JP2862663B2 - Testing equipment for security monitoring equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Purpose of the Invention] (Industrial application field) The present invention relates to a security monitoring device for testing whether a security monitoring device connected to a terminal via a communication line is normal or not. Test equipment.

(Prior Art) As an automatic meter reading system using a telephone line, a system using a no-ringing communication line has attracted attention.
In this system, a terminal-side network controller (T-NCU) is provided on the terminal side of the telephone line,
Connect meters for measuring the usage of gas, water, etc., call the terminal-side network controller from the center device via a telephone line, and read meter-reading data from the meters via the terminal-side network controller. And automatic meter reading is performed.

Also, recently, a home automation (HA) panel having a security monitoring device for monitoring the security state in the meter reading customer is connected to the terminal side network control device, and the security monitoring device detects a security abnormality in the meter reading customer. Detected. When a security abnormality is detected, a terminal call activation signal is sent from the security monitoring device to the terminal-side network control device, and the terminal-side network control device calls the center device via the telephone line. It is also performed to notify the center device that an abnormality has occurred.

(Problems to be Solved by the Invention) In the system described above, the meter reading operation is performed every month, but the terminal call due to the security abnormality is performed only when the abnormality is detected, so that the abnormality occurs for a long time. If not, there is a problem that it cannot be distinguished whether a security abnormality has really occurred or whether there is no terminal call due to the security abnormality because the security monitoring device has failed.

There is also a method of reading the status of the occurrence of an error in the security monitoring device on the terminal side from the center device.However, if the security monitoring device itself has failed, etc., it is difficult to determine whether the read status of the occurrence of the error is correct. There is no problem.

The present invention has been made in view of the above, and an object of the present invention is to provide a security monitoring device test device that tests whether or not a terminal-side security monitoring device is operating normally. .

[Configuration of the invention]

(Means for Solving the Problems) In order to achieve the above object, a security monitoring device test apparatus of the present invention is provided on a terminal side via a terminal side network control device to monitor a security state of the terminal side, A test device of a security monitoring device for transmitting a detected security state of a terminal to a center device via the terminal-side network control device and a communication line, and transmitting a test signal from the center device to the security monitoring device. Means, provided in the security monitoring device, for receiving the test signal transmitted from the transmitting means, for forming a pseudo abnormal state of the security state for a predetermined time, and provided in the center device. And the pseudo abnormal state formed by the pseudo abnormal state forming means and the non-abnormal state before or after the formation of the pseudo abnormal state. The gist of the present invention is to include a determination unit that receives a signal indicating a monitoring result in a state and determines the state of the security monitoring device based on the signal.

(Operation) In the test device of the security monitoring device of the present invention, a test signal is transmitted from the center device to the security monitoring device,
The security monitoring device receives the test signal and forms a pseudo abnormal state of the security state for a predetermined period of time. The security monitoring apparatus transmits a signal representing the pseudo abnormal state and a non-abnormal state before or after the formation of the pseudo abnormal state. To the center device, and the state of the security monitoring device is determined based on this signal.

(Example) Hereinafter, an example of the present invention is described using a drawing.

FIG. 1 is a block diagram showing a configuration of a no-ringing type automatic meter reading system to which a test device of a security monitoring device according to an embodiment of the present invention is applied. In the figure, 1 is a center device composed of an electronic computer (CPU), 2 is a center side network control device (C-NCU), 3 is a transmitting station (source LS) connected to the center device side, and 4 is a terminal side. The connected terminating station (terminating LS), 5 is a no-ringing trunk (NRT) connected to the exchange of the terminating LS, and 6 is a terminal side network controller (T-N).
CU), 7 are meters that are information sources for electricity, gas, water, etc.
Reference numeral 8 denotes a telephone, 9 denotes a security monitoring device (SMD), and 10 denotes a security sensor such as a gas leak alarm.

FIG. 2 is an explanatory diagram showing an automatic meter reading sequence by the no ringing communication service of the automatic meter reading system of FIG. In this automatic meter reading sequence, the center device 1 calls the terminal side network control device 6 with no ringing incoming call, calls the meter 7 from the terminal network control device 6, and collects meter reading data from the meter 7. In this case, The communication sequence between the terminal-side network control device 6 and the meter 7 is shown in FIG. The meter reading sequence shown in both FIG. 2 and FIG. 3 is well known in the art and is not directly related to the present invention, so that detailed description is omitted.

