JP3544797B2 - Error reporting device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an abnormality notification device used for a security system or the like using a telephone line, and more particularly to an abnormality notification device that can monitor a disconnection of a telephone line.
[0002]
[Prior art]
An anomaly notification device is installed in buildings such as buildings and condominiums, and this anomaly notification device is connected to a remote central monitoring center via a telephone line. In the central monitoring center, various security systems for centralized monitoring have been put into practical use. ing. In this security system, various sensors such as a security sensor and a disaster prevention sensor are connected to the abnormality notification device, and when the sensor detects an abnormality, an abnormality notification is made to the central monitoring center via a telephone line. In such a security system, when the telephone line is disconnected, even if the sensor detects an abnormality, the signal does not reach the central monitoring center, so that the security system does not function.
[0003]
Therefore, for example, a signal is periodically transmitted from the abnormality notification device to the central monitoring center at intervals of one to two hours, and the central monitoring center monitors that the signal is periodically transmitted. If this signal is not sent periodically, the central monitoring center determines that the telephone line is disconnected. Then, a security guard is dispatched to the relevant building to check the safety status and take action according to the situation.
[0004]
On the other hand, in order to detect the disconnection of the telephone line on the abnormality notification device side, the abnormality notification device monitors the current flowing through the telephone line when the periodic signal is transmitted. At this time, if no current is detected, it is determined that the telephone line has been disconnected, and a buzzer is sounded to notify a nearby person that the telephone line has been disconnected. In addition, during the period during which the periodic signal is transmitted, since the telephone line is open, disconnection cannot be detected by the line current. Therefore, while the telephone line is open, the voltage applied between the lines is monitored, and if no voltage is detected, it is determined that the telephone line has been disconnected.
[0005]
[Problems to be solved by the invention]
However, the detection of the line voltage is performed by connecting a high resistance between the telephone lines, flowing a minute current, and detecting the minute current. For this reason, the disconnection detection by monitoring the line voltage is performed by detecting a small current as compared with the monitoring of the line current, so that an erroneous determination is easily made due to the influence of noise. On the other hand, in the monitoring of the disconnection by the line current, since the current value is large and the influence of the noise is small, the disconnection can be reliably detected. Therefore, it is conceivable to shorten the transmission interval of the periodic signal and increase the number of times of monitoring by the line current. However, in this case, since the number of transmissions increases, there is a problem that the cost of operating the system increases.
[0006]
SUMMARY OF THE INVENTION It is an object of the present invention to provide an abnormality reporting device that reports occurrence of an abnormality to a report destination via a telephone line, so that the disconnection of the telephone line can always be detected without erroneous determination and at low cost. Things.
[0007]
[Means for Solving the Problems]
SUMMARY OF THE INVENTION In order to achieve the above object, the present invention provides an abnormality reporting device that, when an abnormality is detected, reports the occurrence of an abnormality to a predetermined report destination via a telephone line, and monitors a voltage applied between the telephone lines when the telephone line is opened. . If an abnormality is detected during monitoring using the line voltage, the telephone line is closed and the line current is monitored. When an abnormality is detected during the monitoring by the line current, it is determined that the telephone line has been disconnected, and a disconnection signal is output.
[0008]
In order to realize this, the present invention monitors a line voltage when the telephone line is open, monitors a line current when the telephone line is closed, and detects a line current abnormality. Current monitoring means, detecting a line voltage by connecting a high resistance between the telephone lines and flowing a current smaller than the line current, monitoring the line voltage when the telephone line is open, and monitoring the line voltage; A line voltage monitoring means for detecting an abnormality, a line closing means for performing a closing operation of a DC circuit of a telephone line, and a disconnection determining means connected to the line voltage monitoring means, the line current monitoring means, and the line closing means. Provide.
[0009]
The disconnection determining means, when detecting an abnormality in the line voltage monitoring means, causes the line closing means to close the DC circuit of the telephone line, and thereafter, in the line closed state, the abnormality is detected by the line current monitoring means. Then, it is determined that the telephone line is disconnected, and a disconnection signal is output. If there is no abnormal input from the line current monitoring means in the line closed state, it is determined that there is no disconnection in the telephone line.
[0010]
According to this configuration, if a disconnection occurs during the opening of the telephone line, the line voltage drops and the line voltage monitoring means detects an abnormality. Next, the telephone line is closed, but the line current does not flow, so the line current monitoring means detects an abnormality. As a result, a disconnection signal is output from the disconnection determination means. On the other hand, if the line voltage monitoring means detects an abnormal voltage due to noise when no disconnection occurs, the line current flows when the telephone line is subsequently closed, and the line current monitoring means Is detected. The disconnection determining means determines that no disconnection has occurred by detecting the line current. Therefore, no disconnection signal is output, and malfunction due to noise can be prevented.
