KR100258694B1 - A method to operate cable tunnel management system. - Google Patents

Abstract

PURPOSE: A method for operating a CATMS(cable tunnel management system) is provided to accurately decide the situation of a fire generated in the cable tunnel from auxiliary devices included in a different remote equipment. CONSTITUTION: A central control device managing a cable tunnel is connected to auxiliary devices coupled with fire sensors. In a method for operating a CATMS, it is decided whether a fire relation signal transmitted between the central control device and the auxiliary devices is a fire generation signal or a fire recovery signal. If the signal is the fire generation signal, whether the corresponding auxiliary device and the adjacent auxiliary devices experience the situation of a fire or not. On the other end, the signal is the fire recovery signal, the number of the adjacent auxiliary devices is confirmed. If the number of main warning about the corresponding auxiliary device is two or more, it is regarded that the recovery of a fire about the adjacent auxiliary devices is completed. If the number of main warning about the corresponding auxiliary device is two or less, it is regarded that the recovery of a fire about the corresponding auxiliary device and the adjacent auxiliary devices is completed.

Description

A method to operate cable tunnel management system

The present invention relates to a method for operating a telecommunications management system, and in particular, to operate a telecommunications management system so that a fire can be related to each other even between two auxiliary devices that are close to each other but connected to different remote devices. It is about how to.

Conventionally, fire occurrence detection is not performed in association with each other between auxiliary devices connected to different remote devices. FIG. 1 is a schematic connection diagram of a communication port management system, in which six auxiliary devices are connected to one remote device, and each remote device is connected to the central monitoring and control device 100. Each auxiliary device is connected with a sensor group 130 such as a smoke detection sensor 131, a CO ₂ detection sensor 132, and a temperature detection sensor 133, and all information detected by each sensor is passed through a remote device. It is input to the monitoring control device 100, the central monitoring control device 100 issues a fire occurrence warning or a control command for fire extinguishing according to the content of this information.

In addition, fire detection is made only when two or more fire detection situations occur in one auxiliary device for accurate situation detection. When one sensor detects a fire situation more than two times or smoke is detected by a smoke detection sensor. it is determined that the number of times detected by the sensor to recognize the fire conditions as in the 1st and the CO ₂ sensor CO ₂ detected once by the fire to not less than twice the total. However, between the auxiliary devices belonging to different remote devices, such as the auxiliary device 121 connected to the remote device 1 (111) and the secondary device 122 connected to the remote device 2 (112). No related fire judgments were made. That is, the smoke detection sensor connected to the sixth auxiliary device 121 connected to the remote device 1 111 detects the smoke once, and the CO of the first auxiliary device 122 connected to the remote device 2 112 is detected. _{When the second} detection sensor detects CO ₂ once, it is not judged as a fire situation, and there is a problem in that the communication port management system cannot be operated accurately and efficiently.

Accordingly, an object of the present invention is to provide a method for operating a communication port management system to enable fire determination associated with each other even among auxiliary devices belonging to different remote devices.

