JP3632908B2 - Fire alarm, fire alarm processing method and recording medium storing fire alarm processing program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a fire alarm, in particular, a heat-sensitive fire alarm, and more specifically, a composite alarm device in which a gas detector having a temperature compensation function or a smoke detector having the same function is mounted. The present invention relates to a fire alarm intended to improve the reliability of fire alarms.
[0002]
[Prior art]
Generally, a temperature detection element such as a thermistor is an element that changes a physical characteristic such as a resistance value in accordance with a change in ambient temperature, and a heat detection type fire alarm uses a temperature detection element having such a characteristic. Determine fire. In other words, a heat-sensing fire alarm takes the voltage across the temperature sensing element as a temperature sensing voltage, and when the temperature sensing voltage exceeds a reference voltage equivalent to the environmental temperature at the time of the fire, the required fire alarm It is something that emits.
[0003]
[Problems to be solved by the invention]
However, since the conventional heat detection type fire alarm has only a single temperature detection element, if any trouble occurs in the temperature detection element, the temperature detection can no longer be performed, or However, only the inaccurate temperature detection can be performed, and there is a problem in that the former causes misreporting, and the latter causes misreporting.
[0004]
In view of the above, the present invention has recently been used in combination with a heat detection type fire alarm device in which a combined alarm device incorporating a gas detection unit, a smoke detection unit, and the like, and these gas detection unit and smoke detectors. Focusing on the fact that the detection unit has a temperature compensation function and that one of the components of the temperature compensation function is a temperature detection element, using the temperature detection element of the temperature compensation function, a fire determination function The purpose of this is to improve the reliability of fire alarms.
[0005]
[Means for Solving the Problems]
The present invention provides a fire alarm including a heat-sensing fire detection unit and a temperature compensation unit that generates a temperature compensation voltage for performing temperature compensation of an arbitrary internal circuit, and outputs from the fire detection unit. A main fire determination unit that determines a fire based on the fire detection voltage and a secondary fire determination unit that determines a fire based on the temperature compensation voltage.
In the present invention, in addition to the main fire determination based on the fire detection voltage, the secondary fire determination based on the temperature compensation voltage is performed.
Alternatively, the preferable aspect further includes an abnormality determination unit that determines an abnormality of the fire detection voltage, and when the abnormality determination unit determines an abnormality of the fire detection voltage, the determination result of the main fire determination unit is Instead, the determination result of the secondary fire determination unit is employed.
Alternatively, a preferred aspect is characterized in that the abnormality determination means determines an abnormality of the fire detection voltage when a difference between the fire detection voltage and the temperature compensation voltage is more than a predetermined value.
Alternatively, a preferred aspect is characterized in that the temperature compensation unit generates a temperature compensation voltage for compensating the temperature dependence of the detection element of the gas detection unit or the smoke detection unit.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings, taking as an example a composite alarm device that detects fire and gas leakage.
FIG. 1 is an example configuration diagram of a composite alarm device (hereinafter simply referred to as “alarm device”). The alarm device 1 corresponding to the fire alarm device described in the gist of the invention has a detection voltage from the fire detection unit 2, the gas leak detection unit 3, and each detection unit inside a case having an arbitrary shape that can be attached to a wall or a ceiling. The central control unit 6 that performs fire determination processing, gas leak determination processing, and the like based on the above, the lamp drive unit 7 that drives various alarm lamps according to the determination results, generates a sound alarm according to the determination results, and outputs to the loudspeaker 12 The sound alarm unit 11 and a power supply unit 13 for supplying power to each unit are mounted and configured. Here, there are three types of alarm lamps shown in the figure: a power lamp 8, a fire alarm lamp 9, and a gas leak alarm lamp 10, but the present invention is not limited to this. An appropriate type of alarm lamp corresponding to the alarm type may be provided.
[0007]
The fire detection unit 2 includes a heat detection type temperature detection element. That is, as shown in FIG. 2 (a), the most fundamental configuration is that in which a fixed resistance element 2a and a temperature detection element 2b are connected in series between the power supply voltage E and the ground, and the temperature detection element 2b. Is taken out as the temperature detection voltage Va. As the temperature detection element 2b, for example, a thermistor (official name: a thermally sensitive register) can be used among elements that change the physical characteristics of the temperature detection element 2b as the ambient temperature changes. This is because the resistance value of the thermistor is temperature-dependent, and for example, a negative temperature coefficient thermistor (NTC) type thermistor has a negative temperature characteristic in which the resistance value decreases as the temperature rises.
When an NTC type thermistor is used for the temperature detection element 2b shown in the drawing, the temperature detection voltage Va exhibits a characteristic that the voltage value decreases as the ambient temperature increases. Therefore, the occurrence of a fire can be determined when the temperature detection voltage Va falls below a reference voltage (fire determination threshold voltage) corresponding to the environmental temperature at the time of the fire.
[0008]
In addition, as the temperature detection element, in addition to this, a temperature sensitive resistance element called CTR (Critical Temperature Resistor), a current collecting type infrared sensor, a platinum wire thermocouple, an infrared photodiode, a thermal fuse (microtemp) thermopaint, Various devices such as IC temperature sensors are known, but in short, any element that changes physical characteristics such as resistance value with changes in ambient temperature is necessary, taking sensitivity, response characteristics, cost, etc. into consideration. Thus, an appropriate element may be used for the temperature detection element 2b.
[0009]
On the other hand, the gas leak detection part 3 is comprised by the gas detection part 4 and the temperature compensation part 5, and these most fundamental structures are shown by FIG.2 (b) and (c). In FIG. 2 (b), the gas detection unit 4 has a fixed resistance element 4a and a gas detection element 4b connected in series between the power supply voltage E and the ground, and the voltage across the gas detection element 4b is used as the gas detection voltage. It is taken out as Vb. For example, an oxidation reaction type gas detection element can be used as the gas detection element 4b among elements that change the physical characteristics of the gas detection element 4b according to changes in ambient gas concentration. This detection element has a temperature characteristic that when an oxidation reaction proceeds with contact with a combustible gas such as city gas, the resistance value changes due to the reaction heat. Therefore, the gas detection voltage Vb is lower than the explosion lower limit. Gas leakage can be determined when the reference voltage corresponding to the gas concentration (threshold voltage for gas leakage determination) is exceeded.
[0010]
By the way, the voltage across the gas detection element 4b (gas detection voltage Vb) depends on the resistance value of the gas detection element 4b, and the resistance value has a required temperature characteristic. Temperature compensation) is essential. In an extreme case, the gas detection voltage Vb changes due to the flame heat at the time of the fire, and if correction is not performed, a false report of gas leak will be issued despite the fact that no gas leak has occurred. This is because the initial countermeasure is mistaken.
[0011]
The temperature compensation unit 5 is a component for generating the temperature compensation voltage Vc necessary for the correction. That is, the temperature compensation unit 5 is disposed in the vicinity of the gas detection element 4b, and the most fundamental configuration thereof is a fixed resistor between the power supply voltage E and the ground as shown in FIG. The element 5a and the temperature detection element 5b are connected in series, and the voltage across the temperature detection element 4b is taken out as the temperature compensation voltage Vc. As the temperature detection element 5b, for example, a thermistor can be used among the elements that change the physical characteristics of the temperature detection element 5b in accordance with the change in the ambient temperature. When an NTC type thermistor is used, the temperature compensation voltage Vc exhibits a characteristic that the voltage value decreases as the ambient temperature rises. Therefore, the threshold for gas leakage determination is determined using this temperature compensation voltage Vc. By changing the value voltage, it is possible to avoid the above-mentioned inconvenience (misinformation of gas leakage).
