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A4VSO355LR2/30L-PPB13N00 Hydraulic piston pump, German Rexroth original A4VSO355

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A4VSO355LR2/30L-PPB13N00 Hydraulic piston pump, German Rexroth original A4VSO355

A4VSO355LR2/30L-PPB13N00 Hydraulic piston pump, German Rexroth original A4VSO355
A4VSO355LR2/30L-PPB13N00 Hydraulic piston pump, German Rexroth original A4VSO355

大画像 :  A4VSO355LR2/30L-PPB13N00 Hydraulic piston pump, German Rexroth original A4VSO355

商品の詳細:
起源の場所: ドイツ人
ブランド名: Rexroth
証明: ISO
モデル番号: A4VSO355LR2/30L-PPB13N00
お支払配送条件:
最小注文数量: 1
パッケージの詳細: 木箱
受渡し時間: 2週間
支払条件: ウェスタンユニオン、T/T、D/P、D/A、L/C
供給の能力: 100

A4VSO355LR2/30L-PPB13N00 Hydraulic piston pump, German Rexroth original A4VSO355

説明
ブランド/シリーズ: Rexroth A4VSO シリーズ – 斜板型アキシャルピストン可変容量ポンプ 公称変位 (Vg max): 355 cm3/回転
回路の種類: 開回路(ポンプ→バルブ→アクチュエータ→タンク) 制御タイプ: LR2 – 油圧機械式定出力 (双曲線) 制御
許容流体粘度: 10 – 1000 mm²/s (始動時最小 20 mm²/s、最適動作時 16 ~ 100 mm²/s)
ハイライト:

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
• Automatically reduces displacement as system pressure rises
• Keeps absorbed drive power ≈ constant along a hyperbolic curve (P = p × Q ≈ const)
• Two spring-adjustable power setpoints; prevents electric motor overload at high pressure

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
• Pressure Port B: G1½ BSPP (max 350 bar)
• Suction Port S: G2 BSPP
• Ports offset 90°, both on pump sides

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
(V = FKM/Viton available for HFC water‑glycol on request)

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


Frequently Asked Questions (FAQ)

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:

Filtration​ — Maintain system cleanliness ≤ NAS 9 (ISO 4406 code 17/15/12). Install 10 µm or finer full‑flow return filter.

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.

Alignment​ — Use a flexible coupling; pump shaft must not​ carry radial or axial loads from the motor.

Bleeding​ — Crack open the case drain or highest bleeder to purge air before running. Manually rotate shaft 2–3 turns if accessible.

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.

連絡先の詳細
Quanzhou Yisenneng Hydraulic Electromechanical Equipment Co., Ltd.

コンタクトパーソン: Mr. liyun

電話番号: +8615280488899

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