What are the advantages of the heat dissipation structure of LEDRHYTHM’s LED industrial and mining lamps?

What are the advantages of the heat dissipation structure of LEDRHYTHM’s LED industrial and mining lamps?

What are the advantages of the heat dissipation structure of LEDRHYTHM’s LED industrial and mining lamps?cid=191

LED industrial and mining lamps can provide customers with efficient, environmentally friendly, and reliable lighting solutions. This article mainly introduces the cooling system components of LEDRHYTHM industrial and mining lamps.

The core part is the LED light source, which is composed of LED chips and optical systems. The LED chip is the light-emitting part that converts electrical energy into light energy and emits soft and bright light. The optical system is responsible for reflecting, refracting and homogenizing the light emitted by the LED chip to achieve the required lighting effect. This design can ensure that I can maintain efficient and stable lighting effects in low temperature and high humidity environments.

Secondly, it has an efficient cooling system. This system consists of a radiator, cooling fin design, aerodynamic design and surface radiation heat dissipation treatment. The radiator is made of materials with good thermal conductivity and can conduct and dissipate heat quickly. LED cold storage lights usually use aluminum heat sink fins as the outer shell to increase the heat dissipation area. The design of the heat dissipation fins can optimize the air flow rate and heat dissipation effect, thereby reducing the temperature of the lamp. Aerodynamics uses the shape of the lamp housing to create convection air, which is the lowest-cost way to enhance heat dissipation. For example, in the fin cooling method, aluminum alloy materials are processed into fin shapes to increase the contact area between the air and the radiator as much as possible to increase the effect of natural convection. The surface of the lamp shell is treated with radiation heat dissipation. It's as simple as applying radiation heat dissipation paint, which can take heat away from the surface of the lamp shell by radiation. This design can use the characteristics of the paint to transfer heat to the environment in the form of radiation, improving the heat dissipation effect. This heat dissipation design ensures that I can maintain good performance even when working for a long time.

Also equipped with an intelligent drive circuit. This circuit consists of power supply, switch and protection circuit. It can provide stable and reliable current to the LED chip to ensure stable lighting. At the same time, the protection circuit can ensure that I shut down in time under abnormal circumstances and improve my safety performance.

The casing is made of high-strength materials and is waterproof and dustproof, protecting the internal components and circuits from harsh environments.

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사람들은 또한 다음과 같은 질문을 합니다.

LED 드라이버는 AC 또는 DC인가요?

LED가 작동하려면 신뢰할 수 있는 전원이 필요합니다. 이 전원은 교류(AC)를 직류(DC)로 변환하는 LED 드라이버에 의해 공급됩니다. LED 드라이버는 LED의 온도와 전기 전도도의 변화를 조정하여 일관되고 지속적인 전원을 공급합니다.

다음이 있습니다.  LED 드라이버의 유형: 정전류 LED 드라이버 및 정전압 LED 드라이버.

"정전류" 출력을 제공하는 LED 전원은 일반적으로 LED 드라이버라고 불렀습니다. 과거에는 LED에 정격 "정전압"을 공급하는 AC-DC 전원 공급 장치를 LED 전원 공급 장치라고 불렀습니다. 오늘날에는 "LED 드라이버"와 "LED 전원 공급 장치"라는 용어가 혼용되어 사용되고 있습니다.

고온에서 작동하면 열 축적으로 인해 부품이 손상될 수 있으므로 LED 드라이버의 오작동은 극심한 고온 요인으로 인해 발생할 수 있습니다. 다른 경우에는 전력망의 전압 불안정이나 낙뢰로 인한 서지로 인해 LED 드라이버가 손상될 수 있습니다. 또한 LED 드라이버의 출력 전압과 전류가 LED 칩의 전기적 파라미터와 일치하지 않으면 LED가 제대로 작동하지 않을 수 있어 LED 드라이버의 오작동을 의심할 수 있습니다.

깜박임은 LED 드라이버 결함을 나타내는 가장 일반적인 징후 중 하나입니다. 또한 조명의 밝기 또는 어두움의 변화도 LED 드라이버에 결함이 있음을 나타냅니다. 마지막으로 LED 램프가 전혀 작동하지 않는다면 LED 드라이버, SPD 또는 LED가 고장난 것일 수도 있습니다.