What it does
Smart Mountain Rescue Aircraft – enhancing rescue efficiency, ensuring personnel safety, and providing emotional support to survivors. Integrating cutting-edge technologies, it optimizes design, functionality
Your inspiration
Adopting an innovative design philosophy grounded in "Polar Biomechanical Morphology and Modular System Integration", this solution takes the golden eagle – an apex predator of alpine regions – as its primary bionic prototype. Integrated with AR smart glasses, the system delivers enhanced safety, ergonomic comfort, and adaptive performance for users operating in extreme environments.
How it works
Snow Mountain intelligent rescue equipment achieves efficient rescue through multi-module collaboration and environmental adaptation design. In terms of detection and positioning, the radar penetrates the snow to detect trapped people, and multi-sensors fuse to build an obstacle map to adapt to bad weather; in terms of power and movement, the low-temperature motor copes with extreme cold, the rotor and multi-legged mechanism combine to adapt to complex terrain, and the landing gear can be retracted; during rescue execution, the thermal first-aid cabin is released and the communication network is built. Relay signal. In terms of environmental adaptation, special electrolyte and phase change material temperature control battery, fuselage composite insulation material cold resistance, wing shape optimization resistance reduction and dual motor redundancy, switching flight mode according to the scene
Design process
Starting from the extreme snow mountain rescue needs, the design first identify technical bottlenecks and user pain points through literature research, questionnaire interviews, etc., and find the shortcomings of traditional equipment in interaction and emotional support. Based on this, it is determined to integrate multi-modal interaction technology with eVTOL aircraft and AR glasses as carriers. In terms of modeling, the shape of the bionic eagle optimizes the aerodynamic performance, uses titanium alloy and other materials to improve weather resistance, and the bottom red area enhances the visuality. The interactive design combines voice and visual modes. The voice interaction adjusts the tone according to the user's emotions. The visual interface overlays information through AR, and sets up core functional modules such as "help signal". After multiple rounds of sketching and technical integration, a design scheme that balances function and emotion is formed.
How it is different
The design focuses on the appearance design of snow mountain intelligent rescue equipment under extreme background. Based on the CMF design theory, it is developed from the three aspects of color, material and surface treatment technology. In terms of color, dark gray and orange-red are matched. Dark gray is dirt-resistant and UV-resistant, and orange-red is highly recognizable in the snow. In terms of materials, the fuselage is lightweight and wind-resistant with titanium alloy and carbon fiber composite structure. The landing frame combines carbon composite materials and silicone to enhance snow adhesion. The battery warehouse is filled with magnesium aluminum alloy and aerogel filling. Barrier shock absorption and protection; the surface treatment uses polyurethane-fluorocarbon composite coating to solve low-temperature embergilation
Future plans
In the future, Xueshan intelligent rescue equipment will develop towards high intelligence, functional integration and rescue efficiency. In terms of technological innovation, we will further integrate artificial intelligence and big data to accurately predict the environmental risks of snowy mountains and plan rescue routes in advance. For example, use AI to analyze meteorological data to give early warning before avalanches and other disasters occur. At the same time, the functions of the equipment will be continuously integrated, integrating detection
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