AR3000-03/AR4000-04/AR4000-06 3/8" 1/2" 3/4" AR Air Regulator
description1
AR3000-03/AR4000-04/AR4000-06 3/8" 1/2" 3/4" AR Air Regulator
AR3000-03/AR4000-04/AR4000-06 3/8" 1/2" 3/4" AR Air Regulator
NANPUAR3000-03/AR4000-04/AR4000-06
| AR | 3000 | 03 | BSP |
| Series Number | Body Size | Port Size | Thread Type |
| 2000 | 02:1/4" | BSP | |
| 3000 | 03:3/8" | NPT | |
| 4000 | 04:1/2" | PT | |
| 4000/5000 | 06: 3/4" | ||
| 5000 | 10: 1" |
NANPUTechnical Specifications
| Model | Specification |
| AR2000-02 | 500 |
| AR3000-02 | 2000 |
| AR3000-03 | 2000 |
| AR4000-04 | 4000 |
| AR4000-06 | 4500 |
| AR5000-06 | 5000 |
| AR5000-10 | 5000 |
| Max Input Pressure | 1.2Mpa{12.24kgf/cm²} /174.04Psi |
| Max Operating Pressure | 1.0Mpa{10.2kgf/cm²} /145Psi |
| Temperature Range | 5~60℃ |
| Pressure Range | AC2000~5000/0.05~0.85Mpa(0.51~8.7kgf/cm² )/0~125Psi |
All calibration assemblies must be meticulously configured to fully comply with the maximum flow rate requirements as defined in the technical specifications. This adherence is essential for maintaining the operational efficiency and performance integrity of the entire system.
Prior to installation, it is of utmost importance to conduct a thorough cleaning of all ports and fittings. Employ appropriate cleaning agents and procedures to remove any debris, contaminants, or residues. This comprehensive cleaning process serves as a critical preventive measure, effectively eliminating the risk of dust or particulate matter entering the air pathway, which could otherwise lead to system inefficiencies, blockages, or premature wear.
During the installation phase, close attention should be paid to the alignment of the air flow direction. Carefully verify that the direction of air flow precisely corresponds with the arrow markings on the product body. Additionally, meticulous inspection of the port and thread sizes is necessary to ensure a proper and secure fit. Any discrepancies in size or misalignment can result in leakage, reduced performance, or potential system failures. By adhering to these installation guidelines, the system can be assembled with confidence, ensuring optimal functionality and reliability.
Initiate the pressure adjustment procedure by lifting the knob of the pressure gauge to the unlocked position. Subsequently, perform rotational adjustments in a controlled manner. A clockwise rotation will induce a gradual and consistent increase in pressure, while a counterclockwise rotation will result in a proportional decrease. It is imperative to closely monitor the pressure gauge readings throughout this process.
Once the desired pressure index, as specified in the operational guidelines, is achieved, immediately cease all rotational adjustments. To secure the set pressure value and prevent any unintended changes, firmly lock down the knob to its fully engaged position. Failure to properly lock the knob can lead to a compromised seal, thereby increasing the risk of leakage. Such leakage not only undermines the accuracy of the pressure settings but also poses potential safety hazards and may cause damage to connected equipment or components within the system. Regularly inspect the locked knob during operation to ensure continued stability and integrity of the pressure regulation system.
It is essential to ensure that the pressure gauge is installed on the main body with the appropriate torque specification, utilizing proper installation tools and techniques. This meticulous installation process guarantees a secure and leak - proof connection, preventing any potential displacement or loosening during operation.
During the pressure adjustment phase, continuous and vigilant monitoring of the pressure gauge is necessary. Observe closely to verify that the readings increase and decrease in a seamless, consistent manner, without any sudden jumps, stutters, or abnormal fluctuations. Any deviation from smooth movement may indicate issues such as internal obstructions within the gauge, damage to its internal components, or incorrect calibration. Promptly investigating and rectifying such anomalies is crucial to maintain the accuracy and reliability of the pressure measurement system, ensuring optimal performance and safety of the overall equipment or process.