Fire fighting robot

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Fire fighting robot by Mind Map: Fire fighting robot

1. safety

1.1. 1. Reliability and Risk minimization

1.1.1. 1. -Durability standards 2. -Shock resistance 3. -Water resistance 4. -Impact resilience 5. -Overload protection 6. -Threat isolation

1.2. 2. Emergency

1.2.1. 7. -Emergency stop 8. -Rescue mode 9. -Alert systems 10. -Alarm triggers 11. -SOS beacon 12. -Evacuation assistance

1.3. 3. Firefighting Equipment

1.3.1. 13. -Fire-resistant Suit 14. -PPE 15. -Safety Harness 16. -Life Jacket 17. -First Aid Kit 18. -Respiratory Protection 19. -Fire Escape Equipment 20. -Heat-Resistant Gloves and Boots

2. fire detection

2.1. 1. Elements that cause fire

2.1.1. 1. Hot surfaces 2. Electric 3. Flame 4. Overload circuit 5. Gas 6. Coal 7. Short circuit 8. Lighting 9. Chemicals

2.2. 2. Technologies

2.2.1. 10. Fire detection 11. Smoke detection 12. Gas detection 13. Thermal Camera 14. AI-based 15. Wireless 16. Multi-sensor 17. Indoor fire detection 18. Early alarm 19. Multi-function 20. Self-navigate 21. Disaster response 22. Firefighting 23. Industrial fire detection 24. Fast response 25. Heat resistant 26. Thermal resistant 27. Night vision

2.3. 3. Special Environments

2.3.1. 28. Hazardous area 29. Dark area 30. Obstacles

2.4. 4. Materials that can resist heat

2.4.1. 31. Silicon 32. Ceramics 33. Carbon fiber 34. Titanium 35. Plastic

3. durability

3.1. 1. Materials and Components

3.1.1. 1. Aluminum coating 2. Heat sinks 3. Heat pipes 4. Alloys 5. Ceramics 6. Fireproof clothing 7. High fatigue resistance materials 8. Exterior cover 9. Radiant heat-resistant cover 10. Water tank

3.2. 2. Fire Resistance and Cooling:

3.2.1. 11. Fire resistance 12. Cooling system 13. Heat reflection 14. Radiation reflection 15. Vaporization 16. Natural convection 17. Redundant cooling systems 18. Radiant heat-shielding 19. Overheating prevention

3.3. 3. Structural Design:

3.3.1. 20. Self-spraying method 21. Mountable cover 22. Design parameters 23. Operational temperature range 24. Small water volume utilization 25. Deformation resistance

3.4. 4. Firefighting Technology and Simulation:

3.4.1. 26. Firefighting robots 27. Simulation 28. Loss of function prevention 29. Articulated tracked robot 30. Petrochemical complex fires

3.5. 5. Maintenance and Risk Management:

3.5.1. 31. Material fatigue 32. Constant updates 33. Maintenance requirements 34. Heat stress 35. Redundant systems

4. control

4.1. 1. Mechanisms

4.1.1. 1. -Remote Control 2. -Autonomous Navigation 3. -Control Algorithms 4. -Drone 5. -Voice commands 6. -Gesture control

4.2. 2. Navigation

4.2.1. 7. -Obstacle Avoidance 8. -GPS 9. -Lidar and Radar 10. -Path planning

4.3. 3. Performance

4.3.1. 11. -Response time 12. -Control accuracy 13. -Efficiency 14. -Adaptability 15. -Data Analysis