What controls the stroke of an axial-piston pump?

NOVEMBER 02, 2022

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The Basics of Variable-Displacement Pump Controls - Fluid Nov 14, 2016 — Pressure-compensated control is the most basic control for a variable-stroke piston pump. The swash plate of the pump is off-set by a heavy 

What is the difference between fixed and variable pumps?May 9, 2019 — An axial piston pump's maximum displacement is determined by the quantity and bore area of the pistons multiplied by the stroke length.Axial piston pump - WikipediaA direct displacement control uses a mechanical lever attached to the swashplate of the axial piston pump. Higher system pressures require more force to move 

KAWASAKI K3VL AXIAL PISTON PUMP
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K3VG63-10FR-1PM2 - 13/16 in15/16 in - - - - -
K3VG63-10FR-1PM38.1250 in2-7/16 in4.7656 in - - - - -
K3VG63-10FR-4 - 2.9375 in - - - - - -
K3VG63-110RSV10L3 - - - - - - - -
K3VG63-10FRS-3.3750 in3.2500 in9.6250 to 11.8750 in - - - - -
K3VG63-10FRS-10H23.9400 in2.9375 in8.3500 in - - - - -
K3VG63-11FR- - - - - - - - -
K3VG63-10FRS-10H520 mm30 mm62 mm - - - - -
K3VG63-10FRS-10L40.3125 in - - - - - - -
K3VG63-11FR-0E55.00 mm95.000 mm250.0000 mm - - - - -
K3VG63-10FRS-10S1 - - 1.6875 in - - - - -
K3VG63-10FRS-4 - 3.5000 in - - - - - -
K3VG63-10FRS-50L395.2 mm70 mm281 mm to 319 mm - - - - -
K3VG63-10FRS-50M2 - - 2.4410 in - - - - -
K3VG63-10NR-1.6875 in1.2500 in4.6875 to 5.3125 in - - - - -
K3VG63-10NR-10L4 - 5.0000 in8.7900 in - - - - -
K3VG63-10NR-4 - - - - - - - -
K3VG63-10NR-4L2.59 in2.0000 in6.38 to 7.44 in - - - - -
K3VG63-10NR-50H1 - 3.4375 in8.6300 in - - - - -
K3VG63-10NR-5PH12.7500 in0.7500 in1.6300 in - - - - -
K3VG63-10NRS-1NH2 - 50 mm90 mm - - - - -
K3VG63-10NRS-433 mm65 mm140 mm - - - - -
K3VG63-10NRSV5 in - 12.81 to 13.81 in - - - - -
K3VG63-110R-109 mm200 mm310 mm - - - - -
K3VG63-110R-0E1 in1 in1-5/16 in - - - - -
K3VG63-110R-0R10-1 - 1 in1-1/8 in - - - - -
K3VG63-110R-1EH4 - 2.0000 in5.5156 in - - - - -
K3VG63-110R-1PH3 - 75 - 1301.5 - 1.51.5
K3VG63-110R-5EL14-7/8 in2.6875 in9-3/4 in - - - - -
K3VG63-110R-T0H40.8750 in4.5000 in6.2500 in - - - - -
K3VG63-110RS-0E24 mm0.7500 in62 mm - - - - -
K3VG63-110RS-5EL1 - 1.5000 in - - - - - -
K3VG63-110RSV0E - - 5.9090 in - - - - -
K3VG63-110RSV10L32-1/8 in60 mm174.8 to 201.7 mm - - - - -
K3VG63-11FR-1.4375 in40 mm90 mm - - - - -
K3VG63-11FR-0E - 2.7500 in - - - - - -
K3VG63-11FR-10L1 - - 14.5000 in - - - - -
K3VG63-11FR-10M2 - 4.5000 in7.0000 in - - - - -
K3VG63-11FR-1EH2 - - 3.8750 in - - - - -
K3VG63-11FR-1EH440 mm12 mm86 mm to 105 mm - - - - -
K3VG63-11FR-1EL111 mm15 mm35 mm - - - - -
K3VG63-11FR-1EL4 - 65 mm - - - - - -
K3VG63-11FR-1EM13.2300 in1.9375 in5.9300 to 6.3600 in - - - - -
K3VG63-11FR-1NM2 - - 7.5000 in - - - - -
K3VG63-11FR-1PH33-1/8 in - 6-1/4 in - - - - -
K3VG63-11FR-5PM1 - 2-1/2 in2-3/4 in - - - - -
K3VG63-11FRS-0E - 0.2500 in - - - - - -
K3VG63-11FRS-1EH1 - 3.4375 in10 in - - - - -
K3VG63-11FRS-1EH2 - 6.5000 in11.3750 in - - - - -
K3VG63-11FRS-1EL316 mm90 mm130 mm - - - - -
K3VG63-11NRS-5EM16.3800 in1-3/4 in3.8900 in - - - - -
K3VG63-120R-0R10-11.3120 in - 3.9370 in - - - - -
K3VG63-120RSV1EH230 mm1.5000 in135.5 mm - - - - -
K3VG63-120RSV1EH4 - 1/8 in5/16 in - - - - -
K3VG63-120RSV1EM1 - .7500 in - - - - - -
K3VG63-12BR-4 - 3.4375 in - - - - - -
K3VG63-12BR-5EM213.00 mm15.000 mm42.0000 mm - - - - -
K3VG63-12FR-0E14 mm20 mm47 mm - - - - -
K3VG63-12FR-10L21.6890 in1.4375 in - - - - - -
K3VG63-12FR-10L34.6300 in - 9.8800 in - - - - -
K3VG63-12NR-10L3232 mm360 mm650 mm - - - - -
K3VG63-12NR-10T158 mm200 mm360 mm - - - - -
K3VG63-12NR-10T2 - 1-1/8 in1-1/4 in - - - - -
K3VG63-12NR-4 - - - 41.51.1 - 1 -
K3VG63-130R-5P - - - 44 - 0.349 - 0.6
K3VG63-13FRS-1EH5 - - 2.5625 in - - - - -
K3VG63-13FRS-1PH29.7500 in3-15/16 in7.5938 in - - - - -
K3VG63-13FRS-1PH4 - - - - - - - -
K3VG63-150R-10L1 - - 4.0635 in - - - - -
K3VG63-11FR-10L195.3 mm - 69.9 mm - - - - -
K3VG63-15FRS-10M238.00 mm110.000 mm200.0000 mm - - - - -
K3VG63-11FR-10M2 - 0.7500 in - - - - - -
K3VG63-170RV - 1.5000 in - - - - - -
K3VG63-1C0RSV41-1/2 in1.1875 in4-1/4 to 5 in - - - - -
K3VG63-11FR-1EH212 mm40 mm62 mm - - - - -
K3VG63-1CFR-1-17/32 in1.0000 in3-3/4" to - - - - -
K3VG63-11FR-1EH4 - 5.0000 in - - - - - -
K3VG63-1D0R-0E0.3125 in0.3750 in0.9063 in - - - - -
K3VG63P100RSV10L4 - - 3.5420 in - - - - -
K3VG63-11FR-1EL1 - - 3-1/4 in - - - - -
K3VG63W10FR-7.6250 in2.6875 in6.0000 in - - - - -
K3VG63-11FR-1EL4 - 35 mm3.1496 in - - - - -
K3VG63-11FR-1EM1 - - - - - - - -
K3VG63W10FR-414.3 mm10.000 mm30.0000 mm - - - - -
K3VG63Z100R-4 - 105 - 4253 - - 3
K3VG63-11FR-1NM215.1875 in3.5000 in12.3906 in - - - - -
K3VG63Z100RV4 - 2.0000 in6.1875 in - - - - -
K3VG63-11FR-1PH33-11/32 in2.5000 in9-1/4 to 10-1&# - - - - -
K3VG63Z10FR-10L2 - 1.3125 in - - - - - -
K3VG63-11FR-5PM1 - 240 - - 5 - 4 -
K3VG63-11FRS-1EH1 - 1.2500 in - - - - - -
K3VG63-11FRS-1EH2 - 1.8750 in - - - - - -
K3VG63-11FRS-1EL3 - 65 mm1079.5 mm - - - - -
K3VG63-11NRS-5EM1 - 2.4375 in - - - - - -
K3VG63-120RSV1EH22.8750 in1.7500 in - - - - - -
K3VG63-120RSV1EH4 - 1 in2 in - - - - -
K3VG280DT-1ANR-0E00-0110.3750 in2.6875 in - - - - - -
K3VG280DT-1ANRS-1R1G-R1113 mm15 mm90 mm - - - - -
K3VG280DT-200R-0R00-24 mm100 mm150 mm - - - - -
K3VG280P100RS-43.0000 in0.5000 in2.1250 in - - - - -
K3VG280W100R- - 4.5000 in10.0625 in - - - - -
K3VG280W10FR-10M5 - - - - - - - -
K3VG280W10FR-48.1300 in - - - - - - -
K3VG280W10FR-4000-WBH3.3750 in2.5000 in - - - - - -
K3VG280-100R-33 mm60 mm66 mm - - - - -
K3VG280-100R-10M2 - - 4.3750 in - - - - -
K3VG280-100R-4 - 5.7500 in - - - - - -
K3VG280-100RHV40.8125 in0.3750 in - - - - - -
K3VG280-100RS-10M1 - 2.6875 in4.9213 in - - - - -

