Shenhai Explosion-Proof
Te tamata nei te mau anuvera o te tau ve'ave'a i te puai o te mau mori purapura o te tau ve'ave'a. No te mau hoani e faaohipa ra i teie mau mori, i rapae e i roto i te fare, it’s crucial to comprehend the varied cooling strategies applicable to different scenarios. Niuhia i nia i te aravihi rahi i te pae tapihaa, e rave rahi mau ravea no te tamǎrû i te veavea:
1. Aluminum Fins: A prevalent cooling technique involves incorporating aluminum fins as part of the casing to enhance the dissipation surface.
2. Heat Pipes: These are employed to transfer heat from the light’s core to the external fins, a common design in substantial fixtures like streetlights.
3. Aerodynamics: Utilizing the light casing’s design to generate convective airflow is the most economical approach to improve cooling.
4. Surface Radiation: The light’s outer casing undergoes radiation heat dissipation treatment, often using a special coating to radiate heat away from the surface.
5. Conductive Materials: During the plastic casing’s injection molding, heat-conductive fillers are used to boost the casing’s thermal conductivity and dissipation.
By capitalizing on the advanced cooling capabilities of LED explosion-proof lights, you can effectively safeguard against high-temperature damage and prolong the lifespan of the lights. Prioritizing regular maintenance and care is vital to reduce potential damage and ensure seamless operation, preemptively addressing potential issues.