FIG. 4 is an explanatory diagram showing communication between the security monitoring device 9 and the center device 1 for calling the terminal from the security monitoring device 9 and notifying the center device 1 when the security sensor 10 detects a security abnormality. . As shown in the figure, when a security abnormality is detected by the security sensor 10, the security abnormality is detected by the security monitoring device 9, and an activation message is sent from the security monitoring device 9 to the terminal side network control device 6. . When the terminal-side network control device 6 receives this message, it calls the center-side network control device 2 and connects a communication line with the center-side network control device 2, thereby connecting the security monitoring device 9 with the center device 1. The connection is established. When the line with the center device 1 is connected, the center device 1 transmits an alarm information request message to the security monitoring device 9 via the center-side network control device 2 and the terminal-side network control device 6. When receiving the alarm information request message, the security monitoring device 9 transmits which security has been activated as alarm information as a response message to the center device 1 via the terminal side network control device 6 and the center side network control device 2. When the communication ends in this way, an end message is transmitted from the center device 1 to the security monitoring device 9 via the center-side network control device 2 and the terminal-side network control device 6, and the terminal calling sequence ends.

FIG. 5 is an explanatory diagram showing a communication sequence according to an embodiment of the present invention for testing the security monitoring device 9 from the center device 1. In FIG. 1, when the center device 1 performs a test start (line connection) for checking the sensor reception operation of the security monitoring device 9 via the center-side network control device 2, the terminal-side network control device 6 9 is transmitted to the terminal 9. Upon receiving the activation message (1), the security monitoring device 9 supplies a sensor control signal having a predetermined time width for forcibly generating an abnormal signal to the sensor input circuit of the security monitoring device 9. As a result, security sensors
If the sensor input circuit of the security monitoring device 9 is normal, a sensor output signal (abnormal signal) is output from the sensor input circuit of the security monitoring device 9. Upon receiving this signal, the security monitoring device 9 sets specific code information in the response message (1), for example, as an alarm code, and transmits it to the center device 1 via the terminal-side network control device 6 and the center-side network control device 2. I do. After receiving the message, the center device 1 transmits the activation message (2) to the security monitoring device 9 again after a predetermined time has elapsed (that is, after the control signal time width of the security monitoring device 9 has elapsed). At this time, since the sensor input circuit of the security monitoring device 9 has returned to the normal mode, information indicating the normal mode is transmitted as a response message (2). At the end, the end message is transmitted from the center device 1.

FIG. 6 is a block diagram showing a configuration of a main part of the security monitoring device 9. As shown in FIG. The security monitoring device 9 shown in FIG. 1 is connected to the terminal side network control device 6 and controls a transmission process. The transmission control unit 11 receives a signal from the transmission control unit 11 and receives the signals from the security monitoring device 9. A CPU 13 for controlling the operation, a sensor control signal output circuit 15 activated by a sensor control signal from the CPU 13, and connected to the security sensor 10 via connection terminals T ₁ and T ₂ . Receiving the detection signal,
The sensor input circuit 17 supplies the CPU 13, the sensor input circuit 17 and the resistor connected in series R ₂ between the connection line with the security sensor 10, and a series switch circuit comprising a transistor Tr and diode D _2, the series switch circuit It includes a diode D ₁ of the protective connected in parallel, and a resistor R ₁ connected to the output of the sensor control signal output circuit 15 in.
The resistance value of the resistor R ₂ connected in series with the transistor Tr is of sufficiently small values, also the diode D ₂ is a protective transistor Tr.

In the security monitoring device 9 configured as described above, when the activation message (1) is supplied from the center device 1 via the center-side network control device 2 and the terminal-side network control device 6, as described in FIG. This activation message is transmitted to the transmission control unit 11
And transmitted from the transmission control unit 11 to the CPU 13 as the activation message reception signal a. The CPU 13 receives the activation message reception signal a
Then, it is determined whether the mode is the meter reading mode or the sensor test mode. This is determined from the activation code of the activation message shown in FIG. And the activation code is "1"
In the sensor test mode described above, the CPU 13 supplies the sensor control signal to the sensor control signal output circuit 15 and starts up. As a result, the sensor control signal output circuit 15 outputs a sensor control signal having a predetermined time width, and drives the transistor Tr to an ON state by this signal, thereby reducing the impedance between the connection line with the security sensor 10. When the impedance between the connection lines with the security sensor 10 decreases, the sensor input circuit 17 senses this, determines that the security sensor 10 has been turned on, and supplies an output signal c to the CPU 13. As a result, the CPU 13 sends a response message (1) indicating that the security sensor 10 is turned on from the transmission control unit 11 via the terminal side network control device 6 and the center side network control device 2 to the center as described with reference to FIG. The information is transmitted to the device 1 and the security status is determined in the center device 1.

This will be further described with reference to the waveform diagram shown in FIG. In FIG. 7, (1) shows the output of the security sensor 10 in an off (normal) and an on (abnormal) case separately.
Correspondingly, the output signal c of the sensor input circuit 17 becomes (2)
Is shown in Here, as shown in (3), when the sensor control signal b from the sensor control signal output circuit 15 is output in each of the normal and abnormal cases of the security sensor 10, the output signal c of the sensor input circuit 17 becomes As shown in (4), it can be seen that it changes only when the security sensor 10 is normal, does not change when the security sensor 10 is abnormal, and remains on. As described above, the output signal c of the sensor input circuit 17 being in the on state means that the terminal is in the terminal calling mode. When the output signal c of the sensor input circuit 17 is on, it can be determined that the security monitoring device 9 has some abnormality.

