A4VSO125 Rexroth Piston Pump Cast Iron Industrial Equipment 400 Bar Pressure

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Shaoyang Victor Hydraulic Co., Ltd.

City: shaoyang

Province/State:hunan

Country/Region:china

Tel:86-739-5131124

Contact Person:
Mr.Wyman View Contact Details

A4VSO125 Rexroth Piston Pump Cast Iron Industrial Equipment 400 Bar Pressure

Brand Name	SY Hydraulic
Model Number	SY-A4VSO
Certification	China Classification Society Certification
Place of Origin	China
Minimum Order Quantity	1pc
Price	USD 1000-3000 / pc
Payment Terms	T/T
Supply Ability	1000 pcs per month
Delivery Time	15-30 days
Packaging Details	Standard Export Wooden Case
Model NO.	A4vso180/A4vso250/A4vso355/A4vso500
Structure	Axial piston pump
Cylinder Number	Seven cylinders
Drive Mode	Hydraulic Driven Reciprocating Pump

Detailed Product Description

A4VSO125 Hydraulic Piston Pump Cast Iron Industrial Equipment 400 Bar Pressure

Features:

1. Variable displacement pump with axial piston rotary group of swashplate design for hydrostatic drives in open circuit.

2. Swash‑plate axial piston design.

3. Excellent suction characteristics ensure efficient operation.

4. Wide variable displacement range (40–500 cm³/rev).

5. Pre-compression volume design effectively reduces pressure pulsation.

6. Maximum operating pressure up to 400 bar.

7. Long service life reduces maintenance costs.

8. Rated speed limit up to 2600 rpm.

9. Variable through drive options enhance system flexibility.

10. High volumetric efficiency (> 95 %).

Technical data:

Size				40	71	125	180	200	250	355	500
Displacement		V_{g max}	mL/r	40	71	125	180	200	250	355	500
Max. Speed	V_g= V_{g max}	n_nom	r/min	2600	2200	1800	1800	1800	1500	1500	1320
Max. Speed	V_g≤V_{g max}	n_max	r/min	3200	2700	2200	2100	2100	1800	1700	1600
Flow	at n_nom and V_{g max}	q_v	L/min	104	156	225	324	360	375	533	660
	at n_nom and V_{g max}	q_v	L/min	104	156	225	324	360	375	533	660
	n = 1500 r/min		L/min	60	107	186	270	420	375	533	581
Power Δp=350 bar	n=n_nom	P	kW	61	91	131	189	245	219	311	385
	n=n_nom	P	kW	61	91	131	189	245	219	311	385
	n = 1500 r/min	P	kW	35	62	109	158	210	219	311	339
Torque V_g= V_{g max}	Δp=350 bar	M_max	Nm	223	395	696	1002	1114	1391	1976	2783
	Δp=350 bar	M_max	Nm	223	395	696	1002	1114	1391	1976	2783
	Δp=100 bar	M	Nm	64	113	199	286	318	398	564	795
Inertia moment of the driveshaft		J_TW	kgm2	0.0049	0.0121	0.03	0.055	0.055	0.0959	0.19	0.3325
Volume of case		V	L	2	2.5	5	4	4	10	8	14
Weight		m	kg	39	53	88	102	102	184	207	320
Permissibleload of the drive shaft	Max.axial force	± F_{ax max}	N	600	800	1000	1400	1400	1800	2000	2000
Permissibleload of the drive shaft	Max.radial force	F_{q max}	N	1000	1200	1600	2000	2000	2000	2200	2500

Specifications:

Warranty	1 Year
Model	SY-A4VSO
Place of Origin	China
Type	Variable axial piston pump
HS Code	8413503190
Material	Cast iron
Application	Metal baler,Metallurgy Industry
Max Speed	3200 r/min
Delivery Time	15-30 Days after Payment
MOQ	1 Piece

Applications:

1. In heavy construction sites, contractors integrate the A4VSO axial piston pump to power bulldozer blades, hydraulic breakers, and rotary drills within a single hydraulic circuit. Thanks to the pump’s high volumetric efficiency and fast dynamic response, the hydraulic pump maintains steady flow under extreme loads, reducing cycle times for excavation and rock breaking by up to 15%. This optimized performance not only accelerates project schedules but also cuts fuel consumption, ensuring a lower total cost of ownership and improved operational sustainability in modern construction machinery fleets.

