AC5000-06/AC5000-10 F.R.L.Combination Air Filter, Regulator & Lubricator
description1
AC5000-06/AC5000-10
Manual Drain AC5000-06/AC5000-10 Portsize: 3/4" F.R.L.Combination Air Filter, Regulator & Lubricator
Auto Drain AC5000-06/AC5000-10 Portsize: 3/4" F.R.L.Combination Air Filter, Regulator & Lubricator
NANPUAC5000-06/AC5000-10
| AC | 5000 | 06 | BSP | D |
| Series Number | Body Size | Port Size | Thread Type | Drainage Method |
| 2000 | 02:1/4" | BSP | Blank: Differential Pressure Drain | |
| 3000 | 03:3/8" | NPT | A: Manual Drain | |
| 4000 | 04:1/2" | PT | D: Auto Drain | |
| 4000/5000 | 06: 3/4" | |||
| 5000 | 10: 1" |
NANPUTechnical Specifications
| Model | Model | |
| Manual Drain | Auto Drain | (L/min)Rated Flow Rate |
| AC2000-02 | AC2000-02D | 500 |
| AC3000-02 | AC3000-02D | 2000 |
| AC3000-03 | AC3000-03D | 2000 |
| AC4000-04 | AC4000-04D | 4000 |
| AC4000-06 | AC4000-06D | 4500 |
| AC5000-06 | AC5000-06D | 5000 |
| AC5000-10 | AC5000-10D | 5000 |
| Max Input Pressure | 1.2Mpa{12.24kgf/cm²} /174.04Psi |
| Max Operating Pressure | 1.0Mpa{10.2kgf/cm²} /145Psi |
| Temperature Range | 5~60℃ |
| Filtration Accuracy | 0.01μm, 5μm, 40μm |
| Bowl Material | Polycarbonate |
| Bowl Guard | AC2000 (None) AC3000~5000(YES) |
| Suggested Oil | Turbine Oil No. 1 ISO-VG32 |
| Pressure Range | AC2000~5000/0.05~0.85Mpa(0.51~8.7kgf/cm² )/0~125Psi |
1. Preparation
The calibration assembly must be designed and configured to accommodate the peak flow capacity specified for the system. Prior to installation, thorough cleaning of all ports and fittings is mandatory to prevent the introduction of particulate matter into the air pathway, thereby ensuring the integrity and optimal performance of the system.
2. Pressure Adjustment
To adjust the pressure using the pressure gauge, perform the following procedure: First, lift the pressure gauge knob to activate the adjustment mechanism. Subsequently, rotate the knob to modify the pressure settings. A clockwise rotation will incrementally elevate the pressure in a controlled manner, while a counterclockwise rotation will result in a corresponding decrease.
3. Dial Reading
It is essential to ensure the pressure gauge is installed with appropriate torque onto the main body to establish a secure and leak - proof connection. During the pressure adjustment process, meticulous monitoring of the gauge's reading is required. The reading should exhibit smooth and consistent fluctuations, free from any abrupt jumps or erratic behavior. Any deviation from this expected performance may indicate issues such as blockages, internal damage, or incorrect installation, necessitating immediate investigation and corrective action to maintain the accuracy and reliability of the pressure measurement system.
4. Drainage
The drainage column is designed with a self - actuating mechanism. In the absence of pressure, it will automatically initiate the drainage process, while it will seal shut upon the passage of airflow. Should the water level within the system exceed the maximum allowable threshold, immediate drainage becomes imperative. Failure to do so will inevitably result in suboptimal dehumidification performance, potentially compromising the overall functionality and efficiency of the system.
The connector on the drain head is intended for coupling with an air hose. This component offers flexibility, allowing for its removal or attachment as per specific operational requirements, thereby facilitating customization and maintenance of the system's configuration.
5. Oil Adjustment
To regulate the oil absorption rate, manipulate the needle valve by rotating it. Rotation of the needle valve in the positive or "+" direction will incrementally augment the oil absorption velocity, enabling a controlled increase in the flow rate. Conversely, turning the valve in the negative or "−" direction will cause a progressive deceleration of the oil absorption process, eventually bringing it to a halt. This precise control mechanism allows for meticulous adjustment of the oil absorption speed to meet specific operational requirements.
6. Refueling
For the refueling procedure, the refueling screw should be rotated in a clockwise direction. It is imperative to ensure that the volume of oil added does not surpass 80% of the bowl's total capacity. This threshold is crucial to prevent over - filling, which may lead to operational inefficiencies or potential safety hazards. Post - refueling, the refueling screw must be securely tightened to maintain a proper seal. This step is essential to avoid oil leakage, preserve the integrity of the system, and ensure optimal performance during subsequent operations.