What it does
Long battery life and long-distance transportation solve the problems of poor emergency transportation timeliness, difficult preservation of special materials, traffic obstacles in complex environment and high transportation cost.
Your inspiration
The inspiration stems from observing the pain points in medical transportation: in remote areas, first-aid medicines often miss rescue opportunities due to prolonged land transport caused by geographical barriers; in urban emergencies, traffic congestion repeatedly prevents ambulances from arriving in time. Meanwhile, special medical supplies like vaccines and blood are prone to failure in traditional transport due to lack of temperature control or excessive transfer links. Drones, with their advantage of direct aerial flight, can break through terrain and traffic limitations.
How it works
Mission planning and material loading: set the flight route through the ground control terminal (avoid the no-fly zone by combining with GIS map), and put the medical materials into the temperature control cabin with multi-layer insulation structure. The cabin is integrated with semiconductor refrigeration/heating module and high-precision temperature sensor, which can monitor and maintain the constant temperature environment of 2-8℃ (biological products such as vaccines) or -20℃ (special drugs) in real time, with the error controlled within 0.5℃, and send back the data to the monitoring platform in real time through 4G/5G network. Autonomous flight system: multi-rotor or fixed-wing mixed layout is adopted (multi-rotor is suitable for short-distance precise take-off and landing, and the fixed-wing can last for more than 200 kilometers)
Design process
Mission planning and material loading: set the flight route through the ground control terminal (avoid the no-fly zone by combining with GIS map), and put the medical materials into the temperature control cabin with multi-layer insulation structure. The cabin is integrated with semiconductor refrigeration/heating module and high-precision temperature sensor, which can monitor and maintain the constant temperature environment of 2-8℃ (biological products such as vaccines) or -20℃ (special drugs) in real time, with the error controlled within 0.5℃, and send back the data to the monitoring platform in real time through 4G/5G network. Autonomous flight system: multi-rotor or fixed-wing mixed layout is adopted (multi-rotor is suitable for short-distance precise take-off and landing, and the fixed-wing can last for more than 200 kilometers)
How it is different
The original hybrid intelligent switching mode of oil and electricity in the power system is different from the endurance bottleneck of pure electric unmanned aerial vehicles. While ensuring zero-emission short-distance transportation, it expands the long-distance transportation capacity through fuel power, which is especially suitable for cross-regional medical material dispatching in remote areas, and the endurance capacity is more than doubled compared with pure electric products of the same level. In addition, the modular mission module is the first in the industry. In addition to the basic temperature control module, it can quickly replace the components such as the shock-proof module for blood transportation and the airdrop module for emergency equipment, and cooperate with the standardized interface reserved by the fuselage to realize the whole scene adaptation from vaccine distribution to post-disaster first aid.
Future plans
The device is divided into three layers, the upper layer is operated and integrated with an interface panel, the middle layer is operated with a mechanical arm platform, and the lower layer is supported with an extended base.
Awards
Huaxia Award;The 7th Hong Kong Contemporary Design Award;Blue Bridge Cup
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