JP2004192232A - Gas alarm device equipped with connection state detecting function - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a gas alarm device to issue warning in the case where a failure in connection with a microcomputer-controlled meter has occurred. <P>SOLUTION: The gas alarm device 10 is coupled with a microcomputer-controlled meter 20 having a function for regulating a gas flow rate. The alarm device monitors the state of connection with the microcomputer-controlled meter 20 and has a monitoring means 13 for judging whether the connection is normal or abnormal and a warning means 14 for issuing warning to a user when the connection is judged to be abnormal. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a gas alarm device used in conjunction with a microcomputer meter having a gas flow control function.
[0002]
[Prior art]
Gas alarms include city gas alarms (gas leak alarms, incomplete combustion alarms), LP gas alarms (gas leak alarms, CO alarms), etc., semiconductor sensors and contact combustion sensors. Detection of gas leakage, incomplete combustion, and CO is performed by such means.
[0003]
The microcomputer meter used in conjunction with the gas alarm device includes a II type, a C type, an L type, and an S type microcomputer meter integrating these. In particular, the S-type microcomputer meter is used in conjunction with the gas alarm device (connected by a signal line). When the gas alarm device is not connected, the shutoff valve is operated to shut off the gas, or It has an "alarm disconnection prevention function" that restricts use. Generally, connection confirmation with the gas alarm device is performed by outputting an alarm device non-connection detection signal to the gas alarm device from the microcomputer meter. The microcomputer meter sends an answer signal (power answer request) to the gas alarm device at regular intervals (generally every 10 minutes) in order to confirm whether the gas alarm device is in the energization monitoring state. Signal) and confirms a reply (alarm signal) to the answer signal from the gas alarm.
[0004]
A conventional gas alarm device includes a microcomputer capable of performing a process corresponding to an outlet disconnection signal output from the gas leak alarm device in a gas alarm system in which a gas leak alarm device and a microcomputer gas meter are connected. It is determined whether or not the signal is a power answer request signal from the gas meter. If it is determined that the power plug is unplugged after performing this determination means, the power plug unplug signal is transmitted to the microcomputer gas meter. There is a gas leak alarm characterized by having a means for outputting (for example, see Patent Document 1).
[0005]
[Patent Document 1]
JP-A-10-222780 (pages 2-4, FIG. 2)
[0006]
[Problems to be solved by the invention]
Generally, when a gas leak occurs in a state where the gas alarm device and the microcomputer meter are used in conjunction with each other, the microcomputer meter shuts off the gas based on a gas leak signal from the gas alarm device. Here, if a connection failure occurs due to a short circuit or disconnection due to water wetting, for example, a continuous ON signal will be input to the microcomputer meter, and the microcomputer meter will check the connection status with the gas alarm device. Is determined. However, if a gas leak occurs due to a poor connection, the signal from the gas alarm device is not transmitted to the microcomputer meter (the ON signal is continuously input due to a short circuit, etc.), so the gas is discharged while the gas leaks. It could not be shut off, which could result in a serious accident. Further, there is no conventional gas alarm device having a function of notifying a user when a connection failure occurs, and the above problem could not be solved.
[0007]
The present invention has been made in view of the above problems, and an object of the present invention is to notify a user when a failure occurs in connection between a gas alarm device and a microcomputer meter due to a short circuit or disconnection due to water wetting. In this way, a serious accident can be prevented from occurring and safety can be improved.
[0008]
[Means for Solving the Problems]
The first characteristic configuration of the gas alarm device according to the present invention for achieving this object is used in conjunction with a microcomputer meter having a gas flow control function as described in claim 1 of the claims. A gas alarm device, which monitors a connection state with the microcomputer meter, a monitoring unit that determines a normal state or a poor connection, and a warning unit that warns a user when the connection is determined to be bad, In that it has
[0009]
That is, according to the first feature configuration of the gas alarm device according to the present invention, when the connection state with the microcomputer meter is poorly connected, a warning is issued to the user of the equipment in which the gas alarm device is installed. A gas alarm device can be realized.
[0010]
The microcomputer meter performs gas flow control (gas shutoff) based on a gas leak signal from the gas alarm device. When a connection failure occurs due to a short circuit or disconnection due to wetness of the water, and a continuous ON signal is input to the input terminal for the gas alarm device of the microcomputer meter, the microcomputer meter determines that the connection failure has occurred. Here, when a connection failure occurs and a continuous ON signal is input to the microcomputer meter, and further an abnormality such as gas leakage occurs, the gas leak signal from the gas alarm device is not correctly transmitted to the microcomputer meter. Therefore, the microcomputer meter cannot properly control the gas flow rate, and may cause a serious accident.