In order to achieve the above object, a method of operating a communication system management system according to the present invention is to determine whether a fire-related signal between the auxiliary devices and the central monitoring and control device 100 is a fire occurrence signal or a fire recovery signal. Step 711; If the result of the determination in step 711 is a fire occurrence signal, judging whether the current auxiliary device has been in a previous fire situation and a current fire situation (step 721); As a result of the determination in step 721, if the current auxiliary device was previously in a fire situation and is not currently a fire situation, determining whether a fire situation exists for all auxiliary devices adjacent to the current auxiliary device (step 722); As a result of the determination in step 721, if the current auxiliary device was not previously a fire situation or a current fire situation, determining whether the current auxiliary device was previously a fire situation (step 723); As a result of the determination in step 723, if the current auxiliary device has not been previously in a fire situation, determining whether the current auxiliary device is in a fire situation (step 726); As a result of the determination in step 723, if the current auxiliary device was previously in a fire situation and is not currently in a fire situation, determining whether the previous auxiliary device was previously in a fire situation (step 724); As a result of the determination in step 724, if the auxiliary device adjacent to the current auxiliary device has not been in the prior fire situation, determining whether the adjacent auxiliary device is in the fire situation (step 725); As a result of the determination in step 711, confirming the number of adjacent auxiliary devices in the case of a fire recovery signal (step 712); After performing step 712, determining for the current auxiliary device the number of primary alarms and whether there was a prior fire situation (step 713); As a result of the determination in step 713, if the number of primary alarms of the current auxiliary device is greater than two or if the current auxiliary device has not been in a fire situation previously, treating the adjacent auxiliary devices as having been recovered (step 717); As a result of the determination in step 713, if the number of main alarms of the current auxiliary device is 2 or less, and the current auxiliary device was previously a fire situation, judging whether the number of main alarms and the previous fire situation was related to an adjacent auxiliary device (step 714). ); As a result of the determination in step 714, if the number of main alarms of the adjacent auxiliary device is 2 or less and has been a fire condition before, treating the fire of the current auxiliary device and the adjacent auxiliary device as recovered (step 716); As a result of the determination in step 714, if the number of primary alarms of the adjacent auxiliary device is greater than two or not in a previous fire situation, treating the current auxiliary device as having been recovered (step 715); Determining the state of the auxiliary device in front of the auxiliary device where the smoke has occurred (step 811); After performing step 811, determining whether the auxiliary device in front of the current auxiliary device is the same as the adjacent auxiliary device (step 812); Judging the contents of the control flag obtained as a result of the investigation in step 811 if the auxiliary device in front of the current auxiliary device and the adjacent auxiliary device are the same as the determination result of step 812 (step 814); As a result of the determination in step 812, if the auxiliary device in front of the current auxiliary device and the adjacent auxiliary device are not the same, after the first auxiliary device of the adjacent auxiliary device, the guidance lamp of the second auxiliary device is turned on left / right and crossed In the case of a predetermined point, inquiring a left / right auxiliary device and lighting the light according to the inquiry result (step 813); After performing step 813, determining the contents of the control flag obtained as a result of the investigation in step 811 (step 814); As a result of the determination in step 814, if the value of the control flag is a fire occurrence flag, stopping the fan operation, flashing the induction lamps of the two auxiliary devices, and stopping the fan operation (step 817); After performing step 817, turning on the left side of the auxiliary device induction lamp behind the first auxiliary device and the right side of the auxiliary device induction light in front of the second auxiliary device (step 818); After performing step 818, turning on both left and right auxiliary device guide lights left and right (step 819); As a result of the determination in step 814, if the value of the control flag is a fire recovery flag, turning off the two auxiliary device guidance lights (step 815); And after performing step 815, turning off the front / rear / left / right induction lamps left / right lighting of the two auxiliary devices (step 816).

1 is a schematic connection diagram of a communication port management system;

2 is an overall block diagram relating to deferred data processing of a communication port management system;

3 is a detailed flowchart of a smoke generation process;

4 is a detailed flowchart of a smoke recovery process;

5 is a detailed flowchart of a single auxiliary device fire determination process;

6 is a detailed flowchart of a single auxiliary device operation control process;

7 is a detailed flow chart of the adjacent auxiliary fire determination process;

8 is a detailed flowchart of a process of controlling an operation of an adjacent auxiliary device.

FIG. 2 is a block diagram of the postpone data processing of the communication management system, in which the data regarding the postpone is input from the respective auxiliary devices to the central monitoring controller 100 (step 200), and the central monitoring controller 100. Determining the input smoke data, the operation determination step (step 210) for distinguishing the process of the process of smoke generation and the process of recovery of smoke, the process of generating smoke (300) to perform the process of smoke generation and the recovery of smoke It consists of a smoke recovery process 400 for processing.

3 is a detailed flow chart of the smoke generation process 300, which includes determining whether smoke has occurred in one of a plurality of auxiliary devices connected to one remote device (step 310) and generating smoke for a single auxiliary device. A single auxiliary device smoke generation process 320 for processing and an adjacent auxiliary device smoke generation process 330 for smoke generation processing for adjacent auxiliary devices.

In the smoke generation process 300, it is first determined whether there is an auxiliary device that has detected smoke generation among the plurality of auxiliary devices 130 (step 310).

