| Customization: | Available |
|---|---|
| Usage: | Industrial use, Home |
| Shape: | H Shape |
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| Type | Tube Diameter | Length | Power | Current | Voltage | UVC UV output at 254nm |
Lamp Base | Standard life | |
| MM | MM | W | MA | V | uw/cm2 | w | H | ||
| PL-S5W | 13 | 85 | 5 | 180 | 34 | 12 | 1.1 | G23/2G7 | 8000 |
| PL-S7W | 13 | 115 | 7 | 175 | 47 | 20 | 1.5 | G23/2G7 | 8000 |
| PL-S9W | 13 | 145 | 9 | 170 | 60 | 23 | 2.4 | G23/2G7 | 8000 |
| PL-S11W | 13 | 214 | 11 | 160 | 89 | 33 | 3.6 | G23/2G7 | 8000 |
| PL-S13W | 13 | 155 | 13 | 290 | 60 | 31 | 3.4 | GX23/2GX7 | 8000 |
| PL-L18W | 17 | 217 | 18 | 370 | 60 | 60 | 5.8 | 2G11 | 8000 |
| PL-L24W | 17 | 317 | 24 | 350 | 87 | 90 | 7 | 2G11 | 8000 |
| PL-L35W* | 17 | 217 | 35 | 850 | 40 | 105 | 11 | 2G11 | 8000 |
| PL-L36W | 17 | 410 | 36 | 440 | 105 | 120 | 12 | 2G11 | 8000 |
| PL-L55W* | 17 | 530 | 55 | 540 | 103 | 170 | 18 | 2G11 | 8000 |
| PL-L60W* | 17 | 410 | 60 | 670 | 118 | 170 | 18 | 2G11 | 8000 |
| PL-L95W* | 17 | 530 | 95 | 950 | 100 | 300 | 33 | 2G11 | 8000 |
The process of making a UV lamp involves several steps to ensure its effectiveness in water disinfection. Here is a simplified explanation of the UV lamp making process:
Selection of Materials: The first step is to select the appropriate materials for the UV lamp. This includes choosing a high-quality quartz or glass tube for the lamp's housing, as well as the necessary electrical components such as electrodes and connectors.
Tube Preparation: The selected quartz or glass tube is then carefully cleaned and polished to remove any impurities or imperfections that may affect the lamp's performance. This step ensures the tube's transparency, allowing the UV light to pass through effectively.
Electrode Placement: Next, the electrodes are carefully positioned at both ends of the quartz or glass tube. These electrodes are typically made of a conductive metal alloy and serve as the contact points for the electrical current.
Sealing: To prevent any water leakage or damage to the lamp, the quartz or glass tube is sealed using a specialized sealing material or technique. This ensures the lamp remains watertight and durable, as it will be exposed to water during operation.
Electrical Connections: The electrodes are connected to the electrical wiring, which will provide the necessary power for the lamp to operate. These connections are securely made to ensure proper electrical conductivity and safety.
Testing and Quality Control: Once the UV lamp is assembled, it undergoes rigorous testing and quality control measures. This includes checking for proper electrical functionality, ensuring the lamp emits the required UV wavelength, and verifying that there are no defects or malfunctions.
Packaging and Distribution: After passing all quality control tests, the UV lamps are carefully packaged to protect them during transportation. The lamps are then distributed to manufacturers or suppliers who incorporate them into water UVC filter systems.
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