DK200701861A - Fire detection system and method for early fire detection - Google Patents

Fire detection system and method for early fire detection Download PDF

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Publication number
DK200701861A
DK200701861A DK200701861A DKPA200701861A DK200701861A DK 200701861 A DK200701861 A DK 200701861A DK 200701861 A DK200701861 A DK 200701861A DK PA200701861 A DKPA200701861 A DK PA200701861A DK 200701861 A DK200701861 A DK 200701861A
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DK
Denmark
Prior art keywords
detection system
fire detection
radiation
absorption
output signal
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Application number
DK200701861A
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Danish (da)
Inventor
Gyltner Sune Sebastian
Stetter Kristian
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Intes As
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Priority to DKPA200701861A priority Critical patent/DK176996B1/en
Priority to PCT/EP2008/067509 priority patent/WO2009080581A1/en
Priority to EP08863840.8A priority patent/EP2235703B1/en
Publication of DK200701861A publication Critical patent/DK200701861A/en
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Publication of DK176996B1 publication Critical patent/DK176996B1/en

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    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B17/00Fire alarms; Alarms responsive to explosion
    • G08B17/12Actuation by presence of radiation or particles, e.g. of infrared radiation or of ions

Claims (14)

1, Branddetektionssystem {16) af den art som omfatter en første strålingsfølsom halvleder {22a,35a) til at måle en første strålingsintensitet ved en første bølgelængde og udsendt fra et område, som er modtageligt for brand, og dannende et første outputsignal repræsenterende den første strålingsintensitet, og mindst en anden strålingsfølsem halvleder (22b,22c,35b,35c) til at måle mindst en anden strålingsintensitet ved mindst en anden bølgelængde og udsendt fra området, som er modtagelig for brand og skabende et anden outputsignal, som repræsenterer den anden strålingsintensitet, kendetegnet ved at branddetektionssystemet (1.6 ) omfatter, - at den første strålingsfølsomine halvleder (22a,35a) og den mindst ene anden strålingsfølsomme halvleder i22b,22c,35b,35c· er arrangeret i et foruddefineret mø n s t. e r, at branddetektionssystemet (16) har midler til at konvertere det første outputsignal til et første temperaturindikerende signal og det mindst anden outputsignal til mindst. et anden temperaturindikerende signal, - processormidler til at sammenligne det første temperaturindikerende signal med det mindst anden temperaturindikerende signal, som tjener som en kontrol for det første temperaturindikerende signal, en database (21) inkluderende antændelsesdata for materialer på et 1 e t ar. tænde ligt brandmål, og - sammenligningsmidler til at sammenligne de temperaturindikerende signaler med databasen.1, Fire detection system {16) of the type comprising a first radiation sensitive semiconductor {22a, 35a) for measuring a first radiation intensity at a first wavelength and emitted from a region susceptible to fire, and producing a first output signal representing the first radiation intensity, and at least one other radiation-sensitive semiconductor (22b, 22c, 35b, 35c) to measure at least one other radiation intensity at at least one other wavelength and emitted from the area susceptible to fire and creating another output signal representing the second radiation intensity , characterized in that the fire detection system (1.6) comprises - that the first radiation sensitive semiconductor (22a, 35a) and the at least one other radiation sensitive semiconductor i22b, 22c, 35b, 35c · are arranged in a predefined pattern, that the fire detection system ( 16) has means for converting the first output signal into a first temperature indicating signal and the least duct n output signal to at least. a second temperature indicating signal, - processor means for comparing the first temperature indicating signal with the at least second temperature indicating signal which serves as a control for the first temperature indicating signal, a database (21) including ignition data for materials of one year. and - comparative means for comparing the temperature indicating signals with the database. 