As shown in FIG. 7 (6), when the sensor control signal b is output from the sensor control signal output circuit 15, the output signal c from the sensor input circuit 17 is as shown in (7). In this case, even if the security sensor 10 is turned on, the security monitoring device 9 is not received as being turned on, so that it can be determined that there is an abnormality.

That is, if the output signal c from the sensor input circuit 17 changes in synchronization with the sensor control signal b when the sensor control signal b is output, it can be determined that the output is normal, and if the output signal c does not change, it can be determined that the output is abnormal. become.

Therefore, as shown in FIG. 5, when the security monitoring device 9 outputs the sensor control signal b when the test is started from the center device 1 and the sensor control signal b is output, the output signal c of the sensor input circuit 17 is output.
Is turned on, and this state is transmitted as a response message (1). The sensor control signal is continuously output for a predetermined time. When the sensor control signal is read out using the activation message (2) after the elapse of the predetermined time or more, since the output signal c returns to OFF when it is normal, the information is output. This is obtained from the response message (2). The center device 1 checks the content of the first response signal and the content of the next response signal. If the sensor input circuit 17 of the security monitoring device 9 operates according to the sensor control signal, it is regarded as normal, and if there is no change, If the operation is reversed, it can be determined that the security monitoring device 9 is abnormal.

In the above embodiment, as shown in FIG. 6, the transistor Tr is used as a means for reducing the impedance between the connection line to the security sensor 10, but the present invention is not limited to this. As shown in FIG.
A relay contact 21 or the like may be used.

In the above embodiment, the sensor control signal is output in the activation message (1) when the sensor input state is viewed. However, the sensor state is output in the startup message (1), and the sensor control signal is output in the startup message (2). A similar effect can be obtained by outputting a signal and making a determination in the reverse sequence such as checking the sensor state.

〔The invention's effect〕

As described above, according to the present invention, a test signal is transmitted from the center device to the security monitoring device, and the test signal is received by the security monitoring device to form a pseudo abnormal state of the security state for a predetermined time. A signal indicating the pseudo abnormal state and a non-abnormal state before or after the formation of the pseudo abnormal state is transmitted from the security monitoring device to the center device, and the state of the security monitoring device is determined based on this signal. Since it is possible to confirm whether or not is operating normally, it is possible to obtain appropriate security information and improve security services.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of a no-ringing type automatic meter reading system to which a test device of a security monitoring device according to one embodiment of the present invention is applied, and FIG. 2 is an automatic metering system of the automatic meter reading system of FIG. FIG. 3 is an explanatory diagram showing a meter reading sequence, FIG. 3 is an explanatory diagram showing a communication sequence between the terminal side network control device and the meter in the sequence shown in FIG. 2, and FIG. 4 is a security sensor in the automatic meter reading system of FIG. FIG. 5 is an explanatory diagram showing a communication sequence between the security monitoring device and the center device for calling the terminal from the security monitoring device and notifying the center device when a security abnormality is detected. FIG. 5 is an automatic meter reading system of FIG. The communication sequence according to one embodiment of the present invention for testing the security monitoring device from the center device at FIG. 6 is a block diagram showing a configuration of a main part of a security monitoring device used in the automatic meter reading system of FIG. 1, and FIG. 7 is an explanatory diagram showing an operation of the security monitoring device of FIG. FIG. 8 is a circuit diagram of a main part of another embodiment of the present invention. 1 center device 2 center network control device 6
Terminal-side network control device, 9 Security monitoring device, 10
… Security sensor, 15… sensor control signal output circuit, 17… sensor input circuit, 21… relay contact, Tr…
Transistor.

Continuation of the front page (58) Field surveyed (Int. Cl. ⁶ , DB name) G08B 29/00 H04M 11/00 301 G01R 11/00 G01R 11/24

Claims (1)

(57) [Claims] 1. A terminal device provided with a terminal-side network control device for monitoring the security status of the terminal device, and the detected terminal-side security status is transmitted to the center device via the terminal-side network control device and a communication line. A security monitoring device test device that transmits a test signal from the center device to the security monitoring device,
A pseudo abnormal state forming means provided in the security monitoring device, receiving the test signal transmitted from the transmitting means, and forming a pseudo abnormal state of the security state for a predetermined time; and A determination unit that receives a signal indicating a pseudo abnormal state formed by the pseudo abnormal state forming unit and a monitoring result in a non-abnormal state before or after the formation of the pseudo abnormal state, and determines a state of the security monitoring device based on the signal; A security monitoring device testing device, comprising: