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Dettagli:
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| Dimensioni (cilindrata nominale): | 355 cm³/giro (Vgmax) | Serie: | 30 serie |
|---|---|---|---|
| Rotazione: | L – In senso antiorario (visto dall'estremità dell'albero) | Albero: | P – Albero metrico con chiavetta parallela (albero liscio con chiavetta, DIN/ISO) |
| Flangia di montaggio: | B – Flangia ISO a 4 bulloni | ||
| Evidenziare: | Rexroth axial piston pump,A4VSO355DR piston pump,German Rexroth hydraulic pump |
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Parameter |
Specification |
|---|---|
|
Manufacturer / Series |
Rexroth A4VSO Series – Swashplate Axial Piston Variable Displacement Pump, Open Circuit |
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Model Code |
A4VSO355 DR / 30L-PPB13N00 |
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Size (Nominal Displacement) |
355 cm³/rev (Vg max) |
|
Circuit Type |
Open Circuit |
|
Control Type |
DR – Pressure Compensator (Direct-Operated Pressure Limiter) — mechanically adjustable cut-off pressure; pump destrokes when system pressure reaches set value |
|
Series |
30 Series |
|
Rotation |
L – Counter-Clockwise (viewed from shaft end) |
|
Shaft |
P – Metric parallel keyed shaft (plain shaft with key, DIN/ISO) |
|
Mounting Flange |
B – ISO 4-bolt flange |
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Working Ports |
13 – Side ports with metric BSPP (G) threads (Suction S & Pressure B offset 90°) |
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Through-Drive / Aux Pump |
N00 – No through-drive, no auxiliary pump |
|
Seal Material |
P – NBR (Nitrile, for mineral oil HLP); V = FKM(Viton) for HFC-compatible versions |
|
Nominal Pressure |
350 bar (35 MPa) |
|
Peak / Max Pressure |
400 bar (40 MPa) |
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Max. Speed (at Vg max) |
1500 rpm (A4VSO355 size) |
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Nominal Flow |
≈ 533 L/min @ 1500 rpm (Vg max) |
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Min. Inlet Pressure |
0.8 ~ 2 bar absolute (self-priming, avoid cavitation) |
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Hydraulic Fluid |
Mineral oil (HL/HLP per DIN 51524); HFC only with V-seal version |
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Viscosity Range |
10 – 1000 mm²/s (opt. 16–100 mm²/s) |
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Weight (approx.) |
~207 kg |
|
Origin |
Germany |
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| A4VSO250LR2G/30R-PKD63K57E |
| A4VSO250LR2G/30R-PKD63N00 |
| A4VSO250LR2G/30R-PKD63N00 |
| A4VSO250LR2G/30R-PKD63N00E |
| A4VSO250LR2G/30R-PKD63N00E |
| A4VSO250LR2G/30R-PKD63N00E |
| A4VSO250LR2G/30R-PKD63N00E |
| A4VSO250LR2G/30R-PKD63N00E |
| A4VSO250LR2G/30R-PPB13N00 |
| A4VSO250LR2G/30R-PPB13N00E |
| A4VSO250LR2G/30R-PPB13N00ESO168 |
| A4VSO250LR2G/30R-VSD75U99E |
| A4VSO250LR2GF/30R-PKD63N00 |
| A4VSO250LR2GF/30R-PPB13N00E |
| A4VSO250LR2H/30R-PKD63N00 |
| A4VSO250LR2H/30R-PPB13N00E |
| A4VSO250LR2N/22R-PKD63K19 |
| A4VSO250LR2N/30R-PKD63K21E |
| A4VSO250LR2N/30R-PKD63N00 |
| A4VSO250LR2N/30R-PPB13N00E |
| A4VSO250LR2N/30R-PPB13N00E |
| A4VSO250LR2Z/30R-PPB13K59E |
| A4VSO250LR2Z/30R-PPB13N00 |
| A4VSO250LR3G/30R-FKD75U99E |
| A4VSO250LR3G/30R-PKD63K78E |
| A4VSO250LR3N/30R+A4VSO250LR3N/30RE |
| A4VSO250LR3N/30R-PKD63K17 |
| A4VSO250LR3N/30R-PPB13K01 |
| A4VSO250LR3N/30R-PPB25K35E |
| A4VSO250LR3N/30R-PPB25N00E |
| A4VSO250LR3N/30R-PPB25N00E |
| A4VSO250LR3N/30R-PZB25N00E |
| A4VSO250LR3S/30R-PPB25K35E |
| A4VSO250LR3S/30R-PPB25N00E |
| A4VSO250LR3S/30R-PZB25K33E |
| A4VSO250MA/30R-PPB13N00 |
| A4VSO250OV/30R-PKD63N00-SO55 |
| A4VSO355DFE1/30R-VPB25K99E |
| A4VSO355DFE1/30R-VPB25U99E |
