JP3392406B2 - Centralized monitoring system, wireless communication device, and centralized monitoring device - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to output signals of various disaster prevention equipments and measuring equipments installed in large-scale business establishments.
The present invention relates to a centralized monitoring system, a wireless communication device, and a centralized monitoring device for centralized monitoring by a centralized monitoring device arranged at a remote place or the like.

[0002]

2. Description of the Related Art Conventionally, various buildings and facilities such as large-scale business establishments and plants have been equipped with disaster prevention equipment for monitoring fires, gas leaks, security and the like. In addition, these buildings and the like are provided with measuring devices for measuring physical quantities such as temperature and pressure of plants. Then, the signals output from the disaster prevention device and the measurement device are sent to a disaster prevention center or the like installed in a place away from these buildings or the like and are centrally monitored.

More specifically, the disaster prevention device outputs a disaster prevention detection signal when a predetermined abnormal state or the like is detected,
From the measuring equipment, process signals indicating the measurement result of the physical quantity are output, and these signals are sent to the disaster prevention center or the like via the respective communication lines. At disaster prevention centers and the like, the disaster prevention detection signal is taken in and monitored by the disaster prevention monitoring board, and the process signal is taken in and monitored by the process monitoring board.

[0004]

However, in order to construct such a conventional centralized monitoring system, there is a problem that the installation cost and the construction period increase. That is, since the disaster prevention detection signal of the disaster prevention device and the process signal of the measurement device are individually and wired transmitted to the disaster prevention center, it is necessary to compose a relatively long distance wired system in a complicated manner. A great amount of installation cost was required to build the system, and a long construction period was required. Especially when the installation target is a temporary building such as a construction site office, it is necessary to withdraw the communication system after the completion of the construction, but in this case the work cost and work time also increase, and the equipment efficiency is extremely high. There was a problem of being bad.

The present invention has been made in view of the above problems, and centrally monitors output signals of various disaster prevention equipment and measuring equipment installed in a large-scale business establishment by a centralized monitoring device arranged in a remote place. It is an object of the present invention to provide a centralized monitoring system, a wireless communication device, and a centralized monitoring device.

[0006]

In order to achieve such an object, the centralized monitoring system according to claim 1 is a target area
From a wireless communication device installed in the area through a predetermined wireless communication network
Centralized monitoring equipment connected by
Sends various disaster prevention detection signals issued in response to the detection.
And various processes measured in the target area
A signal is transmitted according to the instructions of the centralized monitoring device,
Centralized monitoring for centrally monitoring the target area with a central monitoring device
A system, wherein the centralized monitoring device is configured to perform the wireless communication.
When the disaster prevention detection signal is received from the device, the disaster prevention
Based on the content of the detection signal, for the abnormality analysis of the target area
Transmission instruction to instruct the transmission of the required predetermined process signal
A transmission instruction means for transmitting a signal to the wireless communication device,
The wireless communication device is configured such that the transmitting finger is transmitted from the central monitoring device.
When the display signal is received, the transmission instruction signal indicates
A predetermined process signal transmitted to the centralized monitoring device.
Characterized in that e Bei the signal instruction response unit.

A centralized monitoring system according to claim 2
In the centralized monitoring system according to claim 1,
Depending on the type of disaster prevention detection signal, the transmission instruction means
Transmission instruction signal for instructing transmission of a certain type of process signal
To the wireless communication device, and the transmission instruction response means
Is a process of a predetermined type indicated by the transmission instruction signal.
Transmission signal to the centralized monitoring device.
It

A centralized monitoring system according to claim 3
In the centralized monitoring system according to claim 1,
The wireless communication device shall be measured at predetermined time intervals in the target area.
Process information storage for storing the specified process signal
Means for transmitting the disaster prevention information
Depending on the type of signal, the process information storage means
The transmission of the stored process signal within a predetermined time range
Send a transmission instruction signal to the wireless communication device,
The transmission instruction response means is based on the process information storage means.
From among the processes stored in the
Preprocess the process signal in the specified time range indicated by the signal
It is characterized by transmitting to the centralized monitoring device.

A centralized monitoring system according to claim 4
In the centralized monitoring system according to claim 1,
The wireless communication device shall be measured at predetermined time intervals in the target area.
Process information storage for storing the specified process signal
Means for transmitting the disaster prevention information
Depending on the type of signal, the process information storage means
Stored process signals of a given type and time range
A transmission instruction signal for instructing the transmission of the signal to the wireless communication device.
And the transmission instruction response means transmits the process information.
Among the processes stored by the memory,
The specified type and time range indicated by the transmission instruction signal
To send a process signal to the central monitoring device.
Characterize.

A centralized monitoring system according to claim 5
Is the centralized monitoring system according to any one of claims 1 to 4.
System, the wireless communication device is provided with the disaster prevention detection signal.
Disaster prevention equipment and / or the process signal
Detects an abnormal function of the measuring device to be measured and responds to the detection.
And send a function abnormality detection signal to the centralized monitoring device.
The centralized monitoring device is the wireless communication device.
If the function abnormality detection signal is received from the
Analysis of the function abnormality based on the content of the function abnormality detection signal
Transmission instruction to instruct to transmit the predetermined process signal required for
Function instructing means for abnormal function for transmitting a signal to the wireless communication device
Further comprising the wireless communication device, the centralized monitoring device
When the transmission instruction signal is received from
The specified process signal indicated by the signal is sent to the central monitoring device.
To further provide a response means at the time of a function abnormality to send to
Characterize.

A centralized monitoring system according to claim 6
Is the centralized monitoring system according to any one of claims 1 to 5.
System, the centralized monitoring device is
, A transmission instruction signal for instructing the transmission of a predetermined process signal
Further includes a steady-state instruction means for transmitting the information to the wireless communication device.
The wireless communication device comprises:
When the transmission instruction signal is received, the transmission instruction signal
Send the indicated predetermined process signal to the central monitoring device
It is characterized by further comprising a response means at steady time.

[0012] The wireless communication apparatus according to claim 7 is
Centrally monitor the target area by connecting via a specified wireless communication network
It is detected in the target area against the central monitoring device
When various disaster prevention detection signals are transmitted according to the detection,
The various process signals measured in the target area
A wireless communication device that transmits in response to an instruction from the centralized monitoring device
The centralized monitoring device that has received the disaster prevention detection signal
Transmitted from the device based on the content of the disaster prevention detection signal,
Of the predetermined process signal necessary for the abnormality analysis of the target area
Transmission instruction Receiving a transmission instruction signal for instructing transmission
And the transmission instruction signal by the transmission instruction receiving means.
When receiving the
Transmission instruction for transmitting the process signal of the above to the centralized monitoring device
And a response means.

