump below this speed for extended periods may lead to insufficient fluid flow, reduced efficiency, and potential damage to the pump components.
