Due to the special overall environment of the tunnel, there are a lot of tunnel lights that need to be turned on for a long time, which has high requirements for the overall quality of tunnel lights. The disadvantages of traditional tunnel lamps are obvious, such as power consumption. As the concept of energy conservation and emission reduction becomes increasingly popular, how to realize the energy conservation of tunnel lamps has become a major problem.
The working voltage of a single bulb for LED tunnel lighting is very low, about 3V, so the power consumption of a low-voltage working environment is half of the power required for the same strong light. The tunnel lamp has a long service life and does not need regular maintenance and inspection. That is, it reduces the workload in the later period.
After a period of use, the brightness of the traditional tunnel lamp will be greatly reduced, but its attenuation is only 20% of the tunnel lamp. Moreover, this tunnel lamp is small in size and can be made into various shapes to adapt to various environments.
The shell of the tunnel lamp is of integrated design, which is durable and not easy to be damaged. Each light source inside can be installed and removed separately, which is very convenient in the future maintenance process, and the overall design can ensure good heat dissipation effect. The heat dissipation frame inside the shell, the air flow and the heat emitted by the full contact with the air effectively reduce the temperature of the lamp and extend the service life of the tunnel lamp.