Heavy Duty Axial Piston Variable Pump 350 Bar Peak Power With Cast Iron Housing

Heavy-Duty Variable Axial Piston Pump 350 Bar Peak Power/Weight Optimized

Features:

1. Designed for energy-efficient operation by reducing internal losses and maximizing hydraulic performance..
2. Capable of operating under high-pressure conditions without compromising efficiency or reliability.
3. Engineered with low friction components to reduce wear and improve operational efficiency.
4. Equipped with integrated protection features such as overload and overpressure safeguards for enhanced safety.
5. Features a maintenance-friendly design that simplifies servicing and minimizes system downtime.
6. Constant pressure control (DR function).
7. Pressure-compensated displacement mechanism (auto flow adaptation).
8. Cast iron housing (high-strength deformation resistance).
9. Modular design for easy maintenance and upgrades.
10. Integrated pressure regulating valve with mechanical locking.

Technical data:

Specifications:

Applications:

1. In injection molding machines, the A10V(S)O acts as a high-efficiency axial piston pump that ensures consistent pressure control for precise molding operations. Its variable displacement technology facilitates accurate shot control, leading to improved product quality and reduced cycle times. This axial piston pump is designed for durability and energy savings, making it ideal for continuous operation in plastic manufacturing. The advanced design supports optimal flow regulation, resulting in high precision and repeatability in injection molding processes for superior consistency.

 

2. The A10V(S)O is an essential component in injection molding machines, operating as a reliable piston pump that delivers stable hydraulic pressure for high-speed molding cycles. Its innovative variable displacement system allows for fine-tuned control of injection volume, ensuring consistent quality and minimal material waste. This hydraulic pump is designed for high durability and energy efficiency, supporting continuous operation in demanding production environments. Its robust design and advanced technology contribute to faster cycle times and improved manufacturing efficiency, significantly.

 

3. In high-pressure cleaning systems, the A10V(S)O operates as a powerful hydraulic pump that provides consistent pressure for effective cleaning. Its variable displacement feature allows precise control of fluid flow, making it ideal for removing stubborn contaminants from industrial surfaces. This axial piston pump is engineered for high durability and energy efficiency, ensuring that high-pressure cleaning operations run smoothly. Its robust design minimizes downtime and maintenance, contributing to a reliable and environmentally friendly cleaning solution for optimal performance indeed.

 

4. The A10V(S)O is a crucial component in high-pressure cleaning systems, acting as a dependable piston pump that delivers high hydraulic pressure for thorough cleaning operations. Its innovative variable displacement mechanism enables adjustable flow rates, making it effective for diverse cleaning tasks across industrial applications. This hydraulic pump is designed to sustain rigorous performance under continuous operation while reducing energy consumption. Its robust construction and efficient operation ensure that cleaning systems achieve maximum effectiveness and reliability in demanding environments for superior automation.

 

 

 

Competitive Advantage:

1. Engineered with precision and reliability in mind, this hydraulic pump combines advanced technology with robust construction to deliver consistent pressure control, exceptional energy efficiency, and low maintenance requirements, making it an essential component for modern industrial applications and mobile systems that demand high performance every single day, consistently and reliably.

2. Combining exceptional performance with advanced engineering, this piston pump is designed to deliver precise control, energy efficiency, and robust durability, ensuring optimal operation in diverse industrial and mobile applications while reducing maintenance costs and enhancing overall productivity, making it a competitive advantage every single day, consistently driving success forward today.

3. Utilizing advanced digital control and integrated sensors, this hydraulic pump achieves precise operational control and real-time monitoring, which enhances system safety, reduces unexpected downtimes, and optimizes energy usage, thereby delivering robust performance and significant cost efficiencies for businesses operating in dynamic industrial and mobile environments, ensuring maximum uptime always consistently.

4. Designed for precision and durability, this piston pump features advanced hydraulic controls, high-quality materials, and robust construction to deliver accurate flow regulation, efficient energy usage, and reliable performance in critical applications, ensuring that industrial systems achieve maximum productivity and minimal downtime consistently every single day with proven quality always now.

The Analysis For Rexroth A10V(S)O Axial Piston Pump Common Breakdown: 

1. A failure in the temperature sensor within the hydraulic pump system can result in inaccurate thermal readings, leading to improper cooling responses, overheating, and potential pump damage; therefore, regular sensor calibration, prompt replacement of faulty sensors, and integration with an axial piston pump that supports advanced thermal monitoring are essential steps to ensure safe and efficient operation for consistent performance.

2. A malfunction in the solenoid valve controlling the hydraulic pump can lead to erratic flow regulation, pressure spikes, and overall instability in system performance, which may cause damage to the pump and downstream components; hence, it is crucial to conduct routine valve inspections, replace defective valves promptly, and utilize a hydraulic pump with precision valve control to maintain consistent operation.

3. Misalignment of the hydraulic pump relative to its mounting base or drive system can cause uneven load distribution, increased vibration, and accelerated wear on critical components, compromising system efficiency; therefore, precise alignment during installation, regular checks of mounting integrity, and the use of an axial piston pump with design features that facilitate proper alignment are essential to prevent such issues.