| Permissible Fluid Viscosity | 10 – 1000 mm²/s (start‑up min. 20 mm²/s; optimum op. 16–100 mm²/s) |
| Packaging Details | wooden box |
| Supply Ability | 100 |
| Circuit Type | Open Circuit (pump → valve → actuator → tank) |
| Payment Terms | Western Union,T/T,D/P,D/A,L/C |
| Control Type | LR2 – Hydro-mechanical Constant Power (Hyperbolic) Control |
| Brand / Series | Rexroth A4VSO Series – Swashplate Type Axial Piston Variable Displacement Pump |
| Delivery Time | 2 weeks |
| Nominal Displacement (Vg max) | 355 cm³/rev |
| Model Number | A4VSO355LR2/30L-PPB13N00 |
| Certification | ISO |
| Place of Origin | German |
| Brand Name | Rexroth |
View Detail Information
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Product Specification
| Permissible Fluid Viscosity | 10 – 1000 mm²/s (start‑up min. 20 mm²/s; optimum op. 16–100 mm²/s) | Packaging Details | wooden box |
| Supply Ability | 100 | Circuit Type | Open Circuit (pump → valve → actuator → tank) |
| Payment Terms | Western Union,T/T,D/P,D/A,L/C | Control Type | LR2 – Hydro-mechanical Constant Power (Hyperbolic) Control |
| Brand / Series | Rexroth A4VSO Series – Swashplate Type Axial Piston Variable Displacement Pump | Delivery Time | 2 weeks |
| Nominal Displacement (Vg max) | 355 cm³/rev | Model Number | A4VSO355LR2/30L-PPB13N00 |
| Certification | ISO | Place of Origin | German |
| Brand Name | Rexroth | ||
| High Light | Rexroth A4VSO355 hydraulic piston pump ,German original A4VSO355 pump ,A4VSO355LR2 hydraulic piston pump | ||
|
Parameter |
Specification |
|---|---|
|
Brand / Series |
Rexroth A4VSO Series – Swashplate Type Axial Piston Variable Displacement Pump |
|
Order Reference Model |
A4VSO355 LR2 / 30L-PPB13N00 |
|
Nominal Displacement (Vg max) |
355 cm³/rev |
|
Circuit Type |
Open Circuit (pump → valve → actuator → tank) |
|
Control Type |
LR2 – Hydro-mechanical Constant Power (Hyperbolic) Control |
|
Series Index |
30 (Series 30 – current industrial design) |
|
Rotation Direction |
L – Counter-Clockwise (CCW), viewed from shaft end toward drive flange |
|
Shaft Type |
P – Cylindrical shaft with parallel key (DIN 6885 / ISO 3019‑2), Ø38 mm |
|
Mounting Flange |
B – ISO 3019‑2 / SAE J744 4‑bolt flange (for NG355 size) |
|
Port Configuration |
13 – Side Ports with Metric BSPP (G) Threads |
|
Through‑Drive / Aux Pump |
N00 – No through‑drive, no auxiliary pump pad |
|
Seal Material |
P – NBR (Nitrile BuNa‑N), suitable for mineral oils HL/HLP |
|
Nominal Working Pressure |
350 bar (35 MPa), continuous |
|
Maximum / Peak Pressure |
400 bar (40 MPa), intermittent (≤ 10 s / 100 cycles) |
|
Allowed Case Pressure |
≤ 2 bar (back to tank, case drain mandatory) |
|
Recommended Inlet Pressure |
0.8 – 2.0 bar absolute (self‑priming with proper suction line) |
|
Max. Speed @ Vg max |
1500 rpm (derate at higher displacements or high viscosity) |
|
Theoretical Flow @ 1500 rpm |
355 × 1500 ÷ 1000 = 532.5 L/min |
|
Typical Drive Power @ 350 bar |
≈ 532.5 L/min × 350 bar ÷ 600 ≈ 31 kW (plus losses ~8–12%) |
|
Hydraulic Fluid |
Mineral oil HL/HLP (DIN 51524); biodegradable HEES/HETG with NBR; HFC only with FKM seals |
|
Permissible Fluid Viscosity |
10 – 1000 mm²/s (start‑up min. 20 mm²/s; optimum op. 16–100 mm²/s) |
|
Fluid / Ambient Temp. Range |
–20°C to +80°C (fluid); ambient –20°C to +50°C |
|
Case Drain Requirement |
Dedicated line to tank, ≤ 0.5 bar backpressure, upstream of suction strainer |
|
Weight (approx.) |
~207 kg |
|
Country of Origin |
Germany |
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Model Code Decoded:
• A4VSO = Open‑circuit swashplate variable pump
• 355 = 355 cm³/rev displacement
• LR2 = Hydro‑mechanical constant power (hyperbolic) control
• /30 = Series 30
• L = CCW rotation
• P = Keyed shaft
• P = NBR seals
• B = ISO 4‑bolt flange
• 13 = Side ports with BSPP (G) threads (vs. 25 = SAE flange)
• N00 = No through‑drive
Q1: What is the function of the "LR2" control and when should I choose it over DR or DFR1?
