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EP2936468B1 - Device for configuring a fire-detection system - Google Patents

Device for configuring a fire-detection system Download PDF

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Publication number
EP2936468B1
EP2936468B1 EP13824625.1A EP13824625A EP2936468B1 EP 2936468 B1 EP2936468 B1 EP 2936468B1 EP 13824625 A EP13824625 A EP 13824625A EP 2936468 B1 EP2936468 B1 EP 2936468B1
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EP
European Patent Office
Prior art keywords
signal
fire
detector
communication means
sensor
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EP13824625.1A
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German (de)
French (fr)
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EP2936468A1 (en
Inventor
Sylvain ROCHET
Stéphane DI MARCO
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Finsecur SAS
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Finsecur SAS
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Priority to PL13824625T priority Critical patent/PL2936468T3/en
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    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B29/00Checking or monitoring of signalling or alarm systems; Prevention or correction of operating errors, e.g. preventing unauthorised operation
    • G08B29/12Checking intermittently signalling or alarm systems
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B29/00Checking or monitoring of signalling or alarm systems; Prevention or correction of operating errors, e.g. preventing unauthorised operation
    • G08B29/18Prevention or correction of operating errors
    • G08B29/20Calibration, including self-calibrating arrangements
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B29/00Checking or monitoring of signalling or alarm systems; Prevention or correction of operating errors, e.g. preventing unauthorised operation
    • G08B29/12Checking intermittently signalling or alarm systems
    • G08B29/14Checking intermittently signalling or alarm systems checking the detection circuits
    • G08B29/145Checking intermittently signalling or alarm systems checking the detection circuits of fire detection circuits

Definitions

  • the present invention is directed to a device for configuring a fire detection system. It applies in particular to the securing of public and private sites.
  • Securing private or public sites against the risk of fire requires effective detection of this risk.
  • a set of smoke sensors is deployed on a site. These sensors measure a quantity of smoke in the ambient air that they compare to a limit value and emit an audible signal in the event of an overrun, for example.
  • a limit value In order to qualify a deployed system from safe, one must conduct a check with firefighters of the effectiveness of the system. To carry out this verification, a number of typical foci are placed near the sensors and it is observed whether the sensors detect these foci well.
  • the diagnosis is imprecise because it is limited to the fact that the detector did not detect the typical focus.
  • a portable terminal adjusts, by wireless transmission and via a central control panel, the sensitivity of a fire sensor, the sensor wired communicating its measurement to the central control panel.
  • the present invention aims to remedy all or part of these disadvantages.
  • a user equipped with a communicating mobile terminal can estimate the measured value of the physical quantity sensed by the sensor.
  • a user it is possible for a user to compare the sensed physical quantity with an expected value.
  • this device makes it possible to establish whether the sensor operates, or if a malfunction comes from another part of the device.
  • a user equipped with a communicating mobile terminal can set the processing performed by the detection means according to its location in a room.
  • the device makes it possible to translate an accurate diagnosis into a simplified adjustment of the operation of each detector.
  • a user with a communicating mobile terminal is able to follow the ability of the detector to emit a fire alarm signal.
  • a user is able to determine with more precision the origin of a malfunction.
  • This embodiment makes it possible to modify the sensitivity of at least one detector to ensure that it is able to secure a room, regardless of the location of a fireplace in the room.
  • a user equipped with a communicating mobile terminal can display the measured value of the physical quantity sensed by the sensor.
  • a user it is possible for a user to compare the sensed physical quantity with an expected value.
  • this device makes it possible to establish whether the sensor operates, or if a malfunction comes from another part of the device.
  • the communication means is configured to transmit a reception confirmation signal of at least one message received by said detector.
  • the advantage of these embodiments is to enable the identification, by a user equipped with a communicating portable terminal, of at least one detector.
  • the user can have a better understanding of the arrangement of the detectors.
  • the communicating portable terminal comprises a location memory of at least one detector and a storage means, in the location memory of the communicating portable terminal, of an identifier transmitted by a communication means of a detector.
  • At least one detector comprises a location memory and a means for storing, in the location memory, location information transmitted by the portable terminal communicating and received by the communication means, the means of communication being configured to transmit information representative of the location information with a signal representative of the presence of a fire.
  • Each of these embodiments has the advantage of enabling a user to address the sensors so as to facilitate the localization of a fire, either by associating a detector identifier with a location, or by transmission, by the detector, a location information with the fire detection signal.
  • At least one detector comprises a signal amplifier emitted by the communication means, the communication means being configured to receive a gain setpoint of said transmitted signal amplifier from the communicating mobile terminal.
  • At least one detector comprises a signal amplifier received by the communication means, the communication means being configured to receive a gain setpoint of said received signal amplifier from the communicating mobile terminal.
  • At least one detector comprises an alarm signal amplifier by the communication means, the communication means being configured to receive a gain setpoint of said alarm signal amplifier from the terminal (30). ) communicating laptop.
  • the user can select a power emitted or consumed, so as to achieve a compromise between the performance of the detector and the autonomy of its power supply.
  • the wireless transmission means of the communicating portable terminal is configured to transmit to an alarm center each parameter value configured by the configuration means for each detector.
  • the central alarm can have all the configurations of the detectors.
  • the communicating portable terminal can then be used only for the initial configuration and / or for the maintenance or test operations.
  • the device which is the subject of the present invention comprises means for transmitting an alarm message to at least one signal recipient, in the event of detection of the presence of a fire, the portable terminal communicating being configured to control the operation of the means for transmitting an alarm message.
  • the communication means of at least one detector uses a Wifi protocol and / or a Bluetooth technology.
  • the configuration relates to the software configuration, which stems mainly from the way the file system is organized by the user, implanted software as well as their version.
  • the software configuration also includes setting the value of the configuration parameters that make it possible to adapt their behavior to the hardware, software and network configuration of the computer system in which the software is installed.
  • Configuration parameters are typically stored in text files and editable by the user using common text editor software.
  • short-range wireless communication refers to a communication between two devices whose messages are carried by waves with a frequency greater than 3 MHz. Such frequencies are therefore higher or belonging to the category of high frequencies.
  • the maximum range of these communications is generally less than one hundred meters.
  • Each detector 105 may be, for example, a fixable housing on a surface of a room such as the ceiling or a wall for example. This box allows the air to flow to a sensor 110 located in the housing.
  • This sensor 110 for measuring the value of a physical quantity near the sensor 110 to emit a signal representative of said value may be, for example, an optical smoke sensor.
  • this sensor 110 may be an ionization sensor that detects the presence of smoke by the variation of a current caused by the presence of smoke in the air.
  • Each means 115 for short-range wireless communication of a signal representative of said value may be, for example, a short-range transmitting antenna.
  • Each communicating portable terminal 120 is configured to receive the signal communicated by said communication means 115 and to display, on a screen 125, a message representative of the value of the physical quantity.
  • Each communicating mobile terminal 120 may be, for example, a tablet, a laptop or a smart phone.
  • Each communicating mobile terminal 120 may further include an antenna configured to receive short-range communications.
  • the message representative of the value of the displayed physical quantity may be, for example, the quantity or density of smoke sensed in the ambient air by a sensor 110.
  • the communicating portable terminal 120 also communicates wirelessly and at close range with an alarm center 130 when the distance between the terminal 120 and the central unit 130 is sufficiently short. As explained below, this communication enables the central unit 130 to know the parameter values used by the detectors 105.
  • Each detector 205 may be, for example, a fixable housing on a surface of a room such as the ceiling or a wall for example. This box allows the air to flow to a sensor 210 located in the housing.
  • each detector comprises a sensor 210 for measuring the value of a physical quantity near the sensor 210 to emit a signal representative of said value may be, for example, an optical smoke sensor.
  • this sensor 210 may be an ionization sensor that detects the presence of smoke by varying a current caused by the presence of smoke in the air.
  • Each detector 205 also comprises a means 230 for detecting the presence of a fire by processing the signal emitted by the sensor 210 of said detector 205.
  • This detection means 230 compares the measurement of the physical quantity with a predetermined limit value and, in case passing, detects the presence of a fire near the sensor 210.
  • Each detector 205 further includes at least one internal power source 255.
  • a power source 255 may be, for example, a battery or a battery.
  • Each detector 205 comprises, finally, at least one means 260 for estimating the level of energy available in the internal power supply 255.
  • This estimation means 260 can, for example, make a measurement of the internal resistance of the power source 255 in order to calculate the energy still available in this power source 255.
  • This device 20 also includes a memory 245 for locating at least one sensor 210.
  • This memory 245 may be, for example, a central unit, comprising a random and / or dead memory and a central unit, connected to at least one detector 205.
  • This memory 245 comprises means 250 for storing, in the location memory 245, a location transmitted by a communicating portable terminal 220.
  • This storage means 250 may be, for example, a computer program capable of accessing the resources of the memory 245 and modifying their content.
  • This device 20 then comprises a means 265 for transmitting an alarm message to at least one signal recipient, in the event of detection of the presence of a fire.
  • This transmission means 265 may be a transmitter on telephone network or internet, for example.
  • This means 215 of communication uses a Wifi protocol and / or a Bluetooth technology.
  • this device 20 comprises a portable terminal 220 communicating, such as a laptop, a tablet or a smart phone, for example.
  • This terminal 220 comprises a screen 225.
  • This terminal 220 further comprises a means 240 for configuring at least one parameter value of the processing performed by at least one means 230 for detecting the presence of a fire.
  • This configuration means 240 may be, for example, a computer program whose graphical interface allows the user to vary the detection limit value of a fire of the detection means 230.
  • This terminal 220 also comprises a means 235 wireless transmission of a signal representative of each parameter value configured by the configuration means 240.
  • This transmission means 235 may be, for example, a Wifi or Bluetooth antenna (brands filed).
  • the memory 245 maintains a location of the detector.
  • the storage means 250 stores, in the location memory 245, location information transmitted by the portable terminal communicating and received by the communication means 215.
  • the communication means 215 is configured to transmit information representative of the information of location with a signal representative of the presence of a fire. This information representative of the location information is selected by a user with a user interface of the portable terminal communicating or is determined by an automatic location means, for example, a geo-location means based on signals transmitted by satellites. or by terrestrial transmitters.
  • This location information transmitted with an alarm signal allows an alarm center to match a received detector identifier with a fire detection signal with a location of the detector in alarm on the protected site. . Rescue teams can be quickly informed by the plant of the location of the fire detection.
  • the detector 205 comprises a signal amplifier emitted by the communication means 215, the communication means being configured to receive a configuration parameter value representing a gain setpoint of said signal amplifier transmitted by the terminal 30 communicating laptop.
  • the detector 205 comprises a signal amplifier received by the communication means 215, the communication means being configured to receive a configuration parameter value representing a gain setpoint of said received signal amplifier from the terminal 30 communicating laptop.
  • the detector 205 comprises an alarm signal amplifier by the communication means 215, the communication means being configured to receive a configuration parameter value representing a gain setpoint of said alarm signal amplifier of the part of the communicating portable terminal.
  • different gains of amplifiers can be adjusted by the communicating portable terminal so as to achieve a compromise between the performance of the fire detection system and the autonomy of the power supplies of the detectors.
  • the values of the gains can be chosen by a user of the communicating mobile terminal or by software taking into account a power of the received signal measured by the communicating portable terminal or the detector, a distance with an alarm center or a location of the detector, for example.
  • the means 305 for wireless reception may be, for example, a Wifi or Bluetooth antenna.
  • the display means 310 may be, for example, a screen controller.
  • the communicating portable terminal comprises a memory 345 for locating at least one detector and a means 350 for storing, in the location memory of the communicating mobile terminal, an identifier transmitted by a communication means. a detector.
  • the communicating portable terminal 30 thus allows an alarm center, after transmission of this identifier and a location chosen via a user interface or by geolocation, to make the correspondence between a received detector identifier. with a fire detection signal with a location of the detector in alarm, on the protected site. Rescue teams can be quickly informed by the plant of the location of the fire detection.
  • the wireless transmitting means of the communicating portable terminal is configured to transmit to an alarm center each parameter value configured by the configuration means for each detector 205. take into account these parameter values.
  • FIG. 4 a particular embodiment of the method 40 for configuring a fire detection system that is the subject of the present invention.
  • Step 405 for measuring the value of a physical quantity near a sensor can be achieved by the use of an optical sensor of a quantity of smoke in the ambient air near a sensor. , for example.
  • the processing step 410 performs the correspondence between the measurement and fire detection values, for example a limit value beyond which the measurement corresponds to a detected fire.
  • the communication step 415 can be performed, for example, by emitting an electromagnetic wave, comprising a signal representative of the value of a physical quantity near a sensor, by a Bluetooth antenna.
  • the receiving step 420 can be performed, for example, by the implementation of a Bluetooth antenna of the communicating mobile terminal.
  • the display step 425 can be performed, for example, by the use of a graphical interface of a computer program of the communicating portable terminal.
  • the step 430 of configuring at least one parameter value of the processing carried out by at least one means for detecting the presence of a fire and gain values is performed by the implementation of a user interface on the portable terminal screen communicating, the user selecting parameter values and / or implementing a software for automatic adjustment of the parameter values.
  • the step 445 for parameterizing the processing carried out by the means for detecting the presence of a fire and, if the configured parameters comprise amplifying gains, for setting the communication means is performed by storing the parameter values received in a memory used during detector operation.
  • the present invention makes it possible to identify, in the vicinity of a sensor, whether it detects a fire situation, in particular during the installation tests consisting in switch on at least one standard fire near this sensor.
  • a sensor When several sensors are present, it is thus possible to detect the one that triggers the first and, possibly, detect aerodynamic effects and improve the positioning of the sensors.
  • the present invention also allows a precise diagnosis of the causes of malfunction of a fire detection device.
  • This diagnosis is greatly improved and simplified in the embodiment illustrated in FIG. figure 2 because it makes it possible to remotely evaluate and modify the operation of a detection means and to evaluate the level of energy available in each detector.
  • these embodiments have a better overall performance because it is possible for a user to inhibit the messages to the direction of the emergency services the time of the maintenance of the system.
  • the addressing of the sensors allows a simplified intervention of the competent personnel in the case of detection of a fire.
  • the detection limit value of the detection means may be set to adjust the sensitivity of the device. This aspect, in particular, may be useful when the number of sensors available is limited.
  • the system can be configured so that an operator can change the recipient of the messages before the start of maintenance, installation or testing. alarms so as to not inadvertently warn the emergency services during these operations.
  • the system can be configured to change the stored locations of the sensors in a control panel. This allows, in addition, to accompany the physical displacement of a sensor from one place to another by a change of addressing in the memory of a central alarm. This configuration change, moreover, does not require manual intervention at the central alarm from an operator.