As a result of the determination in step 310, if no smoke occurs in any of the auxiliary devices, the process proceeds to a single auxiliary device smoke generation process 320, and if smoke is generated, the adjacent auxiliary device smoke generation process 330 Proceed to

In the single auxiliary device smoke generation process 320, first, it is determined whether the current number of smoke occurrences is 2 or more (step 321), and if the number of smoke generations is 2 or more, the single auxiliary device fire determination process (step 324) and the single If the auxiliary device operation control process (step 325) is performed, and the determination in step 321 above indicates that the number of smoke occurrences is not 2 or more, analog forced polling (step 322) is performed, and then smoke exceeding a threshold is generated. In step 323, if a smoke exceeding the threshold occurs, a single auxiliary device fire determination process (step 324) and a single auxiliary device operation control process (step 325) are performed. In addition, if the smoke exceeding the threshold is not generated after performing a single auxiliary device operation control process (step 325) or as a result of the determination in step 323, the smoke generation process 300 is terminated (step 340).

In the adjacent auxiliary device smoke generation process 330, first, in the auxiliary device adjacent to the auxiliary device that is determined to have smoke among the plurality of auxiliary devices connected to one remote device, as a result of the determination in step 310. It is determined whether smoke has occurred (step 331). As a result of the determination in step 331, since no smoke is generated in the adjacent auxiliary device, only one auxiliary device is smoked, and thus, the process proceeds to a single auxiliary device smoke generating process 320. Next, after performing the adjacent auxiliary device fire determination process (step 332) and the adjacent auxiliary device operation control process (step 333), the smoke generation process 300 is terminated (step 340).

4 is a detailed flowchart of the smoke recovery process 400, which determines whether the smoke generated in one of the plurality of auxiliary devices connected to each remote device is recovered (step 410) and the single auxiliary device smoke recovery process. Process (step 420) and the adjacent auxiliary device smoke recovery process (step 430).

As a result of the determination in step 410, if the smoke is not recovered from any of the auxiliary devices, a single auxiliary device smoke recovery process consisting of a single auxiliary device fire determination process (step 324) and a single auxiliary device control process (step 325) is performed. After performing step 420, the smoke recovery process 400 is terminated (step 440). If the smoke is recovered from any of the auxiliary devices as a result of the determination at step 410, the adjacent auxiliary device fire determination process ( After performing the adjacent auxiliary device smoke recovery process 430 consisting of the step 332 and the adjacent auxiliary device operation control process 333, the smoke recovery process 400 is terminated (step 440).

FIG. 5 is a detailed flowchart of a single auxiliary device fire determination process (step 324). First, it is determined whether a fire flag is a fire occurrence flag or a fire recovery flag (step 510), and the fire flag is a fire occurrence flag. And the fire flag is determined to have occurred (step 540), the single auxiliary device fire determination process (step 324) is completed (step 550), and if the fire flag is determined as a fire flag in step 510, the current auxiliary flag is A determination of the number of primary alarms of the device and previous fire conditions is made (step 520). As a result of the determination in step 520, if the number of main alarms of the current auxiliary device is less than or before two, the fire is treated as recovered (step 530), and the single auxiliary device fire determination process (step 324) is terminated. (Step 550).

6 is a detailed flowchart of a single auxiliary device operation control process (step 325). First, the status of other auxiliary devices located in front / back / left / right of the current auxiliary device is checked (step 610), and the control flag obtained as a result is shown. Investigation is made to determine whether it is a fire occurrence flag or a fire recovery flag (step 620). As a result of the determination in step 620, if the control flag is a fire occurrence flag, stopping the operation of the fan (step 650), flashing the guidance lamp of the current auxiliary device (step 660) and current assistance for extinguishing the fire. After the step of flashing the induction lamps located in front of and behind the device (step 670), the single auxiliary device operation control process (step 325) is terminated (step 680).

On the other hand, if the control flag is a fire recovery flag, as a result of the determination in step 620, since the fire situation is terminated, the step of stopping the flashing of the guidance lamp of the current auxiliary device (step 630) and located in front of / behind the current auxiliary device After the step of stopping the induction light is turned on (step 640), the single auxiliary device operation control process (step 325) is terminated (step 680).

