JP3547036B2 - Input interface device and automatic notification device using the same - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an interface for receiving a voltage signal and a non-voltage signal via a common signal input line, and more particularly, to a voltage input circuit and a signal input line for receiving a voltage signal by sharing an input with the signal input line. An automatic notification device that has a no-voltage input circuit that receives a no-voltage signal by sharing an input with a signal input line and a no-voltage signal that performs a predetermined notification operation in response to reception of these no-voltage signals or no-voltage signals It is provided between the input terminal of the input circuit and between the signal input line and the input terminal of the no-voltage input circuit, and automatically receives and receives a voltage signal or a no-voltage signal sent using the same signal input line. The present invention relates to an interface to be passed to a notification device.
[0002]
The present invention also relates to an automatic notification device using the input interface of the present invention, which performs a predetermined notification operation in response to receiving a voltage signal generated by a gas leak alarm or a no-voltage signal generated by a switch.
[0003]
[Prior art]
FIG. 7A is a functional block diagram for explaining a conventional automatic notification device.
[0004]
Conventional input interface devices and automatic notification devices of this type include, for example, those shown in FIG.
[0005]
The automatic notification device 9 shown in FIG. 7A serves as an interface for receiving a voltage signal and a non-voltage signal via a common signal input line, and the gas leak alarm device 6 shares an input with the signal input line to allow the gas leak alarm device 6 to receive the signal. It has a voltage input circuit 2 for receiving a voltage signal to be generated and a voltageless input circuit 4 for receiving a voltageless signal by sharing an input with the signal input line, and receiving these voltage signals and voltageless signals. Accordingly, the microcomputer meter 1 is instructed to control the shutoff of the gas shutoff valve 1B provided in the gas supply passage 1A in order to shut off the gas flow in the gas supply passage 1A.
[0006]
On the other hand, in the above-described device configuration, there may be a need to notify the automatic notification device 9 that the external switch has been pressed.
[0007]
FIG. 7B is a functional block diagram for explaining a connection configuration when an external switch is added in the automatic notification device 9 of FIG. 7A.
[0008]
That is, in the automatic notification device 9 of FIG. 7A, in addition to the function of performing a predetermined notification operation in response to the reception of the voltage signal generated by the gas leak alarm device 6, the non-voltage signal generated by the external switch 8 When a function of performing a predetermined notification operation in response to the reception of the information is provided, the construction cost of the external switch 8 is reduced, and the construction hole to be drilled in the wall of the house is not desired to be as large as possible (preferably, the construction hole is not desired). For the reasons described above, the existing signal input line in the device configuration of the existing gas leak alarm 6 and the automatic notification device 9 shown in FIG. 7A is further connected to an external switch as shown in FIG. 8 is connected in parallel with the gas leak alarm 6, and at the same time, an existing signal input line is connected to the input stage of the no-voltage input circuit 4.
[0009]
Here, specifically, the gas leak alarm 6 having a voltage characteristic always generates a potential of 6 V as a voltage signal in a normal state, and causes such as a disconnection of the outlet of the gas leak alarm 6 or a power failure. It has a function of generating a zero potential (specifically, a ground potential) as a voltage signal when a gas leak alarm 6 is generated, and generating a 12 V potential as a voltage signal when a gas leak is detected. are doing.
[0010]
By using such a connection form to the external switch 8, construction costs can be reduced and the automatic notification device 9 can be notified that the external switch 8 has been pressed, without drilling a construction hole in the wall of the house. Had the effect of becoming
[0011]
Further, in the conventional automatic notification device 9, when the external switch 8 is pressed, a light emitting circuit is provided for confirming whether or not a contact of the external switch 8 is closed and a switch signal is generated at the time of pressing. Was sometimes done.
[0012]
FIG. 9 is a circuit diagram for explaining a basic circuit configuration of a light emitting circuit in the automatic notification device of FIG. The light emitting circuit 7 shown in FIG. 9 is configured around a DC power supply (specifically, a battery Batt) and a light emitting element (specifically, an LED) connected between signal input lines in parallel with the external switch 8. It had been. A diode was connected in series to the light emitting element LED.
[0013]
When the external switch 8 is pressed, a closed loop is formed by the battery Batt, the light emitting element LED, and the external switch 8 in the closed state. As a result, the light emitting element LED emits light when the external switch 8 is pressed.
[0014]
[Problems to be solved by the invention]
However, in the conventional automatic notification device 9 as shown in FIG. 7B, there is a possibility that the voltage input circuit 2 and the non-voltage input circuit 4 in the automatic notification device 9 interfere with each other and cause a false notification. There was a problem that there was.
[0015]
Hereinafter, the interference operation between the voltage input circuit 2 and the non-voltage input circuit 4 in the automatic notification device 9 and an erroneous notification resulting therefrom will be described.
[0016]
FIG. 8 is a circuit diagram for explaining a basic circuit configuration of an internal circuit of the automatic notification device 9 of FIG.
[0017]
When 6 V is applied to the voltage input circuit 2 as a normal voltage signal potential in the gas leak alarm 6, the Zener diode ZD 1 (Zener voltage 2 V) becomes conductive, and the npn transistor Q 1 is activated accordingly. Is done.
[0018]
In the automatic notification device 9, when the outlet is disconnected or a power failure occurs, the voltage signal potential drops to zero V, the npn transistor Q1 is inactivated, and this inactivation state continues for 24 hours or more. Then, the CPU in the gas leak alarm device 6 executes the notification operation assuming that the outlet has been disconnected (that is, it is determined that the outlet has been disconnected). As a result, it is possible to distinguish between a power failure and an outlet disconnection.
[0019]
Also, when 12 V is applied to the voltage input circuit 2 as a voltage signal potential at the time of gas detection in the gas leak alarm 6, the Zener diode ZD2 (Zener voltage 9V) becomes conductive, and accordingly, the npn transistor Q2 Is activated. When the activation state is continued for one minute or more, the CPU determines that gas leakage has occurred and executes a gas leakage notification.
[0020]
On the other hand, when the input stage is short-circuited due to depression of the external switch 8 or the like, the non-voltage input circuit 4 outputs a short-circuit current at this time from the base of the pnp transistor Q3 to the external switch, and the short-circuit current causes the pnp The transistor Q3 is activated. By detecting the potential of the collector of the pnp transistor Q3 at this time, the CPU executes a notification operation such as pressing the external switch 8.
[0021]
However, since the input stage of the voltage input circuit 2 and the input stage of the no voltage input circuit 4 are connected by sharing the signal input line, the input stage of the no voltage input circuit 4 (the base of the pnp transistor Q3) An interference operation occurs such that a short-circuit current flows into the voltage input circuit 2 through the Zener diode ZD1. As a result of the occurrence of such an interference operation, an erroneous notification occurs in which the CPU erroneously determines that the no-voltage signal has been input and executes the notification operation.
[0022]
Further, even if the outlet of the gas leak alarm 6 is disconnected, an interference operation such that the Zener diode ZD1 is turned on similarly occurs. As a result of the occurrence of such an interference operation, the npn transistor Q1 is activated, and an erroneous notification such that the outlet disconnection is not reported is generated.
[0023]
As described above, there is a problem that an erroneous notification may occur as a result of the occurrence of an interference operation in which a voltage of a voltage signal from the gas leak alarm device 6 is applied to the non-voltage input circuit 4. Further, there is a problem that the automatic notification device 9 itself may be destroyed.
[0024]
Further, the light emitting circuit 7 shown in FIG. 9 has a problem that it is necessary to prepare a battery Batt, and further, it requires replacement work of the battery Batt.
[0025]
An object of the present invention is to solve such a conventional problem. First, a switch signal is detected via a signal input line, and when the switch signal is detected, the detection is synchronized with the detection of the switch signal. A signal input line state determination circuit that generates a circuit cut-off signal, and a circuit cut-off signal is transmitted to a no-voltage input circuit to instruct the external switch to be pressed and that the external switch is short-circuited in synchronization with the circuit cut-off signal A switching circuit for executing switching control for interrupting the flow of current from the input terminal of the non-voltage input circuit to the input terminal of the voltage input circuit via the input terminal, and a voltage signal when a voltage signal having a predetermined potential or more is detected. A conversion circuit that outputs a gas valve shutoff signal to the microcomputer meter with a delay of a predetermined time from the timing at which the And converts the signal to a no-voltage ON signal having a predetermined time width and transmits the no-voltage ON signal to a no-voltage input circuit, and a predetermined voltage signal from a gas leak alarm as a power supply. The stored power is stored in the signal input line state determination circuit and the no-voltage signal extension circuit when the external switch is activated or when the voltage signal from the gas leak alarm becomes zero potential during a power outage. By providing an input interface device having a backup power supply circuit for supplying and promoting normal operation, construction costs can be reduced and an existing signal that an external switch has been pressed without drilling a construction hole in a house wall can be provided. It is possible to notify the automatic notification device via the input line, and it is possible to avoid that the voltage of the voltage signal from the gas leak alarm is applied to the no-voltage input circuit, An input interface device capable of avoiding the possibility that a voltage input circuit and a non-voltage input circuit in a motion notification device interfere with each other to cause a false notification, and that further avoids a possibility that the automatic notification device itself is destroyed. The challenge is to achieve it.
[0026]
Also, the output terminal of the external switch and the output terminal of a voltage alarm that generates a voltage signal when a predetermined abnormal condition is detected are connected in parallel to the signal input line and share an input with the signal input line. A voltage input circuit that receives a voltage signal, a voltageless input circuit that shares an input with a signal input line and receives a voltageless signal, and an output terminal of an external switch and an output terminal of a voltage alarm are connected to a signal input line. The construction cost can be reduced by providing the above-mentioned input interface device, which is connected to the input side through the input terminal and the input terminal of the voltage input circuit and the input terminal of the non-voltage input circuit are connected to the output terminal, respectively. Also, the fact that the external switch 8 has been pressed can be reported to the automatic reporting device via the existing signal input line without drilling a construction hole in the house wall, and there is no voltage of the voltage signal from the gas leak alarm. The voltage applied to the voltage input circuit Can be avoided, and it is possible to avoid the possibility that the voltage input circuit and the non-voltage input circuit in the automatic notification device interfere with each other and cause a false notification, and further, it is possible to avoid the possibility that the automatic notification device itself is destroyed. It is an object to realize an automatic notification device.
[0027]
Second, a second Zener diode that becomes conductive according to an input signal of a predetermined voltage, a fourth transistor that is activated according to the conductive state of the second Zener diode, and a fourth transistor that is activated according to the activation of the fourth transistor By providing a light emitting circuit having a third transistor that is activated to supply a voltage signal from the gas leak alarm to the conversion circuit and the voltage input circuit, it is not necessary to prepare a battery. It is an object of the present invention to realize an automatic notification device which does not need to be able to confirm whether or not a contact of the external switch is closed and a switch signal is generated when the external switch 8 is pressed.
[0028]
[Means for Solving the Problems]
The invention according to claim 1 is
The input is shared with the signal input line 15 that transmits the switch signal 18a generated when the external switch 18 is pressed, and the input is shared with the voltage input circuit 12 that receives the voltage signal 16a. Interposed between the no-voltage input circuit 14 for receiving the no-voltage signal 16b and the signal input line 15,
A signal input line state determination circuit that detects the switch signal 18a via the signal input line 15 and generates a circuit cutoff signal 21a in synchronization with the detection of the switch signal 18a when the switch signal 18a is detected. 24,
The switching control for transmitting the circuit cutoff signal 21a to the non-voltage input circuit 14 to instruct the user to press the external switch 18 and interrupting the application of the circuit cutoff signal 21a to the voltage input circuit 12 is executed. Having a switching circuit 21
An input interface device 20 characterized in that:
[0029]
According to the first aspect of the present invention, by executing the switching control for cutting off the application of the circuit cutoff signal 21a to the voltage input circuit 12, the voltage of the voltage signal 16a from the voltage alarm 16 becomes higher. It is possible to avoid being applied to the no-voltage input circuit 14, and as a result, there is a possibility that the no-voltage input circuit 12 and the no-voltage input circuit 14 in the automatic notification device 10 interfere with each other and cause an erroneous notification. When an input interface device 20 capable of notifying the automatic notification device 10 via the existing signal input line 15 that the external switch 18 has been pressed is newly installed, a signal input line 15 dedicated to the external switch 18 is laid. Compared with this, the construction cost can be reduced and the construction can be realized without drilling a construction hole in the wall of the house. Further, by providing such an input interface device 20 between the voltage alarm 16 and the voltage input circuit 12 and between the voltage alarm 16 and the no-voltage input circuit 14, the external switch 18 and the signal Even when the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 itself is destroyed due to the pressing of the external switch 18 can be realized. .
[0030]
The voltage alarm 16 in the present invention is an alarm having a voltage characteristic. Specifically, a normal voltage of 6 V is always generated as a voltage signal 16a in a normal state, and the alarm outlet is unplugged. When a cause such as a power failure or a power failure occurs to the alarm device, a zero potential (specifically, a ground potential) is generated as a voltage signal 16a, and when an abnormality is detected, a potential of 12V is supplied to the voltage signal 16a. Means a device having a function of generating as
[0031]
The invention described in claim 2 is
The input is shared with the signal input line 15 that transmits the switch signal 18a generated when the external switch 18 is pressed, and the input is shared with the voltage input circuit 12 that receives the voltage signal 16a. Interposed between the no-voltage input circuit 14 for receiving the no-voltage signal 16b and the signal input line 15,
A signal input line state determination circuit that detects the switch signal 18a via the signal input line 15 and generates a circuit cutoff signal 21a in synchronization with the detection of the switch signal 18a when the switch signal 18a is detected. 24,
The circuit cutoff signal 21a is transmitted to the no-voltage input circuit 14 to instruct notification of pressing of the external switch 18, and the no-voltage is transmitted via the short-circuit state of the external switch 18 in synchronization with the circuit cutoff signal 21a. A switching circuit for executing switching control for interrupting the flow of current from the input terminal of the input circuit to the input terminal of the voltage input circuit;
An input interface device 20 characterized in that:
[0032]
According to the second aspect of the present invention, by performing the switching control for interrupting the flow of the current into the input terminal of the voltage input circuit 12, the voltage of the voltage signal 16a from the voltage alarm 16 is reduced. It is possible to avoid being applied to the no-voltage input circuit 14, and as a result, there is a possibility that the no-voltage input circuit 12 and the no-voltage input circuit 14 in the automatic notification device 10 interfere with each other and cause an erroneous notification. When an input interface device 20 capable of notifying the automatic notification device 10 via the existing signal input line 15 that the external switch 18 has been pressed is newly installed, a signal input line 15 dedicated to the external switch 18 is laid. Compared with this, the construction cost can be reduced and the construction can be realized without drilling a construction hole in the wall of the house. Further, by providing such an input interface device 20 between the voltage alarm 16 and the voltage input circuit 12 and between the voltage alarm 16 and the no-voltage input circuit 14, the external switch 18 and the signal Even when the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 itself is destroyed due to the short-circuit state of the external switch 18 can be realized. Play.
