The PVH Series pumps are available in various frame sizes, providing different displacement options to meet specific application requirements.
These pumps are designed for continuous operation at high pressures and offer excellent volumetric efficiency, ensuring optimal fluid delivery. The displacement range of the PVH Series typically varies from 16 to 270 cubic centimeters per revolution.
One notable feature of the PVH Series is its advanced vane design. The pumps utilize a pressure-balanced vane structure, which minimizes wear and optimizes volumetric efficiency. The vane design also allows for quiet operation, reducing noise levels in industrial environments.
The PVH Series pumps are capable of operating at high pressures, typically up to 207 bar (3000 psi). This makes them suitable for demanding applications that require high power and performance. Additionally, the pumps are designed with a robust housing and bearing arrangement to ensure long service life and durability even under challenging conditions.
To facilitate installation and maintenance, the PVH Series pumps feature a cartridge design. This design allows for easy removal and replacement of the pumping elements, minimizing downtime and reducing maintenance costs. The cartridge design also enhances the flexibility of the pump, enabling it to be easily integrated into different hydraulic systems.
The PVH Series pumps are compatible with a wide range of hydraulic fluids, including mineral oils, synthetic oils, and biodegradable fluids.
This versatility makes them suitable for various applications across industries such as manufacturing, agriculture, construction, and more.
In terms of control options, the PVH Series offers flexibility to meet specific system requirements. The pumps can be equipped with pressure compensators, flow controls, and other accessories to optimize their performance in different hydraulic systems. Additionally, the pumps can be combined with other hydraulic components such as valves, filters, and reservoirs to create a complete and efficient hydraulic system.