All control is achieved by the proper positioning of the swash plate. This is achieved by a servo piston acting on one end of the swash plate working against the combined effect of the off-setting forces of the pistons and centering spring on the other end. The control spool acts as a metering valve which varies the pressure behind the servo piston. The amount of flow produced by the Parker Piston Pump is dependent upon the length of stroke of the pumping pistons. This length of stroke, in turn, is determined by the position of the swash plate.
Maximum flow is achieved at an angle of 15-17 degrees. The rotating barrel, driven by the prime mover, moves the pistons in a circular path and the piston slippers are supported hydro statically against the face of the swash plate. When the swash plate is in a vertical position, perpendicular to the center line of the piston barrel, there is no piston stroke and consequently no fluid displacement. When the swash plate is positioned at an angle, the pistons are forced in and out of the barrel and fluid displacement takes place. The greater the angle of the swash plate, the greater the piston stroke.
Model Code | Displacement | Pump Delivery @ 1200 RPM | Pump Delivery @ 1800 RPM | Max Input Power | Operating Speed | Max Pressure |
---|---|---|---|---|---|---|
PVP16 | 16 cc/rev {0.98 in³/rev} | 19.7 LPM {5.2 GPM} | 29.5 LPM {7.8 GPM} | 13.1 kw {17.5 hp} | 3000 RPM | 248 bar {3600 PSI} |
Awaiting video
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