Xu Hai College of China University of Mining and Technology
Lu Xiaoke, Jia Yujie, Ren Yuhao

Natural disasters such as landslides, earthquakes, mudslides, and accidents and disasters such as the safe production of mines and hazardous chemicals have occurred frequently, making it more difficult to evacuate people from disaster areas with damaged rescue roads and to transfer the injured and injured people, which has hindered disaster relief and seriously affected the rescue progress. The disaster rescue emergency system realizes the function of quickly laying temporary roads through modular combination, multi-functional zoning, unmanned control, etc., and opens up a "life channel" for emergency rescue ". The road rescue and disaster emergency system includes technologies such as image recognition, automatic driving technology, 5G remote control, drone 3D measurement, calculation and allocation of work volume, etc., and generates a high-precision three-dimensional data model of the construction site through drone aerial surveying and mapping, and According to the model, the corresponding number and type are intelligently and accurately matched to realize the precise positioning of the autonomous handling module of the drone, to achieve a series of requirements such as improving rescue efficiency. Simulating the structure of the honeycomb, the basic structure is an integral plane module formed by a single regular hexahedral module fixedly connected. The regular hexagonal surface is parallel to the foundation surface of the module, so that the load applied by the upper layer is evenly distributed. The upper plane and the lower plane are supported by six telescopic rods to form a multi-layer regular six-sided frame structure, which makes the structure stable, strong in bearing capacity and reduces material weight.