The UVN-1A-0A2-0.7E-4H-11 pump is a variable displacement axial piston pump.
It utilizes a swash plate mechanism to vary the displacement and control the flow rate of hydraulic fluid. This pump is capable of delivering a maximum flow rate of 0.7 liters per revolution, making it suitable for a wide range of applications requiring precise control of hydraulic power.
The "1A" in the model number refers to the pump size and design, indicating a compact and efficient configuration. The "0A2" represents the control type, in this case, a pressure compensated control, which ensures that the pump maintains a constant pressure regardless of the load conditions. This feature enhances system stability and performance.
The "0.7E" denotes the maximum displacement of the pump in liters per revolution. This specification determines the pump's flow capacity and is essential for matching the pump to the system requirements. The UVN-1A-0A2-0.7E-4H-11 pump offers a displacement of 0.7 liters per revolution, allowing for precise control and efficient operation.
The "4H" indicates the pump's maximum pressure rating, which is 4,000 psi (pounds per square inch).
This rating signifies the maximum pressure the pump can withstand during operation, ensuring reliability and durability even in demanding hydraulic systems.
The "11" in the model number refers to the shaft end type. In this case, it represents a flange mounting configuration, providing flexibility for installation and integration into various hydraulic systems.
The Nachi UVN Series Pump UVN-1A-0A2-0.7E-4H-11 incorporates advanced technologies and high-quality materials to ensure its performance and longevity. It features precise machining and strict quality control processes to guarantee optimal performance and reliability in demanding industrial environments.
This pump is suitable for a wide range of applications, including machine tools, industrial machinery, construction equipment, and material handling systems. Its compact design, precise control, and high-pressure capabilities make it an ideal choice for hydraulic systems requiring efficient power transmission and accurate control of hydraulic functions.