OR200 / OR300 / OR400 Zinc Alloy Air Regulator
description1
OR200/OR300/OR400 Zinc Alloy Air Regulator
OR200/OR300/OR400 Zinc Alloy Air Regulator
NANPUOR200/OR300/OR400 Zinc Alloy Air Regulator
| OR | 200 | BSP |
| Series Number | Port Size | Thread Type |
| 200: 1/4" | BSP | |
| 300: 3/8" | NPT | |
| 400: 1/2" | PT |
NANPUTechnical Specifications
| Model | Specification |
| (L/min)/Rated Flow Rate | |
| OR200 | 1950 |
| OR300 | 2500 |
| OR400 | 3000 |
| 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 | OR200-OR400/0.05~0.85Mpa(0.51~8.7kgf/cm² )/0~125Psi |
Every calibration unit must be carefully adjusted to meet the exact maximum flow rate criteria specified in the technical documentation. This strict compliance is crucial for preserving the operational effectiveness and performance consistency of the whole system.
Before commencing installation, it is imperative to perform a comprehensive cleansing of all ports and connectors. Utilize suitable cleaning solutions and protocols to eliminate any dirt, impurities, or remnants. This thorough cleaning process acts as a vital safeguard, efficiently preventing dust or particles from entering the air channel, which might otherwise cause system inefficiencies, obstructions, or early deterioration.
When installing, special focus should be placed on correctly orienting the air flow. Double-check that the air flow direction perfectly matches the arrow indications on the product. Also, a detailed examination of port and thread dimensions is required to guarantee a proper and tight connection. Any size variations or misalignments can lead to leaks, decreased performance, or possible system breakdowns. By following these installation instructions, the system can be put together with assurance, ensuring peak functionality and dependability.
Begin the pressure modification process by raising the knob of the manometer to the unlatched state. Afterward, carry out turning adjustments in a regulated fashion. A turn in the right - hand direction will cause a steady and uniform rise in pressure, whereas a left - hand turn will bring about a corresponding drop. It is essential to keep a close eye on the manometer readings during the entire operation.
Upon reaching the target pressure value as outlined in the operating instructions, promptly halt all turning movements. To safeguard the set pressure level and avoid any accidental alterations, firmly push the knob down to its fully locked state. Neglecting to lock the knob properly can lead to a weakened seal, thus escalating the likelihood of leaks. Such leaks not only distort the precision of the pressure settings but also present potential safety risks and may damage the connected devices or parts within the system. Routinely check the locked knob during operation to maintain the ongoing stability and reliability of the pressure control system.
It is of utmost importance to mount the pressure gauge onto the main structure with the correct torque value, employing suitable installation instruments and methods. This careful installation approach ensures a tight and hermetic connection, avoiding any possible shifting or loosening while in operation.
While adjusting the pressure, constant and attentive observation of the pressure gauge is required. Watch carefully to confirm that the readings change smoothly and steadily, without any abrupt surges, interruptions, or irregular variations. Any departure from a consistent trend might suggest problems like internal blockages in the gauge, damage to its internal parts, or inaccurate calibration. Swiftly examining and fixing these irregularities is vital for maintaining the precision and dependability of the pressure measurement system, ensuring the best performance and safety of the entire equipment or process.