A wireless communication device according to claim 8 is
The wireless communication device according to claim 7, wherein the transmission instruction is issued.
The receiving means is the centralized monitoring device that has received the disaster prevention detection signal.
Sent from the device according to the type of disaster prevention detection signal,
A transmission instruction for instructing the transmission of a predetermined type of process signal
The transmission instruction response means, the transmission instruction response means receives the transmission instruction signal.
The centralized monitoring of process signals of the prescribed type indicated by
It is characterized by transmitting to the visual device.

A wireless communication apparatus according to claim 9 is
The wireless communication device according to claim 7, wherein the target area
Record the process signal measured at specified time intervals in
The transmission finger is further provided
The indication receiving means is the centralized supervisor who receives the disaster prevention detection signal.
It is transmitted from the visual device according to the type of the disaster prevention detection signal.
The predetermined value stored by the process information storage means
Instruction to instruct the transmission of the process signal in the time range of
A signal is received, and the transmission instruction response means is configured to perform the process.
Among the processes stored by the information storage means
From the predetermined time range indicated by the transmission instruction signal.
Characterized by transmitting a process signal to the centralized monitoring device
And

A wireless communication apparatus according to claim 10
Is the wireless communication device according to claim 7,
The process signal measured in the area at predetermined time intervals
Further comprising process information storage means for storing
The communication instruction receiving means is configured to receive the disaster prevention detection signal.
Transmitted from the monitoring device according to the type of the disaster prevention detection signal.
Stored by the process information storage means
Directs the transmission of process signals of a certain type and time range
Receiving a transmission instruction signal to
The professional stored by the process information storage means.
From the process, the specified
The type and time range of process signals can be monitored by the central monitoring device.
It is characterized by transmitting to the storage.

A wireless communication device according to claim 11
Is a wireless communication device according to any one of claims 7 to 10.
The disaster prevention device and the disaster prevention device for detecting the disaster prevention detection signal
And / or the function of the measuring device for measuring the process signal
Detects an abnormality and sends a function abnormality detection signal in response to the detection.
A function abnormality detecting means for transmitting to the centralized monitoring device;
From the central monitoring device that received the function abnormality detection signal,
The function transmitted based on the content of the function abnormality detection signal
Directs the transmission of certain process signals needed for anomaly analysis
And a receiving means at the time of function abnormality for receiving a transmission instruction signal,
When the function is abnormal, the receiving means receives the transmission instruction signal.
The specified process indicated by the transmission instruction signal,
Response signal at the time of a function abnormality that sends a signal to the centralized monitoring device
It is characterized by further including a step.

A centralized monitoring apparatus according to claim 12
Is installed in the target area in
From the wireless communication device connected via the wireless communication network of
Detection of various disaster prevention detection signals detected in the target area
According to the received and measured in the target area
Receiving various process signals according to predetermined instructions,
A centralized monitoring device for centrally monitoring a target area,
When the disaster prevention detection signal is received from the line communication device,
Abnormality in the target area based on the content of the disaster prevention detection signal
A transmission instructing the transmission of a predetermined process signal required for analysis
Transmission instruction means for transmitting an instruction signal to the wireless communication device
And the wireless communication device that has received the transmission instruction signal?
Specified process signal instructed by the transmission instruction signal
Response receiving means for receiving the
It

A centralized monitoring apparatus according to claim 13
Is the centralized monitoring device according to claim 12,
The indicating means is a predetermined type according to the type of the disaster prevention detection signal.
The transmission instruction signal for instructing the transmission of the process signal of
And transmitting the response to the wireless communication device,
From the wireless communication device that receives the instruction signal, the transmitting finger
Receive a predetermined type of process signal indicated by the
It is characterized by

A centralized monitoring device according to claim 14
Is the centralized monitoring device according to claim 12,
The line communication device measures every predetermined time interval in the target area.
Process information storing hand for storing said process signals
A step, wherein the instructing means is the disaster prevention inspection.
According to the type of output signal, the process information storage means
The stored process signal within a defined time range
Transmitting a transmission instruction signal for instructing to the wireless communication device,
The response receiving means receives the transmission instruction signal.
From the wireless communication device by the process information storage means
Of the stored processes, the transmission instruction signal
It is possible to receive the process signal within the specified time range.
And are characterized.

A centralized monitoring apparatus according to claim 15
Is the centralized monitoring device according to claim 12,
The line communication device measures every predetermined time interval in the target area.
Process information memory for storing the processed process signal
A step, wherein the instructing means is the disaster prevention inspection.
According to the type of output signal, the process information storage means
Stored processes of a given type and time range
The wireless communication device transmits a transmission instruction signal for instructing signal transmission.
And the response receiving means receives the transmission instruction signal.
From the wireless communication device that received the
Of the processes stored by the stage
Of the specified type and time range indicated by the
It is characterized by receiving a process signal.

A centralized monitoring device according to claim 16
Is the centralized monitoring according to any one of claims 12 to 15.
In the device, the wireless communication device is the disaster prevention detection signal.
Disaster prevention equipment and / or the process signal
Detects an abnormal function of the measuring device to be measured and responds to the detection.
And send a function abnormality detection signal to the centralized monitoring device.
The wireless communication device detects the functional abnormality.
Contents of the function abnormality detection signal when an output signal is received
Based on the specified process required to analyze the functional abnormality.
A transmission instruction signal for instructing the transmission of the wireless communication signal to the wireless communication device.
Device for transmitting a function abnormality, and the transmission instruction signal
From the wireless communication device that has received the
Respond to a function abnormality that receives the specified process signal
An answer receiving means is further provided.

[0022]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of a centralized monitoring system, a wireless communication device, and a centralized monitoring device according to the present invention will be described below in detail with reference to the drawings. The present invention is not limited to this embodiment.

(Outline) The outline of the present system will be described below, and then the configuration and processing of the present system will be described in detail. FIG. 1 is a block diagram showing the overall configuration of this system. As shown in FIG. 1, this system includes a plurality of target areas 1 including target equipment and target equipment for disaster prevention monitoring and physical quantity measurement.
A and 1B, and a disaster prevention center 2 that centrally performs disaster prevention monitoring and process monitoring in these target areas 1A and 1B,
PHS (Personal Handy Phone Syst) as a wireless communication network
em) Connected via the network 3.