[0033]
The invention according to claim 3 is:
The input is shared with the signal input line 15 that transmits the switch signal 18a generated when the external switch 18 is pressed, and the input is shared with the voltage input circuit 12 that receives the voltage signal 16a. Interposed between the no-voltage input circuit 14 for receiving the no-voltage signal 16b and the signal input line 15,
In addition to detecting that the signal input line 15 has been short-circuited in response to the switch signal 18a, when the short-circuit state of the signal input line 15 is detected, in synchronization with the detection of the short-circuit state of the signal input line 15 A signal input line state determination circuit 24 for generating a circuit cutoff signal 21a;
The circuit cutoff signal 21a is transmitted to the no-voltage input circuit 14 to instruct that the external switch 18 is pressed, and the no-voltage input circuit 14 is synchronized with the circuit cutoff signal 21a from the no-voltage input circuit 12 Switching circuit 21 for executing switching control for electrically disconnecting
An input interface device 20 characterized in that:
[0034]
According to the third aspect of the present invention, the circuit cut-off signal 21a is generated in synchronization with the detection of the short-circuit state of the signal input line 15, and the no-voltage input circuit 14 and the voltage input circuit are synchronized with the circuit cut-off signal 21a. By executing the switching control for electrically disconnecting the power supply 12, it is possible to prevent the voltage of the voltage signal 16 a from the voltage alarm 16 from being applied to the no-voltage input circuit 14, and as a result, It is possible to avoid the possibility that the voltage input circuit 12 and the non-voltage input circuit 14 in the automatic notification device 10 interfere with each other to cause an erroneous notification, and to press the existing signal input line 15 when the external switch 18 is pressed. An input interface device 20 capable of notifying the automatic notifying device 10 via the external switch 18 can reduce the construction cost as compared with a case where a signal input line 15 dedicated to the external switch 18 is newly laid, and can be installed on the wall of the house. So it can be realized without drilling a hole. Further, by providing such an input interface device 20 between the voltage alarm 16 and the voltage input circuit 12 and between the voltage alarm 16 and the no-voltage input circuit 14, the external switch 18 and the signal Even when the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 itself is destroyed due to the short-circuit state of the external switch 18 can be realized. Play.
[0035]
The invention described in claim 4 is
The input is shared with the signal input line 15 that transmits the switch signal 18a generated when the external switch 18 is pressed, and the input is shared with the voltage input circuit 12 that receives the voltage signal 16a. Interposed between the no-voltage input circuit 14 for receiving the no-voltage signal 16b and the signal input line 15,
In addition to detecting that the signal input line 15 has been short-circuited in response to the switch signal 18a, when the short-circuit state of the signal input line 15 is detected, in synchronization with the detection of the short-circuit state of the signal input line 15 A signal input line state determination circuit 24 for generating a circuit cutoff signal 21a;
The circuit cutoff signal 21a is transmitted to the no-voltage input circuit 14 to instruct notification of pressing of the external switch 18, and the no-voltage is transmitted via the short-circuit state of the external switch 18 in synchronization with the circuit cutoff signal 21a. A switching circuit for executing switching control for interrupting the flow of current from the input terminal of the input circuit to the input terminal of the voltage input circuit;
An input interface device 20 characterized in that:
[0036]
According to the fourth aspect of the present invention, the circuit cutoff signal 21a is generated in synchronization with the detection of the short-circuit state of the signal input line 15, and the signal is supplied from the input terminal of the no-voltage input circuit 14 in synchronization with the circuit cutoff signal 21a. By executing the switching control for interrupting the flow of the current to the input terminal of the voltage input circuit 12, it is possible to prevent the voltage of the voltage signal 16a from the voltage alarm 16 from being applied to the non-voltage input circuit 14. As a result, it is possible to avoid the possibility that the voltage input circuit 12 and the non-voltage input circuit 14 in the automatic notification device 10 interfere with each other to cause a false notification, and that the external switch 18 is pressed. The input interface device 20 capable of notifying the automatic notification device 10 via the existing signal input line 15 can reduce the construction cost as compared with the case where the signal input line 15 dedicated to the external switch 18 is newly laid. So can be realized without perforating the construction holes into and house wall can be a valence. Further, by providing such an input interface device 20 between the voltage alarm 16 and the voltage input circuit 12 and between the voltage alarm 16 and the no-voltage input circuit 14, the external switch 18 and the signal Even when the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 itself is destroyed due to the short-circuit state of the external switch 18 can be realized. Play.
[0037]
The invention according to claim 5 is
The input is shared with the signal input line 15 that transmits the switch signal 18a generated when the external switch 18 is pressed, and the input is shared with the voltage input circuit 12 that receives the voltage signal 16a. Interposed between the no-voltage input circuit 14 for receiving the no-voltage signal 16b and the signal input line 15,
A signal input line for detecting a power failure potential V1 of the signal input line 15 at the time of power failure and generating a circuit cutoff signal 21a in synchronization with the detection of the power failure potential V1 when the power failure potential V1 is detected. A state determination circuit 24;
The switching circuit 21 that transmits the circuit cutoff signal 21a to the non-voltage input circuit 14 to instruct the external switch 18 to be pressed, and cuts off the application of the circuit cutoff signal 21a to the voltage input circuit 12. Have
An input interface device 20 characterized in that:
[0038]
According to the fifth aspect of the present invention, the circuit interruption signal 21a is generated in synchronization with the detection of the potential V1 at the time of the power failure, and the circuit interruption signal 21a is applied to the voltage input circuit 12 in synchronization with the circuit interruption signal 21a. By executing the switching control to cut off the voltage, the voltage of the voltage signal 16a from the voltage alarm 16 can be prevented from being applied to the no-voltage input circuit 14, and as a result, the automatic notification device 10 The voltage input circuit 12 and the non-voltage input circuit 14 can avoid the possibility of erroneous notification due to interference with each other, and automatically notify that the external switch 18 has been pressed through the existing signal input line 15. The construction cost can be reduced compared with the case where a signal input line 15 dedicated to the external switch 18 is newly laid on the input interface device 20 capable of notifying the device 10, and a construction hole is drilled in the wall of the house. So that can be realized without. Further, by providing such an input interface device 20 between the voltage alarm 16 and the voltage input circuit 12 and between the voltage alarm 16 and the no-voltage input circuit 14, the external switch 18 and the signal Even when the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 itself is destroyed due to the short-circuit state of the external switch 18 can be realized. Play.
[0039]
The invention according to claim 6 is
The input is shared with the signal input line 15 that transmits the switch signal 18a generated when the external switch 18 is pressed, and the input is shared with the voltage input circuit 12 that receives the voltage signal 16a. Interposed between the no-voltage input circuit 14 for receiving the no-voltage signal 16b and the signal input line 15,
A signal input line state determination circuit that detects the potential of the signal input line 15 at the time of power failure and generates a circuit cutoff signal 21a in synchronization with the detection of the power failure potential V1 when the power failure potential V1 is detected. 24,
The circuit cutoff signal 21a is transmitted to the no-voltage input circuit 14 to instruct notification of pressing of the external switch 18, and the no-voltage is transmitted via the short-circuit state of the external switch 18 in synchronization with the circuit cutoff signal 21a. A switching circuit for executing switching control for interrupting the flow of current from the input terminal of the input circuit to the input terminal of the voltage input circuit;
An input interface device 20 characterized in that:
[0040]
According to the invention described in claim 6, the circuit interruption signal 21a is generated in synchronization with the detection of the potential V1 at the time of the power failure, and the non-voltage input circuit is synchronized with the circuit interruption signal 21a via the short-circuit state of the external switch 18. By executing switching control for interrupting the flow of current from the input terminal of the voltage input circuit 14 to the input terminal of the voltage input circuit 12, the voltage of the voltage signal 16 a from the voltage alarm 16 is applied to the non-voltage input circuit 14. As a result, it is possible to avoid the possibility that the voltage input circuit 12 and the non-voltage input circuit 14 in the automatic notification device 10 interfere with each other to cause a false notification, and the external switch An input interface device 20 capable of notifying the automatic notification device 10 via the existing signal input line 15 that the button 18 has been pressed is newly provided with the signal input line 15 dedicated to the external switch 18. And can be to an inexpensive construction costs compared so it can be realized without perforating the construction holes into the wall of the house when. Further, by providing such an input interface device 20 between the voltage alarm 16 and the voltage input circuit 12 and between the voltage alarm 16 and the no-voltage input circuit 14, the external switch 18 and the signal Even when the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 itself is destroyed due to the short-circuit state of the external switch 18 can be realized. Play.
[0041]
The invention according to claim 7 is
The input is shared with the signal input line 15 that transmits the switch signal 18a generated when the external switch 18 is pressed, and the input is shared with the voltage input circuit 12 that receives the voltage signal 16a. Interposed between the no-voltage input circuit 14 for receiving the no-voltage signal 16b and the signal input line 15,
In addition to detecting that the signal input line 15 has been short-circuited in accordance with the power outage potential V1, when the short-circuit state of the signal input line 15 is detected, it is synchronized with the detection of the short-circuit state of the signal input line 15. A signal input line state determination circuit 24 for generating a circuit cutoff signal 21a by
The circuit cutoff signal 21a is transmitted to the no-voltage input circuit 14 to instruct that the external switch 18 is pressed, and the no-voltage input circuit 14 is synchronized with the circuit cutoff signal 21a from the no-voltage input circuit 12 Switching circuit 21 for executing switching control for electrically disconnecting
An input interface device 20 characterized in that:
[0042]
According to the seventh aspect of the present invention, the circuit cutoff signal 21a is generated in synchronization with the detection of the short-circuit state of the signal input line 15, and the non-voltage input circuit 14 is switched to the voltage input circuit in synchronization with the circuit cutoff signal 21a. By executing the switching control for electrically disconnecting the power supply 12, it is possible to prevent the voltage of the voltage signal 16 a from the voltage alarm 16 from being applied to the no-voltage input circuit 14, and as a result, It is possible to avoid the possibility that the voltage input circuit 12 and the non-voltage input circuit 14 in the automatic notification device 10 interfere with each other to cause an erroneous notification, and to press the existing signal input line 15 when the external switch 18 is pressed. The input interface device 20 capable of notifying the automatic notifying device 10 via the interface can be realized at a low construction cost and without drilling a construction hole in a wall of a house. Further, by providing such an input interface device 20 between the voltage alarm 16 and the voltage input circuit 12 and between the voltage alarm 16 and the no-voltage input circuit 14, the external switch 18 and the signal Even when the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 itself is destroyed due to the short-circuit state of the external switch 18 can be realized. Play.
[0043]
The invention according to claim 8 is
The input is shared with the signal input line 15 that transmits the switch signal 18a generated when the external switch 18 is pressed, and the input is shared with the voltage input circuit 12 that receives the voltage signal 16a. Interposed between the no-voltage input circuit 14 for receiving the no-voltage signal 16b and the signal input line 15,
In addition to detecting that the signal input line 15 has been short-circuited in accordance with the power outage potential V1, when the short-circuit state of the signal input line 15 is detected, it is synchronized with the detection of the short-circuit state of the signal input line 15. A signal input line state determination circuit 24 for generating a circuit cutoff signal 21a by
The circuit cutoff signal 21a is transmitted to the no-voltage input circuit 14 to instruct notification of pressing of the external switch 18, and the no-voltage is transmitted via the short-circuit state of the external switch 18 in synchronization with the circuit cutoff signal 21a. A switching circuit for executing switching control for interrupting the flow of current from the input terminal of the input circuit to the input terminal of the voltage input circuit;
An input interface device 20 characterized in that:
[0044]
According to the invention described in claim 8, the circuit cutoff signal 21a is generated in synchronization with the detection of the short-circuit state of the signal input line 15, and the circuit cutoff signal is generated via the short-circuit state of the external switch 18 in synchronization with the circuit cutoff signal 21a. By executing the switching control for interrupting the flow of the current from the input terminal of the voltage input circuit 14 to the input terminal of the voltage input circuit 12, the voltage of the voltage signal 16a from the voltage alarm 16 becomes non-voltage input. As a result, it is possible to avoid a possibility that the voltage input circuit 12 and the non-voltage input circuit 14 in the automatic notification device 10 interfere with each other and cause a false notification. An input interface device 20 capable of notifying the automatic notification device 10 via the existing signal input line 15 that the external switch 18 has been pressed can reduce the construction cost and provide a construction hole in the wall of the house. So it can be realized without holes. Further, by providing such an input interface device 20 between the voltage alarm 16 and the voltage input circuit 12 and between the voltage alarm 16 and the no-voltage input circuit 14, the external switch 18 and the signal Even when the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 itself is destroyed due to the short-circuit state of the external switch 18 can be realized. Play.
[0045]
According to a ninth aspect of the present invention, in the automatic notification device 10 using the input interface device 20 according to any one of the first to eighth aspects,
An output terminal of the external switch 18 and an output terminal of a voltage alarm 16 that generates the voltage signal 16a when a predetermined abnormal state is detected are connected in parallel to the signal input line 15,
The voltage input circuit 12 receiving the voltage signal 16a by sharing an input with the signal input line 15;
A no-voltage input circuit 14 for receiving an input of the no-voltage signal 16b by sharing an input with a signal input line 15;
The output terminal of the external switch 18 and the output terminal of the voltage alarm 16 are connected to the input side via the signal input line 15, and the input terminal of the voltage input circuit 12 and the non-voltage input circuit 14 The input interface device has the input interface device 20 connected to the output terminal.
The automatic notification device 10 is characterized in that:
[0046]
According to the ninth aspect of the present invention, in addition to the effects of any one of the first to eighth aspects, the input interface device 20 for executing the switching control is provided with the voltage alarm 16 and the voltage input. By providing between the circuit 12 and between the voltage alarm 16 and the non-voltage input circuit 14, even if the external switch 18 sharing the signal input line 15 is provided, the voltage alarm It is possible to prevent the voltage of the voltage signal 16a from being applied to the non-voltage input circuit 14, and as a result, the voltage input circuit 12 and the non-voltage input circuit 14 in the automatic notification device 10 A new input interface device 20 capable of avoiding the possibility of erroneous notification by interfering with each other and reporting the pressing of the external switch 18 to the automatic notification device 10 via the existing signal input line 15 is newly provided. Part switch 18 will be able to realize without piercing the work hole to inexpensive to and houses wall construction costs as compared to the case of laying a dedicated signal input line 15. Further, by providing such an input interface device 20 between the voltage alarm 16 and the voltage input circuit 12 and between the voltage alarm 16 and the no-voltage input circuit 14, the external switch 18 and the signal Even when the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 itself is destroyed due to the short-circuit state of the external switch 18 can be realized. Play.
[0047]
The invention according to claim 10 is the automatic notification device 10 according to claim 9,
The voltage alarm 16 is a gas leak alarm 16 that generates the voltage signal 16a according to detection of gas concentration and disconnection of an outlet.
