Process layout
This sterilization robot is a 2-in-1 autonomous Logistics capable of transporting necessary supplies in a large hospital while simultaneously completing disinfection within the wards.
The Nargo Bike Killer solution enables safe operation even in crowded and complex indoor environments thanks to its triple safety sensors and autonomous driving technology. Additionally, it features a powerful three-stage air purification function, providing excellent sterilization, deodorization, and harmful gas decomposition effects even while driving.
By automating the supply and collection of supplies for each department, hospital staff can focus more on patient care, and with concerns about infectious diseases such as COVID-19 rising these days, it is killing two birds with one stone as it allows hospital customers to visit with peace of mind.
This project was conducted not only to prevent the spread of infectious diseases such as COVID-19 through air purification and sterilization, but also to put an end to concerns about viral infection by introducing a reassuring sterilization solution for hospital visitors. Following the project, work fatigue caused by handling an increased number of patients was reduced by minimizing the travel distance of Hospital staff, and customer responsiveness was also strengthened through efficient division of labor.
Components
| Robot | Twinny Nargo Bikekiller ; - Load capacity: 100kg/200L, Maximum speed: 1.2m/s; - Stopping accuracy: ±100mm, Operating time: 8 hours; - Charging method: Manual battery replacement ; Air purification sterilizer ; - Function to remove fine dust and airborne bacteria/viruses; - Harmless to humans due to air intake method; - 3-stage (washable/carbon/HEPA) powerful air purification function); Control tablet PC: Operation teaching and work instructions |
|---|---|
| Peripherals | - |
Workflow
| STEP 1. | Workers carry items requiring delivery and load them onto shelves |
|---|---|
| STEP 2. | Designate and instruct the location to move to the tablet after loading |
| STEP 3. | Move to the designated location (Logistics robots) |
| STEP 4. | Nearby workers unload delivery items and load collection items |
| STEP 5. | Instruction to move to the next location (The air purification sterilizer can operate continuously during robot operation, and can purify air while moving repeatedly along a designated path without stopping) |
Features
Safe solution
A safe solution for working with people
Equipped with a triple safety system consisting of 2D/3D LiDAR sensors, ultrasonic sensors, and bumper collision sensors.
It can prevent collisions with people (stop) and avoid unexpected obstacles.
Optimal results with minimal investment
Logistics automation possible without large investment costs
It can be applied using the Autonomous Mobile Robot (AMR) method without the need to install separate path guidance facilities such as wires or magnets.
Simple installation minimizes implementation time
Creating a full workshop map takes only 2 days (map creation can be performed even while a human is working)
It is capable of self-location and pathfinding using its own sensors, enabling a reduction in implementation time by eliminating the need for additional equipment.
Creating flexible work locations and movement paths even in cramped or complex workspaces
Can rotate 360 degrees in place
Can move through narrow passages with a width of 110cm or less
A versatile robot
Integrated orchestration and control
Easily issues work orders through the mobile app and the web monitoring system
It can also be used as a mobile advertising platform
Results
| Key Benefits | Increase in customer satisfaction
Enhanced customer responsiveness + provision of pleasant indoor air
Improving the Hospital image
Forming an image through press releases, such as in newspapers, as a “ A hospital devoting all its efforts to the advancement of medical facilities and improvement of medical work environments using AI robots”
Reduction of hospital worker fatigue and improvement of job satisfaction |
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