[0012]
Here, it should be noted that the illustrated alarm device 1 is provided with double elements (temperature detection elements) that change physical characteristics such as resistance values in accordance with changes in ambient temperature. It is in. That is, the temperature detection element 2b of the fire detection unit 2 and the temperature detection element 5b of the temperature compensation unit 5 are provided. The present invention has been devised by paying attention to such a point, and is a pseudo-multiplexed configuration of the temperature detection element 2 of the fire detection unit 2 which is one of the most important parts indispensable for a fire alarm. Therefore, even if any trouble occurs in the temperature detection element 2 of the fire detection unit 2, the alarm reliability is improved by avoiding the false alarm and misreport of the fire alarm.
[0013]
Hereinafter, technical matters for achieving this intention will be described in detail by taking, as an example, a case where an NTC type thermistor is used as the temperature detection element.
FIG. 3 is an internal block diagram of the central control unit 6. The central control unit 6 includes a CPU 21, and is configured by connecting a ROM 23, a RAM 24, an input port 25, an output port 26, an EPROM 27 (or a battery backup RAM) to the CPU 21 via a bus 22. The input port 25 converts output voltages (fire detection voltage Va, gas detection voltage Vb, and temperature compensation voltage Vc) from the fire detection unit 2, gas detection unit 4, and temperature compensation unit 5 into digital voltages, and passes through the bus 22. To the CPU 21. The CPU 21 captures these digital voltages (represented by Va, Vb, and Vc for convenience) and develops and executes the control program stored in the ROM 23 in the RAM 24 to execute a fire determination process, a gas leak determination process, and a temperature. Necessary processing defined by the control program such as compensation processing is executed, and signals (Da, Db) corresponding to the execution result are sent to each unit (lamp drive unit 7 and sound alarm unit 11) via the output port 26. Output.
[0014]
FIG. 4 is a diagram schematically showing functional blocks implemented by software in the central control unit 6. The functional blocks include a fire determination unit 6 a, a gas leak determination unit 6 b, a gas leak determination correction unit 6 c, and an alarm. It can be divided into the generator 6d. The fire determination unit 6a corresponds to the main fire determination unit, the secondary fire determination unit, and the abnormality determination unit described in the gist of the invention. The fire detection voltage Va and the fire determination threshold voltage (fire determination threshold voltage of the thermistor for fire detection) (SLb) and the gas detection element temperature compensation thermistor fire determination threshold (SLc)), and a fire occurs when the fire detection voltage Va is lower than the fire determination threshold voltage The gas leak determination unit 6b compares the gas detection voltage Vb with the gas leak determination threshold voltage, and the gas detection voltage Vb exceeds the gas leak determination threshold voltage. In this case, the occurrence of gas leakage is determined. Further, the gas leak determination correction unit 6c variably sets the gas leak determination threshold voltage based on the temperature compensation voltage Vc. The alarm generator 6d generates a signal (Da) for turning on an appropriate alarm lamp at the time of fire determination or gas leak determination, and generates an appropriate sound alarm phrase signal (Db).
[0015]
Now, in such a configuration, the “fire determination process” of the fire generating unit 6a is sequentially executed according to a flowchart as shown in FIG. 5, for example. In this flowchart using an NTC type thermistor as an example of the temperature detection element, first, the fire detection voltage Va at that time is taken in (step S11), and then the taken-in Va and failure determination threshold value (SLa). If Va ≧ SLa is not satisfied, then Va and the fire detection threshold voltage (SLb) of the thermistor for fire detection are compared (step S13), and Va ≦ SLb is satisfied. In this case, the process of outputting a fire alarm (step S14) is repeatedly executed.
[0016]
Here, the threshold value SLa used in step S12 is a threshold value for determining abnormality of the fire detection voltage Va, for example, a threshold value for determining a disconnection failure of the temperature detection element 2a of the fire detection unit 2. . The preferred value of SLa can be set through trial and error through various experiments. For example, when considering a room in a general house, since a temperature such as −30 ° C. is difficult to consider, a voltage value corresponding to about −30 ° C. can be set as a threshold voltage for failure determination.