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  • Engineering & Computer Science (AREA)
  • Computer Security & Cryptography (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Fire Alarms (AREA)
  • Alarm Systems (AREA)

Description

DOMAINE TECHNIQUE DE L'INVENTIONTECHNICAL FIELD OF THE INVENTION

La présente invention vise un dispositif de configuration d'un système de détection d'incendie. Elle s'applique notamment à la sécurisation de sites publics et privés.The present invention is directed to a device for configuring a fire detection system. It applies in particular to the securing of public and private sites.

ETAT DE LA TECHNIQUESTATE OF THE ART

La sécurisation de sites privés ou publics contre le risque d'incendie passe par une détection efficace de ce risque. Afin de détecter un risque d'incendie, on déploie par exemple un ensemble de capteurs de fumée sur un site. Ces capteurs mesurent une quantité de fumée dans l'air ambiant qu'ils comparent à une valeur limite et émettent un signal sonore en cas de dépassement, par exemple. Dans le but de qualifier un système déployé de sûr, on doit réaliser une vérification avec les pompiers de l'efficacité du système. Pour réaliser cette vérification, on place un certain nombre de foyers types à proximité des capteurs et on observe si les capteurs détectent bien ces foyers. Cependant, en cas de non détection, le diagnostic est imprécis car il se limite au fait que le détecteur n'a pas détecté le foyer type.Securing private or public sites against the risk of fire requires effective detection of this risk. In order to detect a risk of fire, for example, a set of smoke sensors is deployed on a site. These sensors measure a quantity of smoke in the ambient air that they compare to a limit value and emit an audible signal in the event of an overrun, for example. In order to qualify a deployed system from safe, one must conduct a check with firefighters of the effectiveness of the system. To carry out this verification, a number of typical foci are placed near the sensors and it is observed whether the sensors detect these foci well. However, in case of non-detection, the diagnosis is imprecise because it is limited to the fact that the detector did not detect the typical focus.

Au-delà de l'installation, les couts et l'efficacité de la maintenance dépendent également d'un tel diagnostic.Beyond installation, the costs and effectiveness of maintenance also depend on such a diagnosis.

Les systèmes actuels ont l'inconvénient d'avoir un diagnostic trop limité des causes de dysfonctionnement d'un capteur.Current systems have the disadvantage of having a too limited diagnosis of the causes of malfunction of a sensor.

Il existe, dans le domaine technique de la détection de présence d'individus, des systèmes tels qu'envisagés dans la demande de brevet EP0872817 . Ces systèmes permettent la configuration de paramètres d'un détecteur de présence d'individu.There are, in the technical field of detecting the presence of individuals, systems as envisaged in the patent application. EP0872817 . These systems allow the configuration of parameters of an individual presence detector.

Il existe également des systèmes tels qu'envisagés dans la demande de brevet US2012154141 dans lesquels un terminal portable règle, par transmission sans-fil et via un panneau central de contrôle, la sensibilité d'un capteur d'incendie, ce capteur communicant de manière filaire sa mesure au panneau central de commande.There are also systems as envisaged in the patent application US2012154141 wherein a portable terminal adjusts, by wireless transmission and via a central control panel, the sensitivity of a fire sensor, the sensor wired communicating its measurement to the central control panel.

OBJET DE L'INVENTIONOBJECT OF THE INVENTION

La présente invention vise à remédier à tout ou partie de ces inconvénients.The present invention aims to remedy all or part of these disadvantages.

A cet effet, la présente invention vise, selon un premier aspect, un dispositif de configuration d'un système de détection d'incendie, qui comporte au moins un détecteur, chaque détecteur comportant un capteur de mesure de la valeur d'une grandeur physique à proximité du capteur pour émettre un signal représentatif de ladite valeur et un moyen de détection de présence d'un incendie par traitement du signal émis par ledit capteur, qui comporte, en outre :

  • au moins un moyen de communication sans fil à courte portée d'un signal représentatif de la présence d'un incendie et
  • un terminal portable communiquant comportant :
    • o un moyen de réception du signal communiqué par ledit moyen de communication,
    • o un écran d'affichage d'un message représentatif du signal reçu du moyen de communication,
    • o un moyen de configuration d'au moins une valeur de paramètre du traitement réalisé par ledit moyen de détection de présence d'un incendie et
    • o un moyen d'émission sans fil d'un signal représentatif de chaque valeur de paramètre configurée par le moyen de configuration
    le moyen de communication étant configuré pour recevoir le signal représentatif de chaque valeur de paramètre configurée par le moyen de configuration.
For this purpose, the present invention aims, in a first aspect, a device for configuring a fire detection system, which comprises at least one detector, each detector comprising a sensor for measuring the value of a physical quantity. close to the sensor for transmitting a signal representative of said value and means for detecting the presence of a fire by processing the signal emitted by said sensor, which furthermore comprises:
  • at least one short-range wireless communication means of a signal representative of the presence of a fire and
  • a communicating portable terminal comprising:
    • a means for receiving the signal communicated by said communication means,
    • a screen for displaying a message representative of the signal received from the communication means,
    • a means for configuring at least one parameter value of the processing performed by said means for detecting the presence of a fire and
    • o wireless transmission means of a signal representative of each parameter value configured by the configuration means
    the communication means being configured to receive the signal representative of each parameter value configured by the configuration means.

Grâce à ces dispositions, un utilisateur muni d'un terminal portable communiquant peut estimer la valeur mesurée de la grandeur physique captée par le capteur. Ainsi, il est possible pour un utilisateur de comparer la grandeur physique captée avec une valeur attendue. En outre, ce dispositif permet d'établir si le capteur fonctionne, ou si un dysfonctionnement provient d'une autre partie du dispositif.Thanks to these provisions, a user equipped with a communicating mobile terminal can estimate the measured value of the physical quantity sensed by the sensor. Thus, it is possible for a user to compare the sensed physical quantity with an expected value. In addition, this device makes it possible to establish whether the sensor operates, or if a malfunction comes from another part of the device.

Un utilisateur muni d'un terminal portable communiquant peut paramétrer le traitement réalisé par le moyen de détection en fonction de sa localisation dans une pièce. Ainsi, le dispositif permet de transposer un diagnostic précis en un ajustement simplifié du fonctionnement de chaque détecteur.A user equipped with a communicating mobile terminal can set the processing performed by the detection means according to its location in a room. Thus, the device makes it possible to translate an accurate diagnosis into a simplified adjustment of the operation of each detector.

De plus, un utilisateur muni d'un terminal portable communiquant est en mesure de suivre la capacité du détecteur à émettre un signal d'alarme incendie. Ainsi, un utilisateur est capable de déterminer avec plus de précisions l'origine d'un dysfonctionnement.In addition, a user with a communicating mobile terminal is able to follow the ability of the detector to emit a fire alarm signal. Thus, a user is able to determine with more precision the origin of a malfunction.

Ce mode de réalisation permet de modifier la sensibilité d'au moins un détecteur afin de s'assurer qu'il est en mesure de sécuriser une pièce, peu importe la localisation d'un foyer dans la pièce.This embodiment makes it possible to modify the sensitivity of at least one detector to ensure that it is able to secure a room, regardless of the location of a fireplace in the room.

Grâce à ces dispositions, un utilisateur muni d'un terminal portable communiquant peut visualiser la valeur mesurée de la grandeur physique captée par le capteur. Ainsi, il est possible pour un utilisateur de comparer la grandeur physique captée avec une valeur attendue. En outre, ce dispositif permet d'établir si le capteur fonctionne, ou si un dysfonctionnement provient d'une autre partie du dispositif.Thanks to these provisions, a user equipped with a communicating mobile terminal can display the measured value of the physical quantity sensed by the sensor. Thus, it is possible for a user to compare the sensed physical quantity with an expected value. In addition, this device makes it possible to establish whether the sensor operates, or if a malfunction comes from another part of the device.

Dans des modes de réalisation, le moyen de communication est configuré pour émettre un signal de confirmation de réception d'au moins un message reçu par ledit détecteur.In embodiments, the communication means is configured to transmit a reception confirmation signal of at least one message received by said detector.

L'avantage de ces modes de réalisation est de permettre l'identification, par un utilisateur muni d'un terminal portable communiquant, d'au moins un détecteur. Ainsi, l'utilisateur peut avoir une meilleure compréhension de la disposition des détecteurs.The advantage of these embodiments is to enable the identification, by a user equipped with a communicating portable terminal, of at least one detector. Thus, the user can have a better understanding of the arrangement of the detectors.

Dans des modes de réalisation, le terminal portable communiquant comporte une mémoire de localisation d'au moins un détecteur et un moyen de mémorisation, dans la mémoire de localisation du terminal portable communiquant, d'un identifiant transmis par un moyen de communication d'un détecteur.In embodiments, the communicating portable terminal comprises a location memory of at least one detector and a storage means, in the location memory of the communicating portable terminal, of an identifier transmitted by a communication means of a detector.

Dans des modes de réalisation, au moins un détecteur comporte une mémoire de localisation et un moyen de mémorisation, dans la mémoire de localisation, d'une information de localisation émise par le terminal portable communiquant et reçue par le moyen de communication, le moyen de communication étant configuré pour transmettre une information représentative de l'information de localisation avec un signal représentatif de la présence d'un incendie.In embodiments, at least one detector comprises a location memory and a means for storing, in the location memory, location information transmitted by the portable terminal communicating and received by the communication means, the means of communication being configured to transmit information representative of the location information with a signal representative of the presence of a fire.

Chacun de ces modes de réalisation ont l'avantage de permettre à un utilisateur de réaliser un adressage des capteurs de manière à faciliter la localisation d'un incendie, soit par association d'un identifiant de détecteur à une localisation, soit par transmission, par le détecteur, d'une information de localisation avec le signal de détection d'incendie.Each of these embodiments has the advantage of enabling a user to address the sensors so as to facilitate the localization of a fire, either by associating a detector identifier with a location, or by transmission, by the detector, a location information with the fire detection signal.

Dans des modes de réalisation, au moins un détecteur comporte un amplificateur de signal émis par le moyen de communication, le moyen de communication étant configuré pour recevoir une consigne de gain dudit amplificateur de signal émis de la part du terminal portable communiquant.In embodiments, at least one detector comprises a signal amplifier emitted by the communication means, the communication means being configured to receive a gain setpoint of said transmitted signal amplifier from the communicating mobile terminal.

Dans des modes de réalisation, au moins un détecteur comporte un amplificateur de signal reçu par le moyen de communication, le moyen de communication étant configuré pour recevoir une consigne de gain dudit amplificateur de signal reçu de la part du terminal portable communiquant.In embodiments, at least one detector comprises a signal amplifier received by the communication means, the communication means being configured to receive a gain setpoint of said received signal amplifier from the communicating mobile terminal.

Dans des modes de réalisation, au moins un détecteur comporte un amplificateur de signal d'alarme par le moyen de communication, le moyen de communication étant configuré pour recevoir une consigne de gain dudit amplificateur de signal d'alarme de la part du terminal (30) portable communiquant.In embodiments, at least one detector comprises an alarm signal amplifier by the communication means, the communication means being configured to receive a gain setpoint of said alarm signal amplifier from the terminal (30). ) communicating laptop.

Grâce à chacune de ces dispositions, l'utilisateur peut sélectionner une puissance émise ou consommée, de manière à réaliser un compromis entre les performances du détecteur et l'autonomie de son alimentation électrique.With each of these provisions, the user can select a power emitted or consumed, so as to achieve a compromise between the performance of the detector and the autonomy of its power supply.

Dans des modes de réalisation, le moyen d'émission sans fil du terminal portable communiquant est configuré pour transmettre à une centrale d'alarme chaque valeur de paramètre configurée par le moyen de configuration pour chaque détecteur.In embodiments, the wireless transmission means of the communicating portable terminal is configured to transmit to an alarm center each parameter value configured by the configuration means for each detector.

Grâce à ces dispositions, la centrale d'alarme peut disposer de toutes les configurations des détecteurs. Le terminal portable communiquant peut alors n'être employé que pour la configuration initiale et/ou pour les opérations de maintenance ou de test.Thanks to these provisions, the central alarm can have all the configurations of the detectors. The communicating portable terminal can then be used only for the initial configuration and / or for the maintenance or test operations.

Dans des modes de réalisation, au moins un détecteur du dispositif objet de la présente invention comporte :

  • au moins une source d'alimentation interne et
  • au moins un moyen d'estimation du niveau d'énergie disponible dans la source d'alimentation interne,
dans lequel le moyen de communication est configuré pour émettre un signal représentatif du niveau d'énergie disponible estimé par le moyen d'estimation.In embodiments, at least one detector of the device that is the subject of the present invention comprises:
  • at least one internal power source and
  • at least one means for estimating the energy level available in the internal power source,
wherein the communication means is configured to output a signal representative of the available energy level estimated by the estimating means.

Ces modes de réalisation ont l'avantage de permettre à un utilisateur muni d'un terminal portable communiquant de visualiser le niveau d'énergie disponible dans un détecteur. Ainsi, ces modes de réalisation améliorent la capacité de diagnostic du dispositif par un utilisateur.These embodiments have the advantage of enabling a user equipped with a communicating portable terminal to visualize the level of energy available in a detector. Thus, these embodiments improve the diagnostic capability of the device by a user.

Dans des modes de réalisation, le dispositif objet de la présente invention comporte un moyen de transmission d'un message d'alarme à au moins un destinataire de signaux, en cas de détection de la présence d'un incendie, le terminal portable communiquant étant configuré pour commander le fonctionnement du moyen de transmission d'un message d'alarme.In embodiments, the device which is the subject of the present invention comprises means for transmitting an alarm message to at least one signal recipient, in the event of detection of the presence of a fire, the portable terminal communicating being configured to control the operation of the means for transmitting an alarm message.

Ces modes de réalisation permettent d'une part au dispositif de contacter les urgences en cas de détection d'un incendie, mais également à un utilisateur muni d'un terminal portable communiquant d'inhiber ce contact, en cas de maintenance du système par exemple.These embodiments make it possible, on the one hand, for the device to contact emergencies in the event of detection of a fire, but also for a user equipped with a mobile terminal communicating to inhibit this contact, in the event of maintenance of the system for example .

Dans des modes de réalisation, le moyen de communication d'au moins un détecteur utilise un protocole Wifi et/ou une technologie Bluetooth.In embodiments, the communication means of at least one detector uses a Wifi protocol and / or a Bluetooth technology.

Ces modes de réalisation ont l'avantage d'utiliser des technologies de communication à courte portée fiables et reconnues.These embodiments have the advantage of using reliable and recognized short-range communication technologies.

La présente invention vise, selon un deuxième aspect, un terminal portable communiquant de configuration d'un détecteur d'incendie comportant un capteur de mesure de la valeur d'une grandeur physique à proximité du capteur pour émettre un signal représentatif de ladite valeur, un moyen de détection de présence d'un incendie par traitement du signal émis par ledit capteur et un moyen de communication sans fil à courte portée d'un signal représentatif de la présence d'un incendie, qui comporte :

  • un moyen de réception du signal communiqué par ledit moyen de communication,
  • un écran d'affichage d'un message représentatif du signal reçu du moyen de communication,
  • un moyen de configuration d'au moins une valeur de paramètre du traitement réalisé par le moyen de détection de présence d'un incendie et
  • un moyen d'émission sans fil à destination du détecteur, d'un signal représentatif de chaque valeur de paramètre configurée par le moyen de configuration.
The present invention aims, according to a second aspect, a portable terminal communicating the configuration of a fire detector comprising a sensor for measuring the value of a physical quantity in the vicinity of the sensor to emit a signal representative of said value, a means for detecting the presence of a fire by processing the signal emitted by said sensor and means for short-range wireless communication of a signal representative of the presence of a fire, which comprises:
  • means for receiving the signal communicated by said communication means,
  • a screen for displaying a message representative of the signal received from the communication means,
  • means for configuring at least one parameter value of the processing performed by the means for detecting the presence of a fire and
  • wireless transmission means for the detector, a signal representative of each parameter value configured by the configuration means.

La présente invention vise, selon un troisième aspect, un détecteur d'un système de détection d'incendie, comportant un capteur de mesure de la valeur d'une grandeur physique à proximité du capteur pour émettre un signal représentatif de ladite valeur et un moyen de détection de présence d'un incendie par traitement du signal émis par ledit capteur, caractérisé en ce que :

  • il comporte, en outre, un moyen de communication sans fil à courte portée d'un signal représentatif de la présence d'un incendie et de réception, d'un signal représentatif de chaque valeur de paramètre configuré par un moyen de configuration d'un terminal portable communiquant et
  • le moyen de détection de présence d'incendie met en oeuvre au moins une valeur de paramètre reçue par le moyen de communication pour détecter la présence d'un incendie.
The present invention aims, according to a third aspect, a detector of a fire detection system, comprising a sensor for measuring the value of a physical quantity near the sensor to emit a signal representative of said value and a means for detecting the presence of a fire by processing the signal emitted by said sensor, characterized in that:
  • it further comprises a short-range wireless communication means of a signal representative of the presence of a fire and receiving, a signal representative of each parameter value configured by a configuration means of a mobile terminal communicating and
  • the presence of fire detection means uses at least one parameter value received by the communication means to detect the presence of a fire.

La présente invention vise, selon un quatrième aspect, un procédé de configuration d'un système de détection d'incendie, qui comporte au moins un détecteur,
chaque détecteur réalise :

  • une étape de capture d'une mesure d'une grandeur physique à proximité d'un capteur pour émettre un signal représentatif de ladite mesure.
  • une étape de détection de présence d'un incendie par traitement du signal émis par ledit capteur,
  • une étape de communication sans fil à courte portée d'un signal représentatif de la présence d'un incendie, et
un terminal portable communiquant réalise :
  • une étape de réception du signal communiqué au cours de l'étape de communication,
  • une étape d'affichage d'un message représentatif du signal reçu
  • une étape de configuration d'au moins une valeur de paramètre du traitement réalisé au cours de l'etape de détection de présence d'un incendie et
  • une étape d'émission sans fil d'un signal représentatif de chaque valeur de paramètre configurée au cours de l'étape de configuration ; et
le détecteur réalisant, en outre, une étape de réception, du signal représentatif de chaque valeur de paramètre émise au cours de l'étape d'emission.The present invention aims, according to a fourth aspect, a method of configuring a fire detection system, which comprises at least one detector,
each detector carries out:
  • a step of capturing a measurement of a physical quantity near a sensor to emit a signal representative of said measurement.
  • a step of detecting the presence of a fire by processing the signal emitted by said sensor,
  • a short-range wireless communication step of a signal representative of the presence of a fire, and
a communicating portable terminal performs:
  • a step of receiving the signal communicated during the communication step,
  • a step of displaying a message representative of the received signal
  • a step of configuring at least one parameter value of the processing carried out during the step of detecting the presence of a fire and
  • a step of wireless transmission of a signal representative of each parameter value configured during the configuration step; and
the detector performing, in addition, a reception step of the signal representative of each parameter value transmitted during the transmission step.

Les buts, caractéristiques et avantages de ce terminal de ce détecteur et de ce procédé objets des deuxième à quatrième aspects de la présente invention étant similaires à ceux du dispositif objet du premier aspect de la présente invention, ils ne sont pas rappelés ici.Since the purposes, features and advantages of this terminal of this detector and method, which are the subject of the second to fourth aspects of the present invention, are similar to those of the device which is the subject of the first aspect of the present invention, they are not recalled here.

Les caractéristiques principales ou particulières des différents aspects de la présente invention sont des caractéristiques particulières de modes de réalisation particuliers des autres aspects de la présente invention.The main or particular features of the various aspects of the present invention are particular features of particular embodiments of the other aspects of the present invention.

BREVE DESCRIPTION DES FIGURESBRIEF DESCRIPTION OF THE FIGURES

D'autres avantages, buts et caractéristiques de l'invention ressortiront de la description qui suit d'au moins un mode de réalisation particulier du dispositif de détection d'incendie, faite dans un but explicatif et nullement limitatif en regard des dessins annexés, dans lesquels :

  • la figure 1 représente, schématiquement, un premier mode particulier de réalisation du dispositif de configuration d'un système de détection d'incendie objet de la présente invention,
  • la figure 2 représente, schématiquement, un deuxième mode particulier de réalisation du dispositif de configuration d'un système de détection d'incendie objet de la présente invention,
  • la figure 3 représente, schématiquement, un mode particulier de réalisation du terminal portable communiquant objet de la présente invention et
  • la figure 4 représente, sous forme d'un logigramme, des étapes d'un mode de réalisation particulier du procédé de configuration d'un système de détection d'incendie objet de la présente invention.
Other advantages, aims and features of the invention will emerge from the description which follows of at least one particular embodiment of the fire detection device, made for explanatory and non-limiting purposes with reference to the accompanying drawings, in which: which :
  • the figure 1 represents, schematically, a first particular embodiment of the configuration device of a fire detection system object of the present invention,
  • the figure 2 represents, schematically, a second particular embodiment of the configuration device of a fire detection system that is the subject of the present invention,
  • the figure 3 represents, schematically, a particular embodiment of the communicating portable terminal object of the present invention and
  • the figure 4 represents, in the form of a logic diagram, steps of a particular embodiment of the method for configuring a fire detection system that is the subject of the present invention.

DESCRIPTION D'EXEMPLES DE REALISATION DE L'INVENTIONDESCRIPTION OF EXAMPLES OF EMBODIMENT OF THE INVENTION

On note, dès à présent, que les figures ne sont pas à l'échelle.As of now, we note that the figures are not to scale.

On rappelle ici que la configuration d'un logiciel, d'un matériel, ou d'un réseau informatique est un ensemble de caractéristiques techniques qui ne dépendent pas du constructeur mais découlent des choix de l'acheteur et de l'utilisateur. Des caractéristiques qui sont donc susceptibles de différer largement même pour des objets de construction identique.It is recalled here that the configuration of a software, a hardware, or a computer network is a set of technical characteristics that do not depend on the manufacturer but arise from the choices of the buyer and the user. Features that are likely to differ widely even for objects of identical construction.

Dans le cadre de la présente invention, la configuration concerne la configuration logicielle, qui découle principalement de la manière dont le système de fichiers est organisé par l'utilisateur, des logiciels implantés ainsi que de leur version. La configuration logicielle comporte aussi la fixation de la valeur des paramètres de configuration qui permettent d'adapter leur comportement à la configuration matérielle, logicielle et réseau du système informatique dans lequel le logiciel est implanté.In the context of the present invention, the configuration relates to the software configuration, which stems mainly from the way the file system is organized by the user, implanted software as well as their version. The software configuration also includes setting the value of the configuration parameters that make it possible to adapt their behavior to the hardware, software and network configuration of the computer system in which the software is installed.

Préférentiellement, dans les modes de réalisation du dispositif objet de la présente invention, la configuration comporte :

  • au moins une valeur limite de valeur d'un signal représentatif d'une grandeur physique (chaleur, gaz, fumée ou autres particules en suspension, par exemple) au-delà de laquelle un incendie, ou au moins un danger, est considéré comme détecté ;
  • au moins une puissance d'amplification de signal d'alerte, de signal sonore ou visuel, de signal transmis à distance, sans fil et/ou de signal reçu de la part d'un autre système ; et/ou
  • une localisation du détecteur, c'est-à-dire, le lieu où il se trouve, dans le site objet de la surveillance ou l'information représentant les détecteurs voisins de ce détecteur.
Preferably, in the embodiments of the device that is the subject of the present invention, the configuration comprises:
  • at least one value limit value of a signal representative of a physical quantity (for example heat, gas, smoke or other particles in suspension) beyond which a fire, or at least one hazard, is considered to be detected ;
  • at least one amplification power of warning signal, audible or visual signal, remotely transmitted signal, wireless and / or signal received from another system; and or
  • a location of the detector, that is to say, the place where it is located, in the site object of the surveillance or the information representing the neighboring detectors of this detector.

Les paramètres de configuration sont typiquement enregistrés dans des fichiers texte et modifiables par l'utilisateur à l'aide d'un logiciel courant de type éditeur de texte.Configuration parameters are typically stored in text files and editable by the user using common text editor software.

On qualifie de « communication sans fil à courte portée » une communication entre deux appareils dont les messages sont portés par des ondes dont la fréquence est supérieure à 3 MHz. De telles fréquences sont donc supérieures ou appartenant à la catégorie des hautes fréquences. La portée maximale de ces communications est en général inférieure à cent mètres.The term "short-range wireless communication" refers to a communication between two devices whose messages are carried by waves with a frequency greater than 3 MHz. Such frequencies are therefore higher or belonging to the category of high frequencies. The maximum range of these communications is generally less than one hundred meters.

Dans toute la description, on appelle, indifféremment utilisateur ou opérateur la personne qui manipule le terminal portable communiquant, quelle que soit sa fonction.Throughout the description, one calls, indifferently user or operator the person who manipulates the communicating portable terminal, whatever its function.

On observe sur la figure 1, le premier mode de réalisation particulier du dispositif 10 objet de la présente invention. Ce dispositif 10 comporte :

  • au moins un détecteur 105 muni d'un capteur 110 de mesure de la valeur d'une grandeur physique à proximité du capteur,
  • au moins un moyen 115 de communication d'un signal représentatif de ladite valeur et
  • au moins un terminal 120 portable communiquant muni d'un écran 125.
We observe on the figure 1 , the first particular embodiment of the device 10 object of the present invention. This device 10 comprises:
  • at least one detector 105 provided with a sensor 110 for measuring the value of a physical quantity near the sensor,
  • at least one means 115 for communicating a signal representative of said value and
  • at least one communicating portable terminal 120 provided with a screen 125.

Chaque détecteur 105 peut être, par exemple, un boitier fixable sur une surface d'une pièce comme le plafond ou un mur par exemple. Ce boitier permet à l'air de circuler jusqu'à un capteur 110 situé dans le boitier.Each detector 105 may be, for example, a fixable housing on a surface of a room such as the ceiling or a wall for example. This box allows the air to flow to a sensor 110 located in the housing.

Ce capteur 110 de mesure de la valeur d'une grandeur physique à proximité du capteur 110 pour émettre un signal représentatif de ladite valeur peut être, par exemple, un capteur optique de fumée. Dans des variantes, ce capteur 110 peut être un capteur par ionisation qui détecte la présence de fumée par la variation d'un courant causée par la présence de fumée dans l'air.This sensor 110 for measuring the value of a physical quantity near the sensor 110 to emit a signal representative of said value may be, for example, an optical smoke sensor. In variants, this sensor 110 may be an ionization sensor that detects the presence of smoke by the variation of a current caused by the presence of smoke in the air.

Chaque moyen 115 de communication sans fil à courte portée d'un signal représentatif de ladite valeur peut être, par exemple, une antenne émettant à courte portée.Each means 115 for short-range wireless communication of a signal representative of said value may be, for example, a short-range transmitting antenna.

Chaque terminal 120 portable communiquant est configuré pour recevoir le signal communiqué par ledit moyen 115 de communication et à afficher, sur un écran 125, un message représentatif de la valeur de la grandeur physique. Chaque terminal 120 portable communiquant peut être, par exemple, une tablette, un ordinateur portable ou un téléphone intelligent. Chaque terminal 120 portable communiquant peut, en outre, comporter une antenne configurée pour recevoir des communications à courte portée. Le message représentatif de la valeur de la grandeur physique affiché peut être, par exemple, la quantité ou densité de fumée captée dans l'air ambiant par un capteur 110.Each communicating portable terminal 120 is configured to receive the signal communicated by said communication means 115 and to display, on a screen 125, a message representative of the value of the physical quantity. Each communicating mobile terminal 120 may be, for example, a tablet, a laptop or a smart phone. Each communicating mobile terminal 120 may further include an antenna configured to receive short-range communications. The message representative of the value of the displayed physical quantity may be, for example, the quantity or density of smoke sensed in the ambient air by a sensor 110.

Dans des modes de réalisation, le terminal 120 portable communiquant communique aussi, sans fil et à courte portée avec une centrale d'alarme 130, lorsque la distance entre le terminal 120 et la centrale 130 est suffisamment courte. Comme exposé plus loin, cette communication permet à la centrale 130 de connaître les valeurs de paramètre utilisées par les détecteurs 105.In embodiments, the communicating portable terminal 120 also communicates wirelessly and at close range with an alarm center 130 when the distance between the terminal 120 and the central unit 130 is sufficiently short. As explained below, this communication enables the central unit 130 to know the parameter values used by the detectors 105.

On observe, sur la figure 2, un deuxième mode particulier de réalisation du dispositif 20 objet de la présente invention. Ce dispositif 20 comporte :

  • au moins un détecteur 205 qui comporte :
    • un capteur 210 de mesure de la valeur d'une grandeur physique à proximité du capteur ;
    • un moyen 230 de détection de présence d'un incendie ;
    • au moins une source d'alimentation 255 interne et
    • au moins un moyen 260 d'estimation du niveau d'énergie disponible dans la source d'alimentation interne,
  • une mémoire 245 munie d'un moyen 250 de mémorisation,
  • un moyen 265 de transmission d'un message d'alarme,
  • au moins un moyen 215 de communication d'un signal représentatif de ladite valeur et
  • au moins un terminal 220 portable communiquant qui comporte
    • un écran 225 ;
    • un moyen 240 de configuration d'au moins une valeur de paramètre du traitement réalisé par au moins un moyen de détection 230 et
    • un moyen 235 d'émission sans fil d'un signal représentatif de chaque valeur de paramètre configuré.
We observe, on figure 2 , a second particular embodiment of the device 20 object of the present invention. This device 20 comprises:
  • at least one detector 205 which comprises:
    • a sensor 210 for measuring the value of a physical quantity near the sensor;
    • a means 230 for detecting the presence of a fire;
    • at least one internal power source 255 and
    • at least one means 260 for estimating the energy level available in the internal power source,
  • a memory 245 provided with a memory means 250,
  • means 265 for transmitting an alarm message,
  • at least one means 215 for communicating a signal representative of said value and
  • at least one communicating portable terminal 220 which comprises
    • a screen 225;
    • means 240 for configuring at least one parameter value of the processing performed by at least one detection means 230 and
    • means 235 for wireless transmission of a signal representative of each parameter value configured.

Chaque détecteur 205 peut être, par exemple, un boitier fixable sur une surface d'une pièce comme le plafond ou un mur par exemple. Ce boitier permet à l'air de circuler jusqu'à un capteur 210 situé dans le boitier.Each detector 205 may be, for example, a fixable housing on a surface of a room such as the ceiling or a wall for example. This box allows the air to flow to a sensor 210 located in the housing.

En outre, chaque détecteur comporte un capteur 210 de mesure de la valeur d'une grandeur physique à proximité du capteur 210 pour émettre un signal représentatif de ladite valeur peut être, par exemple, un capteur optique de fumée. Dans des variantes, ce capteur 210 peut être un capteur par ionisation qui détecte la présence de fumée par la variation d'un courant causée par la présence de fumée dans l'air.In addition, each detector comprises a sensor 210 for measuring the value of a physical quantity near the sensor 210 to emit a signal representative of said value may be, for example, an optical smoke sensor. In variants, this sensor 210 may be an ionization sensor that detects the presence of smoke by varying a current caused by the presence of smoke in the air.

Chaque détecteur 205 comporte également un moyen 230 de détection de présence d'un incendie par traitement du signal émis par le capteur 210 dudit détecteur 205. Ce moyen 230 de détection compare la mesure de la grandeur physique avec une valeur limite prédéterminée et, en cas de dépassement, détecte la présence d'un incendie à proximité du capteur 210.Each detector 205 also comprises a means 230 for detecting the presence of a fire by processing the signal emitted by the sensor 210 of said detector 205. This detection means 230 compares the measurement of the physical quantity with a predetermined limit value and, in case passing, detects the presence of a fire near the sensor 210.

Chaque détecteur 205 comporte, de plus, au moins une source d'alimentation 255 interne. Une telle source d'alimentation 255 peut être, par exemple, une pile ou une batterie.Each detector 205 further includes at least one internal power source 255. Such a power source 255 may be, for example, a battery or a battery.

