The unique light sources of stage beam lights have garnered much attention, primarily due to their efficient design. The small-diameter cup and accurately positioned focal length maximize light efficiency, resulting in high lumens. However, this also leads to a relatively high amount of heat generated. In the early days, the 200-watt beam lights experienced significant foaming, making heat dissipation a crucial consideration in the design process.
Today, computer beam lights differ from traditional lights. The wick is thinner, and there is no peripheral isolation layer. Traditional lamps often suffer from poor heat dissipation, leading to the frying phenomenon, which adversely affects their lifespan. To tackle this problem, a high-tech constant temperature system is now employed. Domestic manufacturers have proposed two heat dissipation methods. The first relies on a stable fan to dissipate heat from the bulb, employing traditional heat dissipation techniques. The second, more advanced method involves software-controlled temperature regulation and heat dissipation. This system safeguards the bulb by automatically shutting it off in case of fan issues, effectively preventing the occurrence of foaming.