[0017]
Now, when the configuration of the fire detection unit 2 is the configuration of FIG. 2A described above, when a disconnection failure occurs in the temperature detection element 2b, the temperature detection signal Va is raised to a potential level substantially corresponding to the power supply voltage E. Therefore, by setting SLa slightly lower than the power supply voltage E, it is possible to determine the disconnection failure of the temperature detection element 2b. That is, in this case, since Va is lower than SLa, the determination result in step S11 is “YES”, and it is possible to determine the trouble of the temperature detection element 2b. The fire determination alternative process described below is executed. be able to.
[0018]
In the fire determination substituting process, first, a failure alarm is output to clearly indicate that some trouble has occurred in the temperature detection element 2b of the fire detection unit 2 (step S15). This failure alarm may be, for example, an alarm mode that causes the power lamp 8 to blink, or may be an alarm mode that outputs a voice message such as “A failure has occurred in the fire detection unit”. Good. Once the required failure alarm is given, the temperature compensation voltage Vc is then taken in (step S16). As described above, the temperature compensation voltage Vc is a voltage corresponding to the ambient temperature and can be used as an alternative to the temperature detection voltage Va. Therefore, the temperature compensation voltage Vc and the temperature compensation thermistor fire. The determination threshold value (SLc) is compared (step S17), and if Vc ≦ SLc, an alternative fire alarm is output (step S18). Here, the thermistor for gas detection element temperature compensation is inside the alarm device and becomes higher than the outside air temperature detected by the external fire detection thermistor, so it is necessary to provide a threshold that takes into account the rise in internal temperature There is. When there is a heat source (for example, a transformer) inside the alarm device, it has been confirmed that the temperature inside the alarm device is about 10 ° C. higher than the outside air. Therefore, if the fire determination threshold value (SLb) of the thermistor for fire detection is, for example, a voltage corresponding to 60 ° C., the fire determination threshold value (SLc) of the thermistor for gas detection element temperature compensation corresponds to 70 ° C. The voltage to be used may be used.
[0019]
As described above, in the present embodiment, when any trouble occurs in the temperature detection element 2b of the fire detection unit 2, the voltage across the temperature detection element 5b (temperature compensation voltage Vc) of the temperature compensation unit 5 is used as an alternative. Thus, a fire determination can be made. Therefore, it is possible to realize the alarm device 1 having the redundancy as if the temperature detection element 2b of the fire detection unit 2 is multiplexed, and the reliability is greatly improved by avoiding the false alarm and the false alarm of the fire alarm. In addition to obtaining a special effect that it can be improved, in order to obtain such an effect, only a part of the software needs to be reworked, and there is also a beneficial manufacturing advantage that the number of parts does not increase at all.
[0020]
In addition, this invention is not limited to said embodiment, Of course, various modifications are included in the intended range. For example, consider a case where a thermistor for fire detection has deteriorated or dust or the like has adhered significantly. In such a case, although it is not a failure, it cannot be said that it is appropriate as an element for determining a fire. Therefore, similarly to the above-described embodiment, a gas detection element temperature compensation thermistor is used instead for a fire determination.
FIG. 6 is a main part flowchart of the “fire determination process” in the above embodiment, and even when the fire detection voltage Va is determined to be normal in step S12, the temperature compensation voltage Vc is continuously read (step S21) and a difference (ΔV) calculation between Vc and Va (step S22), and if ΔV is not less than or equal to a predetermined reference value (Vref), it is determined that the fire detection voltage Va is abnormal. It is a thing.
According to this, when ΔV ≦ Vref is not satisfied, that is, when the fire detection voltage Va and the temperature compensation voltage Vc are greatly different from Vref, for example, a difference of 20 ° C. or more is considered in consideration of element variation. In some cases, it is determined that there is an abnormality in the fire detection voltage Va, and step S15 and subsequent steps of the failure alarm are executed. Therefore, there is an advantage that the abnormality determination of the fire detection voltage Va can be reliably performed. . Therefore, reliability is improved without delaying actual fire detection.
[0021]
Moreover, in the said embodiment, although the composite type alarm device provided with the gas leak detection part was taken as an example, for example, the composite type alarm device provided with the photoelectric type smoke detection part may be used. . The light emitting element of the photoelectric smoke detector also has a temperature dependency in which the light emission luminance changes with the ambient temperature, and has a configuration similar to that in FIG. 2C for correcting (compensating) this temperature dependency. This is because the temperature compensation unit is provided.