Chaque détecteur 205 comporte, finalement, au moins un moyen 260 d'estimation du niveau d'énergie disponible dans la source d'alimentation 255 interne. Ce moyen 260 d'estimation peut, par exemple, réaliser une mesure de la résistance interne de la source d'alimentation 255 afin de calculer l'énergie encore disponible dans cette source d'alimentation 255.Each detector 205 comprises, finally, at least one means 260 for estimating the level of energy available in the internal power supply 255. This estimation means 260 can, for example, make a measurement of the internal resistance of the power source 255 in order to calculate the energy still available in this power source 255.

Ce dispositif 20 comporte également une mémoire 245 de localisation d'au moins un capteur 210. Cette mémoire 245, peut être par exemple une centrale, comportant une mémoire vive et/ou morte et une unité centrale, connectée à au moins un détecteur 205.This device 20 also includes a memory 245 for locating at least one sensor 210. This memory 245 may be, for example, a central unit, comprising a random and / or dead memory and a central unit, connected to at least one detector 205.

Cette mémoire 245 comporte un moyen 250 de mémorisation, dans la mémoire 245 de localisation, d'une localisation transmise par un terminal 220 portable communiquant. Ce moyen 250 de mémorisation peut être, par exemple, un programme informatique capable d'accéder aux ressources de la mémoire 245 et d'en modifier le contenu.This memory 245 comprises means 250 for storing, in the location memory 245, a location transmitted by a communicating portable terminal 220. This storage means 250 may be, for example, a computer program capable of accessing the resources of the memory 245 and modifying their content.

Ce dispositif 20 comporte, ensuite, un moyen 265 de transmission d'un message d'alarme à au moins un destinataire de signaux, en cas de détection de la présence d'un incendie. Ce moyen 265 de transmission peut être un émetteur sur réseau téléphonique ou internet, par exemple.This device 20 then comprises a means 265 for transmitting an alarm message to at least one signal recipient, in the event of detection of the presence of a fire. This transmission means 265 may be a transmitter on telephone network or internet, for example.

Ce dispositif 20 comporte, de plus, moyen 215 de communication sans fil à courte portée d'un signal représentatif de ladite valeur. Ce moyen 215 de communication peut être par exemple, une antenne émettant à courte portée. Ce moyen 215 de communication est configuré pour :

  • recevoir le signal représentatif de chaque valeur de paramètre configurée par le moyen 240 de configuration,
  • transmettre un signal représentatif de la présence d'un incendie détecté par un moyen 230 de détection,
  • recevoir une valeur limite prédéterminée du terminal 220 mobile communiquant correspondant à la valeur limite de détection de présence d'un incendie par le moyen 230 de détection,
  • émettre un signal de confirmation de réception d'au moins un message reçu par un détecteur 205 et
  • émettre un signal représentatif du niveau d'énergie disponible d'une source d'alimentation 255 interne estimé par le moyen d'estimation 260.
This device 20 further comprises means 215 for short-range wireless communication of a signal representative of said value. This communication means 215 may be, for example, a short-range transmitting antenna. This communication means 215 is configured to:
  • receiving the signal representative of each parameter value configured by the configuration means 240,
  • transmit a signal representative of the presence of a fire detected by a detection means 230,
  • receiving a predetermined limit value of the communicating mobile terminal 220 corresponding to the limit value for detecting the presence of a fire by the detection means 230,
  • transmit a confirmation signal of reception of at least one message received by a detector 205 and
  • transmitting a signal representative of the available energy level of an internal power source 255 estimated by the estimating means 260.

Ce moyen 215 de communication utilise un protocole Wifi et/ou une technologie Bluetooth.This means 215 of communication uses a Wifi protocol and / or a Bluetooth technology.

Finalement, ce dispositif 20 comporte un terminal 220 portable communiquant, comme un ordinateur portable, une tablette ou un téléphone intelligent par exemple. Ce terminal 220 comporte un écran 225.Finally, this device 20 comprises a portable terminal 220 communicating, such as a laptop, a tablet or a smart phone, for example. This terminal 220 comprises a screen 225.

Ce terminal 220 comporte, de plus, un moyen 240 de configuration d'au moins une valeur de paramètre du traitement réalisé par au moins un moyen 230 de détection de présence d'un incendie. Ce moyen 240 de configuration peut être, par exemple, un programme informatique dont l'interface graphique permet à l'utilisateur de faire varier la valeur limite de détection d'un incendie du moyen 230 de détection.This terminal 220 further comprises a means 240 for configuring at least one parameter value of the processing performed by at least one means 230 for detecting the presence of a fire. This configuration means 240 may be, for example, a computer program whose graphical interface allows the user to vary the detection limit value of a fire of the detection means 230.

Ce terminal 220 comporte également un moyen 235 d'émission sans fil d'un signal représentatif de chaque valeur de paramètre configurée par le moyen de configuration 240. Ce moyen 235 d'émission peut être, par exemple, une antenne Wifi ou Bluetooth (marques déposées).This terminal 220 also comprises a means 235 wireless transmission of a signal representative of each parameter value configured by the configuration means 240. This transmission means 235 may be, for example, a Wifi or Bluetooth antenna (brands filed).

La mémoire 245 conserve une localisation du détecteur. Le moyen 250 de mémorisation, stocke dans la mémoire de localisation 245, une information de localisation émise par le terminal portable communiquant et reçue par le moyen de communication 215. Le moyen de communication 215 est configuré pour transmettre une information représentative de l'information de localisation avec un signal représentatif de la présence d'un incendie. Cette information représentative de l'information de localisation est sélectionnée par un utilisateur avec une interface utilisateur du terminal 30 portable communiquant ou est déterminée par un moyen de localisation automatique, par exemple, un moyen de géo-localisation basé sur des signaux émis par des satellites ou par des émetteurs terrestres.The memory 245 maintains a location of the detector. The storage means 250 stores, in the location memory 245, location information transmitted by the portable terminal communicating and received by the communication means 215. The communication means 215 is configured to transmit information representative of the information of location with a signal representative of the presence of a fire. This information representative of the location information is selected by a user with a user interface of the portable terminal communicating or is determined by an automatic location means, for example, a geo-location means based on signals transmitted by satellites. or by terrestrial transmitters.

Cette information de localisation, transmise avec un signal d'alarme permet à une centrale d'alarme, de faire la correspondance entre un identifiant de détecteur reçu avec un signal de détection d'incendie avec une localisation du détecteur en alarme, sur le site protégé. Des équipes de secours peuvent ainsi être informées rapidement par la centrale du lieu de la détection d'incendie.This location information transmitted with an alarm signal allows an alarm center to match a received detector identifier with a fire detection signal with a location of the detector in alarm on the protected site. . Rescue teams can be quickly informed by the plant of the location of the fire detection.

Le terminal 220 portable communiquant est configuré pour :

  • émettre un signal à destination d'au moins un détecteur 205 et
  • commander le fonctionnement du moyen 265 de transmission d'un message d'alarme.
The communicating mobile terminal 220 is configured to:
  • send a signal to at least one detector 205 and
  • control the operation of the means 265 for transmitting an alarm message.

Dans des variantes, la détecteur 205 comporte un amplificateur de signal émis par le moyen 215 de communication, le moyen de communication étant configuré pour recevoir une valeur de paramètre de configuration représentant une consigne de gain dudit amplificateur de signal émis de la part du terminal 30 portable communiquant.In variants, the detector 205 comprises a signal amplifier emitted by the communication means 215, the communication means being configured to receive a configuration parameter value representing a gain setpoint of said signal amplifier transmitted by the terminal 30 communicating laptop.

Dans des variantes, la détecteur 205 comporte un amplificateur de signal reçu par le moyen 215 de communication, le moyen de communication étant configuré pour recevoir une valeur de paramètre de configuration représentant une consigne de gain dudit amplificateur de signal reçu de la part du terminal 30 portable communiquant.In variants, the detector 205 comprises a signal amplifier received by the communication means 215, the communication means being configured to receive a configuration parameter value representing a gain setpoint of said received signal amplifier from the terminal 30 communicating laptop.

Dans des variantes, le détecteur 205 comporte un amplificateur de signal d'alarme par le moyen 215 de communication, le moyen de communication étant configuré pour recevoir une valeur de paramètre de configuration représentant une consigne de gain dudit amplificateur de signal d'alarme de la part du terminal 30 portable communiquant.In variants, the detector 205 comprises an alarm signal amplifier by the communication means 215, the communication means being configured to receive a configuration parameter value representing a gain setpoint of said alarm signal amplifier of the part of the communicating portable terminal.

Ainsi, différents gains d'amplificateurs peuvent être ajustés par le terminal portable communicant de manière à réaliser un compromis entre les performances du système de détection d'incendie et l'autonomie des alimentations électriques des détecteurs. Les valeurs des gains peuvent être choisies par un utilisateur du terminal portable communiquant ou par un logiciel prenant en compte une puissance du signal reçu mesurée par le terminal portable communiquant ou le détecteur, une distance avec une centrale d'alarme ou une localisation du détecteur, par exemple.Thus, different gains of amplifiers can be adjusted by the communicating portable terminal so as to achieve a compromise between the performance of the fire detection system and the autonomy of the power supplies of the detectors. The values of the gains can be chosen by a user of the communicating mobile terminal or by software taking into account a power of the received signal measured by the communicating portable terminal or the detector, a distance with an alarm center or a location of the detector, for example.

