The PVQ20-B2R-SE1S-21-C21-12 is a variable displacement axial piston pump, meaning it can vary its output flow rate to meet the demands of the system.
It is designed to handle high-pressure applications and can deliver a maximum pressure of 3500 PSI (pounds per square inch). This makes it suitable for heavy-duty operations that require substantial power output.
One of the notable features of this piston pump is its high efficiency. It incorporates advanced hydraulic technology, such as precision-machined components and optimized sealing systems, to minimize energy losses and maximize output power. This results in improved overall system efficiency, reduced fuel consumption, and increased productivity.
The PVQ20-B2R-SE1S-21-C21-12 pump has a displacement of 2.0 cubic inches per revolution, which determines the volume of fluid it can deliver per revolution. This displacement rating allows for precise control of the hydraulic system and ensures smooth and accurate operation. Additionally, it offers a wide range of speed options, enabling the pump to adapt to different operating conditions and optimize performance.
To enhance its durability and reliability, the PVQ20-B2R-SE1S-21-C21-12 pump is built with high-quality materials and undergoes stringent testing procedures.
It features a robust construction with a rugged housing and internal components that can withstand demanding environments and heavy workloads. Moreover, it incorporates advanced filtration systems to ensure the purity of the hydraulic fluid and protect the pump from contaminants.
The PVQ20-B2R-SE1S-21-C21-12 piston pump is designed for easy installation and maintenance. It comes with various mounting options and can be easily integrated into existing hydraulic systems. The pump's modular design allows for quick and hassle-free servicing, reducing downtime and maintenance costs.
In terms of control options, the PVQ20-B2R-SE1S-21-C21-12 offers versatile control mechanisms to suit different application requirements. It can be operated manually or integrated with electronic control systems, providing precise and reliable control over the hydraulic system. This enables operators to optimize performance, adjust flow rates, and maintain system stability.