JPH0475020B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a monitoring system, and can be applied to, for example, a fire monitoring system and a gum leakage monitoring system.

[Conventional technology]

For example, in a fire monitoring system, a fire detector is installed in each protected compartment, and when a fire occurs, the fire detector sends an abnormality signal to the central monitoring unit, and based on this, the central monitoring unit issues an alarm. At the same time, disaster prevention means such as sprinklers, halon gas injection devices, fire shutters, hanging walls, etc. are activated to carry out evacuation and fire prevention.

Therefore, the transmission and reception of abnormality signals between the fire detectors and the central monitoring section is carried out via signal cables laid separately for each fire detector, and the communication between the central monitoring section and the disaster prevention means The transmission and reception of drive signals between the disaster prevention means was carried out via signal cables installed separately for each disaster prevention means.

[Problems to be solved by the invention] Therefore, it is necessary to install a large number of cables to construct a monitoring system, and
In practice, the cables were laid in the attic or under the floor, which required a lot of labor and time to construct. Furthermore, for example, if an attempt is made to add more disaster prevention means after the monitoring system has been constructed, a new signal cable must be routed and laid from the central monitoring unit, which poses a problem in that it is not easy to accommodate the addition.

In particular, the larger the building to be monitored, the farther away from the central monitoring unit the protected section will be formed, and this problem becomes a bigger problem.

The present invention has been made in consideration of the above points, and
The present invention aims to provide a monitoring system that can easily construct a system by keeping the amount of installed cables small, and can also easily accommodate changes after the system is constructed.

[Means for solving problems]

In order to solve these problems, the present invention includes a central monitoring panel that includes a program ROM, work RAM, a central processing unit, and an alarm output section, a detector section that detects the occurrence of a disaster, and a system that controls the operation of the detector section. It is equipped with a control unit that controls communication with the central monitoring panel, a plurality of sensing units provided in each protected section, a plurality of disaster prevention measures for taking disaster prevention measures in the event of a disaster, and the central monitoring board and each sensing unit. A common signal line is provided to connect the unit and the disaster prevention means, and the control unit outputs an alarm signal to the central monitoring board in response to a detection signal output from the detector unit that detects a disaster that has occurred in the protected area. In the monitoring panel, by reading the disaster event processing program in the program ROM, the identification number of the sensing unit in the alarm signal is extracted to determine the protected area where the disaster has occurred, and the work RAM is read out.
The correspondence table between protected compartments and disaster prevention measures stored in the unit is read out to determine the disaster prevention measure, and the central processing unit sends a drive control signal to the sensing unit to which the disaster prevention measure is connected via a common signal line. At the same time as the output, an alarm is issued from the alarm output section,
The monitoring system is characterized in that the control section in the sensing unit receives the drive control signal and drives the disaster prevention means.

[Effect]

The sensing unit includes a control section that outputs an identification signal instructing the sensing unit in a transmission signal. Therefore, even if a plurality of sensing units are connected to the central monitoring board through a common signal line, the sensing unit that detects the occurrence of an abnormality can accurately transmit the location of the abnormality to the central monitoring board.

Similarly, the central monitoring board can include an identification signal that identifies the sensing unit in the transmission signal and output it, so even if multiple sensing units are connected to a common signal line, a given sensing unit and its A drive control signal can be correctly output to the disaster prevention means connected to the disaster prevention means, and the operation of the disaster prevention means can be controlled.

These transmissions are performed by digital communication.

As a result, at least one transmission line is required to construct the system, which simplifies the work of constructing the system and allows for the installation of additional sensing units.

〔Example〕

Hereinafter, one embodiment of the present invention will be described in detail with reference to the drawings.

In FIG. 1, 1 indicates the fire monitoring system as a whole, which is made up of a central monitoring panel 2 and a plurality of sensing units 31 to 3N installed in each protected area connected via a common signal line 4. . Each of the sensing units 31 to 3N includes a detector section 51 to 5N that sends out an electric signal according to the state of the monitored object (for example, temperature, amount of smoke), and each detector section 51 to 5N.
It is provided with control units 61 to 6N that determine an abnormality based on the electrical signals from 5N and output an alarm signal to the central monitoring board 2 when an abnormality occurs.

Generally, the sensing units 31 to 3N are not provided with the control sections 61 to 6N, and the electrical signals from the detector sections 51 to 5N are sent directly to the central monitoring board 2. In the example, controller sections 61 to 6N each having a microcomputer configuration are provided so that detailed information can be sent and received to and from the central monitoring board 2 as needed.

In addition, disaster prevention measures 71 to 7 such as halon gas injection devices, sprinklers, fire shutters, hanging walls, etc. are used to limit disasters to a small area when a fire occurs.
N (M≦N) is provided. These disaster prevention means 71 to 7M are connected to a control section of any of the sensing units adjacent to the disaster prevention means 71 to 7M, and are driven and controlled by the control section.