2. Branddetektionssystem. (16) ifølge krav 1, kendetegnet ved, at monsteret er valgt fra gruppen bestående af et 2-dimensionel array, et 3-dimensione1 array, koncentriske cirkler, polygoner eller tilfældig rækkefølge.2. Fire detection system. (16) according to claim 1, characterized in that the sample is selected from the group consisting of a 2-dimensional array, a 3-dimensional array, concentric circles, polygons or random order. 3. Branddetektionssystem (16) ifølge krav 1, kendetegnet ved. at de strålingsfølsomme halvledere (22a,22b,22c,35a, 35b,35c) er valgt fra gruppen bestående af fotodioder, PIN dioder, CMOS kredsløb, bolometer eller CCD chips og kombination af disse.Fire detection system (16) according to claim 1, characterized by. that the radiation sensitive semiconductors (22a, 22b, 22c, 35a, 35b, 35c) are selected from the group consisting of photodiodes, PIN diodes, CMOS circuits, bolometers or CCD chips and combination thereof. 4. Branddetektionssystem (16) ifølge krav 1, kendetegnet ved at de strålingsiøisomme halvledere (22a, 22b, 22c, 35a, 35b, 35c) måler i bølgelængdeområdet fra cirka 200nm til cirka 3 0 μη:ι,Fire detection system (16) according to claim 1, characterized in that the radiation-sensitive semiconductors (22a, 22b, 22c, 35a, 35b, 35c) measure in the wavelength range from about 200nm to about 30 µm: ι, 5. Branddetektionssystem (16) ifølge krav 1, kendetegnet ved at midlerne til at konvertere et outputsignal til et temperaturindikerende signal, processormidlerne og sammenligningsmidlerne inkluderer en kontrolenhed (19,41) og softwareprogrammer. C. Branddetektionssystem (1.6) ifølge ethvert af de foregående krav 1 - 5, kendetegnet ved at branddetektionssystemet (16) yderligere omfatter mindst en gasdetektor.Fire detection system (16) according to claim 1, characterized in that the means for converting an output signal to a temperature indicating signal, the processor means and the comparison means include a control unit (19, 41) and software programs. Fire detection system (1.6) according to any one of the preceding claims 1 - 5, characterized in that the fire detection system (16) further comprises at least one gas detector. 5. Branddetektionssystem (16) ifølge krav 6, kendetegnet ved at databasen (21) omfatter data, som repræsenterer bølgelængderne, ved hvilke mindst nogle gasser absorberer stråling.Fire detection system (16) according to claim 6, characterized in that the database (21) comprises data representing the wavelengths at which at least some gases absorb radiation. 8. Branddetektionssystem (16) ifølge krav 6, kendetegnet ved at branddetektionssystemet (16) har en ekstern strålingskilde.Fire detection system (16) according to claim 6, characterized in that the fire detection system (16) has an external radiation source. 9. Branddetektionssystem (1.6) ifølge krav 6, kendetegnet ved at branddetektionssystemet (16) omfatter en gnistdetektor med en responstid, som er hurtigere end eller omkring 8ms og med. er. følsomhed, som er lavere end eller omkring 1.1 inW/ ciri.Fire detection system (1.6) according to claim 6, characterized in that the fire detection system (16) comprises a spark detector with a response time which is faster than or about 8ms. is. sensitivity lower than or about 1.1 inW / ciri. 10, Branddetektionssytem (16) ifølge krav 6, kendetegnet ved at foranddetektionssystemet (16) omfatter en røgdetektor.Fire detection system (16) according to claim 6, characterized in that the front detection system (16) comprises a smoke detector. 11, Branddetektionssystem (16) ifølge krav 6, kendetegnet ved, at branddetektionssystemet (16) omfatter en temperatursensor.Fire detection system (16) according to claim 6, characterized in that the fire detection system (16) comprises a temperature sensor. 