Views: 0 Author: Site Editor Publish Time: 2025-04-03 Origin: Site
The global emergency lighting market reached $7.02 billion in 2023, with a projected annual growth rate of 10.33%, surpassing $15.41 billion by 2032. China's LED lighting market also expanded significantly, driven by urbanization and extreme weather events. As a result, emergency lighting systems must now offer rapid deployment, all-terrain adaptability, multi-energy compatibility, and smart connectivity.
Meanwhile, solar-powered lighting vehicles are gaining traction, but optimizing solar panel positioning still requires precision actuator technology. JIECANG electric actuators fill this gap, transforming emergency lighting from passive response to proactive adaptation.
JIECANG actuators enable automatic deployment and height adjustment of lighting vehicle legs. With a single touch, they quickly stabilize the vehicle, reducing setup time to seconds and enhancing emergency response efficiency.
Designed for harsh environments, JIECANG actuators feature high protection ratings and CAN bus communication. They adjust leg height dynamically, ensuring stability on uneven terrain and preventing operational delays.
In solar-powered lighting vehicles, JIECANG actuators drive solar panels to track the sun, maximizing energy capture. Customer feedback shows that this system can provide over 10 hours of lighting on a single day's charge, reducing reliance on traditional energy and aligning with sustainability goals.
Future emergency lighting will integrate IoT and AI for remote monitoring and autonomous operation. JIECANG linear actuators, equipped with CAN bus, enable seamless integration with smart rescue systems, improving resource management.
As the industry moves toward solar-storage integration, JIECANG's precise actuator control enhances energy efficiency, accelerating the transition to zero-carbon lighting solutions.
Aligned with the national emergency strategy, JIECANG is redefining mobile emergency lighting—evolving it into an intelligent platform that integrates energy management, environmental sensing, and smart decision-making for the next generation of emergency response.