[0011]
Therefore, as in the present configuration, a monitoring means for monitoring the connection state is provided, and a warning is given to the user when the connection is determined to be defective, so that the connection state of the gas leak alarm can be maintained normally, and the gas leakage can be maintained. The signal can always be appropriately transmitted to the microcomputer meter, and as a result, a serious accident can be prevented.
[0012]
In the second feature configuration, in addition to the first feature configuration, the monitoring unit may further include a signal output from the microcomputer meter at a predetermined interval, as described in claim 2 of the claims. Is monitored, the connection is determined to be defective when the signal is not received for a predetermined time, and the normal state is determined when the signal is detected a predetermined number of times.
[0013]
In general, a microcomputer meter has a function for confirming an energization monitoring state and a connection state of an alarm device, and outputs a constant signal at predetermined intervals. Therefore, as in the second characteristic configuration, by monitoring signals output at predetermined intervals, the connection state with the microcomputer meter can be easily confirmed without particularly changing the specifications of the gas alarm device. Can do things.
[0014]
It is desirable that the certain time until the connection is determined to be defective is set appropriately in accordance with the equipment provided with the gas alarm device. In addition, it is desirable that the number of times of receiving the answer signal for determining that the connection is normal after the connection is determined to be defective is set to a plurality of appropriate times to avoid erroneous determination.
[0015]
The third characteristic configuration is that, in addition to the second characteristic configuration, the signal is an answer signal or an alarm device non-connection detection signal, as described in claim 3 of the claims section.
[0016]
In general, a microcomputer meter outputs an alarm disconnection detection signal to determine whether or not an alarm is connected to the gas alarm to check the connection of the gas alarm, and the alarm monitors the energization. In order to confirm whether or not the apparatus is in the state, an answer signal (power answer request signal) is output to the gas alarm apparatus at predetermined intervals, for example, every 10 minutes, and a response (alarm) from the gas alarm apparatus is issued. Monitor signal).
[0017]
Therefore, as in the third characteristic configuration, by monitoring the answer signal or the alarm device non-connection detection signal output from the microcomputer meter at a predetermined interval, the connection state with the microcomputer meter is poor or normal. It can be determined whether it is in the state. Since the output of the answer signal and the alarm disconnection detection signal is a function provided in the microcomputer meter according to the standard, the connection status can be easily grasped by the gas alarm device without changing the specifications of the microcomputer meter. You can do it.
[0018]
The fourth feature configuration is, in addition to the second feature configuration or the third feature configuration, as described in claim 4 in the claims section, the warning unit is configured to determine whether the connection is poor, and Until it is determined that the state is normal, a warning is repeatedly and continuously given.
[0019]
When it is determined that the connection state with the microcomputer meter is poorly connected, it is desirable to quickly change the connection state to a normal state, but when the number of times of execution of the warning is limited within a certain period, etc. However, the user may not be able to grasp the warning for some reason, and it may not be possible to take appropriate measures. Therefore, as in the fourth characteristic configuration, by continuously and repeatedly performing the warning until the connection state returns to the normal state, it is possible to realize a gas warning device that performs the warning more reliably and appropriately.
[0020]
In the fifth characteristic configuration, as described in claim 5 of the claims, in addition to the fourth characteristic configuration, the warning unit is determined to be a connection failure, and issues a warning for the connection failure. If an abnormality is detected during the operation, a warning of the abnormality is given priority.
[0021]
When an abnormality such as connection failure and gas leakage or incomplete combustion occurs, it can be said that it is preferable to simultaneously issue a warning about connection failure and a warning about gas leakage. However, due to restrictions on the gas alarm device (restrictions on the mold and ease of installation, etc.), it is difficult for the user to recognize which warning is given when the warning about the connection failure and the warning about the gas leak are given at the same time. In some cases, only one of the warnings can be performed. In such a case, it is necessary to give priority to one of the warning for the connection failure and the warning for the gas leak.