The central monitoring board 2 includes a program ROM 2a, a work RAM 2b, a central processing unit (CPU) 2c,
It is equipped with an alarm output section 2d, and when an alarm signal is received via the signal line 4, a fire outbreak processing program shown in FIG. 2 stored in the ROM 2a is executed.

That is, the CPU 2c of the central monitoring board 2 starts the program in step S1 by receiving the alarm signal, and then starts the program in the next step S2.
Then, the identification number of the sensing unit in the alarm signal is extracted to determine the protected compartment where the fire has occurred. After that, the CPU 2c, in step S3,
The disaster prevention means to be activated is determined based on the correspondence table TAB between protection sections (sensing units) and disaster prevention means as shown in FIG. 3, which is stored in the RAM 2a.

Next, the CPU 2c proceeds to step S4 and outputs a drive control signal via the common signal line 4 to the sensing unit to which the disaster prevention means to be driven is connected. After that, CPU2c steps
At S5, the alarm output unit 4 is activated to issue an alarm;
In step 6, the program is terminated.

Assume that in the fire monitoring system having the above configuration, a fire occurs in the i-th protected compartment.
In this case, the state of the object to be monitored (temperature or amount of smoke emitted) changes, the output electrical signal from the detector section 5i increases accordingly, and the control section 6i sends an alarm signal to the central monitoring board 2 through the signal line 4. Output.

As a result, the central monitoring board 2 executes the disaster processing program, determines the disaster prevention measures 7 (j-1), 7j, and 7 (j+1) corresponding to the i-th protection zone based on the table TAB, and connects the signal line. Sensing units 3(i-1), 3i, 3(i+2) through 4
control units 6(i-1), 6i, 6(i+
2) Sends a drive control signal.

Thus, disaster prevention measures 7 (j+1), 7j, 7
(j+1) is driven, and disaster prevention measures are taken, for example, by sealing the protected compartment and injecting extinguishing agent such as water or halon gas.

Therefore, according to the above-described embodiment, when a fire occurs, an alarm notification operation and a fire prevention measure operation are automatically performed. Therefore, between the central monitoring board 2 and the sensing units 31 to 3N, the central monitoring board 2 and the disaster prevention means 7
Since the common signal cable 4 is used to transmit and receive signals between 1 and 7M, the amount of cables that need to be laid can be reduced, and the system can be constructed simply and easily.

Furthermore, even if you want to add more sensing units or disaster prevention measures after the system has been constructed, there is no need to run new cables from the central monitoring panel 2, and you can connect them from nearby parts of the signal cable 4 or from nearby sensing units. Just pull out the cable and you can easily respond.

In the above-described embodiments, the present invention was applied to a fire monitoring system, but the present invention can be applied to other monitoring systems such as a gas leak monitoring system as necessary.

In addition, although the above embodiment shows one signal line, it can also be applied to a monitoring system including multiple signal lines as long as multiple sensing units are connected to the signal line. can.

〔Effect of the invention〕

As described above, according to the present invention, signals are transmitted and received between the central monitoring panel and each sensing unit, and between the central monitoring panel and the disaster prevention means through a common signal line, so the system can be simplified. Therefore, it is possible to obtain a monitoring system that can be easily constructed and can easily respond to changes after construction.

[Brief explanation of the drawing]

Fig. 1 is a block diagram showing an embodiment of the monitoring system according to the present invention, Fig. 2 is a flowchart showing the processing procedure of the central monitoring board 2 when an abnormality occurs, and Fig. 3 shows the protective compartment and disaster prevention used for the processing. It is a chart showing a correspondence table with means. 2... Central monitoring board, 31-3N... Sensing unit, 4... Signal line, 51-5N... Detector section, 61-6N... Control section, 71-7
M...Disaster prevention measures.

Claims (1)

[Claims] 1. A central monitoring board having a program ROM, a work RAM, a central processing unit, and an alarm output unit; a detector unit for detecting the occurrence of a disaster; It is equipped with a control unit for controlling communications, a plurality of sensing units provided in each protected section, a plurality of disaster prevention means for taking disaster prevention measures against the occurrence of a disaster, and the central monitoring panel, each sensing unit, and the disaster prevention means. and a common signal line connecting the protected area, and the control unit outputs an alarm signal to the central monitoring board based on the detection signal output from the detector unit that detects a disaster that has occurred in the protected area, and in the central monitoring board, By reading the disaster event processing program in the program ROM, the identification number of the sensing unit in the alarm signal is extracted to determine the protection zone where the disaster has occurred, and the work RAM
The correspondence table between protected compartments and disaster prevention measures stored in the unit is read out to determine the disaster prevention measure, and the central processing unit sends a drive control signal to the sensing unit to which the disaster prevention measure is connected via a common signal line. At the same time as the output, an alarm is issued from the alarm output section,
A monitoring system characterized in that a control section in the sensing unit receives the drive control signal and drives the disaster prevention means.