7 is a detailed flowchart of the adjacent auxiliary device fire determination process (step 332), first determining whether the smoke flag is a fire occurrence flag or a fire recovery flag (step 332).

As a result of the determination in step 332, if the smoke flag is a fire occurrence flag, it is determined whether the current auxiliary device has been in the previous fire situation and the current fire situation (step 721).

As a result of the determination in step 721, if the current auxiliary device was previously in a fire situation and is not currently in a fire situation, the step (step 722) of determining whether or not the auxiliary device adjacent to the current auxiliary device is in a fire situation is performed. In step 332, the adjacent auxiliary device fire determination process is terminated.

As a result of the determination in step 721, if the current auxiliary device was not previously a fire situation or is currently a fire situation, it is determined whether the current auxiliary device was previously a fire situation (step 723), If not, perform the step (726) to determine if the fire situation for the current auxiliary device, then terminate the adjacent auxiliary device fire determination process (step 332) (step 731), the current auxiliary device previously If it was a fire situation, it is determined whether the adjacent auxiliary device was a fire situation previously (step 724). As a result of the determination in step 724, if the auxiliary device adjacent to the current auxiliary device was previously in a fire situation, the adjacent auxiliary device fire determination process (step 332) is terminated (step 731), and the auxiliary device adjacent to the current auxiliary device is previously If it is not a fire situation, the adjacent auxiliary device is judged whether it is a fire situation (step 725), and the adjacent auxiliary device fire determination process (step 332) is terminated (step 731).

As a result of the determination in step 711, if the smoke flag is a fire recovery flag, first, the number of adjacent auxiliary devices is checked (step 712), and the number of main alarms for the current auxiliary device and whether it has been a fire situation before (step 713) ).

As a result of the determination in step 713, if the number of primary alarms of the current auxiliary device is greater than two or if the current auxiliary device has not been in a previous fire situation, the fire is recovered for the adjacent auxiliary devices (step 717). The aid fire determination process (step 332) is terminated (step 731).

As a result of the determination in step 713, if the number of main alarms of the current auxiliary device is less than two, and the current auxiliary device was previously a fire situation, it is determined whether the number of main alarms and the previous fire situation was related to an adjacent auxiliary device (step 714). .

As a result of the determination in step 714, if the number of main alarms of the adjacent auxiliary device is 2 or less, and in the case of a previous fire situation, the fire of the current auxiliary device and the adjacent auxiliary device is treated as recovered (step 716). The fire determination process (step 332) is terminated (step 731).

As a result of the determination in step 714, if the number of primary alarms in the adjacent assistive device is greater than 2 or it was not previously a fire situation, after treating the current assistive device as having been recovered (step 715), the adjacent assistive device fire The determination process (step 332) is terminated (step 731).

8 is a detailed flowchart of the operation of the operation of the adjacent auxiliary device (step 333). First, the state of the auxiliary device in front of the auxiliary device where the smoke is generated is determined (step 811), and it is determined whether the adjacent auxiliary device is the same as the adjacent auxiliary device. (Step 812).

If the result of the determination in step 812 is that the auxiliary device in front of the auxiliary device in which the smoke has occurred is the same, the content of the control flag obtained as a result of the investigation in step 811 is determined (step 814). After the first auxiliary device of the device, the front guidance light of the second auxiliary device lights up left / right, and in the case of the intersection point, the left / right auxiliary device is inquired and turned on according to the inquiry result (step 813). The contents of the control flag obtained as a result of the investigation in 811 are determined (step 814).

As a result of the determination in step 814, if the value of the control flag is a fire occurrence flag, the operation of the fan is stopped, the guide lights of the two auxiliary devices are blinked, and the fan operation is stopped (step 817). The adjacent auxiliary device is operated after performing the step of turning on the left side of the device guide light and the right side of the auxiliary device induction light in front of the second auxiliary device (step 818) and the step of turning on the left and right side of the two auxiliary device induction lamps left and right (step 819). The control process (step 333) is terminated (step 820).

If the result of the determination in step 814 is a recovery flag, the step of turning off the two auxiliary induction lamps (step 815) and the turning off the front / rear / left / right induction lamps left and right of the two auxiliary devices (step 816). After that, the operation of controlling the operation of the adjacent auxiliary device (step 333) is terminated (step 820).