A: LR2 = Constant Power (Hyperbolic) Control. It senses pressure and automatically reduces displacement so that Pump Power ≈ p × Q ≈ constant. This prevents oversizing the electric motor — the motor can be sized for the rated power, not peak pressure × full flow.
• DR / DRG = Pressure compensator — holds constant pressure; pump flow goes to zero at pressure setpoint. Use for constant‑pressure systems.
• DFR1 = Pressure + Flow (Load Sense) — maintains constant Δp for energy‑saving flow control. Use for variable‑flow load‑sensing systems.
• LR2 (this model) = Use when driving with a fixed‑power electric motor and you want to fully utilize motor HP without overload at high pressure.
⚠ LR2 does not give pressure‑holding like DR — system pressure can rise to the spring‑set limit if flow demand drops.
Q2: This model is "L" (counter‑clockwise). Can I use an "R" (clockwise) version instead?
A: Only if your electric motor or engine can be reversed. "L" = CCW when looking at the shaft end; "R" = CW. Pump body and port positions are the same, but rotation direction is not interchangeable once ordered. Always confirm motor rotation direction before specifying.
Q3: Is a case drain line required? How exactly should it be plumbed?
A: Yes — mandatory. The A4VSO has internal leakage that must be returned to tank:
• Connect the L‑port (case drain) directly to the tank, preferably above the oil level or via a standpipe ≤ 0.5 bar backpressure.
• Do NOT tee it into the suction line (risk of aeration and seal blow‑out).
• Route it to the tank before the suction strainer or to a clean‑side tank return header.
• Fill the pump case with clean hydraulic oil before first start‑up to prevent dry start damage.
Q4: What is the difference between port code "13" and "25"? What fittings do I need?
A:
• "13" (this model) = Side ports with metric BSPP (G‑thread) — Pressure B = G1½, Suction S = G2. Needs BSPP bonded‑seal adaptors or male G‑thread fittings.
• "25" = Side ports with SAE 4‑bolt flanges (Pressure = SAE Code 61 / 6000 psi, Suction = SAE Code 62 / 3000 psi). Needs SAE split‑flange halves + O‑rings.
Confirm your hose/hardline termination matches BSPP G‑threads before ordering.
Q5: Can this pump be used in a closed‑loop hydrostatic transmission?
A: No. The A4VSO series is designed exclusively for open‑circuit applications. For closed‑loop travel/winch drives, use Rexroth A4VG (variable) or A2FM/A6VM (motors) with a charge pump.
Q6: What are the critical installation & commissioning steps?
A:
① Filtration — Maintain system cleanliness ≤ NAS 9 (ISO 4406 code 17/15/12). Install 10 µm or finer full‑flow return filter.
② Suction Line — Keep short (<1.5 m if possible), generously sized (≥ 1.25× pump inlet area), with 100–150 mesh suction strainer. Min. inlet pressure 0.8 bar abs — use flooded suction if pump is above tank.
③ Alignment — Use a flexible coupling; pump shaft must not carry radial or axial loads from the motor.
④ Bleeding — Crack open the case drain or highest bleeder to purge air before running. Manually rotate shaft 2–3 turns if accessible.
⑤ Initial Run — Start at low pressure/no load for a few minutes to verify quiet operation, correct rotation, and case drain flow, then gradually bring to working pressure.
Company Details
Business Type:
Manufacturer,Exporter
Total Annual:
1 million-10 millon
Employee Number:
>50
Ecer Certification:
Verified Supplier
Quanzhou Yisenneng Hydraulic Electromechanical Equipment Co., Ltd. has been established for many years and has now developed into an international trading company supplying various hydraulic machinery parts, oil pumps and valves. We are one of the few Chinese companies with multiple products and cha... Quanzhou Yisenneng Hydraulic Electromechanical Equipment Co., Ltd. has been established for many years and has now developed into an international trading company supplying various hydraulic machinery parts, oil pumps and valves. We are one of the few Chinese companies with multiple products and cha...
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