[0022]
Here, abnormalities such as gas leaks and incomplete combustion have a much higher necessity and urgency than warnings, such as poor connection, and may cause serious accidents if warnings are not properly implemented. is there. For this reason, it is necessary to give a warning for gas leakage prior to a warning for poor connection. Therefore, as in the fifth characteristic configuration, by giving priority to a warning for an abnormality such as a gas leak, the warning can be more appropriately performed, and the safety of the gas alarm device according to the present invention can be improved. Can be increased.
[0023]
When a connection failure with the microcomputer meter also occurs at the same time, it is desirable that the warning for the connection failure be restarted after the failure is resolved and the warning for the failure is terminated. Since the microcomputer meter performs gas flow control based on a gas leak signal from the gas alarm device, if the connection state is poorly connected, it is not possible to perform gas flow control properly and safety is reduced. It is because it is damaged.
[0024]
In the sixth feature configuration, as described in claim 6 in the claims section, in addition to the first feature configuration to the fifth feature configuration, the warning unit may include a plurality of notifications provided in advance. The point is to issue a warning using a means.
[0025]
Since the gas alarm device is provided with a plurality of warning means such as a display lamp and a sound output function in advance, as in the sixth characteristic configuration, by using these warning means alone or in combination, It is possible to realize a gas alarm device that can issue a warning about a connection failure without adding a new device, that is, while suppressing the cost for adding a function for the connection failure.
[0026]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of a gas alarm device according to the present invention (hereinafter, abbreviated as “the present device” as appropriate) will be described with reference to the drawings.
[0027]
As shown in FIG. 1, a gas alarm device 10 according to the present invention is an integrated gas leak alarm device in which a gas sensor 11 and an alarm unit 12 are stored in the same case, and includes a sound output unit 15 and an indicator lamp 16, It has a connection terminal for a microcomputer meter, and is connected to the microcomputer meter 20 via a signal line 40.
[0028]
The microcomputer meter 20 is an S-type microcomputer meter and includes a measuring unit 21, a control unit 22, a display unit 23, and a terminal for a gas leak alarm device, and is configured to be connectable to a gas leak alarm device via a signal line 40. I have. The S-type microcomputer meter 20 further has an alarm disconnection preventing function that closes the gas shut-off valve 30 when the gas alarm device 10 is not connected so that gas cannot be used. Generally, the S-type microcomputer meter 20 outputs an alarm disconnection detection signal to the gas alarm device 10 in order to check the connection state with the gas alarm device 10, and checks the energization monitoring state of the gas alarm device 10. In order to confirm the above, a power answer request signal is output to the gas alarm device 10 at a predetermined interval, in this embodiment, every 10 minutes, and the alarm answer signal from the gas alarm device 10 is monitored. If the alarm answer signal is not received continuously for a predetermined number of times or more, it is determined that the gas alarm device 10 is not connected, and the gas flow rate is restricted (the gas is cut off).
[0029]
The metering unit 21 of the S-type microcomputer meter 20 monitors the gas flow rate and outputs a flow rate pulse to the control unit 22. The control unit 22 controls the shut-off valve 30 based on the flow rate pulse from the metering unit 21 and the signal (flow rate pulse, gas leak signal, alarm signal answer signal, alarm signal disconnection detection signal, etc.) from the device 10 of the present invention. Control and control of the display unit 23 are performed. For example, the flow rate pulse from the measuring unit 21 is monitored to measure the flow rate, it is determined whether the use state is normal or abnormal, and when it is determined that the use state is abnormal, the shutoff valve 30 is controlled to shut off the gas and the display unit 23 displays the contents of the warning. When a gas leak signal is received from the device 10 of the present invention, the shut-off valve 30 is controlled to shut off gas, and the display unit 23 displays the content of the warning (gas leak). In addition, it performs control related to the alarm device non-connection prevention function, output control of a power supply answer request signal, monitoring of an alarm device answer signal, and the like. The display unit 23 uses an LCD (Liquid Crystal Display) or an LED (Light Emitting Diode), and displays an integrated value of gas usage, and displays security-related information at the time of gas leak detection, such as a display of a reason for shutting down or a warning.
[0030]
Next, a first embodiment of the gas alarm device 10 according to the present invention will be described with reference to FIG. As shown in FIG. 1, the device 10 of the present invention includes a gas sensor 11, an alarm unit 12, a monitoring unit 13, a warning unit 14, an audio output unit 15, and an indicator light 16.