Piston Pump - an overview | ScienceDirect TopicsOutput volume may be controlled by changing the angle of the swashplate. As angle a between the normal to the swashplate and the axis of the drive shaft in Fig.

Hydraulic Pump BasicsHydraulic Flow is developed as the pump Piston Pump Controls are integral valves that port control. Pump is at Full Stroke. Pressure Compensator 65 pagesVariable-displacement Pump Control Basics | Engineering360Sep 19, 2016 — The most basic type of VDPP control is a pressure-compensated setup. Here, a heavy spring and piston are used to operate the swash plate. System 

Axial piston pumps from Oilgear - Process Industry ForumBy changing the angle of the swash plate, the displacement is adjusted. In both cases the oil flow is controlled by the valve plate which directs low pressure The Basics Of Variable Displacement Pump Controls - CrossCoSep 2, 2016 — Pressure compensated control is the most basic control for a variable stroke piston pump. The swash plate of the pump is operated with a 

Engineering Essentials: Fundamentals of Hydraulic PumpsThe size and number of pistons and the length of their stroke determine pump displacement. Displacement can be varied by moving the reaction ring to increase or Hydraulic Axial-Piston Pump with Load-Sensing - MathWorksPressure/Flow Control Unit — The load-sensing function of the pump control uses a fixed orifice. The control unit keeps the pressure differential across