Introduction: the firefighting robot can advantageously replace (and even rescue) human personnel as it is immune to heat, toxic fumes, hypoxia and other fatal conditions. It can thus resolve personnel safety issues in severe fires conditions.
Its simple body design, its high power Gear DC motor and its multiple features make it capable to overcome obstacles and perform firefighting functions in an efficient, simple and effective manner.
SNG-80D Fire Fighting Robot
infra-red camera will acquire data around the robot and transmit four-way picture to the Control Center
dual water/ foam cannon (dual purpose): water discharge 80 liters per second, range 85 meters
gas collection: the robot is equipped for sampling five different gases around its body
lighting: strong double LED light
alarm: the robot will send both acoustic and light alarms depending on the conditions met by the robot
obstacle avoidance: the robot has a built-in program to detect obstacles and prevent collisions and/or overturning
cooling: by double water curtain cooling
infra-red camera will acquire data around the robot and transmit four-way picture to the Control Center
data acquisition: flammable gas concentration, fire temperature
dual water/ foam cannon (dual purpose): water discharge 40 liters per second, range 65 meters
lighting: strong double LED light
alarm: the robot will send both acoustic and light alarms depending on the conditions met by the robot
obstacle avoidance: the robot has a built-in program to detect obstacles and prevent collisions and/ or overturning
gas collection and sampling: carbon dioxide, hydrogen, oxygen, hydrogen sulfide, alkanes
SNG-40D Fire Fighting Robot
infra-red camera will acquire data around the robot and transmit four-way picture to the Control Center
data acquisition: flammable gas concentration, fire temperature
dual water/ foam cannon (dual purpose): water discharge 40 liters per second, range 65 meters
lighting: strong double LED light
alarm: the robot will send both acoustic and light alarms depending on the conditions met by the robot
obstacle avoidance: the robot has a built-in program to detect obstacles and prevent collisions and/ or overturning
gas collection and sampling: carbon dioxide, hydrogen, oxygen, hydrogen sulfide, alkanes