The automatic notification device 10 is characterized in that:
[0048]
It should be noted that the gas leak alarm device 16 according to the present invention is a gas leak alarm device having a voltage characteristic, specifically, normally generates a potential of 6 V as a voltage signal 16a in a normal state. When a cause such as disconnection of an outlet of 16 or a power failure occurs to the gas leak alarm 16, a zero potential (specifically, a ground potential) is generated as a voltage signal 16 a, and when a gas leak is detected, This means a sensor device having a function of generating a potential of 12 V as a voltage signal 16a.
[0049]
According to the tenth aspect of the present invention, in addition to the effect of the ninth aspect, the input interface device 20 for executing the switching control is provided between the gas leak alarm 16 and the voltage input circuit 12, and By providing between the gas leak alarm 16 and the no-voltage input circuit 14, even if the external switch 18 sharing the signal input line 15 is provided, the voltage signal 16a from the gas leak alarm 16 is provided. Can be avoided from being applied to the no-voltage input circuit 14, and as a result, the no-voltage input circuit 12 and the no-voltage input circuit 14 in the automatic notification device 10 interfere with each other and erroneously report. The input interface device 20 capable of notifying the automatic notification device 10 via the existing signal input line 15 that the external switch 18 has been pressed can be avoided. 8 will be able to realize without comparing to drilling work well to inexpensive to and houses wall construction costs in case of laying a dedicated signal input line 15. Further, by providing such an input interface device 20 between the gas leak alarm 16 and the voltage input circuit 12, and between the gas leak alarm 16 and the no-voltage input circuit 14, the external switch 18 and the signal Even when the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 itself is destroyed due to the short-circuit state of the external switch 18 can be realized. Play.
[0050]
According to an eleventh aspect of the present invention, in the automatic notification device 10 according to the tenth aspect, there is provided a microcomputer meter 11 for counting gas usage and controlling supply and cutoff of gas.
The voltage input circuit 12, the non-voltage input circuit 14, and the microcomputer meter 11 are connected to the output terminals of the input interface device 20, respectively.
The automatic notification device 10 is characterized in that:
[0051]
According to the invention as set forth in claim 11, in addition to the effect as set forth in claim 10, the input interface device 20 for executing the switching control is provided between the gas leak alarm 16 and the voltage input circuit 12, and By providing between the gas leak alarm 16 and the no-voltage input circuit 14, even if the external switch 18 sharing the signal input line 15 is provided, the voltage signal 16a from the gas leak alarm 16 is provided. Can be prevented from being applied to the non-voltage input circuit 14, and as a result, the voltage input circuit 12 and the non-voltage input circuit 14 in the automatic notification device 10 interfere with each other and Input that can notify the automatic notification device 10 or the microcomputer meter 11 via the existing signal input line 15 that the external switch 18 has been pressed. So can be realized without perforating the construction hole to inexpensive to and houses wall construction costs as compared to the case of laying the interface device 20 newly external switch 18 dedicated signal input line 15. Further, by providing such an input interface device 20 between the gas leak alarm 16 and the voltage input circuit 12, and between the gas leak alarm 16 and the no-voltage input circuit 14, the external switch 18 and the signal Even when the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 or the microcomputer meter 11 is broken due to the short-circuit state of the external switch 18 can be realized. This has the effect.
[0052]
According to a twelfth aspect of the present invention, in the automatic notification device 10 according to any one of the ninth to eleventh aspects,
The input interface device 20 includes:
A conversion circuit 22 that outputs a gas valve shutoff signal 22a to the microcomputer 11 when a voltage signal 16a having a predetermined potential or more is detected,
The microcomputer meter 11 is configured to execute the shutoff control of the supply gas by controlling the closing of the gas shutoff valve 11B provided in the gas supply passage 11A in response to the reception of the gas valve shutoff signal 22a.
The automatic notification device 10 is characterized in that:
[0053]
According to the twelfth aspect of the present invention, in addition to the effects of the ninth to eleventh aspects, the input interface device 20 for executing the supply gas cutoff control includes the gas leak alarm 16 and the By providing between the input circuit 12 and between the gas leak alarm 16 and the no-voltage input circuit 14, even when the external switch 18 sharing the signal input line 15 is provided, the gas leak alarm is provided. The voltage of the voltage signal 16a from the transmitter 16 can be prevented from being applied to the non-voltage input circuit 14, and as a result, the voltage input circuit 12 and the non-voltage input circuit 14 Can avoid the possibility of interfering with each other and instructing the microcomputer meter 11 to perform an erroneous shutoff control. When the external switch 18 is pressed, the automatic notification device 10 or the microcomputer The construction cost can be reduced compared to the case where the signal input line 15 dedicated to the external switch 18 is newly laid, and the construction hole is drilled in the wall of the house. Without having to do it. Further, by providing such an input interface device 20 between the gas leak alarm 16 and the voltage input circuit 12, and between the gas leak alarm 16 and the no-voltage input circuit 14, the external switch 18 and the signal Even when the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 or the microcomputer meter 11 is broken due to the short-circuit state of the external switch 18 can be realized. This has the effect.
[0054]
The invention according to claim 13 is the automatic notification device 10 according to claim 12,
The conversion circuit 22 includes:
When a voltage signal 16a having a predetermined potential or more is detected, a gas valve shutoff signal 22a is output to the microcomputer 11 in a state delayed by a predetermined time from the timing of detecting the voltage signal 16a.
The automatic notification device 10 is characterized in that:
[0055]
According to the thirteenth aspect of the present invention, in addition to the effect of the twelfth aspect, by providing such a no-voltage signal extending circuit 25 and generating a gas valve cutoff signal 22a for delay processing, an automatic notification is provided. The duration of the no-voltage ON signal 25a to the device 10 is sufficiently ensured, and at the same time, the jitter of the signal time width of the no-voltage ON signal 25a is reduced, so that the signal time width sufficient for the automatic notification device 10 to operate can be ensured. It has the effect of becoming In particular, even if the external switch 18 is often pressed by a human, the automatic notification device always has a constant time width by absorbing the jitter of the signal time width of the no-voltage ON signal 25a due to individual differences in the pressing time. 10 can secure a sufficient signal time width. As a result, the microcomputer meter 11 can instruct a highly accurate shutoff control, and the input interface device 20 notifies the automatic notification device 10 and the microcomputer meter 11 via the existing signal input line 15 that the external switch 18 has been pressed. This makes it possible to report with high accuracy.
[0056]
The invention according to claim 14 is the automatic notification device 10 according to claim 13,
The conversion circuit 22 includes:
A first Zener diode ZD1 which becomes conductive when the voltage signal 16a having a predetermined potential or more is detected;
A first transistor Tr1 activated according to a conduction state of the first Zener diode ZD1,
A second transistor Tr2 inactivated in response to the activation of the first transistor Tr1,
A charging circuit including a first resistor R1 and a first capacitor C1 that generate a charging voltage in response to the inactivation of the second transistor Tr2;
A first comparator IC1 that compares a charging voltage of the charging circuit with a predetermined threshold voltage and generates the gas valve cutoff signal 22a when the charging voltage exceeds the threshold voltage;
A first photocoupler PH1 that electrically insulates the input interface device 20 from the microcomputer meter 11 and that photoelectrically converts the gas valve cutoff signal 22a to an optical signal and transmits the signal to the microcomputer meter 11;
The automatic notification device 10 is characterized in that:
[0057]
According to the fourteenth aspect, the same effect as that of the thirteenth aspect can be obtained.
[0058]
According to a fifteenth aspect of the present invention, in the automatic notification device 10 according to the twelfth aspect, the switching circuit 21 is configured to control the signal state of the voltage signal 16a when the external switch 18 is activated or when a power failure occurs. According to the signal state of the voltage signal 16a, the voltage input circuit 12 and the conversion circuit 22 are electrically disconnected from the signal input line state determination circuit 24, and the signal input line state determination circuit 24 The switching control is performed by interrupting the flow of current to the voltage input circuit 12 or the conversion circuit 22.
The automatic notification device 10 is characterized in that:
[0059]
According to the fifteenth aspect of the present invention, in addition to the effect of the twelfth aspect, the voltage input circuit 12 and the conversion circuit according to the signal state of the voltage signal 16a or the voltage state of the voltage signal 16a at the time of a power failure. Executing switching control such that the circuit 22 is electrically disconnected from the signal input line state determination circuit 24 to block the flow of current from the signal input line state determination circuit 24 to the voltage input circuit 12 or the conversion circuit 22. As a result, it is possible to prevent the voltage of the voltage signal 16 a from the signal input line state determination circuit 24 from being applied to the non-voltage input circuit 14, and as a result, It is possible to avoid the possibility that the voltage input circuit 12 and the non-voltage input circuit 14 in the notification device 10 interfere with each other and cause an erroneous notification. So it can be realized without perforating the input interface work well the device 20 to the wall of the inexpensive to and houses the construction costs that can be notified to the automatic call device 10 via a signal input line 15. Further, by providing such an input interface device 20 between the voltage alarm 16 and the voltage input circuit 12 and between the voltage alarm 16 and the no-voltage input circuit 14, the external switch 18 and the signal Even when the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 itself is destroyed due to the short-circuit state of the external switch 18 can be realized. Play.
[0060]
According to a sixteenth aspect of the present invention, in the automatic notification device 10 according to the fifteenth aspect, the switching circuit 21 includes a second Zener diode ZD2 that becomes conductive according to an input signal of a predetermined voltage, and the second Zener diode. A fourth transistor Tr4 that is activated in accordance with the conduction state of the diode ZD2; and a gas leak alarm that is activated in response to the activation of the fourth transistor Tr4 and is provided to the conversion circuit 22 and the voltage input circuit 12. And a third transistor Tr3 for supplying the voltage signal 16a from the third transistor Tr3.
The automatic notification device 10 is characterized in that:
[0061]
According to the sixteenth aspect, the same effect as that of the fifteenth aspect can be obtained.
[0062]
The invention according to claim 17 is the automatic notification device 10 according to claim 15 or 16,
A light emitting circuit 30 having a light emitting element LED connected to emit light by power from the gas leak alarm 16 when the external switch 18 is activated;
The automatic notification device 10 is characterized in that:
[0063]
According to the invention of claim 17, in addition to the effect of claim 15 or 16, the light emitting operation of the light emitting element LED is performed using the electric power supplied from the gas leak alarm 16, so that a new battery is provided. It is not necessary to prepare a battery, and it is not necessary to replace the battery. When the external switch 188 is pressed, the contacts of the external switch 18 are securely closed and whether or not the switch signal 18a is generated is determined at the time of pressing. There is an effect that the automatic notification device 10 that can be confirmed can be realized.
[0064]
The invention according to claim 18 is the automatic notification device 10 according to claim 15 or 16,
The light emitting circuit 30 includes:
Has a light emitting element LED connected to emit light in the event of a power outage
The automatic notification device 10 is characterized in that:
[0065]
According to the eighteenth aspect, an effect similar to the effect according to the fifteenth or sixteenth aspect is obtained.
[0066]
The invention according to claim 19 is the automatic notification device 10 according to claim 17 or 18,
The switching circuit 21 includes:
A first diode D1 connected in a forward direction to a steady potential output from the gas leak alarm 16 in a normal state, a seventh resistor R7 connected to a cathode of the first diode D1, and the first diode D1 and A fourth capacitor C4 charged via the seventh resistance element R7,
The light emitting element LED emits light by using the discharge current of the accumulated charge of the fourth capacitor C4 when the external switch 18 is activated or the power failure occurs, so as to emit light in a forward direction (that is, from the anode to the cathode). Direction)
The automatic notification device 10 is characterized in that:
[0067]
According to the invention of claim 19, in addition to the effect of claim 17 or 18, the electric power supplied from the gas leak alarm 16 is stored in the fourth capacitor C4 and stored in the fourth capacitor C4. Since the light emitting element LED emits light using the charged electric charges, there is no need to prepare a new battery, and no need to replace the battery. When the external switch 188 is pressed, the contact of the external switch 18 is turned off. There is an effect that the automatic notification device 10 can be realized that can be confirmed at the time of pressing when the switch signal 18a is generated by reliably closing the switch signal 18a.
[0068]
The invention according to claim 20 is the automatic notification device 10 according to claim 19,
The switching circuit 21 includes:
The external switch 18 is connected to the light emitting device LED in a forward direction (that is, in a direction from the anode to the cathode) to supply the discharge current to the light emitting device LED when the external switch 18 is activated or when a power failure occurs. It has the first diode D1 and the eighth resistance element R8.
The automatic notification device 10 is characterized in that:
[0069]
According to the twentieth aspect, in addition to the effect of the nineteenth aspect, the electric power supplied from the gas leak alarm device 16 is supplied to the fourth capacitor C4 via the first diode D1 and the eighth resistance element R8. And the light-emitting element LED emits light using the electric charge stored in the fourth capacitor C4. Therefore, there is no need to prepare a new battery, and no need to replace the battery. When the switch is pressed, the contact of the external switch 18 is surely closed, and the automatic notification device 10 that can confirm whether or not the switch signal 18a is generated at the time of pressing can be realized.
[0070]
The invention according to claim 21 is the automatic notification device 10 according to claim 12,
The signal input line state determination circuit 24 includes:
A third Zener diode ZD3 that is turned on when the external switch 18 is activated and pressed to reduce the input voltage to a predetermined voltage or less;
A fifth transistor Tr5 that is activated according to the conduction state of the third Zener diode ZD3 and generates the circuit cutoff signal 21a;
The base current of the fifth transistor Tr5 is configured to flow into the external switch 18 via the third Zener diode ZD3.
The automatic notification device 10 is characterized in that:
[0071]
According to the twenty-first aspect, the same effect as that of the twelfth aspect is obtained.
[0072]
The invention according to claim 22 is the automatic notification device 10 according to claim 12,
The input interface device 20 includes:
The circuit cutoff signal 21a from the signal input line state determination circuit 24 is received and converted into a no-voltage ON signal 25a having a predetermined time width, and the no-voltage ON signal 25a is sent to the no-voltage input circuit 14. It has a voltageless signal stretching circuit 25 for transmitting.
The automatic notification device 10 is characterized in that:
[0073]
According to the invention of claim 22, in addition to the effect of claim 12, by providing such a no-voltage signal extension circuit 25 to generate the gas valve cutoff signal 22a having a predetermined time width. Therefore, the duration of the no-voltage ON signal 25a to the automatic notification device 10 is sufficiently ensured, and at the same time, the jitter of the signal time width of the no-voltage ON signal 25a is reduced, and the signal time width sufficient for the automatic notification device 10 to operate is increased. This has the effect that it can be secured. In particular, even if the external switch 18 is often pressed by a human, the automatic notification device always has a constant time width by absorbing the jitter of the signal time width of the no-voltage ON signal 25a due to individual differences in the pressing time. 10 can secure a sufficient signal time width. As a result, the microcomputer meter 11 can instruct a highly accurate shutoff control, and the input interface device 20 notifies the automatic notification device 10 and the microcomputer meter 11 via the existing signal input line 15 that the external switch 18 has been pressed. This makes it possible to report with high accuracy.