[0031]
The gas sensor 11 is a semiconductor sensor or a contact combustion sensor, and monitors the concentration of gas. The alarm unit 12 issues a warning for gas leakage based on a signal from the gas sensor 11. Specifically, when a gas leak is detected by the gas sensor 11 (when the gas concentration exceeds a certain amount), The sound output means 15 is used to output a buzzer sound or a sound such as "Is gas leaking?", And turn on the indicator lamp 16 for displaying an abnormality.
[0032]
The monitoring unit 13 monitors a connection state with the S-type microcomputer meter 20 and determines a normal state or a connection failure. In the present embodiment, specifically, a power answer request signal output from the S-type microcomputer meter 20 at predetermined intervals is monitored, and the power answer If no signal is received, it is determined that the connection is poor. When a connection failure occurs or immediately after power-on, the power-answer request signal is detected a predetermined number of times, in this embodiment, three times in succession, and it is determined that the signal is in a normal state.
[0033]
The warning means 14 uses a plurality of notification means (sound output means 15 and indicator light 16 in this embodiment) provided in advance in the apparatus 10 of the present invention. A warning is repeatedly and continuously given until it is determined that the state is normal. In the present embodiment, when a gas leak is detected during the execution of the warning, the urgency and necessity of the warning for the gas leak are high, so that the warning of the gas leak by the warning unit 12 is prioritized.
[0034]
Next, a warning mode of the device 10 of the present invention will be described with reference to FIGS. FIG. 2 is a state transition diagram showing a display state of the device 10 of the present invention. FIG. 3 is a diagram showing an indicator lamp 16 (power lamp and alarm lamp), an input signal from the S-type microcomputer meter 20 (power answer request signal, etc.), and S It shows the output signal (warning answer signal etc.) to the type microcomputer meter 20 and the output of the warning sound (warning sound from the sound output means 15) of the warning device. Here, T6 in FIG. 3 represents a power answer request signal sent from the S-type microcomputer meter 20, and T7 represents an alarm answer signal which is a reply to the power answer request signal.
[0035]
The device 10 of the present invention checks the power answer request signal for 30 minutes after the power is turned on, detects the connection to the S-type microcomputer meter 20 by receiving the power answer signal, and enters the linked operation mode. Thereafter, the power supply answer request signal is monitored to check the connection state with the S-type microcomputer meter 20. Specifically, after turning on the power, the monitoring unit 13 determines the connection with the microcomputer meter by receiving the power answer request signal three times, and determines that the connection state with the microcomputer meter is normal (state # 101). ). At this time, as shown in FIG. 3 (from power-on to connection failure determination), the power lamp (green) is on and the alarm lamp (red) is off.
[0036]
If the power supply answer request signal is not received continuously for 24 hours in state # 101, the monitoring means 13 determines that the connection is poor (state # 102). At this time, as shown in FIG. 3 (from the determination of the connection failure to the fall of the T6 signal), the warning unit 14 repeatedly turns on and off the power lamp and the warning lamp at 2 Hz, and outputs a buzzer sound. Give a warning. In addition, when a voice output function is provided, a synthesized voice is output. In state # 102, if the power supply answer request signal is received three times in succession and the monitoring means 13 determines that the state is normal, the state transits to state # 101 and the warning is released.
[0037]
The warning method for the connection failure is not limited to the above-described method, and the device 10 of the present invention may be provided with a dedicated indicator light 16 or the like. However, from the viewpoint of cost, ease of installation, and the like, it is preferable that the configuration be such that the notification means (the sound output means 15 and the indicator 16) provided in advance is used in combination. Further, the time until it is determined that the connection is poor is not limited to 24 hours, and may be set arbitrarily according to the conditions in which the gas alarm device 10 is installed. Furthermore, in the present embodiment, the number of times the power supply answer request signal is received until it is determined to be normal is set to three in order to prevent erroneous recognition. However, the present invention is not limited to this. Any number of times may be set, but it is desirable that the number be a plurality of times in order to prevent erroneous recognition.
[0038]
When gas leak is detected by the gas sensor 11 in either the state # 102 or the state # 101, the monitoring unit 13 determines that a gas leak has occurred (state # 103). In state # 103, the warning unit 14 turns on the power lamp and the warning lamp, outputs a buzzer sound, and issues a warning. If a voice output function is provided, a synthesized voice such as "Is gas leaking?" Is output, and a warning is issued so that the difference from a poor connection becomes clear. In state # 103, when the gas concentration falls below the predetermined reference value and the alarm is released, the state transits to state # 101 if the connection state is normal and to state # 102 if the connection is poor. I do.