On observe, sur la figure 3, un mode de réalisation particulier du terminal 30 portable communiquant objet de la présente invention. Ce terminal 30 comporte :

  • un moyen 305 de réception sans fil à courte portée d'un signal représentatif d'une valeur mesurée d'une grandeur physique représentative d'un incendie et
  • un moyen 310 d'affichage, sur un écran 315, d'un message représentatif de la valeur de la grandeur physique.
We observe, on figure 3 , a particular embodiment of the communicating portable terminal object of the present invention. This terminal 30 comprises:
  • means 305 for short-range wireless reception of a signal representative of a measured value of a physical quantity representative of a fire and
  • means 310 for displaying, on a screen 315, a message representative of the value of the physical quantity.

Le moyen 305 de réception sans fil peut être, par exemple, une antenne Wifi ou Bluetooth. Le moyen 310 d'affichage peut être, par exemple, un contrôleur d'écran.The means 305 for wireless reception may be, for example, a Wifi or Bluetooth antenna. The display means 310 may be, for example, a screen controller.

Dans des modes de réalisation, le terminal 30 portable communiquant comporte une mémoire 345 de localisation d'au moins un détecteur et un moyen 350 de mémorisation, dans la mémoire de localisation du terminal portable communiquant, d'un identifiant transmis par un moyen de communication d'un détecteur. Le terminal 30 portable communiquant permet ainsi à une centrale d'alarme, après transmission de cet identifiant et d'une localisation choisie par l'intermédiaire d'une interface utilisateur ou par géo-localisation, de faire la correspondance entre un identifiant de détecteur reçu avec un signal de détection d'incendie avec une localisation du détecteur en alarme, sur le site protégé. Des équipes de secours peuvent ainsi être informées rapidement par la centrale du lieu de la détection d'incendie.In embodiments, the communicating portable terminal comprises a memory 345 for locating at least one detector and a means 350 for storing, in the location memory of the communicating mobile terminal, an identifier transmitted by a communication means. a detector. The communicating portable terminal 30 thus allows an alarm center, after transmission of this identifier and a location chosen via a user interface or by geolocation, to make the correspondence between a received detector identifier. with a fire detection signal with a location of the detector in alarm, on the protected site. Rescue teams can be quickly informed by the plant of the location of the fire detection.

Dans des modes de réalisation, le moyen d'émission sans fil du terminal 30 portable communiquant est configuré pour transmettre à une centrale d'alarme chaque valeur de paramètre configurée par le moyen de configuration pour chaque détecteur 205. La centrale d'alarme peut ainsi tenir compte de ces valeurs de paramètres.In embodiments, the wireless transmitting means of the communicating portable terminal is configured to transmit to an alarm center each parameter value configured by the configuration means for each detector 205. take into account these parameter values.

On observe, en figure 4, un mode de réalisation particulier du procédé 40 de configuration d'un système de détection d'incendie objet de la présente invention.We observe figure 4 , a particular embodiment of the method 40 for configuring a fire detection system that is the subject of the present invention.

Dans ce mode de réalisation, chaque détecteur 20 réalise, lorsqu'il est connecté au terminal 30 portable communiquant :

  • une étape 405 de capture d'une mesure d'une grandeur physique à proximité d'un capteur pour émettre un signal représentatif de ladite valeur,
  • une étape 410 de détection de présence d'un incendie par traitement du signal émis par ledit capteur et
  • une étape 415 de communication sans fil à courte portée d'un signal représentatif de la présence d'un incendie.
In this embodiment, each detector 20, when connected to the portable terminal communicating:
  • a step 405 of capturing a measurement of a physical quantity near a sensor to emit a signal representative of said value,
  • a step 410 for detecting the presence of a fire by processing the signal emitted by said sensor and
  • a step 415 of short-range wireless communication of a signal representative of the presence of a fire.

Le terminal 30 portable communiquant réalise :

  • une étape 420 de réception du signal communiqué par ledit moyen de communication,
  • une étape 425 d'affichage d'un message représentatif du signal reçu du moyen de communication,
  • une étape 430 de configuration d'au moins une valeur de paramètre du traitement réalisé par au moins un moyen de détection de présence d'un incendie et, éventuellement de gains d'amplificateurs du détecteur et
  • une étape 435 d'émission sans fil d'un signal représentatif de chaque valeur de paramètre configurée par le moyen de configuration.
The communicating portable terminal 30 carries out:
  • a step 420 for receiving the signal communicated by said communication means,
  • a step 425 for displaying a message representative of the signal received from the communication means,
  • a step 430 of configuring at least one parameter value of the processing carried out by at least one means for detecting the presence of a fire and, possibly, gaining amplifiers of the detector and
  • a step 435 wireless transmission of a signal representative of each parameter value configured by the configuration means.

Le détecteur 20 réalise :

  • une étape 440 de réception, par le moyen de communication, du signal représentatif de chaque valeur de paramètre configurée par le moyen de configuration et
  • une étape 445 de paramétrage du traitement réalisé par le moyen de détection de présence d'un incendie et, si les paramètres configurés comportent des gains d'amplificateurs, de paramétrage du moyen de communication.
The detector 20 carries out:
  • a step 440 of receiving, by the communication means, the signal representative of each parameter value configured by the configuration means and
  • a step 445 for parameterizing the processing carried out by the means for detecting the presence of a fire and, if the parameters configured include gains in amplifiers, for setting the communication means.

L'étape 405 de mesure de la valeur d'une grandeur physique à proximité d'un capteur peut être réalisée par la mise en oeuvre d'un capteur optique d'une quantité de fumée dans l'air ambiant à proximité d'un capteur, par exemple.Step 405 for measuring the value of a physical quantity near a sensor can be achieved by the use of an optical sensor of a quantity of smoke in the ambient air near a sensor. , for example.

L'étape 410 de traitement effectue la correspondance entre la mesure et des valeurs de détection d'incendie, par exemple une valeur limite au-delà de laquelle la mesure correspond à un incendie détecté.The processing step 410 performs the correspondence between the measurement and fire detection values, for example a limit value beyond which the measurement corresponds to a detected fire.

L'étape 415 de communication peut être réalisée, par exemple, par émission d'une onde électromagnétique, comportant un signal représentatif de la valeur d'une grandeur physique à proximité d'un capteur, par une antenne Bluetooth.The communication step 415 can be performed, for example, by emitting an electromagnetic wave, comprising a signal representative of the value of a physical quantity near a sensor, by a Bluetooth antenna.

L'étape 420 de réception peut être réalisée, par exemple, par la mise en oeuvre d'une antenne Bluetooth du terminal portable communiquant.The receiving step 420 can be performed, for example, by the implementation of a Bluetooth antenna of the communicating mobile terminal.

L'étape 425 d'affichage peut être réalisée, par exemple, par l'utilisation d'une interface graphique d'un programme informatique du terminal portable communiquant.The display step 425 can be performed, for example, by the use of a graphical interface of a computer program of the communicating portable terminal.

L'étape 430 de configuration d'au moins une valeur de paramètre du traitement réalisé par au moins un moyen de détection de présence d'un incendie et de valeurs de gain est effectuée par la mise en oeuvre d'une interface utilisateur sur l'écran du terminal portable communiquant, l'utilisateur sélectionnant des valeurs de paramètre et/ou par la mise en oeuvre d'un logiciel d'ajustement automatique des valeurs de paramètres.The step 430 of configuring at least one parameter value of the processing carried out by at least one means for detecting the presence of a fire and gain values is performed by the implementation of a user interface on the portable terminal screen communicating, the user selecting parameter values and / or implementing a software for automatic adjustment of the parameter values.

L'étape 445 de paramétrage du traitement réalisé par le moyen de détection de présence d'un incendie et, si les paramètres configurés comportent des gains d'amplificateurs, de paramétrage du moyen de communication est effectuée en mémorisant les valeurs de paramètres reçue dans une mémoire utilisée au cours du fonctionnement du détecteur.The step 445 for parameterizing the processing carried out by the means for detecting the presence of a fire and, if the configured parameters comprise amplifying gains, for setting the communication means is performed by storing the parameter values received in a memory used during detector operation.

Ainsi, comme on le comprend à la lecture de la description qui précède, la présente invention permet d'identifier, à proximité d'un capteur, s'il détecte une situation d'incendie, notamment au cours des tests d'installation consistant à allumer au moins un feu normalisé à proximité de ce capteur. Lorsque plusieurs capteurs sont présents, on peu ainsi détecter celui qui se déclenche le premier et, éventuellement, détecter des effets aéroliques et améliorer le positionnement des capteurs.Thus, as can be understood from reading the foregoing description, the present invention makes it possible to identify, in the vicinity of a sensor, whether it detects a fire situation, in particular during the installation tests consisting in switch on at least one standard fire near this sensor. When several sensors are present, it is thus possible to detect the one that triggers the first and, possibly, detect aerodynamic effects and improve the positioning of the sensors.

La présente invention permet aussi de réaliser un diagnostic précis des causes de dysfonctionnement d'un dispositif de détection d'incendie.The present invention also allows a precise diagnosis of the causes of malfunction of a fire detection device.

Ce diagnostic est grandement amélioré et simplifié dans le mode de réalisation illustré en figure 2 car il permet d'évaluer et de modifier à distance le fonctionnement d'un moyen de détection et d'évaluer le niveau d'énergie disponible dans chaque détecteur. De plus, ces modes de réalisation disposent d'une meilleure performance globale car il est possible pour un utilisateur d'inhiber les messages à direction des services d'urgences le temps de la maintenance du système. De plus, l'adressage des capteurs permet une intervention simplifiée des personnels compétents dans le cas de détection d'un incendie.This diagnosis is greatly improved and simplified in the embodiment illustrated in FIG. figure 2 because it makes it possible to remotely evaluate and modify the operation of a detection means and to evaluate the level of energy available in each detector. In addition, these embodiments have a better overall performance because it is possible for a user to inhibit the messages to the direction of the emergency services the time of the maintenance of the system. In addition, the addressing of the sensors allows a simplified intervention of the competent personnel in the case of detection of a fire.