In each of the target areas 1A and 1B, a fire detector 100 as a disaster prevention device, a repeater 200, and a measuring device 3
00, a monitoring relay device 400 as a wireless communication device, and a PHS unit 500. Further, a PHS unit 600 and a personal computer (hereinafter, PC) 700 are arranged in the disaster prevention center 2 (note that the number of these devices and the number of each device installed can be arbitrarily determined. Multiple fire detectors 100
And a signal from the repeater 200 as one monitoring repeater 4
00, and signals from three or more monitoring relay devices 400 and PHS units 500 can be received by one PC 700.
Can be received at).

Then, in the normal monitoring state, roughly, the fire detection signal (disaster prevention detection signal) from the fire detector 100 is wirelessly transmitted to the relay 200 and further transmitted to the monitoring relay device 400. This signal is, for example, serial-converted in the monitoring relay device 400, and then PHS.
The unit 500 performs protocol conversion into a signal that can be wirelessly transmitted (a wireless signal), is transmitted to the disaster prevention center 2 via the PHS network 3, and is transmitted via the PHS unit 600 to P
Sent to C700.

The process signal of the measuring device 300 is
This is transmitted to the monitoring relay device 400, and this monitoring relay device 40
Stored in 0. This process signal is from the disaster prevention center 2
Is called in response to a transmission command from the monitoring relay device 400, and is serially converted in the monitoring relay device 400, and then protocol-converted into a wirelessly transmittable signal (wireless signal) in the PHS unit 500, and the disaster prevention center is connected via the PHS network 3. 2 to P via the PHS unit 600
Sent to C700. Thereby, the fire detection signal and the process signal are intensively monitored.

When a fire is detected by the fire detector 100, (1) the fact is displayed on the PC 700 with priority over the display of other monitoring contents,
(2) An instruction from the PC 700 issues a command to transmit a process signal necessary for identifying the cause of fire, etc. (3) PC7
00, an e-mail is sent as a notification to the related parties, and (4) the PC 700 creates and publishes a Web page as reference information.

Further, the monitoring relay device 400 monitors the signal from the fire detector 100 and the process signal from the measuring device 300, and when there is a malfunction in each device or device, the fact is notified. Send to PC700. Also, P
The C700 monitors the functional abnormality of the fire detector 100, the measuring device 300, the monitoring relay device 400, or the PHS unit 600.

(System Configuration-Fire Detector 100 and Repeater 200) Next, the configuration of each part of this system will be described in detail. First, the configurations of the fire detector 100 and the relay 200 will be described. The fire detector 100 and the relay device 200 are disaster prevention devices that detect the occurrence of a fire in the target areas 1A and 1B.

Of these, the fire detector 100 is a wireless sensor for detecting fire by any method such as smoke detection or heat detection, and when the smoke amount or temperature exceeds a predetermined threshold value, the fire detector 100 The fire detection signal of the alarm is wirelessly transmitted to the repeater 200. Further, the fire detector 100 has a self-test function and a regular notification function, and periodically relays analog data of smoke amount and temperature, and test information by the self-test function and failure information such as battery voltage drop. Wirelessly to the device 200.

On the other hand, the repeater 200 is the fire detector 100.
It receives a fire detection signal wirelessly transmitted from, analog data of smoke amount and temperature to be regularly notified, test results and failure information, and transmits each of these data to the monitoring relay device 400 by wire.

The fire detector 100 and the repeater 2 are also provided.
Communication between 00 may be wired communication instead of wireless communication.
However, when wireless communication is performed, it is possible to further reduce the cost and period of equipment installation and equipment withdrawal. Further, the output from the fire detector 100 is monitored by the relay device 400.
You may make it transmit it directly to. As for the disaster prevention device, as in the fire detector 100, the target area 1A,
A gas leak detection device that detects a gas leak in 1B, a security device that detects an intruder in the target areas 1A and 1B, and the like.
Disaster prevention equipment for any purpose can be installed.

(System Configuration-Measuring Instrument 300) Next, the configuration of the measuring instrument 300 will be described. The measuring device 300 measures various physical quantities of devices such as facilities and plants in the target areas 1A and 1B, and sends a process signal indicating the measurement result to the monitoring relay device 400 by wire. As such a measuring device 300, for example, a pressure sensor, a current sensor, an electric energy sensor, a temperature sensor, a flow sensor, or a water level sensor can be cited. In this case, the pressure value, the current value, and the electric power, respectively. Process signals are output indicating quantity, temperature, flow rate and water level.

In the present embodiment, each target area 1
A plurality of measuring devices 300 are provided in A and 1B, and process signals from the plurality of measuring devices 300 are output to one monitoring relay device 400. In addition, fire detector 1
00, the output from the measuring device 300 is applied to the repeater 20.
0 to the monitoring relay device 400, or the output from the measuring device 300 may be wirelessly transmitted.

(System Configuration-Monitoring Relay Device 400) Next, the configuration of the monitoring relay device 400 will be described. FIG. 2 is a block diagram showing the main configuration of the monitoring relay device 400. As shown in FIG. 2, the monitoring relay device 400 is
The input unit 410, the storage unit 420, the transmission / reception unit 430, the modem 440, and the control unit 450 are configured.

Of these, the input unit 410 is the repeater 200.
The measuring device 300 is connected to the signal line, and the repeater 20
Input means for receiving inputs such as a fire detection signal from 0 and a process signal from the measuring device 300, and specifically, a plurality of channels (ports) corresponding to each of these signals.
And is capturing the signal via this channel. The storage unit 420 also stores the measuring device 30.
A process information storage means for storing a process signal from 0. Further, the transmission / reception unit 430 controls transmission / reception of signals between the control unit 450 and the modem 440. The modem 440 also performs mutual conversion between digital signals and analog signals.

Further, the control unit 450 controls the monitoring relay device 40.
It is a control means for controlling each unit of 0. This control unit 450
In terms of function and concept, the signal conversion unit 451 and the abnormality monitoring unit 4
52, a notification unit 453, and a transmission instruction response unit 454 are provided. Of these, the signal conversion unit 451 is a signal conversion unit that converts the fire detection signal and the like and the process signal into a serial format signal. Further, the abnormality monitoring unit 452
Is an abnormality monitoring means for detecting a functional abnormality of the fire detector 100 and the measuring device 300. In addition, the reporting unit 453
Is a function abnormality notifying unit that outputs a signal indicating the detection result of the abnormality via the PHS unit 500 when the abnormality is detected by the abnormality monitoring unit 452. The transmission instruction response unit 454 is a transmission instruction response unit that transmits a process signal based on the transmission instruction signal from the PC 700. Details of the processing contents by these units will be described later. As described above, the monitoring relay device 400 is commonly provided for the fire detector 100 and the measuring device 300 provided in the target area 1, and collectively monitors each signal.