[0011]
Further, since the monitoring by the line current is performed only when it is determined that the line is disconnected by monitoring the line voltage, the number of times of line closing is reduced, and the cost of the security system can be prevented from increasing.
In the present invention, instead of monitoring the line voltage by detecting a minute current based on the line voltage, the minute current may be stored in a capacitor and the discharge current thereof may be monitored. In this case, the influence of noise on the discharge current is reduced, so that the line voltage can be monitored with little influence of noise. Therefore, by monitoring such line voltage, it is possible to reduce the occurrence of malfunction due to noise and to further reduce the number of times of line closing for monitoring line current.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram illustrating a configuration of a security system to which the abnormality notification device is applied.
In FIG. 1, reference numerals 3, 3... Indicate buildings where the abnormality notification device 4 is installed and which is to be monitored. The abnormality reporting device 4 installed in each building 3 is connected to a central monitoring device 2 of a remote central monitoring center 1 via a telephone line 5 and an exchange 8. Reference numeral 10 denotes a waiting place where a security guard stands by, and is connected to the central monitoring device 2 of the central monitoring center 1 via the telephone line 5 and the exchange 8.
[0013]
Various sensors 6, 6,... Such as a security sensor and a disaster prevention sensor arranged at a predetermined location in the monitoring building are connected to the abnormality notification device 4. Further, a telephone 7 and a facsimile 9 are connected to the telephone line 5 via the abnormality notification device 4.
In the security system of FIG. 1, when any one of the sensors 6 outputs an abnormality signal, the abnormality notification device 4 notifies the central monitoring device 2 of an abnormality. Upon receiving the abnormality report, the central monitoring device 2 displays the occurrence of the abnormality to the personnel in the central monitoring center 1. In accordance with the type of abnormality, the central monitoring center 1 notifies the waiting place 10 and dispatches a guard to the building where the abnormality is detected.
[0014]
Further, the abnormality notification device 4 transmits a predetermined signal to the central monitoring device 2 periodically (for example, every hour). The central monitoring device 2 monitors the reception of this signal, and when the regular transmission is interrupted, determines that the telephone line 5 has been disconnected. Then, the guard is sent to the building.
The guards dispatched to the surveillance building will check the safety status and respond accordingly.
[0015]
FIG. 2 shows a configuration of the abnormality notification device 4.
In the abnormality notification device 4 of the present embodiment, a disconnection determination circuit 21 for detecting a disconnection of the telephone line on the abnormality notification device 4 side is inserted between the alarm monitoring circuit 12 and the telephone line 5. The alarm monitoring circuit 12 is connected to various sensors 6, 6..., A telephone 7, and a facsimile 9.
[0016]
The alarm monitoring circuit 12 normally connects the telephone line 5 to the telephone 7 and the facsimile 9. When any of the sensors 6 and 6 detects an abnormality and outputs a signal, the telephone line is closed by the line closing means 13 and an abnormal signal is reported to the central monitoring device 2. In addition, in order to detect a disconnection of the telephone line 5, the alarm monitoring circuit 12 periodically closes the telephone line and transmits a predetermined signal to the central monitoring device 2. Since the configuration and operation of the alarm monitoring circuit 12 are conventionally known, detailed description thereof will be omitted.
[0017]
The disconnection determination circuit 21 is provided to detect a disconnection of the telephone line 5 on the abnormality notification device 4 side. The disconnection determination circuit 21 connects the input terminals L1 and L2 to the telephone line 5, and connects the output terminals L1 'and L2' to the alarm monitoring circuit 12. One input terminal L1 and output terminal L1 'are connected via a line current monitoring circuit 24, and the other input terminal L2 and output terminal L2' are directly connected. The line voltage monitoring circuit 23 is connected between the input terminals L1 and L2. Output signals of the line current monitoring circuit 24 and the line voltage monitoring circuit 23 are input to a CPU (central processing unit) 22.
[0018]
The CPU 22 is connected to a notification circuit 25 including a buzzer, a lamp performing a blinking operation, and the like. The CPU 22 is connected to the line closing circuit 13 in the alarm monitoring circuit 12, outputs a line closing command signal, and detects the line closing state.
FIG. 3 shows a configuration of the line voltage monitoring circuit 23.
The voltage between the input terminals L1 and L2 is rectified by the full-wave rectifier D1 and divided by the resistors R1 and R2. Further, the voltage of the power supply V1 is divided by the resistors R3 and R4. The two divided voltages are input to the comparator CP1, and the output of the comparator CP1 controls ON / OFF of the transistor Tr. The photodiode PD1 of the photocoupler PC1 is connected between the transistor Tr and the power supply V1. The phototransistor PT1 of the photocoupler PC1 is connected to the CPU 22.
