Specifications
Model P422
| U.S. | (Metric) |
Volume | Up to 10.7 GPM | (37.7 LPM) |
Discharge Pressure Continuous | Up to 2600 PSI | (180 bar) |
Discharge Pressure Intermittent | Up to 3000 PSI | (206.8 bar) |
Inlet Pressure | ||
Stroke | 0.94” | (24mm) |
RPM | Up to 1450 RPM | |
Plunger Diameter | 0.87” | (22mm) |
Temperature of Pumped Fluids | Up to 160 oF | (71 oC) |
Inlet Ports | (2) 1" NPT | |
Discharge Ports | (2) 3/4" NPT | |
Shaft Rotation | Top of pulley towards manifold | |
Crankshaft Diameter | 1.102” | (28mm) |
Key Width | 315” | (8mm) |
Shaft Mounting | Either side1 | |
Weight | 36 lbs. 11oz | (16.64 kg) |
CrankcaseCapacity | 27 fl.oz | (0.8 liters) |
Volumetric Efficiency @ 1450 | (0.95) | |
Mechanical Efficiency @ 1450 | (0.83) | |
Consult the factory for special requirements that must be met if the pump is to operate beyond one or more of the limits specified above.
NOTES:
In order to drive the pump from the side opposite the present shaft extension, simply remove the valve casing from the crankcase and rotate the pumps 180 degrees to the desired position. Be certain to rotate the seal case (item #20) as well, so that the weep holes are down at the six o'clock position. Exchange the oil fill and the oil drain plugs, also. Refer to the repair instructions as necessary for the proper assembly sequence.
P422 HORSEPOWER REQUIREMENTS
RPM | GPM | 1000 PSI | 1500 PSI | 2610 PSI | 3000 PSI* |
900 | 6.2 | 4.3 | 6.4 | 11.1 | 12.8 |
1050 | 7.2 | 5.0 | 7.5 | 13.0 | 14.9 |
1160 | 8.0 | 5.5 | 8.3 | 14.3 | 16.4 |
1300 | 9.0 | 6.2 | 9.3 | 16.0 | 18.4 |
1450 | 10.0 | 6.9 | 10.4 | 17.9 | 20.6 |
HORSEPOWER RATINGS: The rating shown are the power
requirements for the pump. Gas engine power outputs must be approximately twice the pump power requirements shown above.
*Intermitent duty only*
SPECIAL NOTE:
The theoretical gallons per revolution (gal/rev) is 0.0069.
To find specific outputs at various RPM, use the formula: GPM = 0.0069 x RPM
We recommend a 1.15 service factor be specified when selecting an electric motor as the power source. To compute specific pump horse power requirements, use the following formula:
HP = (GPM X PSI) / 1450
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