Un diagnostic ainsi amélioré permet à un opérateur de réaliser une configuration d'un système de détection d'incendie lors de l'installation, de la maintenance ou lors de test des façons suivantes :

  • Dans le cas d'un capteur détectant une valeur d'une grandeur physique à proximité du capteur trop faible, il est possible pour l'opérateur de déplacer le détecteur jusqu'à obtenir une valeur satisfaisante pour que le dispositif sécurise le lieu d'opération.
An improved diagnosis allows an operator to perform a configuration of a fire detection system during installation, maintenance or testing in the following ways:
  • In the case of a sensor detecting a value of a physical quantity near the sensor that is too small, it is possible for the operator to move the detector until a satisfactory value is obtained so that the device secures the place of operation .

Il est également possible de régler la valeur limite de détection du moyen de détection de manière à ajuster la sensibilité du dispositif. Cet aspect, en particulier, peut s'avérer utile lorsque le nombre de capteurs à disposition est limité.It is also possible to set the detection limit value of the detection means to adjust the sensitivity of the device. This aspect, in particular, may be useful when the number of sensors available is limited.

Dans le cas où une source d'alimentation dispose d'un faible niveau d'énergie, il est possible pour un opérateur de la changer et ainsi de s'assurer du fonctionnement futur du dispositif.In the case where a power source has a low energy level, it is possible for an operator to change it and thus to ensure future operation of the device.

Le système peut être configuré pour qu'un opérateur puisse changer, avant le début des opérations de maintenance, d'installation ou de test le destinataire des messages d'alarmes de manière à ne pas avertir malencontreusement les secours pendant ces opérations.The system can be configured so that an operator can change the recipient of the messages before the start of maintenance, installation or testing. alarms so as to not inadvertently warn the emergency services during these operations.

Le système peut être configuré pour changer les localisations mémorisées des capteurs dans une centrale d'alarme. Ceci permet, en outre, d'accompagner le déplacement physique d'un capteur d'un lieu à un autre par un changement d'adressage dans la mémoire d'une centrale d'alarme. Ce changement de configuration, en outre, ne nécessite pas d'intervention manuelle au niveau de la centrale d'alarme de la part d'un opérateur.The system can be configured to change the stored locations of the sensors in a control panel. This allows, in addition, to accompany the physical displacement of a sensor from one place to another by a change of addressing in the memory of a central alarm. This configuration change, moreover, does not require manual intervention at the central alarm from an operator.

Finalement, une telle configuration permet à un opérateur d'identifier rapidement un détecteur du dispositif.Finally, such a configuration allows an operator to quickly identify a detector of the device.

Claims (15)

  1. A configuration device (10,20) of a fire detection system, which comprises at least one detector (105, 205), each detector comprising a sensor (110, 210) for measuring the value of a physical quantity close to the sensor, to output a signal representative of the said value and a means (230) for detecting the presence of a fire by processing the signal outputted by the said sensor, characterised in that the detector further comprises:
    - at least one short-range wireless communication means (115, 215) for a signal representative of the presence of a fire and
    in that the device further comprises:
    - a communicating mobile terminal (120, 220) comprising:
    • a means (305) for receiving the signal communicated by the said communication means,
    • a screen (125, 225, 310, 315) for displaying a message representative of the signal received from the communication means,
    • a means (240) for configuring at least one parameter value of the processing carried out by the said means for detecting the presence of a fire and
    • a means (235) for wirelessly outputting a signal representative of each parameter value configured by the configuration means;
    the communication means (115, 215) being configured to receive the signal representative of each parameter value configured by the configuration means (240).
  2. A device (20), according to claim 1, wherein:
    - the means (230) for detecting the presence of a fire is configured to compare the signal outputted by a sensor with a threshold value and
    - the communication means (215) is configured to receive the said threshold value predetermined from the communicating mobile terminal.
  3. A device (20), according to one of claims 1 or 2, wherein:
    - the communication means (215) is configured to transmit to the communicating mobile terminal (30), the measurement of the value of a physical quantity supplied by the sensor and
    - the display screen (125, 225, 310, 315) is configured to display a message representative of the measurement received by the communicating mobile terminal.
  4. A device (20), according to one of claims 1 to 3, wherein the communicating mobile terminal comprises a location memory (345) of at least one detector and one memorisation means (350), in the location memory of the communicating mobile terminal, of an identifier transmitted by a communication means of a detector.
  5. A device (20), according to one of claims 1 to 4, wherein at least one detector comprises a location memory (245) and a memorisation means (250), in the location memory, location information outputted by the communicating mobile terminal and received by the communication means, the communication means being configured to transmit information representative of the location information with a signal representative of the presence of a fire.
  6. A device (20), according to one of claims 1 to 5, wherein at least one detector (105, 205) comprises a signal amplifier outputted by the communication means (215), the communication means being configured to receive a gain set from the said signal amplifier, outputted from the communicating mobile terminal (30).
  7. A device (20), according to one of claims 1 to 6, wherein at least one detector (105, 205) comprises a signal amplifier received by the communication means (215), the communication means being configured to receive a gain set from the said signal amplifier, received from the communicating mobile terminal (30).
  8. A device (20), according to one of claims 1 to 7, wherein at least one detector (105, 205) comprises an alarm signal amplifier by the communication means (215), the communication means being configured to receive a gain set from the said alarm signal amplifier from the communicating mobile terminal (30).
  9. A device (20), according to one of claims 1 to 8, wherein the wireless emission means of the communicating mobile terminal (30) is configured to transmit to an alarm centre, each parameter value configured by the configuration means for each detector (105, 205).
  10. A device (20), according to one of claims 1 to 9, wherein at least one detector comprises:
    - at least one internal supply source (255) and
    - at least one means (260) for estimating the level of energy projected in the internal supply source,
    wherein the communication means (215) is configured to output a signal representative of the projected level of energy available by the estimation means.
  11. A device (20), according to one of claims 1 to 10, wherein the detector comprises a means (265) of transmitting an alarm message to at least one signal receiver, in the event of detecting the presence of a fire, the communicating mobile terminal being configured to control the functioning of the transmission means of an alarm message.
  12. A device (20), according to one of claims 1 to 11, wherein the communication means of at least one detector uses a Wi-Fi protocol and/or Bluetooth technology.
  13. A communicating mobile terminal (30) for configuring a fire detector (105, 205), including a sensor for measuring the value of a physical quantity close to the sensor (110, 210), to output a signal representative of the said value, a means (230) for detecting the presence of a fire by processing the signal outputted by the said sensor and a short-range wireless communication means (115, 215) of a signal representative of the presence of a fire, which comprises:
    - a means (305), for receiving the signal communicated by the said communication means,
    - a screen (125, 225, 310, 315) for displaying a message representative of the signal received from the communication means,
    - a means (240) for configuring at least one parameter value of the processing carried out by the means for detecting the presence of a fire and
    - a means (235) for wirelessly outputting a signal representative of each parameter value configured by the configuration means, to the detector.
  14. A detector (105,205) of a fire detection system, including one sensor (110, 210), for measuring the value of a physical quantity close to the sensor, to output a signal representative of the said value and a means (230) for detecting the presence of a fire by processing the signal outputted by the said sensor, characterised in that:
    - it includes, in addition, a short-range wireless communication means (115, 215) of a signal representative of the presence of a fire and reception, of a signal representative of each parameter value configured by a configuration means of a communicating mobile terminal (120, 220) and
    - the means of detecting the presence of a fire implementing at least one parameter value received by the communication means to detect the presence of a fire.
  15. A method (40) for configuring a fire detection system which includes at least one detector (105, 205) and a communicating mobile terminal (30, 120, 220), characterised in that each detector fulfils:
    - a step (405) of capturing a measurement of a physical quantity close to a sensor to output a signal representative of the said measurement,
    - a step (410) of detecting the presence of a fire by processing the signal outputted by the said sensor,
    - a step (415) of short-range wireless communication of a signal representative of the presence of a fire, and
    in that the communicating mobile terminal (30, 120, 220) fulfils:
    - a step (420) of receiving the signal communicated during the communication step (415),
    - a step (425) of displaying a message representative of the signal received,
    - a step (430) of configuring at least one parameter value of the processing carried out during the step (410) of detecting the presence of a fire and
    - a step (435) of wirelessly outputting a signal representative of each parameter value configured during the configuration step (430); and
    in that the detector further fulfils a step (440) of receiving the signal representative of each parameter value outputted during the emission step (435).
EP13824625.1A 2012-12-21 2013-12-23 Device for configuring a fire-detection system Active EP2936468B1 (en)

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FR1262690A FR3000271B1 (en) 2012-12-21 2012-12-21 FIRE DETECTION DEVICE
PCT/FR2013/053255 WO2014096747A1 (en) 2012-12-21 2013-12-23 Device for configuring a fire-detection system

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FR3000271A1 (en) 2014-06-27
WO2014096747A1 (en) 2014-06-26
EP2936468A1 (en) 2015-10-28
PL2936468T3 (en) 2017-04-28
FR3000271B1 (en) 2016-03-11
US20160225251A1 (en) 2016-08-04

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