What it does
This design systematically optimizes the timeliness, privacy, and convenience of campus medical services through the "hardware terminal + APP + robot" three-in-one system, providing youth groups with smart medical solutions that are within reach.
Your inspiration
My inspiration came from a personal dilemma in the middle of the night: as a junior undergraduate student, I often faced the helplessness of medical resources being cut off in the dormitory life. I remember that one night at 11:30 p.m., I was scalded by boiling water but couldn't find any burn cream.
How it works
MEDICUBE re-structures the efficiency of campus medical access through a three-tier technical architecture: intelligent drug cabinet terminal, The autonomous drug replenishment system and AI medical center break through the time and space restrictions with distributed terminals, realizing the "medical guardian after turning off the lights" - the accessibility rate of medicines at night is increased by 95%, and the effective time of taking medicine is compressed to 1/10 of the traditional process
Design process
Design Process: From Empirical Insight to Technological Closure The concept germinated from in-depth research on the campus medical gap: In 2025, according to data from XX University Town, 64.7% of students had experienced sudden illness in the middle of the night without access to medicine. Based on this, I propose the core concept of "dormitory-level distributed medical terminal" - to solve the problem of time and space mismatch of medical resources through a distributed cabinet network, and extend it to mental health services.The prototype development has undergone three rounds of key iterations, always driven by the dual-track verification of "technical feasibility × user experience": 1. V1 functional prototype (3D printed shell + basic circuit): - When testing the three-zone storage (4°C/18°C/25 °C), condensation water seepage was found in the refrigerated area, so silicone sealing ring and gravity drainage trough were added;- The initial version of the robot's laser navigation has a failure rate of 30% at the right-angle turn in the dormitory, triggering an upgrade to the multi-sensor fusion solution.
How it is different
core originality of Zhiyue Lifang lies in reconstructing the service radius with the "dormitory-level cellular medical network" and solving the industry breakpoints through the triangular technology closed-loop: unlike the medical self-service machines in hospitals/pharmacies (such as the H1 type device that only supports normal temperature medicines),This design is the first to adopt a distributed terminal deployment mode—based on the dormitory, the flu epidemic aims to embed a device that occupies only 0.96 square meters (60% less than the traditional 2 square meters) in the corridor, so that the radius of drug retrieval from the school hospital is compressed from 1.5 kilometers to 50 meters (walking ≤ 3 minutes).It is also equipped with a unique IoT three-zone storage (4°C/18°C/25 °C) for storing insulin and other special medicines, and the SLAM navigation replenishment robot can shorten the response time from 6 hours to 40 minutes when there is a shortage.
Future plans
Short-term (0-1 year): Completed the pilot project of three schools (deployed 200 terminals), verified the dispatching algorithm of the drug replenishment robot cluster, and achieved a 95% night-time drug accessibility rate;
Awards
2025睿抗机器人开发者大赛(RAICOM)CAIA赛道省一等奖
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