(System Configuration-PHS Unit 500) Next, the configuration of the PHS unit 500 will be described.
FIG. 3 is a block diagram showing a main configuration of the PHS unit 500. As shown in FIG. 3, the PHS unit 50
Reference numeral 0 denotes a wireless transmitter / receiver for transmitting / receiving the disaster prevention detection signal and the process signal, and the analog circuit interface 5
10, a PHS interface 520, and a control unit 530. Of these, the analog circuit interface 510 transmits and receives an analog signal to and from the monitoring relay device 400. Also, PHS
The interface 520 performs wireless communication with a base station (not shown) of the PHS network 3. In addition, the control unit 53
0 controls each part of the PHS unit 500, and converts the protocol of the serial signal received from the monitoring relay device 400 into the protocol for PHS transmission.

The configuration and processing of the PHS unit 600 is the same as that of the PHS unit 500, so its explanation is omitted. The analog circuit interface of the PHS unit 600 transmits / receives analog signals to / from the PC 700.

(System Configuration-PC 700) Next, the configuration of the PC 700 will be described. Figure 4 is a PC
7 is a block diagram showing the main configuration of 700. FIG. As shown in FIG. 4, the PC 700 generally includes a control unit 71.
0, RAM (Random Access Memory) 720, HD (Hard
Disk) 730, input device 740, output device 750 as output means, input / output control IF 760, and modem 7
70, and these units are connected via a bus so that data communication is possible.

Here, the HD 730 is a storage means for storing all or any part of the information such as the disaster prevention detection signal transmitted from the monitoring relay device 400 and the read process signal so far, when a fire is detected. Storage means for storing information for identifying the process signal to be read out,
Report destination information storage means for storing information of the report destination (here, the e-mail address of the person concerned) when a fire is detected, and its content and process when a fire is detected Web for displaying signal contents etc.
It is configured as a reference information storage unit that stores Web data of a page.

The control unit 710 of the PC 700 is a control unit that performs a predetermined monitoring process based on the radio signal transmitted from each target area 1. Functionally, the normal monitoring unit 711 and the abnormality monitoring are performed. It is configured to include a unit 712, a Web data generation unit 713, and a transmission instruction unit 714. Of these, the normal monitoring unit 711 is a normal monitoring unit that performs a monitoring process in a normal monitoring state described later. The abnormality monitoring unit 712 is an abnormality monitoring unit that detects a functional abnormality of the fire detector 100, the measuring device 300, and the monitoring relay device 400. Also, the Web data generation unit 7
Reference numeral 13 is a reference information generating means for generating Web data (reference information) for referring to the contents of the fire detection signal and the like and the process signal on the WWW (World Wide Web) via the Internet. The transmission instruction unit 714 is a transmission instruction unit that transmits a transmission instruction signal for instructing the transmission of the process signal to the monitoring relay device 400 via the PHS unit 600. Details of the processing contents by these units will be described later.

As the input device 740, a keyboard, a mouse, a microphone or the like can be used.
Further, the monitor described later also realizes a pointing device function in cooperation with the mouse. Also, the output device 750
As the monitor, a monitor (including a home-use television) and a speaker can be used. In particular, this output device 750
Is an output means for outputting based on a fire detection signal or the like or a process signal. The modem 770 also performs mutual conversion between digital signals and analog signals.

(Processing Content) Next, the centralized monitoring processing performed in this system will be described. This process is roughly classified into a normal monitoring process which is a normal monitoring process, a function abnormality process when a function abnormality is found by the monitoring relay device 400, and a function abnormality process when a function abnormality is found by the PC 700. .

(Processing Content-Normal Monitoring Process) First, the normal monitoring process will be described. The sequence of this processing is shown in FIG. First, the measuring device 300 measures a physical quantity and outputs a process signal according to this physical quantity (step SA-1). Here, the monitoring relay device 40
The control unit 450 of 0 scans the process signal input to the input unit 410 at predetermined time intervals, performs A / D conversion, and stores the processed signal in the storage unit 420 together with the time stamp obtained by an arbitrary method. As a result, the monitoring relay device 40
Accumulation of the process signal at 0 takes place. Further, the control unit 450 updates and stores the process signal acquired at predetermined time intervals in the storage unit 420. Also, the monitoring relay device 4
The control unit 450 of 00 monitors whether or not a fire detection signal is input from the fire detector 100 in the input unit 410 at predetermined time intervals.

On the other hand, the transmission instruction section 714 of the PC 700 is
The process signal is read at predetermined time intervals. In particular,
The transmission instruction unit 714 outputs the transmission instruction signal of the process signal at predetermined time intervals (step SA-2). This transmission instruction signal is converted into an analog signal by the modem 770, and then transmitted to the PHS unit 600, the nearest PHS base station on the disaster prevention center 2 side, the PHS network 3, and the nearest PHS base station on the target area 1 side. The signals are sequentially received by the PHS unit 500. Then, the transmission instruction signal is
After being converted into a digital signal by the modem 440 of the monitoring relay device 400, the signal is input to the transmission instruction response unit 454 (steps SA-3 and SA-4. Hereinafter, a signal transmission path from the PC 700 to the monitoring relay device 400 and The transmission method is the same).

Then, the transmission instruction response unit 454 analyzes the command included in this transmission instruction signal, and when this command is the transmission instruction of the process signal, the storage unit 42.
Of the process signals stored in 0, the process signal instructed by the transmission instruction signal is read. Usually, the latest process signal measured by the measuring device 300 is read.
In addition, for example, but it may also be a read out all process signals acquired within a latest predetermined time. This process signal is converted into an analog signal by the modem 440,
After protocol conversion by the PHS unit 500, the PHS unit 600 receives the PHS base station closest to the target area 1 side, the PHS network 3, and the nearest PHS base station on the disaster prevention center 2 side in order. It And
The process signal is converted into a digital signal by the modem of the PC 700 and then input to the normal monitoring unit 711 (steps SA-5 to SA-7. Hereinafter, a signal transmission path and transmission from the monitoring relay device 400 to the PC 700. The method is similar).

Then, the normal monitoring unit 711 performs a predetermined monitoring process based on this process signal. For example, this process signal is displayed on the output device 750 in a numerical format or a graph format. FIG. 8 shows an example of a display screen of process signals. In FIG. 8, each target area 1 is displayed in the screen.
The process data acquired in A and 1B are displayed in a numerical format (MA-1).

