Robots in
Factory/Warehouse
1. In factories and warehouses, AMR and AGV handling robots and forklift robots are mainly used. They can be transported
indoors throughout the entire factory and warehouse under the management of the scheduling system.
2. Cleaning robots can clean the entire factory area.
3. Disinfection robots can disinfect the entire factory.
4. If the factory has a modern exhibition hall, our reception and explanation robot can serve as an AI guide, guiding visitors
throughout the process to introduce and explain the history,culture, and product information of the factory
AMR/AGV in Factory/Warehouse
AMR/AGV is equipped with SLAM laser for navigation. They can delivery goods in factories and warehouses, have a lifting function, and have a load capacity of up to 2T. There is a scheduling system for platform management, which can perform task operations through PC and mobile terminals.
Forklift Robot in Factory/Warehouse
The forklift robot adopts laser SLAM technology, which can autonomously avoid obstacles and navigate, and operate flexibly and efficiently. The maximum load capacity can reach 2T. The high-end FLYER series can perform budget tasks under the robot scheduling system RDS. Forklift robots also support remote operation on PCs and mobile terminals.
Clean Robot in Factory/Warehouse
Commercial cleaning robots clean the floors of factories and warehouses, and can select different styles according to needs to
perform tasks such as sweeping, vacuuming, mopping, and disinfecting. It can support a maximum area of 40000 square
meters.
Disinfection Robot in Factory/Warehouse
Spray disinfection robot: using molecular disinfection, safe and efficient. Support most disinfectants in the market (diluted according to the required ratio)
UVC disinfection robot: Philips high power UVC (200-280nm) is used to effectively inactivate various viruses and COVID-19.
| Seconds | 0.8 | 2 | 3 | 4 | 5 | 6 | 9 | 120 |
|---|---|---|---|---|---|---|---|---|
| Wet virus | 517 | 170 | 53 | 13 | 13 | 2 | ND | NT |
| Wet virus control | 2150 | 2100 | 2167 | 2267 | 1450 | 1700 | 1550 | NT |
| Percent reduction | 75.9 | 91.9 | 97.6 | 99.4 | 99.1 | 99.9 | >99.9 | N/A |
| Dry virus | 85 | 39 | 8 | 1 | ND | ND | ND | ND |
| Dry virus control | 513 | 523 | 503 | 563 | 613 | 550 | 563 | 420 |
| Percent reduction | 83.4 | 92.5 | 98.4 | 99.8 | >99.9 | >99.9 | >99.9 | >99.9 |
Table l. Reduction in viral titer (PFU/ml) at diferent irradiation times. PFU/mlplaque-forming units per milliliter, ND not detected, NT not tested, N/A not applicable.
Figure l.Reduction in inlectivity of COVID-19 aler exposure to UV-C irradiation. Te virus was exposed to UV-C as dried droplets (A)or wet droplets (B).Lach setof data(dry samples and wet samples) shows a ecrease of the remaining iniectivity as a function of time, normalized to 1. Blue lines indicate single exponential decay functions while red lines indicate double exponential decay functions.
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