An automatic fire extinguishing system is provided. The fire extinguishing system includes a housing having a detection assembly and a dispensing assembly. The detection assembly includes one or more sensors, such as infrared sensors configured to detect a fire. The fire extinguishing system emits a
An automatic fire extinguishing system is provided. The fire extinguishing system includes a housing having a detection assembly and a dispensing assembly. The detection assembly includes one or more sensors, such as infrared sensors configured to detect a fire. The fire extinguishing system emits an audible alarm through a speaker system upon detection of a fire. Further, the dispensing assembly is configured to eject a plurality of fire extinguishing balls towards a fire via compressed air. The dispensing assembly includes a reservoir configured to support the plurality of fire extinguishing balls, an air tank filled with compressed air, a valve electrically connected to a microprocessor, and a barrel. The air tank is in fluid communication with the barrel via the valve, whereby compressed air is released from the air tank to propel a fire extinguishing ball through the barrel to be ejected towards a fire.
대표청구항▼
1. A fire extinguishing system, comprising: a housing supporting a detection assembly and a dispensing assembly;said detection assembly comprising at least one sensor configured to detect a fire, a microprocessor, and a speaker system adapted to emit an audible alarm;said microprocessor is electrica
1. A fire extinguishing system, comprising: a housing supporting a detection assembly and a dispensing assembly;said detection assembly comprising at least one sensor configured to detect a fire, a microprocessor, and a speaker system adapted to emit an audible alarm;said microprocessor is electrically connected to said dispensing assembly;said dispensing assembly configured to eject a plurality of fire extinguishing balls towards said fire. 2. The fire extinguishing system of claim 1, wherein: said dispensing assembly comprising a reservoir, an air tank filled with compressed air, a valve, and a barrel. 3. The fire extinguishing system of claim 2, wherein: said reservoir configured to support said plurality of fire extinguishing balls and successively load said plurality of fire extinguishing balls within said barrel one at a time. 4. The fire extinguishing system of claim 2, wherein said at least one sensor is configured to detect smoke and transmit a signal to said microprocessor. 5. The fire extinguishing system of claim 2, wherein: said microprocessor configured to actuate said valve upon detection of said signal;wherein said valve is in air communication with said air tank, whereby said compressed air is released from said air tank and propels one of said plurality of fire extinguishing balls lodged within said barrel through said barrel to be ejected towards a fire. 6. The fire extinguishing system of claim 1, wherein said sensor includes a photoelectric smoke detector or an ionization smoke detector. 7. The fire extinguishing system of claim 2, wherein: said dispensing assembly further comprising a rotating actuator electrically connected to said microprocessor and said barrel;wherein said rotating actuator configured to extend said barrel downwardly to allow ejection of said plurality of fire extinguishing balls through an end of the barrel and rotate said end of said barrel to align with said at least one sensor to allow said plurality of fire extinguishing balls to be directionally ejected towards said fire. 8. The fire extinguishing system of claim 1, wherein said housing includes a cylindrical base portion and a conical portion extending outwardly and perpendicularly from said base portion. 9. The fire extinguishing system of claim 8, wherein said conical portion includes an apex having an opening; wherein said opening is configured to receive said barrel therethrough;said barrel is configured to extend downwardly and perpendicularly in relation to said base portion. 10. The fire extinguishing system of claim 1, wherein said speaker system comprises a digital storage medium, a digital-to-analog converter, an amplifier, and a speaker. 11. The fire extinguishing system of claim 10, wherein said digital storage medium is configured to store a digital alert file used to drive said speaker system. 12. The fire extinguishing system of claim 10, wherein: said microprocessor, upon receipt of said signal from said sensor, is also configured to retrieve said digital alert file from said digital storage medium and transmit said digital alert file to said speaker system;wherein said speaker plays said digital alert file as long as said sensor detects said smoke. 13. The fire extinguishing system of claim 1, said detection assembly further comprising an on/off activation switch configured to provide electrical communication between said power source and said detection assembly. 14. The fire extinguishing system of claim 1, wherein said plurality of fire extinguishing balls enclose a powdered fire suppressant. 15. The fire extinguishing system of claim 14, wherein said powdered fire suppressant includes mono-ammonium phosphate.
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Stolov Michael (25 Hapoel Street Nof-Yam ; Herzlia 46 105 ILX) Stolov Sara (25 Hapoel Street Nof-Yam ; Herzlia 46 105 ILX) Stolov Adi (25 Hapoel Street Nof-Yam ; Herzlia 46 105 ILX) Stolov-Hecht Ilan, Arrangement for propulsion liquids over long distances.
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