2. In modern tunnel boring operations, the A4VSO piston pump provides precise flow control to the TBM’s hydraulic advance and cutterhead drive. Utilizing load-sensing feedback, the pump automatically adjusts output when encountering varying rock strata, preventing pressure spikes and minimizing mechanical stress. This results in uninterrupted operation even under challenging geotechnical conditions, enhancing safety and boosting advance rates by 10–20%. Contractors benefit from reduced maintenance downtime and more predictable tunneling schedules, making the hydraulic pump an essential component for high-performance underground excavation projects.

3. On mid‐ to large‐sized excavators, the A4VSO axial piston pump serves as the primary hydraulic source for boom, arm, and slew functions. With its electro-hydraulic proportional control interface, operators can fine-tune flow rates and pressure settings to execute delicate trenching and precise material handling. The pump’s low-noise operation and minimal vibration contribute to greater cabin comfort, reducing operator fatigue during extended shifts. Moreover, consistent volumetric efficiency under variable loads prolongs service intervals and lowers total maintenance costs, making the piston pump a preferred choice for demanding excavation applications.

Competitive Advantage:

1. Thanks to its patented swash‑plate axial piston pump architecture, the A4VSO delivers exceptionally stable performance even at maximum operating pressures of up to 450 bar, minimizing internal leakage and component wear over heavy‑duty duty cycles; this superior piston pump design not only extends maintenance intervals by up to 30% but also ensures consistent flow and pressure under variable loads, offering equipment OEMs and end users a lower total cost of ownership and enhanced operational uptime for critical industrial and mobile hydraulic applications.

2. The A4VSO’s wide variable displacement range of 20 to 200 cm³/rev empowers system integrators to precisely tailor flow output to match exact load requirements, reducing throttling losses and optimizing energy efficiency; by enabling dynamic adjustment of pump displacement in real time, this axial piston pump design cuts fuel or electric drive power consumption by up to 15% compared to fixed displacement alternatives, while also improving system responsiveness and cycle times, making it an ideal choice for energy‑sensitive applications in construction machinery, industrial presses, and mobile hydraulic platforms.

3. Operating reliably up to 3 000 rpm, the A4VSO hydraulic pump exhibits outstanding volumetric efficiency above 95% and mechanical efficiency exceeding 90%, ensuring minimal power losses and heat generation even during demanding high‑speed cycles; this capability to sustain efficient operation at elevated speeds makes it highly suitable for applications requiring fast actuation and rapid cycle rates, such as injection molding machines, high‑speed presses, and advanced robotics, where maintaining consistent flow under dynamic conditions is critical to achieving optimal productivity and product quality.

The Analysis For Rexroth A4VSO Piston Pump Common Breakdown:

1. Plunger ring wear causing unstable displacement: Over extended operation, the clearance between the piston ring and cylinder bore increases, escalating internal leakage and reducing volumetric efficiency. As a result, the pump’s output flow becomes erratic and system pressure fluctuates, leading to sluggish actuator response. In high-temperature environments, seals can harden and exacerbate leaks, further raising oil temperature and creating a vicious cycle of accelerated fatigue and component failure. Regular inspection of ring wear and timely replacement are essential maintenance actions to preserve the A4VSO piston pump’s consistent performance and service life.

2. Seal aging leading to external leakage: After prolonged service life, high-temperature seal elements can deform or crack, permitting hydraulic fluid to leak externally at the shaft seal area. This oil leakage not only creates safety and environmental hazards but also deprives the pump internals of proper lubrication, causing bearing overheating and eventual failure. In extreme cases, increased axial imbalance can induce excessive vibration that damages couplings and drive motors. Adhering to manufacturer‑specified seal replacement intervals and employing high‑quality hydraulic fluids compatible with ISO VG 32–680 significantly slows seal degradation and extends overall pump lifespan.

3. Internal cavitation causing performance loss: If entrained air or vaporous oil bubbles form inside the pump chamber, cavitation occurs, eroding the piston surface coating and creating micro‑pitting. Persistent cavitation dramatically reduces volumetric efficiency and generates excessive noise and vibration. Technicians can detect cavitation by measuring oil‑borne bubble content and listening for characteristic “clicking” noises during operation. Preventive actions include ensuring airtight suction lines, unobstructed reservoir return paths, and selecting anti‑foaming hydraulic fluids compliant with DIN 51524–2 to mitigate bubble formation and protect the axial piston pump from internal damage.

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