Firefighting Robots TrackReitar FFL
The application of modern firefighting robots based on the TrackReitar platform from LeoTronics is a way to save lives and prevent firefighters' injuries.

Code of conduct for firefighting robots

  • Ready when you are!
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  • Readiness is ensured by the reliability and self-testing of all systems, with the registration of events in the database on a remote server.
  • Hit the target
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  • The robot can fix the position of the source of fire and hit it with a water jet. Determination of coordinates in 3D space is performed using guidance sensors in the IR and UV ranges. The ballistic trajectory of the jet is calculated using a special series of algorithms.
  • Do not overfill
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  • The extinguishing after a short attack should be stopped not to expose the protected object to excess water and extinguish only if burning resumes. Water is supplied only in the direction of the fire, without causing damage from exposure to water in areas not exposed to fire.
  • Trust but verify
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  • Due to the action of external factors (wind, change in pressure), the calculated trajectory of the jet may not fit with the coordinates of the fire source. Therefore, the jet's guidance is constantly corrected if its deviation from the source of ignition is confirmed.
  • I saw I won!
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  • The robot detects the ignition source in the initial stage and extinguishes it with all consumption in a short time. The standard for a fire robot allows you to identify a fire source with a size of 0.1 square meters and extinguish its consumption with intensity 10 times higher than the standard. As a rule, this with a high degree of probability solves the problem with occurring fires.
  • Fight a fire efficiently
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  • To extinguish the burning surface of the hearth with the effective part of the jet, but not water the flame. The efficiency of firefighting with cyclic extinguishing by line scanning of the jet over the area is ensured by the uniformity of the feed determined by the correctly selected scanning step, which is equal to the size of the effective part of the jet with the highest intensity.
  • Firefighting law is a law for a robot
  • Ensuring the normative intensity of irrigation established by the Law "On Fire Safety" for automatic water-foam fire extinguishing installations is a basic requirement for firefighting robots.
  • Stick out the end!
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  • A firefighting robot can fail or partially lose its functions in the event of a wildfire. High survivability is achieved by 100% redundancy with a deep separation of functional controls. Another robot replaces a robot that is broken. In case of failure of the automatic control system, the transition to the remote mode is performed, in case of failure of the remote control - in the manual mode.
  • Better to prevent than to fight a fire
  • The robot provides observation in the infrared range. When temperatures close to the burn-points temperatures appear in places of probable heating, it reports the emergency state of the site to the duty officer.
  • A robot must obey the orders given by the human
  • In the "man-machine" system, man is the main one. Control commands take priority over the software commands of the robot. The operator, if necessary, can take control by switching to remote mode; his commands are mandatory for the robot.
  • Watch your back!
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  • The robot must monitor the changing fire emergency and take action following the fire dynamics.
  • The robot is always in touch and under control in space and time
  • The minimum service life of robots is 10 years. During this time, control programs are being improved, and changes in the technologies of protected objects have occurred. The ability to update the software and collect data on the system's stability via the Internet allows the manufacturer, service and control organizations to preserve all the operating functions of the installation.


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