HP3V Series Axial Piston Variable Displacement Hydraulic Pump

The HP3V series axial piston variable displacement hydraulic pump is a game-changer in hydraulic systems. This pump is designed with precision engineering and cutting-edge technology and delivers superior efficiency and performance, making it an indispensable component for various industrial applications. This comprehensive article will explore the key characteristics, usage methods, and maintenance guidelines for the HP3V axial piston variable displacement hydraulic pump.

The HP3V series axial piston variable displacement hydraulic pump is a powerhouse that delivers unmatched efficiency and performance in hydraulic systems. With its variable displacement technology, compact design, and quiet operation, this pump is a reliable and precise solution for various industrial applications. By following the recommended usage methods and adhering to regular maintenance practices, the HP3V series pump will continue to provide exceptional performance, contributing to the success of various hydraulic systems. Embrace the power of efficiency and performance with the HP3V series axial piston variable displacement hydraulic pump and unlock the full potential of your hydraulic system.

HP3V Series Axial Piston Variable Displacement Hydraulic Pump Key Characteristics:

• Variable Displacement Technology: The HP3V series pump has advanced variable displacement technology, allowing it to adjust the output volume based on system requirements. This feature maximizes energy efficiency, reduces heat generation, and optimizes overall system performance.
• Unparalleled Efficiency: The HP3V series pump achieves exceptional efficiency with its innovative axial piston design. It provides precise hydraulic power, ensuring smooth operation and enabling the handling of high-pressure applications with ease.
• Compact Design: The pump’s compact design optimizes space utilization in hydraulic systems. Its small footprint enables easy integration, even in tight spaces, without compromising performance or functionality.
• Quiet Operation: Noise reduction features incorporated into the HP3V series pump ensure quiet operation in diverse industrial environments. This characteristic is precious in applications that require low noise levels, promoting a comfortable and productive work environment.

HP3V Series Axial Piston Variable Displacement Hydraulic Pump Parameter:

Size	Displacement  cc/rev	Pressure bar		Rotation speed r/min
		Rated	Peak	Max for self-priming*1	Max*2
HP3V80	80	320	350	2400	3000
HP3V140	140	350	400	2150	2500

HP3V Series Axial Piston Variable Displacement Hydraulic Pump Advantages:

• Applied in open circuit medium and high pressure applications
• High continuous pressure
• Good self-priming properties
• High reliability
• High power to weight ratio
• Multiple control methods
• Fast response
• Low pressure pulse

HP3V Series Axial Piston Variable Displacement Hydraulic Pump Application:

Usage Method Of HP3V Series Axial Piston Variable Displacement Hydraulic Pump:

• Pump Installation: Install the HP3V series axial piston variable displacement hydraulic pump in the designated location within the hydraulic system. Refer to the manufacturer’s guidelines and specifications for proper alignment and secure attachment to the system’s structure using suitable mounting brackets or accessories.
• 液压系统集成： Connect the pump to the hydraulic system using compatible hoses, fittings, and valves. Ensure all connections are secure, leak-free, and correctly tightened to guarantee optimal hydraulic performance.
• Fluid Compatibility: Verify that the hydraulic fluid used in the system is compatible with the HP3V series pump. Refer to the manufacturer’s recommendations for the appropriate fluid type, viscosity, and temperature range. Regularly monitor and maintain the hydraulic fluid to ensure proper pump operation and longevity.
• Operational Parameters: Familiarize yourself with the pump’s control options and adjust the operating parameters according to the specific requirements of the hydraulic system. Monitor and change the pump’s displacement settings to optimize performance and energy efficiency.

How To Remove Hydraulic Cylinder End Cap?

To remove the end cap of a hydraulic cylinder, follow these steps:

1. Prepare for the Task:
   • Ensure the hydraulic system is depressurized and disconnected.
   • Clean the exterior of the cylinder to prevent debris from entering during the process.
   • Place the cylinder on a stable work surface and secure it using clamps or a vise.
2. Identify Retaining Mechanisms:
   • Inspect the cylinder to determine the retaining mechanism used on the end cap. It could be bolts, threaded connections, snap rings, or retaining rings.
3. Remove Bolts or Fasteners:
   • If the end cap is secured with bolts, use an appropriate wrench or socket to loosen and remove them.
   • Ensure you have suitable access to all the bolts and remove them evenly, avoiding any damage to the cylinder or end cap.
4. Loosen Threaded Connections:
   • For threaded connections, use a wrench or spanner to loosen the relationship between the end cap and the cylinder body.
   • Apply gentle but consistent force in a counterclockwise direction to loosen the threads.
   • Once loosened, continue turning the end cap by hand until it can be entirely removed.
5. Remove Snap Rings or Retaining Rings:
   • If the end cap is secured with snap rings or retaining rings, use snap ring pliers or retaining ring pliers to remove the rings carefully.
   • Insert the pliers into the ring’s ends and squeeze the handles to compress the ring, allowing it to be pulled out of its groove.
   • Take caution not to damage the cylinder or end cap during this process.
6. Separate the End Cap:
   • Once all retaining mechanisms are removed, gently tap the end cap with a rubber mallet or a soft-faced hammer to loosen it from the cylinder body.
   • Apply even force around the circumference of the end cap to prevent it from binding or becoming stuck.
7. Inspect and Clean:
   • Once the end cap is removed, inspect the sealing surfaces, O-rings, and internal components for any damage or wear.
   • Clean the end cap, cylinder body, and all related components using a lint-free cloth or a suitable solvent to remove any contaminants or debris.

工厂的能力和产能：

(1) 装配

我们拥有一流的自主研发装配平台。液压油缸生产车间拥有 4 条半自动提升油缸装配线和 1 条全自动倾斜油缸装配线，设计年生产能力 100 万支。特种油缸车间配备了各种规格的半自动清洗装配系统，设计年生产能力 20 万只，并配备了知名数控加工设备、加工中心、高精度油缸加工专用设备、机器人焊接机、自动清洗机、油缸自动装配机、自动喷漆生产线等。现有关键设备 300 多台（套）。设备资源的优化配置和高效利用，保证了产品的精度要求，满足了产品的高质量需求。

(2) 机加工

加工车间配备了定制的斜轨车削中心、加工中心、高速珩磨机、焊接机器人及其他相关设备，可加工最大内径 400 毫米、最大长度 6 米的气缸管。

(3) 焊接

(4) 油漆和涂料

配备中小型圆筒自动水性漆喷涂线，实现机器人自动上下料和自动喷涂，设计产能为每班 4000 件；
我们还拥有一条由动力链驱动的大型油缸半自动喷漆生产线，设计产能为每班 60 箱。

(5) 测试

我们拥有一流的检验设施和试验台，确保气缸的性能符合要求。

 

 

We are one of the best hydraulic cylinder manufacturers. We can offer comprehensive hydraulic cylinders. We also provide corresponding 农用齿轮箱. We have exported our products to clients worldwide and earned a good reputation because of our superior product quality and after-sales service. We welcome customers at home and abroad to contact us to negotiate business, exchange information, and 与我们合作!