12, Fremgangsmåde til detektering af brand anvendende branddetekteringssystemet (16) ifølge ethvert af de foregående krav 1 - 11, kendetegnet ved at fremgangsmåden omfatter trinnene 1. i en database (20) på en kontrolenhed (19,41) at lagre antændelsestemperaturer på mindst nogle materialer lokaliseret i et område modtageligt for brand, 2. at måle strålingsintensitet fra mindst et område i zonen ved en første specificeret bølgelængde med en første strålingsfølsom halvleder (22a,35a), som returnerer et første outputsignal, 3. at måle strålingsintensitet fra det mindst ene område i zonen ved i det mindst en anden specificeret bølgelængde med mindst en anden strålingsfølsom halvleder (22b,22c, 35b,35c), som returnerer mindst et anden outputsignal, 4. at konvertere det returnerede første outputsignal fra den første strålingsfølsormne halvleder (22a, 35a) målt ved den første bølgelængde til et første temperaturindikerende signal, 5. at konvertere det mindst anden outoutsignal fra den mindst ene anden strålingsfølsomme halvleder (22b,22c, 35b,35c) målt ved den mindst ene anden bølgelængde til i det mindst et anden temperaturindikerende signal, 6. at sammenligne det første temperaturindikerende signal, med det mindst ene anden temperatur i ndi ker ende signal, og bestemme en første forskelsværdi, og hvis første forskelsværdi er nindre end en første foruddefinerer. forskelsværdi så, 7, sammenligne det første temperaturindikerende signal med databasens antændelsestemperatur for materialet i det overvågede område, og en anden forskelsværdi bestemmes, og 8. hvis den anden forskelsværdi er under en anden foruddefinerer forskelsværdi afsendes et alarmsignal.Method for detecting a fire using the fire detection system (16) according to any one of the preceding claims 1 - 11, characterized in that the method comprises the steps 1 of storing ignition temperatures of at least some in a database (20) on a control unit (19, 41). materials located in an area susceptible to fire, 2. measuring radiation intensity from at least one area of the zone at a first specified wavelength with a first radiation sensitive semiconductor (22a, 35a) returning a first output signal, 3. measuring radiation intensity from the least one region of the zone by at least one other specified wavelength with at least one other radiation sensitive semiconductor (22b, 22c, 35b, 35c) returning at least one second output signal, 4. converting the returned first output signal from the first radiation sensing semiconductor (22a , 35a) measured at the first wavelength for a first temperature indicating signal, 5. to convert it to at least second output signal from at least one other radiation-sensitive semiconductor (22b, 22c, 35b, 35c) measured at at least one second wavelength to compare at least one temperature-indicating signal, 6. comparing the first temperature-indicating signal with at least one other temperature I nnd end signal, and determine a first difference value and whose first difference value is less than a first predefined. difference, then, 7, compare the first temperature indicating signal with the ignition temperature of the database for the material in the monitored area, and a second difference value is determined, and 8. if the second difference value is below a second predefined difference value, an alarm signal is sent. 13. Fremgangsmåde ifølge krav 12, kendetegnet ved at den første f orudde f inerede forskelsværdi er valgt at være lavers end cirka 10°C.A method according to claim 12, characterized in that the first predefined difference value is selected to be lower than about 10 ° C. 14, Fremgangsmåde for detektering af brand ifølge krav 12, kendetegnet ved at fremgangsmåde omfatter trinnene - i en database (20) på en kontrolenhed (19,41) at lagre abs orpt i on sbølgelængder for et stort antal gasmolekyler, at måle strålingsintensitet fra mindst et område i zonen ved mindst en absorptionsbølgelængde for det mindst ene overvågede gasmolekyle med en første strålingsfølsom halvleder (22a,35a), som returnere et absorptionsoutputsignal, - at måle strålingsintensitet fra det mindst ene område i zonen ved mindst en ikke-absorptionsbølgelængde for det mindst ene overvågede gasmolekyle med mindst en anden strålingsfølsom halvleder (22b,22c,35b,35c), som returnere mindst et ikke-absorptionsoutputsignal, - at sammenligne det mindst ene absorptionsoutputsignal med det mindst ene i k k e ab s o r pt i o n s s i gn a. i og at bestemme hvorvidr, der er en forskel mellem