Process layout
Process Overview
This is a case study of Bigwave Robotics (Marosol) installing the SC50 cleaning robot for factory cleaning management. Using the SC50, they implemented an in-house automated cleaning system, leveraging its outstanding cleaning performance and scheduling capabilities to operate an unmanned, automated cleaning system.
Warranty Period
- 1 year
Performance Year
- 2023
Project Duration
- 1 week
Project Background and Objectives
- Real-time cleaning in challenging environments, such as oil and cutting fluids
- Cleaning schedule planning considering the worker's working hours
- Unmanned cleaning using autonomous driving, cameras, and sensors
- Cleaning robots that clean at set times
- Manual cleaning mode for cleaning only the areas needed
- Increased cleaning efficiency through division of labor with cleaning personnel
- Remote control using SOLlink
Components
| Robot | Gausium cleaning robot SC50 |
|---|
Workflow
| STEP 1. | Select a designated cleaning area. |
|---|---|
| STEP 2. | Set the simple cleaning mode (wet) |
| STEP 3. | Start cleaning |
| STEP 4. | Return to the charging station after completing the task |
| STEP 5. | Set the desired cleaning schedule |
| STEP 6. | Start cleaning |
| STEP 7. | Return to the charging station after completing the task |
Key Features
Convenience
- Remote control via SOLlink
- Schedule cleaning at your preferred time
- Intuitive performance monitoring using work reports
- Safety features including front and rear cameras and sensors
Excellent cleaning performance
- Close-range cleaning up to 5-7cm from walls
- Productivity of up to 1,500 square meters per hour
- High cleaning versatility with wet cleaning
- Prevents contaminant absorption through continuous wet cleaning
Simplified work processes
- Simple operation using smart obstacle avoidance and pathing
- Easy manual operation, convenient size, and height
- Wireless charging station for automatic charging after cleaning
Superior safety is ensured through front and rear cameras and various sensors, along with safe driving capabilities such as LiDAR sensors, front and rear cameras, and tilt cameras.
A convenient customer experience is provided through SOLlink and dedicated control. A convenient customer experience is enhanced through continuous robot status checks and work reports after cleaning.
Cleaning performance close to walls, smart obstacle avoidance, and path-based cleaning provide superior cleaning results. A user-friendly UI and editing interface allow for easy access to cleaning settings and information checks, and changes.
Implementation Results
| Key Metrics | High customer satisfaction due to the cleaning of cutting oil and other oils generated during operation, as well as excellent obstacle avoidance and cleaning performance. Increased convenience thanks to the wireless charging station, which eliminates the need for manual charging. Wet cleaning of large areas with a single water supply is possible. The five-stage filtration system recycles wastewater, enabling wet cleaning of the largest area with a single water supply. Prevents cleaning delays due to water shortages and reduces work efficiency. An infrared camera sensor detects cleaning operation issues during nighttime cleaning when no one is present (no issues). For businesses with limited water cleaning time, the nighttime scheduling function resolves cleaning operation time issues. Businesses that operate until dawn can plan cleaning schedules to match the shutdown time. |
|---|---|
| Client Feedback | The cleaning performance is so effective that even a single pass is enough to notice the results. Most aluminum processing sites have similar environments to the installation site, so using SC50 and detergent is expected to yield positive results. The convenience of being able to remotely check the robot's status and clean it is also a plus. |
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Process Overview Two cleaning robots in Terminal 1 and six in Terminal 2, operating in each area of Incheon Airport, were verified for operational stability. Based on the verification of operational stability, the goal is to expand the introduction of cleaning robots across all areas of Incheon Airport. Warranty Period 1 Year Performance Year 2024 Project Duration 30 days Project Background and Objectives Inconveniences of existing robots Convenience features such as moving to a maintenance location were not provided, requiring workers to manually drag and dispose of the waste. Convenience was improved by simplifying maintenance procedures, replacing complex cleaning methods. Water supply and drainage scenarios were proposed through the workstation and SOLlink remote control. For the Gausium cleaning robot, automatic charging and scheduled cleaning are possible through an automatic charging station. SOLlink allows users to remotely move the robot to the designated maintenance location, providing convenient management.
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Content Summary
Industrial cleaning robots now cover Incheon Airport. Gausium's SC75 industrial cleaning robot, unveiled at Incheon Airport 🙌
Two cleaning robots in Terminal 1 and six in Terminal 2, operating in each area of Incheon Airport, were verified for operational stability.