AR2000 1/4 AR Air Regulator
description1
AR2000-02 1/4" AR Air Regulator
AR2000-02 1/4" AR Air Regulator
NANPUAR2000 1/4" AR Air Regulator
| AR | 2000 | BSP | |
| Series Number | Body Size | Port Size | Thread Type |
| 2000 | 1/4" | BSP | |
| 3000 | 3/8" | NPT | |
| 4000 | 1/2" | PT |
NANPUTechnical Specifications
| Model | Specification |
| AR2000 | 650 |
| BR2000 | 1400 |
| BR3000 | 1400 |
| BR4000 | 1400 |
| Max Input Pressure | 1.0Mpa{10.2kgf/cm²} /145Psi |
| Max Operating Pressure | 1.0Mpa{10.2kgf/cm²} /145Psi |
| Temperature Range | -5~60℃ |
| Pressure Range | AR/BR 0.05~0.85Mpa(0.51~8.7kgf/cm² )/0~125Psi |
All calibration assemblies shall strictly comply with the maximum flow rate specifications detailed in the technical documentation. Such compliance is critical to ensuring optimal system performance and reliability.
Prior to installation, all ports and fittings must be meticulously cleaned using appropriate cleaning agents and protocols. This rigorous cleaning process effectively prevents dust, debris, and contaminants from infiltrating the air pathway, safeguarding the integrity and efficiency of the compressed air system.
During installation, careful verification shall be conducted to ensure the air flow direction precisely aligns with the arrow markings on the product body. Additionally, port and thread dimensions must be accurately matched to corresponding components. This meticulous verification of flow orientation and dimensional compatibility is essential to mitigate installation errors that could lead to system malfunctions or inefficiencies.
To adjust the pressure, first elevate the pressure gauge knob to the unlocked position. Proceed to rotate the knob for pressure modification: clockwise rotation induces a gradual and consistent pressure increase, while counterclockwise rotation results in a steady decrease.
Closely monitor the pressure gauge and cease rotation immediately upon reaching the desired pressure value. Once set, firmly engage the knob to lock the pressure setting. Improperly secured knobs may compromise the seal, risking leakage that could jeopardize system performance and safety. Regularly inspect the locked knob during operation to ensure pressure stability within specified parameters.
Ensure the pressure gauge is securely mounted on the main body using appropriate installation tools and techniques, adhering to specified torque requirements to prevent leakage or displacement. During pressure adjustment, closely monitor the gauge to verify smooth, consistent readings without erratic fluctuations or sticking.
Any abnormal gauge behavior—such as internal obstructions, component damage, or miscalibration—must be promptly investigated and rectified to maintain the accuracy and reliability of the pressure monitoring system. This diligence ensures optimal functionality and prevents potential errors in pressure regulation.