Buildings and office spaces incorporate different designs, based on the illuminative requirements of the business. Because of this, work lighting systems should be customized to effectively cater to the unique layout of the space.
An effective way to ensure all sections of the work site are adequately illuminated is to utilize light reflectors. The components, which come in various sizes and shapes, are usually included in the design of the luminary. Understanding how reflectors work inside directional light sources, such as LEDs, and omni-directional luminaries, including incandescent bulbs and metal halide lamps, can help operators optimize lighting configurations in the area.
LEDs and Light Reflectors in Work Lighting Systems
LEDs may incorporate one or more secondary optics to extend or position light beams directly at the target. Reflectors inside LED lamps surround the diode or chip (depending on the type of LEDs). The material must be shiny and uniform in order to ensure smooth lighting effects. As a directional light source, reflectors are not crucial components for LEDs, since most of the light beams exit the lamp without requiring help from reflective surfaces.
It is important to consider that incorrect usage of light reflectors can lead to unwanted glare. When it comes to materials, LED reflectors are typically constructed of plastic or metal.
Tips and Recommendations
Light reflectors are cost-effective solutions for maximizing light output. As mentioned earlier, omni-directional light sources can benefit from reflectors, because they emit light in all angles. However, they are not suitable for compact installations in tight spaces, as reflectors tend to take up a lot of space in the luminary.
To prevent damaging reflectors, it is recommended for the housing and lens to be constructed of sturdy materials. Moreover, water-tight enclosures could help reduce the buildup of tiny droplets inside the unit, which could negatively affect light distribution during illumination.