[0022]
【The invention's effect】
According to the present invention, in addition to the main fire determination based on the fire detection voltage, the secondary fire determination based on the temperature compensation voltage is performed. Therefore, for example, even if a trouble occurs in the detection element of the fire detection unit, the determination operation can be continued by the subsequent fire determination, and it is possible to improve the reliability of the fire alarm by avoiding misreports and false alarms of the fire alarm. it can.
Further, according to a preferred aspect, when the abnormality of the fire detection voltage is determined, the secondary fire determination result is adopted instead of the main fire determination result, so that the continuity of the determination operation can be reliably obtained. it can.
Moreover, when the difference between the fire detection voltage and the temperature compensation voltage is more than a predetermined value, the abnormality of the fire detection voltage can be determined more reliably by determining the abnormality of the fire detection voltage.
In addition, by using the temperature compensation voltage output from the temperature compensation unit for the gas detection unit or smoke detection unit for fire determination, the alarm reliability of the combined alarm device equipped with these gas detection unit or smoke detection unit Therefore, the advantage of the composite alarm device in the market can be secured.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an example of a composite type alarm device.
FIG. 2 is a most basic configuration diagram of a fire detection unit 2, a gas detection unit 4 and a temperature compensation unit 5;
FIG. 3 is an internal block diagram of the central control unit 6;
FIG. 4 is a diagram schematically showing functional blocks realized by software in the central control unit 6;
FIG. 5 is a diagram showing a flowchart of a fire determination processing program executed in a fire generating unit 6a.
FIG. 6 is a view showing a main part flowchart of an improved fire determination processing program executed in a fire generating part 6a.
[Explanation of symbols]
Va Fire detection voltage Vc Temperature compensation voltage 1 Combined type alarm (fire alarm)
2 Fire detection unit 4 Gas detection unit 5 Temperature compensation unit 6a Fire determination unit (main fire determination unit, secondary fire determination unit, abnormality determination means)

Claims (6)

While equipped with a heat-sensitive fire detection unit,
In a fire alarm equipped with a temperature compensation unit that generates a temperature compensation voltage for temperature compensation of an arbitrary internal circuit,
A main fire determination unit for determining a fire based on the fire detection voltage output from the fire detection unit;
A secondary fire determination unit for determining a fire based on the temperature compensation voltage;
A fire alarm characterized by comprising. Furthermore, an abnormality determining means for determining an abnormality of the fire detection voltage is provided,
The determination result of the secondary fire determination unit is adopted instead of the determination result of the main fire determination unit when the abnormality of the fire detection voltage is determined by the abnormality determination unit. Item 1. A fire alarm according to item 1. 3. The fire alarm according to claim 2, wherein the abnormality determination means determines an abnormality of the fire detection voltage when a difference between the fire detection voltage and the temperature compensation voltage is greater than a predetermined value. . The fire alarm according to claim 1, wherein the temperature compensation unit generates a temperature compensation voltage for compensating temperature dependence of a detection element of the gas detection unit or the smoke detection unit. A first step of determining a fire based on a fire detection voltage output from a heat-sensing fire detection unit;
A second step of determining a fire based on a temperature compensation voltage output from a temperature compensation unit provided at least near the fire detection unit;
A third step of determining an abnormality of the fire detection voltage,
When an abnormality of the fire detection voltage is determined in the third step,
A fire alarm processing method characterized by adopting the determination result of the second step instead of the determination result of the first step. A first step of determining a fire based on a fire detection voltage output from a heat-sensing fire detection unit;
A second step of determining a fire based on a temperature compensation voltage output from a temperature compensation unit provided at least near the fire detection unit;
A third step of determining an abnormality of the fire detection voltage,
When an abnormality of the fire detection voltage is determined in the third step,
A recording medium storing a program configured to adopt the determination result of the second step instead of the determination result of the first step.

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