OL200 OL300 OL400 1/4" 3/8" 1/2"Zinc Alloy AR Air Lubricator
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OL200 OL300 OL400 1/4" 3/8" 1/2"Zinc Alloy AR Air Lubricator
OL200 OL300 OL400 1/4" 3/8" 1/2"Zinc Alloy AR Air Lubricator
NANPUOL200 OL300 OL400
| OL | 200 | BSP |
| Series Number | Port Size | Thread Type |
| 200: 1/4" | BSP | |
| 300: 3/8" | NPT |
NANPUTechnical Specifications
| Model | Specification |
| (L/min)/Rated Flow Rate | |
| OL200 | 1950 |
| OL300 | 2500 |
| OL400 | 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 | OL200-OL300/0.05~0.85Mpa(0.51~8.7kgf/cm² )/0~125Psi |
| Bowl Material | Polycarbonate |
| Suggested Oil | Turbine Oil No. 1 ISO-VG32 |
All calibration units need to be carefully constructed and put together to fully meet the defined peak flow rate specifications. Strict compliance with these specifications is not only crucial for guaranteeing the system's best performance but also for sustaining its long - term dependability and effectiveness. Any departure from the peak flow standards can result in inferior operation, higher energy usage, and possible system breakdowns.
For modifying the oil intake rate of the lubrication system, accurately adjust the needle valve. Turning the needle valve rightward, as shown by the “+” mark, steadily widens the valve opening. This permits a larger amount of oil to enter the system, thus accelerating the oil intake rate. This is perfect for high - load working conditions.
On the other hand, turning the needle valve leftward, which aligns with the “-” direction, gradually constricts the opening. Consequently, the oil intake pace decreases. Sustained turning in this manner will ultimately stop the oil flow, allowing for precise regulation of the lubrication procedure.