[0039]
Here, in the present embodiment, a warning for gas leakage is given priority over a warning for poor connection (in state # 102, a transition to state # 103 occurs when gas leakage occurs). This is because the warning for gas leak is more urgent and necessary than the warning for poor connection. With this configuration, both the warning for gas leak and the warning for poor connection are provided. It can be implemented properly and can prevent serious accidents before they occur.
[0040]
It is sufficient that the warning for the gas leakage and the warning for the connection failure can be clearly distinguished for the user. If possible, if both the connection failure and the gas leakage occur, the connection failure and the connection failure are determined. The warning for both gas leaks may be implemented at the same time.
[0041]
The second embodiment of the gas alarm device 10 according to the present invention monitors an alarm device non-connection detection signal instead of the power supply answer request signal of the first embodiment, and determines the connection failure and the normal state of the alarm device. Do. The S-type microcomputer meter 20 outputs an alarm device non-connection detection signal for detecting the non-connection state of the gas alarm device 10 at about once / minute, and by monitoring this, the S-type microcomputer meter 20 It can be determined whether or not the gas alarm device 10 is connected.
[0042]
Here, in general, since the pulse width of the alarm disconnection detection signal is very short, it is difficult to detect the signal due to the circuit configuration, and it is easier to construct the device of the present invention than the power supply answer request signal. is not. For this reason, it is desirable to use a power supply answer request signal. However, when the device of the present invention can sufficiently detect the pulse of the alarm device non-connection detection signal, it is configured to monitor the alarm device non-connection detection signal. Is also good.
[0043]
In the above-described first embodiment, the power supply answer request signal is monitored, and in the second embodiment, the alarm device non-connection detection signal is monitored to check the connection state with the S-type microcomputer meter 20, but the present invention is not limited to this. Alternatively, any signal output from the microcomputer meter at predetermined intervals may be used.
[0044]
In the first and second embodiments, the integrated gas leak alarm device in which the gas sensor 11 (gas detection unit) and the alarm unit 12 are housed in the same case has been described as an example. However, the present invention is applicable to any gas alarm device such as a separated gas leak alarm device in which the gas sensor 11 and the alarm unit 12 are stored in separate cases and connected by signal lines, an incomplete combustion alarm device, a CO alarm device, and the like. can do. Further, the gas sensor 11 is not limited to a semiconductor sensor or a contact combustion type sensor. Further, the S-type microcomputer meter 20 is used as a meter connected to the gas alarm device 10, but is not limited thereto. As a meter to be used, a microcomputer meter having an alarm device non-connection prevention function for confirming connection with the gas alarm device 10 is preferable. Any of the above configurations can achieve the object of the present invention.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of a gas alarm device according to the present invention. FIG. 2 is a state transition diagram showing a warning display mode of the gas alarm device according to the present invention. FIG. 3 is a gas alarm device according to the present invention. Diagram of signal waveform of [Description of reference numerals]
DESCRIPTION OF SYMBOLS 10 Gas alarm device 11 Gas sensor 12 Alarm part 13 Monitoring means 14 Warning means 15 Sound output means 16 Indicator light 20 Microcomputer meter 21 Metering part 22 Control part 23 Display part 30 Shut-off valve 40 Signal line

Claims (6)

A gas alarm device used in conjunction with a microcomputer meter having a gas flow control function,
Monitoring means for monitoring the connection state with the microcomputer meter and determining a normal state or a connection failure,
A warning device for warning a user when the connection is determined to be defective. The monitoring unit monitors a signal output from the microcomputer meter at a predetermined interval, determines that the connection is defective when the signal is not received for a predetermined time, and determines that the signal is detected a predetermined number of times. The gas alarm device according to claim 1, wherein the gas alarm device is determined to be in a normal state. The gas alarm device according to claim 2, wherein the signal is an answer signal or an alarm device non-connection detection signal. The gas alarm device according to claim 2, wherein the warning unit repeatedly and continuously issues a warning after the connection is determined to be defective until the next determination is made that the connection is normal. 5. The gas alarm device according to claim 4, wherein the warning unit determines that the connection is defective and, when an abnormality is detected while performing the warning for the connection failure, gives priority to the abnormality warning. The gas alarm device according to claim 1, wherein the alarm unit issues an alarm using a plurality of notification units provided in advance.

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