What factors affect the lighting effect of the explosion proof flashlight
Dec 29, 2021
The explosion proof flashlight uses a solid-state light source with energy-saving, environmental protection and explosion-proof features. As an explosion proof flashlight, its internal structural design, arc-proof electrical components and housing resistance to falls, shocks and anti-static properties make it an excellent explosion proof light fixture.
What factors affect the lighting performance of explosion proof flashlight
1, explosion proof flashlight illumination: industrial explosion-proof LED flashlights are often used in closed places such as coal mining operations, factories, etc. For the lighting of closed environments, illumination is very critical. Illumination is too low, easy to cause rapid eye fatigue. And illumination is too high, it will increase the burden on the eyes, and a waste of electricity. A qualified industrial explosion-proof flashlight should refer to the standard to choose the appropriate illumination.
2, explosion proof flashlight illumination ratio: in industrial explosion-proof lighting, illumination ratio for the different indoor environments and different. It is the ratio of accent lighting to basic lighting. TANK007 chief industrial explosion-proof flashlight designer believes that the field of view brightness ratio between 10:1-3:1 is the best.
3, explosion-proof lamps and lanterns color temperature: we know that high color temperature is easy to make people hyperactive, not suitable for long time operation at night. For long time operation workplace, 3500 ~ 4500K color temperature explosion-proof lamps and lanterns is the most suitable.
4, anti-glare: when the brightness of the strong explosion-proof searchlight than the eyes have adapted to the brightness is much larger, it will produce glare. Glare directly caused by the operator uncomfortable and visibility loss.
These are the four main factors affecting the performance of explosion proof flashlight lighting, it is also the most important determinant of the difference between the performance of explosion proof flashlight lighting and ordinary strong light flashlight lighting performance.