[0074]
The invention according to claim 23 is the automatic notification device 10 according to claim 22,
The no-voltage signal stretching circuit 25 includes:
A time constant circuit having a sixth resistor R6 and a third capacitor C3 for determining a predetermined time width;
The circuit cutoff signal 21a from the signal input line state determination circuit 24 is compared with a predetermined threshold voltage, and when the circuit cutoff signal 21a exceeds the threshold voltage, it is activated for the predetermined time width. A second comparator IC2,
The input interface device 20 and the no-voltage input circuit 14 are electrically insulated from each other, and the no-voltage ON signal 25a is activated by the predetermined time width in response to the activation of the second comparator IC2. And a second photocoupler PH2 for performing photoelectric conversion to the non-voltage input circuit 14 and transmitting it to the no-voltage input circuit 14.
The automatic notification device 10 is characterized in that:
[0075]
According to the invention of claim 23, in addition to the effect of claim 22, by providing such a time constant circuit and the second comparator IC2 to generate a reference value of a predetermined time width, The duration of the no-voltage ON signal 25a to the automatic notification device 10 is sufficiently ensured, and at the same time, the jitter of the signal time width of the no-voltage ON signal 25a is reduced, and the signal time width sufficient for the automatic notification device 10 to operate is ensured. It has the effect of being able to do so. In particular, even if the external switch 18 is often pressed by a human, the automatic notification device always has a constant time width by absorbing the jitter of the signal time width of the no-voltage ON signal 25a due to individual differences in the pressing time. 10 can secure a sufficient signal time width. As a result, the microcomputer meter 11 can instruct a highly accurate shutoff control, and the input interface device 20 notifies the automatic notification device 10 and the microcomputer meter 11 via the existing signal input line 15 that the external switch 18 has been pressed. This makes it possible to report with high accuracy. Further, by providing the second photocoupler PH2, electrical insulation between the no-voltage input circuit 14 and the input interface device 20 can be maintained.
[0076]
The invention according to claim 24 is the automatic notification device 10 according to claim 12,
The input interface device 20 includes:
The voltage signal 16a from the gas leak alarm 16 is used as a power source to store predetermined power, and when the external switch 18 is activated or a power failure occurs, the voltage signal 16a from the gas leak alarm 16 is A backup power supply circuit that supplies the stored power to the signal input line state determination circuit and the non-voltage signal extension circuit when the potential becomes zero to promote normal operation;
The automatic notification device 10 is characterized in that:
[0077]
According to the invention described in claim 24, in addition to the effect described in claim 12, in addition to the effect described in claim 12, the signal input line state determination circuit 24 and the non- There is an effect that the voltage signal stretching circuit 25 can be operated normally.
[0078]
The invention according to claim 25 is the automatic notification device 10 according to claim 24,
The backup power supply circuit 23 includes:
A fifth resistor R5 and a second capacitor C2 for storing the predetermined power using the voltage signal 16a from the gas leak alarm 16 as a power source;
A fourth Zener diode ZD4 as a limiter for preventing a signal level of a signal input to the second comparator IC2 from exceeding a maximum operating voltage;
The automatic notification device 10 is characterized in that:
[0079]
According to the invention described in claim 25, in addition to the effect described in claim 24, the second capacitor C2 is charged through the fifth resistor R5 using the voltage signal 16a from the gas leak alarm 16 as a power supply. Will be able to Further, when 12 V is applied to the fourth Zener diode ZD4 at the time of the alarm, the potential of the second capacitor C2 can be kept constant so as not to exceed the maximum operating voltage of the second comparator IC2. So that As a result, there is an effect that the signal input line state determination circuit 24 and the no-voltage signal extension circuit 25 can be normally operated by using the voltage signal 16a which becomes zero potential when the external switch 18 is pressed. .
[0080]
The invention according to claim 26 is the automatic notification device 10 according to any one of claims 12 to 25,
The input interface device 20 outputs the gas valve shutoff signal 22a when the signal level of the voltage signal 16a from the gas leak alarm device 16 maintains the alarm level for a predetermined time or more, and outputs the signal to the microcomputer meter 11. Executing supply gas cutoff control, detecting the switch signal 18a from the external switch 18 connected to the signal input line 15 to which the voltage signal 16a from the gas leak alarm 16 is transmitted, and detecting the switch signal 18a is converted to the no-voltage ON signal 25a having the predetermined time width and output to the no-voltage input circuit 14.
The automatic notification device 10 is characterized in that:
[0081]
According to the invention described in claim 26, in addition to the effect described in any one of claims 12 to 25, the switch signal 18a can be sent by using the existing signal input line 15 and newly added. Compared with the case where the signal input line 15 dedicated to the external switch 18 is laid, the construction cost is lower, and the work of making a new hole in the wall of the house is not required.
[0082]
The invention according to claim 27 is the automatic notification device 10 according to any one of claims 12 to 25,
The input interface device 20 outputs the no-voltage ON signal 25a when the signal level of the voltage signal 16a from the gas leak alarm device 16 maintains the alarm level for a predetermined time or more, and outputs the non-voltage ON signal 25a to the microcomputer meter 11. Executing supply gas cutoff control, detecting the switch signal 18a from the external switch 18 connected to the signal input line 15 to which the voltage signal 16a from the gas leak alarm 16 is transmitted, and detecting the switch signal 18a is converted to the no-voltage ON signal 25a having the predetermined time width and output to the no-voltage input circuit 14.
The automatic notification device 10 is characterized in that:
[0083]
According to the invention described in claim 27, the same effect as the effect described in any one of claims 12 to 25 is obtained.
[0084]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
[0085]
First, an embodiment of the automatic notification device 10 will be described with reference to the drawings.
[0086]
FIG. 1 is a functional block diagram for explaining an automatic notification device 10 according to the present invention. FIG. 2 is a system diagram for explaining a specific connection configuration of the automatic notification device 10 of FIG.
[0087]
The automatic notification device 10 shown in FIG. 1 or FIG. 2 is provided in a customer's house, and inputs the voltage input circuit 12 and the signal input line 15 which share the input with the signal input line 15 and receive the voltage signal 16a. And a non-voltage input circuit 14 for receiving the non-voltage signal 16b, and performing a predetermined notification operation to the security management center in response to reception of the non-voltage signal 16a and the non-voltage signal 16b. It has a CPU (not shown), a voltage input circuit 12, a no-voltage input circuit 14, and an input interface device 20. A microcomputer meter 11 is connected to the output terminal, and the input terminal is connected to the input terminal. It has a circuit configuration in which the external switch 18 and the voltage alarm 16 are connected in parallel by sharing the signal input line 15. The automatic notification device 10 and the security management center are connected via a telephone line, and the security management center provides a security service using a no-ringing communication service.
[0088]
The voltage alarm 16 shown in FIG. 1 or FIG. 2 is an alarm having a voltage characteristic, and more specifically, normally generates a potential of 6 V as a voltage signal 16a in a normal state. When a cause such as disconnection of the outlet 16 or a power failure occurs to the voltage alarm 16, a zero potential (specifically, a ground potential) is generated as a voltage signal 16 a, and 12 V is detected when an abnormality is detected. Is a device having a function of generating the potential of the gas leak signal 16a as a voltage signal 16a, and specifically means the gas leak alarm device 16.
[0089]
The gas leak alarm 16 is provided near the ceiling of the kitchen in the customer's house or near the water heater in the bathroom. More specifically, when normal, a potential of 6 V is always generated as a voltage signal 16a, When a cause such as disconnection of the outlet of the leak alarm device 16 or power failure occurs for the gas leak alarm device 16, a zero potential (specifically, a ground potential) is generated as a voltage signal 16a, and the gas leak is detected. It means a sensor device having a function of generating a potential of 12 V as a voltage signal 16a when detected. In the following description, the voltage alarm 16 will be represented by the gas leak alarm 16.
[0090]
FIG. 3 is a circuit diagram for explaining a protection circuit at the output stage of the gas leak alarm 16 in the automatic notification device 10 of FIG.
[0091]
The output stage of the gas leak alarm 16 is provided with a protection circuit as shown in FIG. 3 so as not to be destroyed even in a short-circuit state according to the closing operation of the external switch 18.
[0092]
In the protection circuit of FIG. 3, when the external switch 18 is pressed, the voltage across the resistance element R becomes about 0.7 V, the transistor Tr1 is activated (ON), and the base current of the transistor Tr2 decreases. This prevents an excessive current (short-circuit current = resistance element R × current I flowing through the diode Q1) from flowing to the output stage of the gas leak alarm 16 and being destroyed.
[0093]
The microcomputer meter 11 shown in FIG. 1 or FIG. 2 is provided in the customer's house, counts the amount of gas used (unit is [cubic meter]) supplied to the gas supply path 11A, and controls the opening and closing of the gas cutoff valve 11B. The input terminal of the voltage input circuit 12 is connected to the output terminal of the input interface device 20 to transmit and receive the voltage signal 16a. The input end of the input circuit 14 is connected to the output end of the input interface device 20 to transmit and receive the non-voltage signal 16b, and the input / output end of the microcomputer meter 11 is connected to the input / output end of the input interface device 20 to connect the gas. The circuit configuration is such that transmission and reception of a valve shutoff signal 22a and a telegram (not shown) are performed.
[0094]
That is, by providing an input interface device 20 for executing switching control described later between the gas leak alarm 16 and the voltage input circuit 12 and between the gas leak alarm 16 and the no-voltage input circuit 14, the signal Even when the external switch 18 sharing the input line 15 is provided, it is possible to avoid applying the voltage of the voltage signal 16 a from the gas leak alarm 16 to the no-voltage input circuit 14. As a result, it is possible to avoid the possibility that the voltage input circuit 12 and the non-voltage input circuit 14 in the automatic notification device 10 interfere with each other and erroneously report to the microcomputer meter 11, and that the external switch 18 is pressed. An input interface device 20 capable of notifying the automatic notification device 10 and the microcomputer meter 11 via the existing signal input line 15 is newly provided for the external switch 18. In comparison with the case of laying input line 15 will be able to realize without piercing the work hole into the wall of and houses can inexpensively construction costs No.. Further, by providing such an input interface device 20 between the gas leak alarm 16 and the voltage input circuit 12, and between the gas leak alarm 16 and the no-voltage input circuit 14, the external switch 18 and the signal Even when the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 or the microcomputer meter 11 is broken due to the short-circuit state of the external switch 18 can be realized. This has the effect.
[0095]
The external switch 18 shown in FIG. 1 or FIG. 2 normally keeps the contacts open to generate a switch signal 18a (normally 6V no-voltage signal 16b) indicating this open state, and when the switch is depressed. It has a function of maintaining a contact in a closed state and generating a switch signal 18a (usually a zero-voltage no-voltage signal 16b) meaning this closed state, and is provided in the customer's house. The button is pressed to notify the security management center that a security service is desired. If the security management center provides an optional service other than the security service as an option, the button is pressed when the customer wants to receive the additional service and informs the security management center of the fact.
[0096]
In the present embodiment, it is assumed that a zero-voltage no-voltage signal 16b is generated by pressing the button when the customer feels that the gas leak is abnormal and wants to receive the security service to the security management center. It is also assumed that the zero-voltage signal 16b is generated when the security management center provides a rice delivery service as an optional service other than the security service. In the following description, the external switch 18 will be generically referred to as a rice bin switch 18.
[0097]
By providing such a rice bin switch 18, when the customer wants to receive the rice delivery service as an additional service, the customer can press the rice bin switch 18 and inform the security management center of the depression.
[0098]
When the rice bin switch 18 for performing a predetermined notification operation (transmission of the non-voltage signal 16b) in response to the reception of the non-voltage signal 16b generated by the rice bin switch 18 is provided in addition to the gas leak alarm device 16, an input described later will be described. The interface device 20 is provided between the rice bin switch 18 and the automatic notification device 10.
[0099]
The voltage input circuit 12 shown in FIG. 1 or FIG. 2 has a function of receiving a voltage signal 16 a by sharing an input with the signal input line 15.
[0100]
The no-voltage input circuit 14 shown in FIG. 1 or 2 has a function of receiving an no-voltage signal 16b by sharing an input with the signal input line 15.
[0101]
Next, an embodiment of the input interface device 20 will be described with reference to the drawings.
[0102]
FIG. 4 is a circuit diagram for explaining a basic circuit configuration of the input interface device 20 in the automatic notification device 10 of FIG.
[0103]
The input interface device 20 of the present embodiment is provided between the signal input line 15 and the input terminal of the voltage input circuit 12 and between the signal input line 15 and the input terminal of the non-voltage input circuit 14, It has a function of receiving a voltage signal 16a or a no-voltage signal 16b sent in common with the line 15 and passing it to the automatic notification device 10, and includes a switching circuit 21, a conversion circuit 22, a backup power supply circuit 23, and a signal input line. The circuit is mainly configured by a state determination circuit 24, a no-voltage signal extension circuit 25, and a light emitting circuit 30.
[0104]
Specifically, the input interface device 20 is configured such that the output terminal of the rice bin switch 18 and the output terminal of the gas leak alarm 16 are connected to the input side via the signal input line 15, and the input terminal of the voltage input circuit 12 is connected to the input terminal. The input terminal of the non-voltage input circuit 14 is connected to the output terminal.
[0105]
The switching circuit 21 shown in FIG. 4 transmits the circuit cutoff signal 21a to the no-voltage input circuit 14, instructs the user to press the U.S. dollar switch 18, and cuts off the application of the circuit cutoff signal 21a to the voltage input circuit 12. It has a function of executing switching control.
[0106]
More specifically, the switching circuit 21 causes a current to flow from the input terminal of the no-voltage input circuit 14 to the input terminal of the voltage input circuit 12 via the short-circuit state of the U.S. switch 18 in synchronization with the circuit cutoff signal 21a. Switching control to cut off is being executed.
[0107]
In other words, the signal input line state determination circuit 24 detects that the signal input line 15 is short-circuited in response to the switch signal 18a, and short-circuits the signal input line 15 when the short-circuit state of the signal input line 15 is detected. When the circuit cutoff signal 21a is generated in synchronization with the detection of the state, the switching circuit 21 transmits the circuit cutoff signal 21a to the no-voltage input circuit 14 to instruct the pressing of the rice bin switch 18, and to cut off the circuit. This means that the switching control for electrically disconnecting the voltage input circuit 12 from the non-voltage input circuit 14 is executed in synchronization with the signal 21a.
[0108]
In other words, the signal input line state determination circuit 24 detects that the signal input line 15 is short-circuited in response to the switch signal 18a, and at the same time, detects the short-circuit state of the signal input line 15 when the signal input line 15 is short-circuited. When the circuit cut-off signal 21a is generated in synchronization with the detection of the short-circuit state of the switch 15, the switching circuit 21 transmits the circuit cut-off signal 21a to the no-voltage input circuit 14 and instructs the U.S. button 18 to be pressed, Switching that interrupts the flow of current from the input terminal of the non-voltage input circuit 14 to the input terminal of the voltage input circuit 12 via the short-circuited state of the U.S. switch 18 (the closed state of the switch) in synchronization with the circuit cutoff signal 21a. Control will be performed.