As described above, according to the present invention, a communication port management system may be operated so that auxiliary devices belonging to different remote devices but adjacent to each other may be related to a fire occurrence determination or a fire recovery determination. Therefore, there is an effect that can accurately determine the fire situation occurring in the communication port.

Claims (1)

When the central monitoring control device 100 connected to a plurality of auxiliary devices connected to sensors capable of detecting a fire manages a communication port, a fire-related signal exchanged between the auxiliary devices and the central monitoring control device 100 is fired. Determining whether it is a generated signal or a fire recovery signal (step 711); If the result of the determination in step 711 is a fire occurrence signal, judging whether the current auxiliary device has been in a previous fire situation and a current fire situation (step 721); As a result of the determination in step 721, if the current auxiliary device was previously in a fire situation and is not currently a fire situation, determining whether a fire situation exists for all auxiliary devices adjacent to the current auxiliary device (step 722); As a result of the determination in step 721, if the current auxiliary device was not previously a fire situation or a current fire situation, determining whether the current auxiliary device was previously a fire situation (step 723); As a result of the determination in step 723, if the current auxiliary device has not been previously in a fire situation, determining whether the current auxiliary device is in a fire situation (step 726); As a result of the determination in step 723, if the current auxiliary device was previously in a fire situation and is not currently in a fire situation, determining whether the previous auxiliary device was previously in a fire situation (step 724); As a result of the determination in step 724, if the auxiliary device adjacent to the current auxiliary device has not been in the prior fire situation, determining whether the adjacent auxiliary device is in the fire situation (step 725); As a result of the determination in step 711, confirming the number of adjacent auxiliary devices in the case of a fire recovery signal (step 712); After performing step 712, determining for the current auxiliary device the number of primary alarms and whether there was a prior fire situation (step 713); As a result of the determination in step 713, if the number of primary alarms of the current auxiliary device is greater than two or if the current auxiliary device has not been in a fire situation previously, treating the adjacent auxiliary devices as having been recovered (step 717); As a result of the determination in step 713, if the number of main alarms of the current auxiliary device is 2 or less, and the current auxiliary device was previously a fire situation, judging whether the number of main alarms and the previous fire situation was related to an adjacent auxiliary device (step 714). ); As a result of the determination in step 714, if the number of main alarms of the adjacent auxiliary device is 2 or less and has been a fire condition before, treating the fire of the current auxiliary device and the adjacent auxiliary device as recovered (step 716); As a result of the determination in step 714, if the number of primary alarms of the adjacent auxiliary device is greater than two or not in a previous fire situation, treating the current auxiliary device as having been recovered (step 715); Determining a state of an auxiliary device located in front of the auxiliary device in which smoke has occurred (step 811); After performing step 811, determining whether the auxiliary device in front of the current auxiliary device is the same as the adjacent auxiliary device (step 812); Judging the contents of the control flag obtained as a result of the investigation in step 811 if the auxiliary device in front of the current auxiliary device and the adjacent auxiliary device are the same as the determination result of step 812 (step 814); As a result of the determination in step 812, if the auxiliary device in front of the current auxiliary device and the adjacent auxiliary device are not the same, after the first auxiliary device of the adjacent auxiliary device, the guidance lamp of the second auxiliary device is turned on left / right and crossed In the case of a predetermined point, inquiring a left / right auxiliary device and lighting the light according to the inquiry result (step 813); After performing step 813, determining the contents of the control flag obtained as a result of the investigation in step 811 (step 814); As a result of the determination in step 814, if the value of the control flag is a fire occurrence flag, stopping the fan operation, flashing the induction lamps of the two auxiliary devices, and stopping the fan operation (step 817); After performing step 817, turning on the left side of the auxiliary device induction lamp behind the first auxiliary device and the right side of the auxiliary device induction light in front of the second auxiliary device (step 818); After performing step 818, turning on both left and right auxiliary device guide lights left and right (step 819); As a result of the determination in step 814, if the value of the control flag is a fire recovery flag, turning off the two auxiliary device guidance lights (step 815); And After performing step 815, turning off the lighting of the front / rear / left / right induction lights of the two auxiliary devices (step 816).

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