| A4VSO355DFR/22L-PSD63N00-SO481 |
| A4VSO355DFR/30L-PRD63N00 |
| A4VSO355DFR/30R-VKD63N00E |
| A4VSO355DFR/30R-VKD63N00E |
| A4VSO355DR/30R-FKD75U99 |
| A4VSO355DR/30R-PKD63N00 |
| A4VSO355DR/30R-PKD63N00E |
| A4VSO355DR/30R-PKD63N00E |
| A4VSO355DR/30R-PKD63N00ESO103 |
| A4VSO355DR/30R-PPB13N00E |
| A4VSO355DR/30R-VKD63N00 |
| A4VSO355DR/30R-VKD63N00E |
| A4VSO355DR/30R-VKD75U99E |
| A4VSO355DRG/30R-PKD63K02 |
| A4VSO355DRG/30R-PKD63N00E |
| A4VSO355DRG/30R-PPB13N00 |
| A4VSO355DRG/30R-VPB13N00 |
| A4VSO355DRG/30R-VPB13N00E |
| A4VSO355DRG/30R-VPB13N00E |
| A4VSO355DS1/30W-PKD63T020NE |
| A4VSO355DS1/30W-PRD63T031N |
| A4VSO355EO2/30R-PKD63K16 |
| A4VSO355EO2/30R-PKD63K52 |
| A4VSO355EO2/30R-PKD63K52-SO30 |
| A4VSO355EO2/30R-PKD75K02E |
| A4VSO355EO2/30R-VKD75K68E |
| A4VSO355HD1GBP/30R-PKD63N00 |
💡 Code breakdown PPB13N00: P=Keyed shaft | P=NBR seal | B=ISO 4-hole flange | 13=Side port type with metric BSPP threads | N00=No thru-drive aux pump.
DR = Direct-operated pressure compensator — the simplest pressure control for A4VSO: turn the handwheel to set cut-off pressure; pump goes to near-zero displacement when pressure is reached, maintaining pressure with minimal flow (holding function).
Q1: What is the difference between DR, DRG, and DFR1 controls on A4VSO pumps?
A:
DR (this model): Direct-operated pressure compensator — cut-off pressure set mechanically only via handwheel on the pump. Simplest and most economical.
DRG: Same as DR but adds a remote pilot pressure port (X) so the pressure setpoint can be shifted remotely (e.g., by solenoid valve), useful for multi-stage pressure systems.
DFR1: Pressure + Flow (Load Sense) controller — maintains constant Δp across a downstream orifice for energy-saving flow control; more complex than DR/DRG.
Choose DR for straightforward constant-pressure applications; DRG for remote pressure switching; DFR1 for load-sensing systems.
Q2: This model has "L" (counter-clockwise). Can I use an "R" (clockwise) version?
A: Only if your drive motor can be reversed. "L" = CCW viewed from shaft end, "R" = CW. Pump housings and port orientations are the same, but shaft rotation is not interchangeable unless you change motor rotation direction. Always verify motor rotation before ordering.
Q3: Does A4VSO355 require a case drain line? How to plumb it?
A: Yes, a case drain (housing leakage / L-port) line is mandatory. Return it directly to tank above the oil level or via a standpipe ≤ 0.5 bar backpressure. Never block it or tee it into the suction line — excessive case pressure will blow the shaft seal. Fill the case with clean hydraulic oil before first start-up.
Q4: Port code "13" vs "25" — what's the difference?
A: "13" = side ports with metric BSPP (G) threads (European industrial standard). "25" = SAE flange ports (4-bolt flanged, typical on North American or high-flow mobile units). This model uses "13" — ensure hose adaptors are G-threaded, not SAE.
Q5: Can this pump be used in closed-loop (hydrostatic transmission) circuits?
A: No. A4VSO is designed exclusively for open-circuit applications (pump → directional valve → actuator → tank). For closed-loop travel drives, use A4VG or A6VM/A2FM series with a charge pump.
Q6: Critical installation & filtration requirements?
A:
Filtration: Maintain system cleanliness ≤ NAS 9 (≈ ISO 4406 17/15/12), 10 µm or finer return/full-flow filter — contamination is the leading cause of premature failure.
Suction: Short, generously sized inlet line; min. inlet pressure 0.8 bar abs; 100–150 mesh suction strainer recommended.
Alignment: Flexible coupling only — no radial/axial shaft loads from the motor.
Bleeding: Vent pump housing and system high-points before initial run to prevent air-lock/cavitation damage.
Persona di contatto: Mr. liyun
Telefono: +8615280488899