det mindst ene absorptionsoutputsignal oq det mindst ene ikke-absorptionssignal, som skyldes absorption, der skyldes absorption, og - at sende et alarmsignal, hvis forskellen skyldes absorption.Method of detecting fire according to claim 12, characterized in that the method comprises the steps of storing abs orpt at wavelengths for a large number of gas molecules in a database (20) on a control unit (19, 41), measuring radiation intensity from at least a region of the zone at least one absorption wavelength for the at least one monitored gas molecule with a first radiation-sensitive semiconductor (22a, 35a) returning an absorption output signal; - measuring radiation intensity from the at least one region of the zone at least one non-absorption wavelength. one monitored gas molecule with at least one other radiation-sensitive semiconductor (22b, 22c, 35b, 35c) returning at least one non-absorption output signal; - comparing the at least one absorption output signal with the at least one non-absorbent signal a. wherein there is a difference between the at least one absorption output signal and the at least one non-absorption signal which - due to absorption caused by absorption, and - sending an alarm signal if the difference is due to absorption. 15, Fremgangsmåde til detention af brand ifølge ethvert af de foregående krav 12, 13 eller 14, kendetegnet ved at fremgangsmåden yderligere omfatter trinnene - at konvertere temperaturen svarende til det første temperaturindikerende signal til en intensitet for mindst en abs o rpt ionsbølgelængde for mindst et gasmolekyle til en første databaseintensitet, - at måle strålingsintensiteten fra det mindst ene område i zonen ved mindst en absorptionsbølgelængde for det mindst ene overvågede gasmolekyle med mindst en anden strålingsfølsom halvleder (22b,22c,35b,35c), som returnerer mindst et absorptionsoutputs i gn a. .1, - at sammenligne det mindst ene absorptionsoutputsignal med den mindst ene første databaseintensitet, og hvis forholdet mellem absorptionsoutputsignalet og den førsre databaseintensitet for bølgelængden, der er karakteristisk for det mindst ene gasmolekyle er mindre end en tredje foruddefineret værdi, så - at sende et alarmsignal.Method for detecting fire according to any one of the preceding claims 12, 13 or 14, characterized in that the method further comprises the steps of - converting the temperature corresponding to the first temperature indicating signal to an intensity of at least one absorption wavelength for at least one gas molecule. for a first database intensity; - measuring the radiation intensity from the at least one region of the zone at least one absorption wavelength for the at least one monitored gas molecule with at least one radiation-sensitive semiconductor (22b, 22c, 35b, 35c) returning at least one absorption output in .1, - comparing the at least one absorption output signal with the at least one first database intensity, and if the ratio of the absorption output signal to the first wavelength characteristic of the at least one gas molecule is less than a third predefined value, then - sending an alarm signal.
DKPA200701861A 2007-12-21 2007-12-21 Fire detection system and method for early fire detection DK176996B1 (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
DKPA200701861A DK176996B1 (en) 2007-12-21 2007-12-21 Fire detection system and method for early fire detection
PCT/EP2008/067509 WO2009080581A1 (en) 2007-12-21 2008-12-15 A fire detecting system and method for early detection of fire
EP08863840.8A EP2235703B1 (en) 2007-12-21 2008-12-15 A fire detecting system and method for early detection of fire

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DKPA200701861A DK176996B1 (en) 2007-12-21 2007-12-21 Fire detection system and method for early fire detection
DK200701861 2007-12-21

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US5486811A (en) * 1994-02-09 1996-01-23 The United States Of America As Represented By The Secretary Of The Navy Fire detection and extinguishment system
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EP2235703A1 (en) 2010-10-06
EP2235703B1 (en) 2013-08-21
WO2009080581A1 (en) 2009-07-02

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