[0019]
Here, when the line voltage is a steady value, the output of the comparator CP1 becomes L (low) and the transistor Tr is turned off, so that no current flows through the photodiode PD1 and the phototransistor PT1 is turned off. On the other hand, when the line voltage decreases, the output of the comparator CP1 becomes H (high) and the transistor Tr is turned on, so that a current flows through the photodiode PD1 and the phototransistor PT1 is turned on.
[0020]
FIG. 4 shows the configuration of the line current monitoring circuit 24.
The photodiode PD2 of the photocoupler PC2 is connected between the input terminal L1 and the output terminal L1 '. The output of the phototransistor PT2 is connected to the CPU 22. Here, when a current flows through the telephone line 5, the phototransistor PT2 turns on, and when no current flows, the phototransistor PT2 turns off.
[0021]
The operation of the CPU 22 of the disconnection determination circuit 21 will be described with reference to the flowchart of FIG. As described above, the disconnection determination circuit 21 is provided to detect the disconnection of the telephone line 5 on the abnormality notification device 3 side. The processing for detecting the disconnection of the telephone line 5 on the side of the central monitoring center 1 is executed by the alarm monitoring circuit 12 as in the conventional case.
[0022]
In step S1 of FIG. 5, it is determined whether or not the telephone line 5 is being opened. For this determination, the state of the line closing circuit 13 in the alarm monitoring circuit 12 is checked. Here, if NO (during closing), the process proceeds to step S4, and if YES (during opening), the process proceeds to step S2.
At step S2, the line voltage is monitored. Here, the state of the phototransistor PT1 of the line voltage monitoring circuit 23 is checked. In the state of step S2, since the telephone line 5 is open, it can be determined that there is no abnormality if the line voltage is equal to or higher than a predetermined value, and it is determined that there is an abnormality if the line voltage is equal to or lower than the predetermined value. That is, if the phototransistor PT1 is off, it is determined that there is no abnormality and the process returns to step S1. If it is on, it is determined that there is an abnormality and the process proceeds to step S3.
[0023]
Although there is actually no disconnection, it may be determined that there is an abnormality due to the influence of noise. Therefore, the operation proceeds to the operation for confirming the disconnection after step S3.
In step S3, a signal is output from the CPU 22 to the line connection circuit 13 of the alarm monitoring circuit 12, and the telephone line is closed in the alarm monitoring circuit 12. When the line is closed, a predetermined signal is transmitted from the abnormality notification device 3 to the central monitoring center 1 if necessary.
[0024]
In step S4, the line current is monitored. Here, the state of the phototransistor PT2 of the line current monitoring circuit 24 is checked. In the state of step S4, since the telephone line 5 is closed, it can be determined that there is no abnormality if the line current is equal to or more than a predetermined value, and it is determined that there is abnormality if the line current is equal to or less than the predetermined value. That is, if the phototransistor PT2 is on, it is determined that there is no abnormality, and the process returns to step S1. If it is off, it is determined that there is an abnormality, and the process proceeds to step S5. Since the monitoring of the line current is performed using a large current as compared with the case of monitoring the line voltage, erroneous determination due to noise does not occur.
[0025]
In step S5, an abnormal output is performed by the notification circuit 25, and the disconnection determination operation ends. As an abnormal output, a buzzer sounds or a lamp blinks, so that the abnormality notification device 3 can know the disconnection of the telephone line 5.
As is clear from the above description, when it is determined that there is a possibility of disconnection by monitoring the line voltage, the determination of the presence or absence of a disconnection is subsequently performed by monitoring the line current. Even if there is, the disconnection of the telephone line can always be accurately determined. In addition, since the line current is monitored only when an abnormality in the line voltage is detected while the line is open, the number of times the telephone line is closed can be suppressed to a small number, and an increase in system operation costs can be prevented. .
[0026]
In the example described above, the disconnection determination circuit 21 is configured separately from the alarm monitoring circuit 12, but the disconnection determination circuit 21 can be incorporated in the alarm monitoring circuit 12.
A modification of the line voltage monitoring circuit 24 will be described with reference to FIG.
In FIG. 6, C1 is a capacitor that accumulates a very small current flowing by the line voltage. As a charging circuit for the capacitor C1, a full-wave rectifier D3 for rectifying a line voltage, a constant voltage circuit CC1, a phototransistor PT3 of a photocoupler PC3, and a diode D4 are connected. Note that the constant voltage circuit CC1 includes a transistor TR1, a Zener diode ZD1, and resistors R5, R6, and R7.
[0027]
As a discharge circuit of the capacitor C1, a discharge resistor R8, a phototransistor PT4 of a photocoupler PC4, and an output photocoupler PC5 are connected.
