Water cooled uv led curing equipment

The UVLED curing device, as a widely favored UV curing technology, has seen increased adoption by numerous manufacturers. The performance of a UV LED curing equipment largely hinges on the control system, the lamp bead chip, and the heat dissipation mode. This article offers a brief introduction to the heat dissipation system in UVLED curing solutions.

In terms of the heat dissipation mode of UV LED curing system, there are essentially two types: water cooling and air cooling.

How can one choose the most appropriate heat dissipation mode? Many high-power UVLED curing devices typically use water cooling for heat dissipation, which can quickly transfer heat from the chipboard, resulting in superior performance. However, not all UVLED curing systems necessitate water cooling; it’s crucial to consider actual usage requirements when making a decision. It’s worth noting that water-cooled UVLED light sources tend to be more expensive.

So, what exactly are the pros and cons of water-cooled UVLED curing equipments?

Advantages of Water Cooling Heat Dissipation in UV LED curing systems:

1. Rapid Heat Dissipation: This mode can quickly eliminate the heat energy accumulated on the chipboard.
2. Directional Heat Output: Through the water cycle, heat can be discharged directionally and cooled rapidly.
3. Quiet and Environmentally Friendly: The system is sealed against dust and operates quietly.
4. Real-time Monitoring: The system can display the internal temperature of the water cooler in real time. A danger alarm device is triggered if the temperature becomes too high.
5. Real-time Cooling: The cooling mode automatically activates according to the temperature of the water cooler.

However, water-cooled LED curing equipment do have a few drawbacks, including:

1. Stringent Environmental Requirements: Water cooling demands specific environmental conditions for optimal operation.
2. Higher Operating Cost: Compared to air cooling, the use cost of water cooling will be significantly higher.
3. Lower Stability: The stability of a water cooling dissipation system tends to be lower than that of an air cooling system.