[0109]
That is, by executing such switching control, it is possible to prevent the voltage of the voltage signal 16a from the gas leak alarm 16 from being applied to the no-voltage input circuit 14, and as a result, the automatic notification The voltage input circuit 12 and the non-voltage input circuit 14 in the apparatus 10 can avoid a possibility of interfering with each other and causing an erroneous notification, and the pressing of the rice bin switch 18 can be notified via the existing signal input line 15. An input interface device 20 capable of notifying the automatic notifying device 10 can be realized at a lower construction cost than in the case where a signal input line 15 dedicated to the rice bin switch 18 is newly laid, and is realized without drilling a construction hole in a wall of a house. become able to. Further, by providing such an input interface device 20 between the gas leak alarm 16 and the voltage input circuit 12, and between the gas leak alarm 16 and the no-voltage input circuit 14, the rice bin switch 18 and the signal Even if the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 itself is destroyed due to the short-circuit state of the rice bin switch 18 can be realized. Play.
[0110]
Further, the switching circuit 21 transmits the circuit cutoff signal 21a to the no-voltage input circuit 14, instructs the user to press the U.S. dollar switch 18, and cuts off the application of the circuit cutoff signal 21a to the voltage input circuit 12. Also have.
[0111]
In other words, the signal input line state determination circuit 24 detects the potential of the signal input line 15 at the time of a power failure, and simultaneously detects the potential of the signal at the time of the power failure V1 and synchronizes with the detection of the potential at the power failure V1. When the switch 21 is generated, the switching circuit 21 transmits the circuit cutoff signal 21a to the no-voltage input circuit 14 to instruct the rice switch 18 to be pressed, and synchronizes with the circuit cutoff signal 21a. Switching control for interrupting the flow of current from the input terminal of the no-voltage input circuit 14 to the input terminal of the voltage input circuit 12 via the short-circuit state is executed.
[0112]
In other words, the signal input line state determination circuit 24 detects that the signal input line 15 has been short-circuited in accordance with the power failure potential V1 and, at the same time, detects that the signal input line 15 has been short-circuited. When the circuit cut-off signal 21a is generated in synchronization with the detection of the short-circuit state of the line 15, the switching circuit 21 transmits the circuit cut-off signal 21a to the no-voltage input circuit 14 and instructs that the U.S. button 18 is pressed. In addition, switching control for electrically disconnecting the non-voltage input circuit 14 from the voltage input circuit 12 is executed in synchronization with the circuit cutoff signal 21a.
[0113]
In other words, the signal input line state determination circuit 24 detects that the signal input line 15 has been short-circuited in accordance with the power failure potential V1 and, at the same time, detects that the signal input line 15 has been short-circuited. When the circuit cut-off signal 21a is generated in synchronization with the detection of the short-circuit state of the line 15, the switching circuit 21 transmits the circuit cut-off signal 21a to the no-voltage input circuit 14 and instructs that the U.S. button 18 is pressed. And performing switching control for interrupting the flow of current from the input terminal of the non-voltage input circuit 14 to the input terminal of the voltage input circuit 12 via the short-circuit state of the U.S. switch 18 in synchronization with the circuit cutoff signal 21a. become.
[0114]
That is, by executing such switching control, it is possible to prevent the voltage of the voltage signal 16a from the gas leak alarm 16 from being applied to the no-voltage input circuit 14, and as a result, the automatic notification The voltage input circuit 12 and the non-voltage input circuit 14 in the apparatus 10 can avoid a possibility of interfering with each other and causing an erroneous notification, and the pressing of the rice bin switch 18 can be notified via the existing signal input line 15. The input interface device 20 capable of notifying the automatic notification device 10 can be realized at a low construction cost and without drilling a construction hole in a wall of a house. Further, by providing such an input interface device 20 between the gas leak alarm 16 and the voltage input circuit 12, and between the gas leak alarm 16 and the no-voltage input circuit 14, the rice bin switch 18 and the signal Even if the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 itself is destroyed due to the short-circuit state of the rice bin switch 18 can be realized. Play.
[0115]
In order to realize such a function, the switching circuit 21 supplies a voltage input signal according to the signal state of the voltage signal 16a when the U.S. dollar switch 18 is activated or the signal state of the voltage signal 16a at the time of a power failure. The circuit 12 and the conversion circuit 22 are electrically disconnected from the signal input line state determination circuit 24 to interrupt the flow of current from the signal input line state determination circuit 24 to the voltage input circuit 12 or the conversion circuit 22 to perform switching control. Configured to run.
[0116]
Specifically, the switching circuit 21 includes a second Zener diode ZD2 that is turned on in response to an input signal of a predetermined voltage, and a fourth transistor (npn transistor) Tr4 that is activated in accordance with the turned-on state of the second Zener diode ZD2. And a third transistor (pnp transistor) that is activated in response to the activation of the fourth transistor (npn transistor) Tr4 and supplies the voltage signal 16a from the gas leak alarm 16 to the conversion circuit 22 and the voltage input circuit 12. ) Tr3 is the center.
[0117]
That is, the voltage input circuit 12 and the conversion circuit 22 are electrically disconnected from the signal input line state determination circuit 24 in accordance with the signal state of the voltage signal 16a or the signal state of the voltage signal 16a at the time of power failure, and the signal input line is disconnected. By performing switching control to block the flow of current from the state determination circuit 24 to the voltage input circuit 12 or the conversion circuit 22, the voltage of the voltage signal 16a from the signal input line state determination circuit 24 is reduced. It is possible to avoid being applied to the voltage input circuit 14, and as a result, the voltage input circuit 12 and the non-voltage input circuit 14 in the automatic notification device 10 interfere with each other via the signal input line state determination circuit 24. It is possible to avoid the possibility of making an erroneous notification, and to notify the automatic notification device 10 via the existing signal input line 15 that the rice bin switch 18 has been pressed. And it can force the interface device 20 at low cost construction costs will be able to realize without piercing the work hole into the wall of a house. Further, by providing such an input interface device 20 between the gas leak alarm 16 and the voltage input circuit 12, and between the gas leak alarm 16 and the no-voltage input circuit 14, the rice bin switch 18 and the signal Even if the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 itself is destroyed due to the short-circuit state of the rice bin switch 18 can be realized. Play.
[0118]
The switching circuit 21 is connected to the light emitting element LED in a forward direction (that is, in a direction from the anode to the cathode) to supply a discharge current to the light emitting element LED when the rice bin switch 18 is activated or in the event of a power failure. The first diode D1 and the eighth resistance element R8.
[0119]
FIG. 5 is a waveform diagram of the voltage signal 16a for explaining the operation of the switching circuit 21 in the input interface device 20 of FIG.
[0120]
Specifically, in the switching circuit 21, as shown in FIG. 5, when the input circuit is at about 4 V or more, the second Zener diode ZD2 conducts, a base current flows through the fourth transistor (npn transistor) Tr4, and the fourth transistor ( The npn transistor (Tr4) is activated. Accordingly, the third transistor (pnp transistor) Tr3 is activated. Therefore, when the input voltage from the gas leak alarm 16 is about 4 V or more, the third transistor (pnp transistor) Tr3 is activated, and the voltage signal 16a of the gas leak alarm 16 is supplied to the conversion circuit 22 and the automatic notification device 10. .
[0121]
When the rice bin switch 18 is activated or when a power failure occurs, the voltage signal 16a from the gas leak alarm 16 becomes zero. Without this circuit, current flows from the signal input line state determination circuit 24 to the voltage input circuit 12 and the conversion circuit 22 of the automatic notification device 10 at the time of a power failure, and the signal input line state determination circuit 24 malfunctions. For this reason, at the time of a power failure, it is necessary to disconnect the automatic notification device 10 and the conversion circuit 22, and the switching circuit 21 is used.
[0122]
Accordingly, the power supplied from the gas leak alarm 16 is stored in the fourth capacitor C4 via the first diode D1 and the eighth resistor R8, and the light emitting element is used by using the charge stored in the fourth capacitor C4. Since the LED emits light, there is no need to prepare a new battery and no need to replace the battery. When the U.S. bin switch 18 is pressed, the contacts of the U.S. bin switch 18 are securely closed and the switch signal is turned on. There is an effect that it is possible to realize the automatic notification device 10 that can confirm whether or not the button 18a is generated at the time of pressing.
[0123]
The conversion circuit 22 shown in FIG. 4 has a function of outputting a gas valve cutoff signal 22a to the microcomputer meter 11 when detecting a voltage signal 16a having a predetermined potential or more. In this case, the microcomputer meter 11 is connected so as to execute the shutoff control of the supply gas by closing the gas shutoff valve 11B provided in the gas supply passage 11A in response to the reception of the gas valve shutoff signal 22a.
[0124]
The conversion circuit 22 outputs the gas valve shut-off signal 22a to the microcomputer 11 in a state where the voltage signal 16a having a predetermined potential or more is detected and the signal is delayed by a predetermined time from the timing at which the voltage signal 16a is detected. It is configured.
[0125]
Specifically, the conversion circuit 22 includes a first Zener diode ZD1 that is turned on when a voltage signal 16a having a predetermined potential or more is detected, and a first transistor that is activated in accordance with the turned-on state of the first Zener diode ZD1. (Npn transistor) Tr1, second transistor (npn transistor) Tr2 inactivated in response to activation of first transistor (npn transistor) Tr1, and inactivation of second transistor (npn transistor) Tr2 A charging circuit composed of a first resistance element R1 and a first capacitor C1 for generating a charging voltage, and comparing the charging voltage of the charging circuit with a predetermined threshold voltage, when the charging voltage exceeds the threshold voltage. A first comparator (operational amplifier) IC1 for generating a gas valve shutoff signal 22a at the input and an input interface device 20 At the same time electrically insulating the microcomputer meter 11 is constructed around the first photocoupler PH1 for transmitting to the microcomputer meter 11 gas valve shutoff signal 22a and photoelectrically converted into an optical signal. have.
[0126]
In such a circuit, when the voltage signal 16a from the gas leak alarm 16 becomes about 9 V or more, the first Zener diode ZD1 conducts and the first transistor (npn transistor) Tr1 is activated. As a result, the second transistor (npn transistor) Tr2 is inactivated, and the first capacitor C1 is charged through the first resistance element R1. When this charging voltage becomes higher than the threshold voltage determined by the second resistance element R2 and the third resistance element R3, it is determined by the first comparator (op-amp) IC1 and the first photocoupler PH1 is driven to the microcomputer 11 Outputs a gas valve shutoff signal. In the present embodiment, the delay time is set to about 45 seconds.
[0127]
According to such a circuit configuration, even when the rice bin switch 18 sharing the signal input line 15 is provided, the voltage of the voltage signal 16 a from the gas leak alarm 16 is applied to the non-voltage input circuit 14. As a result, the voltage input circuit 12 and the non-voltage input circuit 14 in the automatic notification device 10 may interfere with each other and instruct the microcomputer meter 11 to perform an erroneous shutoff control. The automatic notification device 10 having the input interface device 20 capable of notifying the automatic notification device 10 and the microcomputer meter 11 via the existing signal input line 15 that the rice bin switch 18 has been pressed can be avoided. The construction cost can be reduced as compared with the case where the signal input line 15 is laid, and it can be realized without drilling a construction hole in the wall of the house. Further, by providing such an input interface device 20 between the gas leak alarm 16 and the voltage input circuit 12, and between the gas leak alarm 16 and the no-voltage input circuit 14, the rice bin switch 18 and the signal Even when the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 or the microcomputer meter 11 is broken due to the short-circuit state of the rice bin switch 18 can be realized. This has the effect.
[0128]
The backup power supply circuit 23 shown in FIG. 4 stores the predetermined power using the voltage signal 16a from the gas leak alarm 16 as a power source, and simultaneously outputs the signal from the gas leak alarm 16 when the rice bin switch 18 is activated or when a power failure occurs. When the voltage signal 16a becomes zero potential, it has a function of supplying the stored power to the signal input line state determination circuit 24 and the no-voltage signal extension circuit 25 to promote normal operation.
[0129]
Accordingly, the signal input line state determining circuit 24 and the no-voltage signal extending circuit 25 can be normally operated by using the voltage signal 16a which becomes zero potential in response to the depression of the rice bin switch 18. Play.
[0130]
In order to realize such a function, the backup power supply circuit 23 includes a fifth resistance element R5 and a second capacitor C2 for storing predetermined power using the voltage signal 16a from the gas leak alarm 16 as a power supply, The second comparator (mono multivibrator) is configured around a fourth Zener diode ZD4 as a limiter that prevents the signal level of a signal input to the IC2 from exceeding the maximum operating voltage.
[0131]
In such a circuit, the second capacitor C2 is charged (about 4 V) through the fifth resistor R5 using the voltage signal 16a from the gas leak alarm 16 as a power supply. 12V may be applied to the fourth Zener diode ZD4 at the time of alarm
Since the maximum operating voltage of the second comparator (mono multivibrator) IC2 may be exceeded, the voltage of the second capacitor C2 is made constant. In the power supply backup power supply circuit 23, the signal input line state determination circuit 24 and the no-voltage signal 16b extending circuit 25 operate. When the rice bin switch 18 is activated, the voltage signal 16a from the gas leak alarm 16 becomes zero, and the backup power supply circuit 23 becomes effective.
[0132]
According to such a circuit configuration, the second capacitor C2 can be charged through the fifth resistor R5 using the voltage signal 16a from the gas leak alarm 16 as a power supply. Further, when 12 V is applied to the fourth Zener diode ZD4 at the time of the alarm, the potential of the second capacitor C2 can be kept constant so as not to exceed the maximum operating voltage of the second comparator (mono multivibrator) IC2IC2. So that As a result, there is an effect that the signal input line state determination circuit 24 and the no-voltage signal extension circuit 25 can be normally operated using the voltage signal 16a which becomes zero potential when the rice bin switch 18 is pressed. .
[0133]
The signal input line state determination circuit 24 shown in FIG. 4 detects the switch signal 18a via the signal input line 15 and, at the same time, detects the circuit cutoff signal 21a in synchronization with the detection of the switch signal 18a when the switch signal 18a is detected. Is generated.
[0134]
Further, the signal input line state determination circuit 24 detects the power failure potential V1 of the signal input line 15 at the time of power failure, and at the same time, detects the power failure when the power failure potential V1 (specifically, a potential of 4 V or less) is detected. It has a function of generating the circuit cutoff signal 21a in synchronization with the detection of the hourly potential V1.
[0135]
Specifically, the signal input line state determination circuit 24 includes a third Zener diode ZD3 and a third Zener diode ZD3 that are turned on when the rice bin switch 18 is activated and pressed to reduce the input voltage to a predetermined voltage or less. A fifth transistor (pnp transistor) Tr5 that is activated in accordance with the conduction state to generate the circuit cutoff signal 21a, and the base current of the fifth transistor (pnp transistor) Tr5 is connected to the U.S. switch via the third Zener diode ZD3 18.
[0136]
The no-voltage signal extension circuit 25 receives the circuit cutoff signal 21a from the signal input line state determination circuit 24, converts the signal into a no-voltage ON signal 25a having a predetermined time width, and simultaneously converts the no-voltage ON signal 25a into a no-voltage signal. It has a function of transmitting to the input circuit 14.
[0137]
In such a circuit configuration, the rice bin switch 18 is pressed, and as shown in FIG. 5, when the input voltage becomes about 1 V or less, the third Zener diode ZD3 conducts, and the fifth transistor (pnp transistor) Tr5 Is activated to generate a circuit cutoff signal. As a result, the base current of the fifth transistor (pnp transistor) Tr5 flows through the third Zener diode ZD3 to the rice bin switch 18. That is, the signal input line state determination circuit 24 operates when a current flows to the outside.
[0138]
That is, by providing such a no-voltage signal extending circuit 25 and generating the gas valve shut-off signal 22a having a predetermined time width, the duration of the no-voltage ON signal 25a to the automatic notification device 10 is sufficiently ensured and at the same time. There is an effect that the jitter of the signal time width of the no-voltage ON signal 25a is reduced, and a signal time width sufficient for the automatic notification device 10 to operate can be secured. In particular, even in the case of the rice bin switch 18 which is often pressed by a person, the automatic notification device always has a constant time width by absorbing the jitter of the signal time width of the no-voltage ON signal 25a caused by the individual difference in the pressing time. 10 can secure a sufficient signal time width. As a result, the microcomputer meter 11 can issue a high-precision shutoff control, and the input interface device 20 notifies the automatic notification device 10 and the microcomputer meter 11 via the existing signal input line 15 that the rice bin switch 18 has been pressed. This makes it possible to report with high accuracy.
[0139]
The non-voltage signal stretching circuit 25 shown in FIG. 4 includes a time constant circuit having a sixth resistor R6 and a third capacitor C3 for determining a predetermined time width, and a circuit cutoff signal from the signal input line state determination circuit 24. The second comparator (mono multivibrator) IC2, which is activated by a predetermined time width when the circuit cutoff signal 21a exceeds the threshold voltage, and the input interface device 20 are compared with each other. At the same time as the voltage input circuit 14 is electrically insulated, at the same time as the second comparator (mono-multivibrator) IC2 is activated, it is activated for a predetermined time width and photoelectrically converts the no-voltage ON signal 25a to an optical signal to generate an optical signal. The second photocoupler PH2 transmitting to the voltage input circuit 14 is mainly configured.
[0140]
In such a circuit configuration, when the circuit cutoff signal from the signal input line state determination circuit 24 is input, the second comparator (mono multivibrator) IC2 operates to drive the second photocoupler PH2 for a certain time (ie, a delay time). And outputs a no-voltage ON signal to the automatic notification device 10. The fixed time is determined by the sixth resistor R6 and the third capacitor C3, and is about 5 seconds. Since the rice bin switch 18 is pressed by a person, the activation time varies, and it is considered that a sufficient time for the automatic notification device 10 to operate cannot be obtained. Therefore, the no-voltage signal 16b is extended by the extension circuit 25 for a sufficient time. Has been generated.
[0141]
Since the current flows into the switching circuit 21 at about 4 V or more, the switching circuit 21 can be ignored. At about 4 V, the switching circuit 21 is deactivated, and the automatic notification device 10 and the conversion circuit 22 are disconnected. Further, as shown in FIG. 5, the switching circuit 21 operates at about 1 V, and a current starts flowing. Here, since the automatic notification device 10 and the conversion circuit 22 have already been disconnected, there is no place where current flows, and no malfunction occurs.
[0142]
If the U.S.A. switch 18 is pressed during a power failure, the signal input line state determination circuit 24 and the no-voltage signal 16b extension circuit 25 operate in the backup power supply circuit 23, so that notification is possible.
[0143]
According to such a circuit configuration, by providing such a time constant circuit and the second comparator (mono-multivibrator) IC2 to generate a reference value of a predetermined time width, a no-voltage to the automatic notification device 10 is obtained. There is an effect that the duration of the ON signal 25a is sufficiently ensured, the jitter of the signal time width of the no-voltage ON signal 25a is reduced at the same time, and the signal time width sufficient for the operation of the automatic notification device 10 can be ensured. . In particular, even in the case of the rice bin switch 18 which is often pressed by a person, the automatic notification device always has a constant time width by absorbing the jitter of the signal time width of the no-voltage ON signal 25a caused by the individual difference in the pressing time. 10 can secure a sufficient signal time width. As a result, the microcomputer meter 11 can issue a high-precision shutoff control, and the input interface device 20 notifies the automatic notification device 10 and the microcomputer meter 11 via the existing signal input line 15 that the rice bin switch 18 has been pressed. This makes it possible to report with high accuracy. Further, by providing the second photocoupler PH2, electrical insulation between the no-voltage input circuit 14 and the input interface device 20 can be maintained.
[0144]
FIG. 6A is a circuit diagram for explaining a basic circuit configuration of the light emitting circuit 30 in the automatic notification device 10 of FIG. 1, and FIG. 6B is a diagram showing a power failure of the light emitting circuit 30 of FIG. FIG. 4 is a circuit diagram for explaining a circuit configuration to which a malfunction avoiding function at the time is added.
[0145]
The light emitting circuit 30 shown in FIG. 6A is connected to emit light by the power from the gas leak alarm 16 when the rice bin switch 18 is activated, and is connected to emit light when a power failure occurs. LED is provided.
[0146]
Accordingly, since the light emitting operation of the light emitting element LED is performed using the electric power supplied from the gas leak alarm device 16, there is no need to prepare a new battery, no need to replace the battery, and the rice bin switch 18 When the button is pressed, the contact point of the rice bin switch 18 is securely closed, and the automatic notification device 10 that can confirm whether or not the switch signal 18a has been generated at the time of pressing can be realized.
[0147]
When such a light emitting circuit 30 is incorporated in the switching circuit 21, the switching circuit 21 is normally connected to a steady potential output from the gas leak alarm 16 in a normal state, as shown in FIG. Centering around a first diode D1, a seventh resistor R7 connected to the cathode of the first diode D1, and a fourth capacitor (electrolytic capacitor) C4 charged via the first diode D1 and the seventh resistor R7. It is configured.
[0148]
Further, in this case, the light emitting element LED is directed in a forward direction (that is, from the anode to the cathode) with respect to the discharge current so as to emit light by using the discharge current of the accumulated charge of the fourth capacitor C4 when the rice bin switch 18 is activated or a power failure occurs. Direction).
[0149]
In the circuit of FIG. 6B, since 6 V is output as the normal voltage signal 16a from the gas leak alarm 16, the capacitor C4 is charged through the diode D1 and the first resistor R1, and the rice switch 18 is turned on. When the button is pressed, the light is discharged through the second resistance element R2, the light-emitting element LED, and the diode D2, and the light-emitting element LED is illuminated.
[0150]
Further, by incorporating the light emitting circuit 30 in the switching circuit 21, it is possible to prevent the input interface device 20 from malfunctioning even during a power failure.
[0151]
According to the switching circuit 21 having such a circuit configuration, the electric power supplied from the gas leak alarm 16 is stored in the fourth capacitor C4, and the light emitting operation of the light emitting element LED is performed using the electric charge stored in the fourth capacitor C4. Therefore, there is no need to prepare a new battery and no need to replace the battery. When the U.S. bin switch 18 is pressed, the contacts of the U.S. bin switch 18 are securely closed, and the switch signal 18a is generated. It is possible to realize the automatic notification device 10 that can confirm whether or not the notification has been made at the time of pressing.
[0152]
In summary, the input interface device 20 having the above circuit configuration outputs the gas valve shutoff signal 22a when the signal level of the voltage signal 16a from the gas leak alarm 16 maintains the alarm level for a predetermined time or more. The supply gas cutoff control is executed for the microcomputer meter 11, and the switch signal 18 a from the rice bin switch 18 connected to the signal input line 15 to which the voltage signal 16 a from the gas leak alarm 16 is transmitted is detected and the switch signal is detected. 18a can be converted into a no-voltage ON signal 25a having a predetermined time width and output to the no-voltage input circuit 14.
[0153]
In other words, the input interface device 20 outputs the no-voltage ON signal 25a and supplies it to the microcomputer meter 11 when the signal level of the voltage signal 16a from the gas leak alarm 16 maintains the alarm level for a predetermined time or more. A gas cutoff control is executed, a switch signal 18a from a rice bin switch 18 connected to a signal input line 15 to which a voltage signal 16a from a gas leak alarm device 16 is transmitted is detected, and the switch signal 18a is output for a predetermined time width. This is converted into the voltage ON signal 25a and output to the no-voltage input circuit 14.
[0154]
Specifically, the input interface device 20 is installed in the automatic notification device 10, and when the alarm signal (12V) from the gas leak alarm device 16 continues for about 45 seconds or more, the gas valve shutoff signal (no-voltage ON signal) Is output to shut off the microcomputer meter 11. Further, it detects an instantaneous activation signal of the rice bin switch 18 connected to the input line of the voltage signal 16 a from the gas leak alarm 16, converts the signal into an activation signal for 5 seconds, and outputs it to the automatic notification device 10.
[0155]
Accordingly, the switch signal 18a can be sent by using the existing signal input line 15, and the construction cost is lower than in the case where the signal input line 15 dedicated to the rice bin switch 18 is newly laid. Eliminates the need to make new holes in the walls.
[0156]
As described above, according to the automatic notification device 10, by performing the switching control for cutting off the application of the circuit cutoff signal 21a to the voltage input circuit 12, the voltage signal 16a from the gas leak alarm 16 is executed. Can be avoided from being applied to the no-voltage input circuit 14, and as a result, the no-voltage input circuit 12 and the no-voltage input circuit 14 in the automatic notification device 10 interfere with each other and erroneously report. The input interface device 20 capable of notifying the automatic notifying device 10 via the existing signal input line 15 that the rice bin switch 18 has been pressed can be avoided, and the signal input line 15 dedicated to the rice bin switch 18 is newly provided. The construction cost can be reduced as compared with the case of laying, and it can be realized without drilling a construction hole in a wall of a house. Further, by providing such an input interface device 20 between the gas leak alarm 16 and the voltage input circuit 12, and between the gas leak alarm 16 and the no-voltage input circuit 14, the rice bin switch 18 and the signal Even when the input line 15 is shared, the input interface device 20 that can avoid the possibility that the automatic notification device 10 itself is destroyed due to the depression of the rice bin switch 18 can be realized. .
[0157]
【The invention's effect】
According to the first aspect of the present invention, by performing the switching control for cutting off the application of the circuit cutoff signal to the voltage input circuit, the voltage of the voltage signal from the voltage alarm device is changed to the voltageless input circuit. Can be avoided, and as a result, it is possible to avoid the possibility that the voltage input circuit and the non-voltage input circuit in the automatic notification device interfere with each other and cause a false notification, and the external switch is pressed. An input interface device that can notify the automatic notification device via the existing signal input line that the operation has been completed can reduce the construction cost compared to the case where a signal input line dedicated to the external switch is newly laid, and to the wall of the house This can be realized without drilling construction holes. Further, by providing such an input interface device between the voltage alarm and the voltage input circuit, and between the voltage alarm and the no-voltage input circuit, the signal input line is shared with the external switch. Even in this case, there is an effect that an input interface device that can avoid the possibility that the automatic notification device itself is destroyed due to the pressing of the external switch can be realized.
[0158]
According to the second aspect of the present invention, by executing the switching control for interrupting the flow of the current to the input terminal of the voltage input circuit, the voltage of the voltage signal from the voltage alarm is changed to the non-voltage input. As a result, it is possible to avoid the possibility that the voltage input circuit and the non-voltage input circuit in the automatic notification device interfere with each other to cause a false notification, and the external switch can be used. The input interface device that can notify the automatic notification device via the existing signal input line that the button has been pressed is reduced in construction cost and the wall of the house as compared with the case where a signal input line dedicated to an external switch is newly laid. It can be realized without drilling construction holes. Further, by providing such an input interface device between the voltage alarm and the voltage input circuit, and between the voltage alarm and the no-voltage input circuit, the signal input line is shared with the external switch. Even in this case, there is an effect that an input interface device that can avoid the possibility that the automatic notification device itself is destroyed due to the short-circuit state of the external switch can be realized.
[0159]
According to the third aspect of the present invention, the circuit cutoff signal is generated in synchronization with the detection of the signal input line short-circuit state, and the voltage input circuit is electrically disconnected from the non-voltage input circuit in synchronization with the circuit cutoff signal. Executing the switching control that makes it possible to prevent the voltage of the voltage signal from the voltage alarm from being applied to the non-voltage input circuit, and as a result, the voltage input circuit in the automatic notification device And a no-voltage input circuit to avoid the possibility of erroneous notification due to interference with each other, and a new input interface device that can report that the external switch has been pressed to the automatic notification device via the existing signal input line Compared with the case where a signal input line dedicated to an external switch is laid, the construction cost can be reduced and the construction can be realized without drilling a construction hole in a house wall. Further, by providing such an input interface device between the voltage alarm and the voltage input circuit, and between the voltage alarm and the no-voltage input circuit, the signal input line is shared with the external switch. Even in this case, there is an effect that an input interface device that can avoid the possibility that the automatic notification device itself is destroyed due to the short-circuit state of the external switch can be realized.
[0160]
According to the fourth aspect of the present invention, a circuit cutoff signal is generated in synchronization with the detection of the signal input line short-circuit state, and the input of the voltage input circuit from the input terminal of the non-voltage input circuit is synchronized with the circuit cutoff signal. By executing the switching control for interrupting the flow of current to the end, it is possible to prevent the voltage of the voltage signal from the voltage alarm from being applied to the non-voltage input circuit, and as a result, It is possible to avoid the possibility that the voltage input circuit and the non-voltage input circuit in the notification device interfere with each other and cause an erroneous notification, and to notify the automatic notification device via the existing signal input line that the external switch has been pressed. The input interface device capable of notifying can be realized at a lower construction cost than a case where a signal input line dedicated to the external switch is newly laid, and can be realized without drilling a construction hole in a wall of a house. Further, by providing such an input interface device between the voltage alarm and the voltage input circuit, and between the voltage alarm and the no-voltage input circuit, the signal input line is shared with the external switch. Even in this case, there is an effect that an input interface device that can avoid the possibility that the automatic notification device itself is destroyed due to the short-circuit state of the external switch can be realized.
[0161]
According to the fifth aspect of the present invention, a switching control for generating a circuit interruption signal in synchronization with the detection of the potential at the time of a power failure, and interrupting application of the circuit interruption signal to the voltage input circuit in synchronization with the circuit interruption signal. By executing the above, it is possible to prevent the voltage of the voltage signal from the voltage alarm from being applied to the non-voltage input circuit. As a result, the voltage input circuit and the non-voltage A new input interface device that can notify the automatic notification device via the existing signal input line that the external switch has been pressed can be avoided by avoiding the possibility that the input circuit will interfere with each other and cause an erroneous notification. The construction cost can be reduced compared to the case of laying the signal input line, and the construction can be realized without drilling a construction hole in the wall of the house. Further, by providing such an input interface device between the voltage alarm and the voltage input circuit, and between the voltage alarm and the no-voltage input circuit, the signal input line is shared with the external switch. Even in this case, there is an effect that an input interface device that can avoid the possibility that the automatic notification device itself is destroyed due to the short-circuit state of the external switch can be realized.
[0162]
According to the invention as set forth in claim 6, a circuit cutoff signal is generated in synchronization with the detection of the potential at the time of a power failure, and the input terminal of the non-voltage input circuit is driven in synchronization with the circuit cutoff signal via a short-circuit state of the external switch. By executing the switching control for interrupting the flow of the current to the input terminal of the voltage input circuit, it is possible to prevent the voltage of the voltage signal from the voltage alarm from being applied to the non-voltage input circuit. As a result, it is possible to avoid the possibility that the voltage input circuit and the non-voltage input circuit in the automatic notification device interfere with each other and make an erroneous notification, and to notify the existing signal input line that the external switch has been pressed. An input interface device capable of notifying the automatic notification device via the interface can be realized at a lower construction cost than when a signal input line dedicated to an external switch is newly laid, and without drilling a construction hole in a wall of a house. It becomes so that. Further, by providing such an input interface device between the voltage alarm and the voltage input circuit, and between the voltage alarm and the no-voltage input circuit, the signal input line is shared with the external switch. Even in this case, there is an effect that an input interface device that can avoid the possibility that the automatic notification device itself is destroyed due to the short-circuit state of the external switch can be realized.
[0163]
According to the seventh aspect of the present invention, a circuit interruption signal is generated in synchronization with the detection of the signal input line short-circuit state, and the voltage input circuit is electrically disconnected from the non-voltage input circuit in synchronization with the circuit interruption signal. Executing the switching control that makes it possible to prevent the voltage of the voltage signal from the voltage alarm from being applied to the non-voltage input circuit, and as a result, the voltage input circuit in the automatic notification device And the no-voltage input circuit can avoid the possibility of erroneous notification due to interference with each other, and an input interface device that can report that the external switch has been pressed to the automatic notification device via the existing signal input line at construction cost Can be realized at low cost and without drilling a construction hole in the wall of the house. Further, by providing such an input interface device between the voltage alarm and the voltage input circuit, and between the voltage alarm and the no-voltage input circuit, the signal input line is shared with the external switch. Even in this case, there is an effect that an input interface device that can avoid the possibility that the automatic notification device itself is destroyed due to the short-circuit state of the external switch can be realized.
[0164]
According to the invention of claim 8, a circuit cutoff signal is generated in synchronization with the detection of the signal input line short circuit state, and the input of the non-voltage input circuit is input via the short circuit state of the external switch in synchronization with the circuit cutoff signal. By executing the switching control for interrupting the flow of current from the terminal to the input terminal of the voltage input circuit, it is possible to prevent the voltage of the voltage signal from the voltage alarm from being applied to the non-voltage input circuit. As a result, it is possible to avoid the possibility that the voltage input circuit and the non-voltage input circuit in the automatic notification device interfere with each other and erroneously report, and that the pressing of the external switch indicates that the external switch has been pressed. An input interface device capable of notifying an automatic notifying device via a line can be realized at a low construction cost without drilling a construction hole in a house wall. Further, by providing such an input interface device between the voltage alarm and the voltage input circuit, and between the voltage alarm and the no-voltage input circuit, the signal input line is shared with the external switch. Even in this case, there is an effect that an input interface device that can avoid the possibility that the automatic notification device itself is destroyed due to the short-circuit state of the external switch can be realized.
[0165]
According to the ninth aspect of the present invention, in addition to the effects of any one of the first to eighth aspects, the input interface device for executing the above-described switching control includes a voltage alarm and a voltage input circuit. And between the voltage alarm and the non-voltage input circuit, even if an external switch sharing a signal input line is provided, the presence of a voltage signal from the voltage alarm The voltage can be prevented from being applied to the no-voltage input circuit, and as a result, the possibility that the voltage input circuit and the no-voltage input circuit in the automatic notification device interfere with each other and cause a false notification can be avoided. The input interface device, which can notify the automatic notification device via the existing signal input line that the external switch has been pressed, can reduce the construction cost compared to the case where a signal input line dedicated to the external switch is newly laid. Raise One becomes a house to the walls of the construction hole can be realized without drilling. Further, by providing such an input interface device between the voltage alarm and the voltage input circuit, and between the voltage alarm and the no-voltage input circuit, the signal input line is shared with the external switch. Even in this case, there is an effect that an input interface device that can avoid the possibility that the automatic notification device itself is destroyed due to the short-circuit state of the external switch can be realized.
[0166]
According to the tenth aspect of the invention, in addition to the effect of the ninth aspect, the input interface device for executing the switching control is provided between the gas leak alarm and the voltage input circuit, and the gas leak alarm. Even if an external switch that shares a signal input line is provided by providing between the gas leak detector and the no-voltage input circuit, the voltage of the As a result, it is possible to avoid the possibility that the voltage input circuit and the non-voltage input circuit in the automatic notification device interfere with each other and cause a false notification, and the external switch is pressed. The input interface device that can notify the automatic notification device via the existing signal input line of the fact that the signal input line dedicated to the external switch is newly laid can reduce the construction cost and the wall of the house. So it can be realized without perforating the construction hole. Further, by providing such an input interface device between the gas leak alarm and the voltage input circuit and between the gas leak alarm and the no-voltage input circuit, the signal input line is shared with the external switch. Even in this case, there is an effect that an input interface device that can avoid the possibility that the automatic notification device itself is destroyed due to the short-circuit state of the external switch can be realized.
[0167]
According to the eleventh aspect of the present invention, in addition to the effect of the tenth aspect, the input interface device for executing the switching control is provided between the gas leak alarm and the voltage input circuit, and the gas leak alarm. Even if an external switch that shares a signal input line is provided by providing between the gas leak detector and the no-voltage input circuit, the voltage of the As a result, it is possible to avoid the possibility that the voltage input circuit and the non-voltage input circuit in the automatic reporting device interfere with each other and erroneously report to the microcomputer meter. Compared to the case where a new signal input line dedicated to an external switch is laid with an input interface device that can notify the automatic notification device and microcomputer meter via the existing signal input line that the button has been pressed So that can be realized without perforating the construction hole to cheaply raise and houses of wall construction costs Te. Further, by providing such an input interface device between the gas leak alarm and the voltage input circuit and between the gas leak alarm and the no-voltage input circuit, the signal input line is shared with the external switch. Even in this case, there is an effect that an input interface device that can avoid the possibility that the automatic notification device or the microcomputer meter is broken due to the short-circuit state of the external switch can be realized.
[0168]
According to the twelfth aspect of the present invention, in addition to the effects of the ninth to eleventh aspects, the input interface device for executing the supply gas cutoff control includes a gas leak alarm and a voltage input circuit. , And between the gas leak alarm and the no-voltage input circuit, even if an external switch sharing the signal input line is provided, the voltage signal from the gas leak alarm is output. Voltage can be prevented from being applied to the non-voltage input circuit, and as a result, the voltage input circuit and the non-voltage input circuit in the automatic notification device interfere with each other, and erroneous shutoff control is performed on the microcomputer meter. It is possible to avoid the possibility of giving a command, and a new automatic notification device with an input interface device that can notify the automatic notification device or the microcomputer meter via an existing signal input line that the external switch has been pressed is newly installed. So it can be realized without perforating the construction hole to inexpensively raised and houses wall construction cost as compared with the case of laying a signal input line of the switch only. Further, by providing such an input interface device between the gas leak alarm and the voltage input circuit and between the gas leak alarm and the no-voltage input circuit, the signal input line is shared with the external switch. Even in this case, there is an effect that an input interface device that can avoid the possibility that the automatic notification device or the microcomputer meter is broken due to the short-circuit state of the external switch can be realized.
[0169]
According to the thirteenth aspect of the present invention, in addition to the effect of the twelfth aspect, by providing such a no-voltage signal extending circuit and generating a gas valve cutoff signal by performing a delay process, the automatic notification device can be provided. In this case, the duration of the no-voltage ON signal can be sufficiently ensured, and at the same time, the jitter of the signal time width of the no-voltage ON signal can be reduced. . In particular, even for an external switch that is often pressed by a person, the automatic notification device always operates with a constant time width by absorbing the jitter of the signal time width of the no-voltage ON signal caused by individual differences in the pressing time. Thus, a sufficient signal time width can be secured. As a result, the microcomputer meter can command a highly accurate shut-off control, and the input interface device can notify the automatic notification device or the microcomputer meter with high accuracy that the external switch has been pressed through the existing signal input line. This has the effect of becoming
[0170]
According to the fourteenth aspect, the same effect as that of the thirteenth aspect can be obtained.
[0171]
According to the fifteenth aspect of the present invention, in addition to the effect of the twelfth aspect, the voltage input circuit and the conversion circuit are switched according to the signal state of the voltage signal or the signal state of the voltage signal at the time of power failure. The signal input line state determination circuit is electrically disconnected from the input line state determination circuit to perform switching control to cut off the flow of current from the signal input line state determination circuit to the voltage input circuit or the conversion circuit. Can be prevented from being applied to the non-voltage input circuit, and as a result, the voltage input circuit and the non-voltage input in the automatic notification device can be prevented via the signal input line state determination circuit. An input interface device capable of notifying the automatic notification device via an existing signal input line that an external switch has been pressed can be avoided by avoiding the possibility that the circuit and the circuit will interfere with each other and cause an erroneous notification. It costs so that can be realized without perforating the construction hole to cheaply raise and house wall. Further, by providing such an input interface device between the voltage alarm and the voltage input circuit, and between the voltage alarm and the no-voltage input circuit, the signal input line is shared with the external switch. Even in this case, there is an effect that an input interface device that can avoid the possibility that the automatic notification device itself is destroyed due to the short-circuit state of the external switch can be realized.
[0172]
According to the sixteenth aspect, the same effect as that of the fifteenth aspect can be obtained.
[0173]
According to the seventeenth aspect, in addition to the effect of the fifteenth or sixteenth aspect, the light emitting element performs the light emitting operation using the electric power supplied from the gas leak alarm, so that a new battery is prepared. No need to replace the battery, no need to replace the battery, and when the external switch 8 is pressed, the contacts of the external switch are securely closed and it is possible to confirm at the time of pressing whether or not a switch signal has been generated. This has the effect of realizing the device.
[0174]
According to the eighteenth aspect, an effect similar to the effect according to the fifteenth or sixteenth aspect is obtained.
[0175]
According to the invention of claim 19, in addition to the effect of claim 17 or 18, the electric power supplied from the gas leak alarm is stored in the fourth capacitor, and the electric charge stored in the fourth capacitor is stored. Since the light emitting element is used to perform the light emitting operation, there is no need to prepare a new battery, and no need to replace the battery. When the external switch 8 is pressed, the contacts of the external switch are securely closed. This has the effect of realizing an automatic notification device that can confirm whether or not a switch signal has been generated at the time of pressing.
[0176]
According to the invention of claim 20, in addition to the effect of claim 19, the electric power supplied from the gas leak alarm is stored in the fourth capacitor via the first diode and the eighth resistance element, Since the light emitting operation of the light emitting element is performed using the electric charge stored in the fourth capacitor, there is no need to prepare a new battery, no need to replace the battery, and the external switch 8 is pressed when the external switch 8 is pressed. This has the effect of realizing an automatic notification device capable of confirming at the time of pressing whether or not a switch signal has been generated by reliably closing the contact of the switch.
[0177]
According to the twenty-first aspect, the same effect as that of the twelfth aspect is obtained.
[0178]
According to the invention described in claim 22, in addition to the effect described in claim 12, by providing such a no-voltage signal extending circuit to generate a gas valve shutoff signal having a predetermined time width, The duration of the no-voltage ON signal to the notification device is sufficiently ensured, and at the same time, the jitter of the signal time width of the no-voltage ON signal is reduced, so that a sufficient signal time width for the automatic notification device to operate can be ensured. It works. In particular, even for an external switch that is often pressed by a person, the automatic notification device always operates with a constant time width by absorbing the jitter of the signal time width of the no-voltage ON signal caused by individual differences in the pressing time. Thus, a sufficient signal time width can be secured. As a result, the microcomputer meter can command a highly accurate shut-off control, and the input interface device can notify the automatic notification device or the microcomputer meter with high accuracy that the external switch has been pressed through the existing signal input line. This has the effect of becoming
[0179]
According to the twenty-third aspect, in addition to the effect of the twenty-second aspect, by providing such a time constant circuit and the second comparator to generate a reference value of a predetermined time width, The duration of the no-voltage ON signal to the notification device is sufficiently ensured, and at the same time, the jitter of the signal time width of the no-voltage ON signal is reduced. It works. In particular, even for an external switch that is often pressed by a person, the automatic notification device always operates with a constant time width by absorbing the jitter of the signal time width of the no-voltage ON signal caused by individual differences in the pressing time. Thus, a sufficient signal time width can be secured. As a result, the microcomputer meter can command a highly accurate shut-off control, and the input interface device can notify the automatic notification device or the microcomputer meter with high accuracy that the external switch has been pressed through the existing signal input line. This has the effect of becoming Further, by providing the second photocoupler, it is possible to maintain electrical insulation between the non-voltage input circuit and the input interface device.
[0180]
According to the invention of claim 24, in addition to the effect of claim 12, a signal input line state determination circuit and a no-voltage signal extension using a voltage signal which becomes zero potential when an external switch is pressed. There is an effect that the circuit can be operated normally.
[0181]
According to the invention described in claim 25, in addition to the effect described in claim 24, the second capacitor C2 can be charged through the fifth resistance element R5 using a voltage signal from the gas leak alarm as a power supply. Become like Further, when 12 V is applied to the fourth Zener diode ZD4 at the time of the alarm, the potential of the second capacitor C2 can be kept constant so as not to exceed the maximum operating voltage of the second comparator IC2. So that As a result, there is an effect that the signal input line state determination circuit and the no-voltage signal extension circuit can be normally operated by using the voltage signal which becomes zero potential when the external switch is pressed.
[0182]
According to the invention set forth in claim 26, in addition to the effects described in any one of claims 12 to 25, a switch signal can be transmitted by using an existing signal input line, and a new external switch can be provided. The construction cost is lower than in the case of laying a dedicated signal input line, and there is no need to perform a work to make a new hole in a house wall.
[0183]
According to the invention described in claim 27, the same effect as the effect described in any one of claims 12 to 25 is obtained.
[Brief description of the drawings]
FIG. 1 is a functional block diagram for explaining an automatic notification device according to the present invention.
FIG. 2 is a system diagram for explaining a specific connection configuration of the automatic notification device of FIG. 1;
FIG. 3 is a circuit diagram for explaining a protection circuit of an output stage of a gas leak alarm in the automatic notification device of FIG. 1;
FIG. 4 is a circuit diagram for explaining a basic circuit configuration of an input interface device in the automatic notification device of FIG. 1;
FIG. 5 is a waveform diagram of a voltage signal for describing an operation of a switching circuit in the input interface device of FIG. 1;
6 (a) is a circuit diagram for explaining a basic circuit configuration of a light emitting circuit in the automatic notification device of FIG. 1; FIG. 6 (b) is a circuit diagram of the light emitting circuit of FIG. 6 (a); FIG. 3 is a circuit diagram for explaining a circuit configuration to which an erroneous notification avoidance function at the time of a power failure is added.
7 (a) is a functional block diagram for explaining a conventional automatic notification device, and FIG. 7 (b) adds an external switch to the automatic notification device of FIG. 7 (a). FIG. 6 is a functional block diagram for explaining a connection configuration in the case.
8 is a circuit diagram for explaining a basic circuit configuration of an internal circuit of the automatic notification device of FIG. 7;
9 is a circuit diagram for describing a basic circuit configuration of a light emitting circuit in the automatic notification device of FIG.
[Explanation of symbols]
10… Automatic reporting device
11 ... microcomputer meter
11A: gas supply path
11B ... Gas shutoff valve
12: Voltage input circuit
14. No-voltage input circuit
15 ... Signal input line
16… Voltage alarm (gas leak alarm)
16a: Voltage signal
16b: No-voltage signal
18 ... External switch
18a ... Switch signal
20 ... input interface device (alarm adapter)
21 ... Switching circuit
21a ... Circuit cutoff signal
22 ... Conversion circuit
22a ... gas valve shutoff signal
23 Backup power supply circuit
24 ... Signal input line state judgment circuit
25 ... No-voltage signal extension circuit
25a: No-voltage ON signal
30 ... Light emitting circuit
C1 ... First condenser
C2: second condenser
C3: Third condenser
C4: 4th condenser
D1 ... first diode
IC1: first comparator
IC2: second comparator
LED… Light emitting element
PH1… First photo coupler
PH2: 2nd photo coupler
R1: first resistance element
R5: fifth resistance element
R6: sixth resistance element
R7: Seventh resistance element
R8: eighth resistance element
Tr1 ... first transistor
Tr2: second transistor
Tr3: Third transistor
Tr4: fourth transistor
Tr5: Fifth transistor
V1 ... potential at power failure
GND: ground potential
ZD1: First Zener diode
ZD2: Second Zener diode
ZD3: Third Zener diode
ZD4: fourth Zener diode

Claims (27)

A voltage input circuit that receives a voltage signal by sharing an input with a signal input line that transmits a switch signal generated when an external switch is pressed, and receives a non-voltage signal by sharing an input with the signal input line Interposed between the no-voltage input circuit and the signal input line,
A signal input line state determination circuit that detects the switch signal via the signal input line and generates a circuit cutoff signal in synchronization with the detection of the switch signal when the switch signal is detected,
A switching circuit that transmits the circuit cutoff signal to the non-voltage input circuit, instructs notification of pressing an external switch, and performs switching control for cutting off application of the circuit cutoff signal to the voltage input circuit. An input interface device, characterized in that: A voltage input circuit that receives a voltage signal by sharing an input with a signal input line that transmits a switch signal generated when an external switch is pressed, and receives a non-voltage signal by sharing an input with the signal input line Interposed between the no-voltage input circuit and the signal input line,
A signal input line state determination circuit that detects the switch signal via the signal input line and generates a circuit cutoff signal in synchronization with the detection of the switch signal when the switch signal is detected,
The circuit cutoff signal is transmitted to the no-voltage input circuit to instruct notification of pressing of an external switch, and the input terminal of the no-voltage input circuit is synchronized with the circuit cutoff signal via a short-circuit state of the external switch. An input interface device, comprising: a switching circuit for executing switching control for interrupting the flow of current from the input to the input terminal of the voltage input circuit. A voltage input circuit that receives a voltage signal by sharing an input with a signal input line that transmits a switch signal generated when an external switch is pressed, and receives a non-voltage signal by sharing an input with the signal input line Interposed between the no-voltage input circuit and the signal input line,
In addition to detecting that the signal input line is short-circuited in response to the switch signal, generating a circuit cutoff signal in synchronization with the detection of the signal input line short-circuit state when the signal input line short-circuit state is detected. A signal input line state determination circuit;
The circuit cutoff signal is transmitted to the no-voltage input circuit to instruct notification of pressing an external switch, and the voltageless input circuit is electrically disconnected from the no-voltage input circuit in synchronization with the circuit cutoff signal. An input interface device comprising a switching circuit for executing switching control. A voltage input circuit that receives a voltage signal by sharing an input with a signal input line that transmits a switch signal generated when an external switch is pressed, and receives a non-voltage signal by sharing an input with the signal input line Interposed between the no-voltage input circuit and the signal input line,
In addition to detecting that the signal input line is short-circuited in response to the switch signal, generating a circuit cutoff signal in synchronization with the detection of the signal input line short-circuit state when the signal input line short-circuit state is detected. A signal input line state determination circuit;
The circuit cutoff signal is transmitted to the no-voltage input circuit to instruct notification of pressing of an external switch, and the input terminal of the no-voltage input circuit is synchronized with the circuit cutoff signal via a short-circuit state of the external switch. An input interface device, comprising: a switching circuit for executing switching control for interrupting the flow of current from the input to the input terminal of the voltage input circuit. A voltage input circuit that receives a voltage signal by sharing an input with a signal input line that transmits a switch signal generated when an external switch is pressed, and receives a non-voltage signal by sharing an input with the signal input line Interposed between the no-voltage input circuit and the signal input line,
A signal input line state determination circuit that detects a power failure potential of the signal input line during a power failure and generates a circuit cutoff signal in synchronization with the detection of the power failure potential when the power failure potential is detected,
A switching circuit that transmits the circuit cutoff signal to the non-voltage input circuit, instructs notification of pressing an external switch, and cuts off application of the circuit cutoff signal to the voltage input circuit. Input interface device. A voltage input circuit that receives a voltage signal by sharing an input with a signal input line that transmits a switch signal generated when an external switch is pressed, and receives a non-voltage signal by sharing an input with the signal input line Interposed between the no-voltage input circuit and the signal input line,
A signal input line state determination circuit that detects a potential of the signal input line at the time of power failure, and generates a circuit cutoff signal in synchronization with the detection of the potential at the time of power failure when the potential at the time of power failure is detected,
The circuit cutoff signal is transmitted to the no-voltage input circuit to instruct notification of pressing of an external switch, and the input terminal of the no-voltage input circuit is synchronized with the circuit cutoff signal via a short-circuit state of the external switch. An input interface device, comprising: a switching circuit for executing switching control for interrupting the flow of current from the input to the input terminal of the voltage input circuit. A voltage input circuit that receives a voltage signal by sharing an input with a signal input line that transmits a switch signal generated when an external switch is pressed, and receives a non-voltage signal by sharing an input with the signal input line Interposed between the no-voltage input circuit and the signal input line,
In addition to detecting that the signal input line is short-circuited according to the potential at the time of the power failure, and generating a circuit cutoff signal in synchronization with the detection of the signal input line short-circuit state when the signal input line short-circuit state is detected. A signal input line state determination circuit
The circuit cutoff signal is transmitted to the no-voltage input circuit to instruct notification of pressing an external switch, and the voltageless input circuit is electrically disconnected from the no-voltage input circuit in synchronization with the circuit cutoff signal. An input interface device comprising a switching circuit for executing switching control. A voltage input circuit that receives a voltage signal by sharing an input with a signal input line that transmits a switch signal generated when an external switch is pressed, and receives a non-voltage signal by sharing an input with the signal input line Interposed between the no-voltage input circuit and the signal input line,
In addition to detecting that the signal input line is short-circuited according to the potential at the time of the power failure, and generating a circuit cutoff signal in synchronization with the detection of the signal input line short-circuit state when the signal input line short-circuit state is detected. A signal input line state determination circuit
The circuit cutoff signal is transmitted to the no-voltage input circuit to instruct notification of pressing of an external switch, and the input terminal of the no-voltage input circuit is synchronized with the circuit cutoff signal via a short-circuit state of the external switch. An input interface device, comprising: a switching circuit for executing switching control for interrupting the flow of current from the input to the input terminal of the voltage input circuit. An output terminal of the external switch and an output terminal of a voltage alarm that generates the voltage signal when detecting a predetermined abnormal state are connected in parallel to the signal input line,
The voltage input circuit that receives the voltage signal by sharing an input with the signal input line,
The no-voltage input circuit that receives the no-voltage signal by sharing an input with a signal input line,
An output terminal of the external switch and an output terminal of the voltage alarm are connected to the input side via the signal input line, and an input terminal of the voltage input circuit and an input terminal of the non-voltage input circuit output. The automatic notification device using the input interface device according to any one of claims 1 to 8, further comprising the input interface device connected to each end. The voltage alarm is a gas leak alarm that generates the voltage signal according to detection of gas concentration and disconnection of an outlet,
The automatic notification device according to claim 9, wherein: Provide a microcomputer meter that counts gas usage and controls gas supply and shutoff,
The automatic notification device according to claim 10, wherein the voltage input circuit, the non-voltage input circuit, and a microcomputer meter are respectively connected to output terminals of the input interface device. The input interface device,
Having a conversion circuit that outputs a gas valve shutoff signal to the microcomputer meter when a voltage signal having a predetermined potential or more is detected,
The said microcomputer meter is comprised so that the closing control of the gas shut-off valve provided in the gas supply path may be performed and the shut-off control of supply gas may be performed according to the reception of the said gas valve shut-off signal. Item 12. The automatic notification device according to any one of Items 9 to 11. The conversion circuit,
When a voltage signal having a predetermined potential or more is detected, a gas valve shutoff signal is output to the microcomputer meter in a state delayed by a predetermined time from the timing of detecting the voltage signal. The automatic notification device according to claim 12, wherein the notification is performed. The conversion circuit,
A first Zener diode that becomes conductive when the voltage signal having a predetermined potential or more is detected;
A first transistor activated according to a conduction state of the first Zener diode;
A charge comprising: a second transistor that is inactivated in response to activation of the first transistor; and a first resistor and a first capacitor that generate a charging voltage in response to inactivation of the second transistor. Circuit and
A first comparator that compares the charging voltage of the charging circuit with a predetermined threshold voltage and generates the gas valve shutoff signal when the charging voltage exceeds the threshold voltage;
14. The apparatus according to claim 13, further comprising: a first photocoupler that electrically insulates the input interface device from the microcomputer meter and photoelectrically converts the gas valve shutoff signal into an optical signal and transmits the optical signal to the microcomputer meter. The automatic notification device according to 1. The switching circuit inputs the voltage input circuit and the conversion circuit according to a signal state of the voltage signal when the external switch is activated or a signal state of the voltage signal at the time of a power failure. It is configured to electrically disconnect from the line state determination circuit and interrupt the flow of current from the signal input line state determination circuit to the voltage input circuit or the conversion circuit to execute the switching control. The automatic notification device according to claim 12, wherein: The switching circuit includes a second Zener diode that becomes conductive in response to an input signal of a predetermined voltage, a fourth transistor that is activated in accordance with the conductive state of the second Zener diode, and an activation of the fourth transistor. The automatic notification device according to claim 15, further comprising a third transistor that is activated in response to the above and supplies the voltage signal from the gas leak alarm to the conversion circuit and the voltage input circuit. . The automatic notification according to claim 15 or 16, further comprising a light emitting circuit including a light emitting element connected to emit light by power from the gas leak alarm when the external switch is activated. apparatus. The light emitting circuit,
The automatic notification device according to claim 15, further comprising a light emitting element connected to emit light when a power failure occurs. The switching circuit,
A first diode connected in a forward direction to a steady potential output from a gas leak alarm in a normal state, a seventh resistor connected to a cathode of the first diode, the first diode and the seventh resistor A fourth capacitor that is charged via
The light emitting element is connected in a forward direction with respect to the discharge current so as to emit light using a discharge current of the accumulated charge of the fourth capacitor when the external switch is activated or the power failure occurs. The automatic notification device according to claim 17 or 18, which performs the operation. The switching circuit,
A first diode and an eighth resistive element connected in a forward direction to the light emitting element to supply the discharge current to the light emitting element when the external switch is activated or when a power failure occurs. The automatic notification device according to claim 19, wherein The signal input line state determination circuit,
A third Zener diode that is turned on when the external switch is activated and pressed and the input voltage becomes equal to or lower than a predetermined voltage;
A fifth transistor that is activated in accordance with a conduction state of the third Zener diode to generate the circuit cutoff signal;
13. The automatic notification device according to claim 12, wherein a base current of the fifth transistor flows into the external switch via the third Zener diode. The input interface device,
A no-voltage signal that receives the circuit cutoff signal from the signal input line state determination circuit, converts the signal into a no-voltage ON signal having a predetermined time width, and transmits the no-voltage ON signal to the no-voltage input circuit. The automatic notification device according to claim 12, further comprising a stretching circuit. The no-voltage signal stretching circuit,
A time constant circuit having a sixth resistor and a third capacitor for determining a predetermined time width;
A second comparator that compares the circuit cutoff signal from the signal input line state determination circuit with a predetermined threshold voltage and is activated for the predetermined time width when the circuit cutoff signal exceeds the threshold voltage When,
The input interface device is electrically insulated from the no-voltage input circuit, and is activated for the predetermined time width in response to the activation of the second comparator, and photoelectrically converts the no-voltage ON signal into an optical signal. 23. The automatic notification device according to claim 22, further comprising a second photocoupler that transmits the signal to the non-voltage input circuit. The input interface device,
The voltage signal from the gas leak alarm is used as a power source to store predetermined power, and when the external switch is activated or during a power failure, the voltage signal from the gas leak alarm becomes zero potential. 13. The automatic notification device according to claim 12, further comprising a backup power supply circuit that supplies the stored power to the signal input line state determination circuit and the no-voltage signal extension circuit to promote normal operation. The backup power supply circuit,
A fifth resistor element and a second capacitor for storing the predetermined power by using a voltage signal from the gas leak alarm as a power supply,
25. The automatic reporting device according to claim 24, further comprising a fourth Zener diode as a limiter for preventing a signal level of a signal input to the second comparator from exceeding a maximum operating voltage. The input interface device outputs the gas valve shutoff signal when the signal level of the voltage signal from the gas leak alarm maintains the alarm level for a predetermined time or more, and performs supply gas shutoff control for the microcomputer meter. Executing, detecting the switch signal from the external switch connected to the signal input line to which the voltage signal from the gas leak alarm is transmitted, and turning the switch signal to the non-voltage ON for the predetermined time width. 26. The automatic notification device according to claim 12, wherein the automatic notification device is configured to convert the signal into a signal and output the signal to the non-voltage input circuit. . The input interface device outputs the no-voltage ON signal when the signal level of the voltage signal from the gas leak alarm device maintains the alarm level for a predetermined time or more to perform supply gas cutoff control for the microcomputer meter. Executing, detecting the switch signal from the external switch connected to the signal input line to which the voltage signal from the gas leak alarm is transmitted, and turning the switch signal to the non-voltage ON for the predetermined time width. 26. The automatic notification device according to claim 12, wherein the automatic notification device is configured to convert the signal into a signal and output the signal to the non-voltage input circuit. .

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