The photodiode PD3 of the photocoupler PC3 in the charging circuit and the photodiode PD4 of the photocoupler PC4 in the discharging circuit are alternately turned on and off at predetermined intervals by a control signal from the CPU 22.
[0028]
When the telephone line 5 is not disconnected and the line voltage is normal, when the photodiode PD3 in the charging circuit is turned on, the phototransistor PT3 is turned on. During this ON period, the capacitor C1 is connected to the line voltage. It is charged by a very small current through the resistor R7. Next, when the photodiode PD4 in the discharge circuit is turned on, the phototransistor PT4 is turned on, and the capacitor C1 is discharged through the discharge resistor R8. This discharge current turns on the photodiode PD5 of the output photocoupler PC5 and turns on the phototransistor PT5.
[0029]
When detecting that the phototransistor PT5 is on at the time of discharging (when turning on the phototransistor PT4), the CPU 22 determines that the telephone line 5 has no disconnection. On the other hand, when the telephone line 5 is disconnected, the line voltage is lost, so even if the photodiode PD3 in the charging circuit is turned on, the capacitor C1 is not charged, and the output phototransistor PT5 is turned off at the time of discharging. . When the CPU 22 detects that the output phototransistor PT5 is off at the time of discharging, it determines that there is a possibility that the telephone line 5 has been disconnected, and proceeds to the processing after step S3 in FIG. Check by current.
[0030]
Even when noise enters, the influence of the noise is small as compared with the discharge current of the capacitor C1 in which a minute current is accumulated. Therefore, the chance of erroneously determining the abnormality of the line voltage due to noise is reduced, and the number of times of line closing for monitoring the line current can be further reduced.
If the state of the telephone line is poor and noise frequently occurs on the telephone line, the line closing operation may be performed frequently. In such a case, the line voltage monitoring circuit 26 determines that there is an abnormality, and then the line current monitoring circuit 24 monitors the frequency of occurrence of the determination that there is no abnormality. If it is determined, the control may be performed so that the charge / discharge interval of the capacitor C1 of the line voltage monitoring circuit 26 is lengthened. In this case, the frequency of occurrence is, for example, counting the number of occurrences of the event, and when counting more than 5 times in one hour, the charging / discharging interval of the capacitor C1 is reset from 30 ms to 1 second.
[0031]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, in the abnormality report apparatus which reports the occurrence of abnormality to a report destination via a telephone line, disconnection of a telephone line can be constantly monitored, and it can be performed at low cost without erroneous determination. .
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration example of a security system to which an abnormality notification device according to the present invention is applied.
FIG. 2 is a circuit diagram showing an example of an abnormality notification device according to the present invention.
FIG. 3 is a diagram showing a line voltage monitoring circuit used in the abnormality notification device of FIG. 2;
FIG. 4 is a diagram showing a line current monitoring circuit used in the abnormality notification device of FIG. 2;
FIG. 5 is a flowchart showing the processing operation of the CPU in FIG. 2;
FIG. 6 is a diagram showing a modification of the line voltage monitoring circuit of FIG. 3;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Central monitoring center 2 ... Central monitoring device 3 ... Monitoring building 4 ... Abnormality notification device 5 ... Telephone line 7 ... Telephone 8 ... Exchange 9 ... Fax 10 ... Standby 12 ... Alarm monitoring circuit 13 ... Line closing circuit 21 ... Disconnection Judgment circuit 22 CPU
23, 26 ... line voltage monitoring circuit 24 ... line current monitoring circuit 25 ... notification circuit D ... diode R ... resistor CP ... comparison circuit PC ... photocoupler PD ... photodiode PT ... phototransistor V ... power supply ZD ... zener diode

Claims (2)

When an abnormality is detected, an abnormality reporting device that reports occurrence of the abnormality to a predetermined report destination through a telephone line includes:
Line current monitoring means for monitoring the line current when the telephone line is closed, and detecting an abnormality of the line current,
A line for detecting a line voltage by connecting a high resistance between telephone lines and flowing a current smaller than the line current, and monitoring a line voltage when the telephone line is open to detect an abnormality of the line voltage. Voltage monitoring means;
Line closing means for performing a closing operation of the DC circuit of the telephone line,
The line voltage monitoring means, the line current monitoring means, and the line closing means are connected to each other, and when the line voltage monitoring means detects an abnormality, the line closing means closes the DC circuit of the telephone line, Thereafter, when an abnormality is detected by the line current monitoring means in a line closed state, the telephone line is determined to be disconnected, and a disconnection determination means for outputting a disconnection signal is provided. Notification device. The line voltage monitoring means,
A capacitor charged by line current when the telephone line is open;
Means for repeatedly charging and discharging the capacitor at a predetermined cycle,
2. An abnormality notification device according to claim 1, further comprising means for outputting an abnormality signal when no discharge current is detected during said discharging.

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