AR5000-06/AR5000-10 3/4" 1" AR Air Regulator
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AR5000-06/AR5000-10 3/4" 1" AR Air Regulator
AR5000-06/AR5000-10 3/4" 1" AR Air Regulator
NANPUAR5000-06/AR5000-10 3/4" 1" AR Air Regulator
| AR | 5000 | 10 | 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 engineered and rigorously tested to fully comply with the specified maximum flow requirements. This compliance is not only essential for ensuring the system operates at peak efficiency but also for maintaining the integrity and reliability of the overall compressed air infrastructure.
Prior to installation, it is of paramount importance to conduct a comprehensive cleaning of all ports and fittings. Utilize appropriate industrial - grade cleaning agents and specialized cleaning tools to remove any contaminants, debris, or residual materials. This thorough cleaning process is a critical preventive measure that effectively mitigates the risk of dust, particles, or other foreign substances entering the air pathway, thereby safeguarding against potential blockages, reduced performance, and premature wear of system components.
In order to adjust the pressure accurately, first, lift the knob of the pressure gauge to disengage the locking mechanism. Subsequently, perform rotational adjustments in a controlled manner. A clockwise rotation of the knob will result in a gradual and consistent increase in pressure, while a counterclockwise rotation will cause a proportional decrease. It is crucial to monitor the pressure gauge readings closely throughout this adjustment process.
Once the desired pressure value, as specified in the operational manual or required by the system, is achieved, immediately cease any further rotation of the knob. To ensure the stability of the set pressure and prevent any accidental changes, firmly press down and lock the knob into its fully engaged position. Failure to properly lock the knob can lead to a compromised seal, which may not only result in inaccurate pressure regulation but also pose a significant risk of leakage. Such leakage can potentially lead to system malfunctions, decreased efficiency, and even safety hazards. Regularly check the locked knob during system operation to confirm that the pressure remains stable and within the required parameters.
It is imperative to ensure that the pressure gauge is installed onto the main body with precise torque specifications, utilizing appropriate installation tools and techniques. This meticulous installation process is crucial for achieving a secure, leak - proof connection that can withstand the operational pressures and vibrations of the system. A loose or improperly installed gauge not only compromises the accuracy of pressure readings but also poses a risk of dislodgement during operation, potentially leading to system failures or safety hazards.
During the pressure adjustment phase, continuous and vigilant observation of the pressure gauge is essential. Closely monitor the gauge to verify that the readings increase and decrease in a seamless, linear fashion without any sudden jumps, hesitations, or erratic fluctuations. Any abnormal behavior in the gauge's response, such as sticking at certain pressure points or displaying inconsistent increments, may indicate internal issues within the gauge, such as mechanical damage, clogging, or incorrect calibration. Promptly addressing these anomalies through diagnostic procedures and, if necessary, professional calibration or repair is vital to maintaining the integrity and reliability of the pressure measurement system, ensuring optimal performance and safety of the overall equipment or process.