With the rapid development of cities, underground drainage networks, as an essential part of urban infrastructure, have become increasingly important. However, the pollution problems caused by domestic sewage and industrial wastewater on natural aquatic ecosystems and soil ecosystems have become increasingly serious. Effectively tracing the source of drainage has become a crucial issue in urban management. EASY-SIGHT has introduced the robotic pipe inspection camera 3D imaging system, providing a scientific and effective solution for drainage source tracing.
Traditional well drilling survey methods are limited by the special nature of the environment, often failing to fully cover complex drainage networks. However, the EASY-SIGHT robotic pipe inspection camera 3D imaging system breaks through this bottleneck. The system consists of a crawling robot and a portable computer control system, connected by a transmission cable that can be up to 100-300 meters long. The crawling robot is highly flexible, equipped with a high-definition waterproof camera and a powerful light source, capable of rotating 360 degrees inside the Pipe, crossing 90 degree bends, and easily handling complex Pipe environments.
In practical operation, the robotic pipe inspection camera can transmit high-definition images and videos in real-time to the control system, clearly displaying the internal details of the Pipe on the monitor, including sewage flow direction, water quality, water volume, and conditions like pipe cracks, collapses, and blockages. This technology not only improves the diagnostic accuracy of drainage Pipes but also makes source tracing investigations more efficient.
The core advantage of the 3D imaging system lies in its precise diagnostic capabilities and flexible operational performance. EASY-SIGHT's system adopts a high-capacity rechargeable lithium battery and a large-screen LCD display. Combined with recording and storage systems, it can view, record, and save survey results in real-time, providing rich data support for comprehensive analysis of drainage Pipes.
Using this system for drainage source tracing surveys, operators do not need to enter the Pipe, avoiding dangerous factors such as toxic and harmful gases and low-oxygen environments. Through endoscopic investigation, it is possible to detail the sewage flow direction, quality, magnitude, and structural damage within the Pipe. After collection, processing, and editing, these data eventually form a detailed drainage tracing Pipe map, effectively verifying the accuracy of the drainage source.
Compared to traditional methods, the robotic pipe inspection camera 3D imaging system has significant advantages in safety and efficiency, especially suitable for complex projects that are difficult to access or pose significant safety risks, such as deep-buried Pipes, severe siltation, and the presence of toxic gases.
Through the EASY-SIGHT robotic pipe inspection camera 3D imaging system, several large-scale drainage source tracing projects have achieved significant results. The system has been successfully applied in complex underground drainage networks, achieving efficient and accurate drainage source tracing. By comparing with the original topographic maps, precise drainage tracing Pipe maps were drawn, providing scientific basis for the optimization of urban drainage systems.
Although the current operational cost of this technology is relatively high and requires substantial manpower, with further development and the expansion of its application scale, the cost is expected to gradually decrease, and work efficiency will further improve. In the future, EASY-SIGHT will continue to focus on technological innovation, promoting the robotic pipe inspection camera 3D imaging system in more urban drainage source tracing projects to support the development of urban environmental protection efforts.
In conclusion, the EASY-SIGHT robotic pipe inspection camera 3D imaging system provides advanced and efficient technical means for modern urban drainage source tracing, breaking the limitations of traditional methods and significantly improving the accuracy and safety of source tracing investigations. It is believed that in the near future, this technology will be widely applied to more urban drainage management, making greater contributions to the protection of the urban ecological environment.