Further, in such a monitoring state, the fire detector 100 outputs a fire detection signal when a fire is detected. This fire detection signal is transmitted to the monitoring relay device 400 via the relay 200 (step SA-8). Then, when the control unit 450 of the monitoring relay device 400 receives this fire detection signal, it immediately transmits it to the PC 700 via the PHS unit 500 or the like (steps SA-9 to S-S).
A-11). In addition, the control unit 450 controls the PC as described above.
When a fire detection signal is received from the fire detector 100 at the time of reading or transmitting the process signal based on the transmission instruction signal from the 700, or at the time of performing other processing, another The signal processing is interrupted, and this fire detection signal is immediately transmitted to the PC 700 via the PHS unit 500 or the like.

On the other hand, the normal monitoring section 711 of the PC 700 is
Whether or not the fire detection signal is received is monitored, and when the fire detection signal is received, the output device 750 indicates that the fire is detected.
View through. This output is prioritized over other outputs (for example, display of a process signal) being performed at that time. FIG. 9 shows an example of a display screen when a fire is detected. In FIG. 9, the screen indicates that a fire has been detected MB-1, the fire detection position MB-2 and the fire detection time MB- acquired based on the content of the fire detection signal, etc.
3 is displayed in a pop-up format. Also, PC7
The control unit 710 of 00 outputs an alarm sound indicating that a fire is detected via the output device 750.

Further, the normal monitoring section 711 of the PC 700 is
Information for identifying a process signal to be read when a fire is detected is read from the HD 730. This information includes the measuring device 300 of the process signal to be read, the type (for example, temperature, atmospheric pressure, etc.), and the time range (for example, the last 10 minutes before). Then, the normal monitoring unit 71
1 produces | generates the transmission instruction signal for reading a process signal based on this information, and outputs it to the monitoring relay apparatus 400 of the target area 1 which transmitted the fire detection signal via a modem (step SA-12). ~ SA-14). As a result, the process signal stored in the storage unit 420 of the monitoring relay device 400 is transmitted to the PC 700 through the same process as the process signal reading described above (step S).
A-15 to SA-17). As a result, a process signal for analyzing the cause of fire, the direction of fire spread, etc. can be automatically acquired. The normal monitoring unit 711 of the PC 700
Determines the normality of the function of each device in the target area 1 based on the content of the process signal when the process signal is acquired. This point will be described later.

Further, the Web data generation unit 7 of the PC 700
Regarding fire detection, 13 automatically generates Web data of a Web page including information that can be referred to by related persons, among information acquired at that time (step SA-18). Such information includes the fact that a fire has been detected, the fire detection position and fire detection time acquired based on the content of the fire detection signal, and the display of the process signal read by the above processing. be able to.
Note that this Web data generation is performed by, for example, CGI (Commo
n Gateway Interface).

The Web data generated in this way is stored in the folder of the HD 730 associated with a predetermined URL. Then, the person concerned can call the above-mentioned Web data via the Internet using the Web terminal of his / her own terminal, and browse it with a Web browser or the like. In order to enable such Internet access, the control unit 710 of the PC 700 can be provided with a transmission / reception processing function of transmitting Web data based on a request from the Web terminal. Further, as a matter of course, it is possible to store Web data other than the PC 700. For example, by connecting a known Web server device and the PC 700, the Web data generated by the PC 700 can be We
It may be stored in the server device b. Alternatively,
This process signal etc. is transmitted to the Web server device and this W
Web data may be generated on the eb server device side.

Further, the normal monitoring section 711 of the PC 700 is
When a fire is detected, the e-mail address of the person to be notified of that is read from the HD 730. Then, the normal monitoring unit 711 automatically generates and transmits the mail data of the electronic mail including the predetermined content, addressed to this electronic mail address (step SA-19). Here, as the predetermined contents, for example, the fact that a fire is detected, the fire detection position, the fire detection time, and the W generated in the above processing are used.
The URL of the eb data can be included.

This mail data can be transmitted by any method, for example, dial-up connection to a predetermined Internet access provider via the modem 770 and the PHS unit 600. Further, the electronic mail is not limited to general Internet mail, and PHS mail or the like may be used. Also, instead of an electronic mail, a voice signal may be synthesized and transmitted to a terminal of a person concerned. As a result, an e-mail is automatically sent to the persons concerned, and the fact that a fire has been detected is notified.

Note that, as the persons concerned, for example, the manager of the disaster prevention center 2 can be included. In this case, even if the manager is absent at midnight, the terminal of the manager can detect a fire. Can be reported. In addition, the position of the related person (the position of the PHS terminal) is acquired from the PHS base station, and the PHS terminal of the related person near the target area 1 where the fire or the like has occurred is notified by e-mail or the like. May be.

(Processing Content-Function Abnormality Processing by Monitoring Relay Device 400) Next, the function abnormality processing by the monitoring relay device 400 will be described. The sequence of this processing is shown in FIG. In this process, the abnormality monitoring unit 452 of the monitoring relay device 400
Monitors the presence or absence of functional abnormality in the fire detector 100 and the measuring device 300 by an arbitrary method. For example, the abnormality monitoring unit 452 uses the test results and failure information transmitted from the fire detector 100 on a regular basis, or the measuring device 300.
A process signal or the like transmitted from is periodically sampled (steps SB-1 and SB-2).

Then, the abnormality monitoring unit 452 determines whether the fire detector 100 or the measuring device 300 is out of order, the power is off, or the communication is out of order, based on the test result, the failure information, or the presence or absence of the process signal. Alternatively, even if the process signal is normally acquired, if the physical quantity indicated by the process signal greatly exceeds the measurement range, it is determined that some abnormality has occurred in the measuring device 300. You may judge.

Then, when the abnormality monitor 452 detects such a functional abnormality, it sends a signal to that effect to the notification unit 453. Then, the notification unit 453 transmits a signal indicating the detection of the functional abnormality to the PC 700 (steps SB-3 to SB-5). PC700 which received this signal
Outputs the fact that an abnormality has occurred, reads out the process data necessary for specifying the cause of the abnormality, etc. (steps SB-6 to SB-11), and generates the Web data of the Web page, as in the case of detecting a fire. And store (step SB-1
2) Further, the electronic mail to the related persons is transmitted (step SB-13). It should be noted that this Web page may be generated not only when the function is abnormal but also in the normal monitoring state.

(Processing Content-Function Abnormality Processing by PC 700) Finally, the function abnormality processing by the PC 700 will be described. The sequence of this processing is shown in FIG. In this process, the abnormality monitoring unit 712 of the PC 700 monitors the presence / absence of an abnormality in the monitoring relay device 400 by an arbitrary method. For example, the abnormality monitoring unit 712 may include the monitoring relay device 400.
On the other hand, when the process signal read instruction is issued as described above (steps SC-1 to SC-3), it is confirmed whether or not the process signal is transmitted from the monitoring relay device 400.

If there is no transmission within the predetermined time,
The abnormality monitoring unit 712 determines that the power supply or communication failure has occurred in the monitoring relay device 400, the PHS units 500, 600, or the like. Alternatively, even if the transmission is normally performed, if the physical quantity indicated by the process signal greatly exceeds the measurement range, the measuring device 30
It may be determined that some abnormality has occurred in 0. Then, when the abnormality monitoring unit 712 detects the abnormality in this way, the control unit 710 outputs the fact that the abnormality has occurred and generates and stores the Web data of the Web page as in the case of detecting a fire (step SC -4) Further, the electronic mail to the related persons is transmitted (step SC-5).

(Other Embodiments) The embodiments of the present invention have been described so far. However, the present invention is not limited to the above-described embodiments, and has the technical idea described in the claims. It may be implemented in various different embodiments within the scope. For example, at present, the PHS unit 500 is mainly of the analog type, so the analog conversion is performed in the monitoring relay device 400. However, when the PHS unit 500 is the digital type, the analog conversion in the monitoring relay device 400 is omitted. can do. Also, the monitoring relay device 4
The disaster prevention detection signal may be stored in 00.

Further, of the processes described in the embodiments, all or part of the processes described as being automatically performed may be manually performed, or described as being performed manually. All or part of the processing can be automatically performed by a known method. In addition, the processing procedure, control procedure, and
Information including parameters such as specific names, various types of registration data, and search conditions can be arbitrarily changed unless otherwise specified.

Further, although the configurations of the respective devices have been described in the above-mentioned embodiments, the respective constituent elements shown in the drawings are functionally conceptual and do not necessarily have to be physically configured as shown in the drawings. Further, with regard to the processing functions provided in each device, in particular, regarding the processing functions performed by the control units 450 and 710, all or an arbitrary part thereof may be replaced by the CPU (C
It can be realized by a program that is interpreted and executed by the central processing unit) and the CPU, or can be realized as hardware by a wired logic.

The PC 700 is, for example, a workstation, a home game machine, an Internet TV, a PD.
It can also be realized by an A (Personal Digital Assistant), a mobile communication terminal such as a mobile phone or a PHS (Personal Handy Phone System), and various equipment control panels such as an emergency centralized monitoring panel. The control unit of the PC 700 controls all or a part of the CPU and the C
It can be realized by a program that is interpreted and executed by the PU. That is, the HD 730 has an OS (Operating)
A computer program for giving instructions to the CPU in cooperation with the system) and performing various processes is recorded. This computer program is executed by being loaded into the RAM 720, and constitutes a control unit in cooperation with the CPU. However, this computer program may be recorded in an application program server connected to the client device via an arbitrary network, and it is also possible to download all or part of it as necessary. Alternatively, all or any part of each control unit can be realized as hardware such as a wired logic.

(Network) Further, the network connecting the target area 1 and the disaster prevention center 2 is not limited to the PHS network 3 described above, and any wireless network including the Internet can be used. For example, various data can be transmitted and received using a mobile phone network, terrestrial waves, CS, or BS.

The "program" is a data processing method described in any language or description method, and may take any form such as source code or binary code. In addition,
The "program" is not necessarily limited to a single configuration, and its functions can be realized by collaborating with a distributed configuration of a plurality of modules and libraries, or a separate program represented by an OS (Operating System). Including what you achieve.

The program can also be stored in a computer-readable recording medium. Here, the "recording medium" means a floppy disk (registered trademark) , a magneto-optical disk, a ROM, an EPROM, an EEPROM, a CD.
-Arbitrary "portable physical media" such as ROM, MO, DVD, and RO built into various computer systems
M, RAM, HD such as any "fixed physical medium", or LAN, WAN, such as a communication line or carrier wave when transmitting the program through a network typified by the Internet It shall include the retained "communication medium". It should be noted that known configurations and procedures can be used for a specific configuration for reading the recording medium in each device described in the embodiments, a reading procedure, an installation procedure after reading, and the like.

[0069]

As described above, according to the present invention.
For example, the centralized monitoring device sends the disaster prevention detection signal from the wireless communication device.
When received, based on the content of the disaster prevention detection signal,
Transmission of predetermined process signals required for anomaly analysis of the target area
A transmission instruction signal for instructing the
The communication device receives the transmission instruction signal from the centralized monitoring device
In this case, the predetermined process instructed by the transmission instruction signal
The signal is transmitted to the centralized monitoring device. Therefore, disaster prevention detection
Centrally monitor signals and process signals to check for abnormalities.
Rapid process signals required for cause identification and abnormality analysis
By reading the
It becomes possible to deal with it.

Further , according to the present invention, the centralized monitoring device is
Depending on the type of disaster detection signal, a predetermined type of process signal
A transmission instruction signal for instructing the transmission of the signal to the wireless communication device
However, the wireless communication device does not perform the predetermined operation instructed by the transmission instruction signal.
Send a process signal of a type to a centralized monitoring device. But
Therefore, the type of disaster prevention detection signal (for example, fire occurrence, gas leakage)
Depending on the intruder etc.)
Type required for analysis (eg pressure, current, power, temperature,
Quickly read out only process signals such as water flow, water level, etc.
And become possible.

Further , according to the present invention, the wireless communication device is
Process signal measured in the area of interest at predetermined time intervals
Memorize And the centralized monitoring device
Processes within a given time range stored, depending on type
Send a transmission instruction signal to the wireless communication device to instruct the transmission of the signal.
The wireless communication device is a stored process.
From within the specified time range specified by the transmission instruction signal.
The process signal is transmitted to the centralized monitoring device. Therefore, disaster prevention
Type of detection signal (eg fire, gas leak, intruder
Etc.), it is necessary to identify the cause of the abnormality and analyze the abnormality response.
Process signal within a wide time range (for example, 10 minutes before)
Only the issue can be read out quickly.

Further , according to the present invention, the wireless communication device is
Process signal measured in the area of interest at predetermined time intervals
Memorize And the centralized monitoring device
Predetermined type and time range stored according to type
Wireless transmission of a transmission instruction signal to instruct the transmission of the process signal of
Process, the wireless communication device transmits to the receiving device
Of the specified type and specified by the transmission instruction signal.
And process signals in time range to centralized monitoring equipment
It Therefore, the type of disaster prevention detection signal (for example, fire
The cause of the abnormality can be identified or
Types required for analysis of abnormality response (for example, pressure, current, electric
Force, temperature, water flow, water level, etc. and time range (eg,
Promptly read out only the process signal of 10 minutes before.
It will be possible.

Further , according to the present invention, the wireless communication device is
Disaster prevention equipment and / or process for detecting disaster prevention detection signals
Detection of abnormalities in the measuring equipment that measures the
A function abnormality detection signal is sent to the centralized monitoring device according to the output.
Believe. Then, the centralized monitoring device operates from the wireless communication device.
When the function abnormality detection signal is received, the function abnormality detection signal is received.
Based on the content of the
Wireless transmission of a transmission instruction signal to instruct the transmission of the process signal of
Wireless communication device from the central monitoring device.
When receiving a reception instruction signal, the transmission instruction signal
The determined predetermined process signal is transmitted to the centralized monitoring device.
Therefore, the function abnormality detection signal and the process signal are unified.
Centralized monitoring to identify the cause of functional abnormalities and solutions for abnormalities
By quickly reading out the process signals required for analysis ,
Promptly respond to malfunctions in disaster prevention equipment and measuring equipment
It also becomes possible.

Further , according to the present invention, the centralized monitoring device is
Instruct to transmit a predetermined process signal at predetermined time intervals
To send to the wireless communication device.
When receiving a transmission instruction signal from the centralized monitoring device
The predetermined process signal indicated by the transmission instruction signal
To the central monitoring device. Therefore, regularly prescribed
Types (eg pressure, current, power, temperature, water flow, water level)
Etc.) and time range (for example, 10 minutes before).
The process signal can be read out periodically for monitoring, etc.
Along with becoming possible, the equipment for measuring equipment and wireless communication equipment
It also becomes possible to quickly grasp a malfunction.

[Brief description of drawings]

FIG. 1 is a block diagram showing an overall configuration of a centralized monitoring system according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a main configuration of a monitoring relay device.

FIG. 3 is a block diagram showing a main configuration of a PHS unit.

FIG. 4 is a block diagram showing a main configuration of a personal computer.

FIG. 5 is a sequence diagram of normal monitoring processing.

FIG. 6 is a sequence diagram of a function abnormality process performed by the monitoring relay device.

FIG. 7 is a sequence diagram of functional abnormality processing by a personal computer.

FIG. 8 is a diagram showing an example of a display screen of process signals.

FIG. 9 is a diagram showing an example of a display screen when a fire is detected.

[Explanation of symbols]

1 target area 100 fire detector 200 repeater 300 measuring instruments 400 Monitoring relay device 410 Input section 420 storage 430 Transmitter / receiver 440 modem 450 control unit 500 PHS unit 510 analog circuit interface 520 PHS interface 530 control unit 2 disaster prevention center 600 PHS unit 700 Personal computer (PC) 710 Control unit 720 RAM 730 HD 740 input device 750 output device 760 I / O control interface 770 modem 3 PHS network

─────────────────────────────────────────────────── ─── Continued Front Page (51) Int.Cl. ⁷ Identification Code FI G08B 29/02 G08B 29/02 H04B 7/24 H04B 7/24 D 7/26 H04M 11/04 H04M 11/04 H04B 7/26 K (72) Inventor Yuzo Hara 5-7-1, Shiba, Minato-ku, Tokyo NEC Corporation (72) Inventor Mitsuru Shibata 2-1043 Kamiosaki, Shinagawa-ku, Tokyo Hochiki Co., Ltd. (56 ) Reference JP 2001-22432 (JP, A) JP 2000-163121 (JP, A) JP 7-84636 (JP, A) JP 2-183398 (JP, A) JP 2- 106000 (JP, A) (58) Fields surveyed (Int.Cl. ⁷ , DB name) G08B 23/00-31/00 G05B 23/00-23/02 H04B ⁷ /24-7/26 H04M 11/04

Claims (16)

(57) [Claims] 1. A location from a wireless communication device installed in a target area
For central monitoring equipment connected via a fixed wireless communication network
The various disaster prevention detection signals detected in the target area.
Transmitting in response to the detection and measuring in the target area
The various process signals that have been processed are instructed by the central monitoring device.
According to the central monitoring device
A centralized monitoring system for centralized monitoring, wherein the centralized monitoring device receives the disaster prevention detection signal from the wireless communication device.
Based on the content of the disaster prevention detection signal,
The transmission of a predetermined process signal required for abnormality analysis
Transmission instruction for transmitting a transmission instruction signal to the wireless communication device
The wireless communication device receives the transmission instruction signal from the centralized monitoring device.
The predetermined process signal indicated by the transmission instruction signal
A transmission instruction response means for transmitting the
Centralized monitoring system characterized by 2. The transmission instruction means is the disaster prevention detection signal.
Depending on the type of process signal
A transmission instruction signal shown to the wireless communication device, and the transmission instruction response means is instructed by the transmission instruction signal.
Sends a predetermined type of process signal to the central monitoring device
The centralized monitoring system according to claim 1, wherein
Mu. 3. The wireless communication device is located in the target area.
Stores the process signal measured at regular time intervals
Further comprising process information storage means, the transmission instruction means depending on the type of the disaster prevention detection signal.
The predetermined information stored by the process information storage means.
Instruction to instruct the transmission of the process signal in the time range of
A signal is transmitted to the wireless communication device, and the transmission instruction response means stores in the process information storage means.
Therefore, from the stored processes,
The process signal of a predetermined time range which is indicated by No.示信
The information is transmitted to the centralized monitoring device.
Centralized monitoring system described in. 4. The wireless communication device is located in the target area.
Stores the process signal measured at regular time intervals
Further comprising process information storage means, the transmission instruction means depending on the type of the disaster prevention detection signal.
The predetermined information stored by the process information storage means.
The transmission of process signals of different types and time ranges
Transmitting a transmission instruction signal to the wireless communication device, and the transmission instruction response means stores in the process information storage means.
Therefore, from the stored processes,
Of the specified type and time range indicated by the
Process signal is transmitted to the centralized monitoring device.
The centralized monitoring system according to claim 1. 5. The wireless communication device is configured to detect the disaster prevention signal.
Disaster prevention equipment and / or the process signal
Detects an abnormal function of the measuring device to be measured and responds to the detection.
And send a function abnormality detection signal to the centralized monitoring device.
The centralized monitoring device differs from the wireless communication device in the function.
When the normal detection signal is received,
Based on the content, the specified program necessary for analyzing the functional abnormality is specified.
A transmission instruction signal for instructing the transmission of the process signal.
The wireless communication device is further provided with a function abnormality instruction means for transmitting to the communication device,
When the display signal is received, the transmission instruction signal indicates
A device for transmitting a predetermined process signal to the centralized monitoring device
Claims characterized by further comprising means for responding to abnormal function
The centralized monitoring system according to any one of Items 1 to 4. 6. The centralized monitoring device is provided at predetermined time intervals.
, A transmission instruction signal for instructing the transmission of a predetermined process signal
Further includes a steady-state instruction means for transmitting the information to the wireless communication device.
The wireless communication device includes the transmitting finger from the central monitoring device.
When the display signal is received, the transmission instruction signal indicates
A predetermined process signal transmitted to the centralized monitoring device.
2. The device according to claim 1, further comprising a constant response means.
The centralized monitoring system according to any one of 1 to 5 . 7. A pair connected through a predetermined wireless communication network.
For centralized monitoring equipment that centrally monitors the elephant area,
Depending on the detection, various disaster prevention detection signals detected in the area
And the various types of data measured in the target area.
Sends process signals in response to instructions from the centralized monitoring device
Wireless communication device that receives the disaster prevention detection signal from the central monitoring device.
The target area sent based on the content of the disaster prevention detection signal
Directs the transmission of a predetermined process signal required for area abnormality analysis
Transmission instruction receiving means for receiving a transmission instruction signal, and the transmission instruction receiving means for receiving the transmission instruction signal
, The specified program specified by the transmission instruction signal is sent.
Transmission instruction response hand that transmits a process signal to the centralized monitoring device
Radio communication apparatus characterized by comprising: a stage, a. 8. The transmission instruction receiving means is configured to detect the disaster prevention.
The disaster prevention detection signal from the central monitoring device that receives the signal
Process signal of a given type, sent according to the type of
Receiving a transmission instruction signal for instructing the transmission, the transmission instruction response means is instructed by the transmission instruction signal.
Sends a predetermined type of process signal to the central monitoring device
The wireless communication device according to claim 7, wherein the wireless communication device comprises: 9. Measured at predetermined time intervals in the target area
Process information memory for storing the processed process signal
The transmission instruction receiving means further comprises a step, and the transmission instruction receiving means receives the disaster prevention detection signal.
Depending on the type of disaster prevention detection signal from the central monitoring device
Transmitted, stored by the process information storage means
To send a process signal within a predetermined time range
The transmission instruction signal is received, and the transmission instruction response means stores in the process information storage means.
Therefore, from the stored processes,
The process signal within the specified time range indicated by the
The data is transmitted to the centralized monitoring device.
The wireless communication device according to. 10. The measurement is performed at predetermined time intervals in the target area.
Process information storage for storing a constant by said process signal
Further comprising means, wherein the transmission instruction receiving means receives the disaster prevention detection signal
Depending on the type of disaster prevention detection signal from the central monitoring device
Transmitted, stored by the process information storage means
A predetermined type and time range of process signals
Receiving a transmission instruction signal for instructing, and the transmission instruction response means stores in the process information storage means.
Therefore, from the stored processes,
Of the specified type and time range indicated by the
Process signal is transmitted to the centralized monitoring device.
The wireless communication device according to claim 7. 11. A disaster prevention device that detects the disaster prevention detection signal.
And / or of a measuring device for measuring the process signal
A functional abnormality is detected, and a functional abnormality detection signal is detected according to the detection.
From the centralized monitoring device that has received the functional abnormality detection signal.
The information transmitted based on the content of the function abnormality detection signal.
Transmission of the predetermined process signal required for analysis of the functional abnormality
Receiving means at the time of abnormal function of receiving the transmission instruction signal
If, receiving the transmission instruction signal by the function abnormality receiving means
When the communication is received, the predetermined program instructed by the transmission instruction signal is sent.
Process signal transmission to the central monitoring device
An answering means, and any one of claims 7 to 10 further comprising:
The wireless communication device according to any one of them. 12. A predetermined wireless communication installed in a target area
From the wireless communication device connected via the network to the target area
Various disaster prevention detection signals detected in
Trust the various professionals measured in the target area.
Receiving a set signal according to a predetermined instruction,
Centralized monitoring device for centralized monitoring , when the disaster prevention detection signal is received from the wireless communication device
Based on the content of the disaster prevention detection signal,
The transmission of a predetermined process signal required for abnormality analysis
Transmission instruction for transmitting a transmission instruction signal to the wireless communication device
Means and the wireless communication device that has received the transmission instruction signal,
Receives the predetermined process signal instructed by the transmission instruction signal
Centralized monitoring apparatus characterized by comprising: a response receiving means, a to. 13. The instructing means outputs the disaster prevention detection signal.
Instruct to send a predetermined type of process signal according to the type
Transmitting a transmission instruction signal to the wireless communication device, and the response receiving means receives the transmission instruction signal.
Predetermined instructed by the transmission instruction signal from the wireless communication device
Claims for receiving different types of process signals
Item 12. The centralized monitoring device according to item 12. 14. The wireless communication device is provided in the target area.
Stores the process signal measured every predetermined time interval
Which includes a process information storage means for storing the process information according to the type of the disaster prevention detection signal.
Predetermined time stored by the process information storage means
To send the process signal in the target range
Transmitting to the wireless communication device, the response receiving means receives the transmission instruction signal,
From the wireless communication device by the process information storage means
Of the stored processes, the transmission instruction signal
It is possible to receive the process signal within the specified time range.
The centralized monitoring device according to claim 12, wherein: 15. The wireless communication device is provided in the target area.
Stores the process signal measured every predetermined time interval
Which includes a process information storage means for storing the process information according to the type of the disaster prevention detection signal.
Predetermined type stored by the process information storage means
And a transmission directing the transmission of a process signal in the time range
An instruction signal is transmitted to the wireless communication device, and the response receiving means receives the transmission instruction signal.
From the wireless communication device by the process information storage means
Of the stored processes, the transmission instruction signal
The process signal of the given type and time range indicated
Centralized monitoring according to claim 12, characterized in that it is received.
apparatus. 16. The disaster prevention detection signal is transmitted from the wireless communication device.
Device for detecting signal and / or said process signal
Detecting a malfunction of a measuring instrument for measuring a response to those said detecting
Then, a function abnormality detection signal is further transmitted to the centralized monitoring device.
And receiving the function abnormality detection signal from the wireless communication device.
In this case, based on the content of the function abnormality detection signal,
Directs the transmission of the predetermined process signals required for analysis of functional abnormalities.
A function for transmitting the transmission instruction signal shown to the wireless communication device
From the abnormality indicating means and the wireless communication device that has received the transmission instruction signal,
Receives the predetermined process signal instructed by the transmission instruction signal
16. A function abnormality response receiving means for performing the function abnormality is further provided.
Centralized monitoring device described in one of the gaps.