CN111105588A - Alarm signal merging processing method and system based on fire alarm system - Google Patents

Abstract

The invention provides an alarm signal merging processing method and system based on a fire alarm system.A monitoring center merges alarm signals of the same networking system, the same type and the same time period into one alarm signal, all alarms related to the merged signal are processed at the same time after the merged signal is processed, the alarm signals do not need to be processed one by one, the alarm signal processing amount of the monitoring center is reduced, and the processing efficiency of the monitoring center is improved.

Description

Alarm signal merging processing method and system based on fire alarm system

Technical Field

The invention relates to the technical field of fire-fighting Internet of things, in particular to a fire alarm system-based alarm signal merging processing method and system.

Background

With the development of the internet of things technology, it is a necessary trend to build smart cities by using the internet of things technology. The fire fighting system is an important component of urban safety and is the important factor of urban Internet of things. In the process of creating the intelligent fire-fighting internet of things, besides the signals of the fire-fighting equipment are collected, how to accurately distinguish and efficiently process the collected fire-fighting equipment alarm signals is the key for determining whether the internet of things system can really play a role. In practical application, the number of alarm signals reported by a networking system is very large, if alarms are processed one by one, a lot of repeated processing is generated, the efficiency is low, and the alarms cannot be processed in time. Therefore, in order to solve the above problems, the present invention provides a method and a system for merging alarm signals based on a fire alarm system, which classify and merge the alarm signals and then perform batch processing, so as to solve the problem that when a large number of alarms occur, the alarms need to be processed repeatedly one by one, and improve the efficiency of manually processing the alarms.

Disclosure of Invention

In view of the above, the present invention provides a method and a system for merging alarm signals based on a fire alarm system, which classify and merge the alarm signals and then perform batch processing, so as to solve the problem that when a large number of alarms occur, the alarms need to be processed repeatedly one by one, and improve the efficiency of manual alarm processing.

The technical scheme of the invention is realized as follows: on one hand, the invention provides an alarm signal merging processing method based on a fire alarm system, which comprises the following steps:

s1, the networking system acquires the fire-fighting host status signals sent by the fire-fighting host, divides the fire-fighting host status signals into a plurality of types of alarm signals according to preset classification rules, processes the alarm signals by the networking system, and sends confirmation signals to the monitoring center after the processing is finished;

s2, if the monitoring center does not receive the confirmation signal within the preset time, the networking system pushes the alarm signal to the monitoring center;

s3, the monitoring center combines the alarm signals of the same networking system, the same time period and the same type into one alarm signal, and the monitoring center processes the combined alarm signal.

Based on the above technical solution, preferably, the confirmation signal includes: confirming the result and remarking information.

On the basis of the above technical solution, preferably, the fire-fighting host status signal includes: fire alarm signal, fault signal, reset signal, supervisory signal, start signal, shielding signal, self-checking signal and delay signal.

Further preferably, the preset classification rule in S1 is:

s101, if the acquired fire-fighting host status signals contain fire alarm signals, judging the fire-fighting host status signals to be class A alarm signals;

s102, if the acquired fire-fighting host status signal contains a fault signal, judging as a B-type alarm signal;

s103, if the shielding signals contained in the acquired fire-fighting host status signals and a preset threshold value are set, and if the number of the shielding signals does not exceed the preset threshold value, judging that a C-type alarm fault occurs; otherwise, the D-type alarm fault is determined.

On the basis of the above technical solution, preferably, S3 specifically includes the following steps:

s201, after receiving the alarm signals, the monitoring center stores the alarm signals of the same networking system, the same time period and the same type in the same queue, and the alarm signals in the same queue are associated with each other;

s202, the monitoring center combines the alarm signals in the same queue into one alarm signal, and after the monitoring center processes the alarm signal, all the alarm signals related to the alarm signal are processed at the same time.

Further preferably, in S202, the monitoring center provides an alarm merging page, where the alarm merging page includes alarm logs, a building plan, a control room video and linkage point location video information, and an additional to-be-merged/merged alarm queue.

It is further preferred that the alarm signals merged in S202 automatically enter the "merged" queue, the next alarm signal in the queue to be merged is automatically alerted, and the details of the alarm signal are loaded and displayed on the merged alarm page for merging.

On the other hand, the invention provides an alarm signal merging processing system based on a fire alarm system, which comprises a networking system, a fire-fighting host and a monitoring center;

the networking system is a detection terminal for detecting a social unit, acquires a fire host state signal of the fire host in real time, divides the fire host state signal into a plurality of types of alarm signals according to preset classification rules through presetting, is processed by the networking system, and sends a confirmation signal to the monitoring center after the processing is finished;

the fire-fighting host acquires the detection signal of the fire-fighting equipment in real time.

The monitoring center receives alarm signals sent by a plurality of networking systems, if the monitoring center does not receive confirmation signals within preset time, the networking systems push the alarm signals to the monitoring center, the monitoring center combines the alarm signals of the same networking system, the same time period and the same type into one alarm signal, and the monitoring center processes the combined alarm signal.

On the basis of the above technical solution, preferably, after the monitoring center processes the combined alarm signals, all the alarm signals associated therewith are processed at the same time.

Compared with the prior art, the alarm signal merging processing method and the alarm signal merging processing system based on the fire alarm system have the following beneficial effects:

(1) the monitoring center combines the alarm signals of the same networking system, the same type and the same time period into one alarm signal, and all the alarms related to the combined signal are processed at the same time after the combined signal is processed, so that the alarm signals do not need to be processed one by one, the alarm signal processing amount of the monitoring center is reduced, and the processing efficiency of the monitoring center is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a flow chart of an alarm signal combination processing method based on a fire alarm system according to the present invention;

fig. 2 is an architecture diagram of an alarm signal combination processing system based on a fire alarm system according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Example 1

As shown in FIG. 1, the alarm signal combination processing method based on the fire alarm system of the present invention comprises the following steps:

s1, the networking system acquires the fire-fighting host status signals sent by the fire-fighting host, divides the fire-fighting host status signals into a plurality of types of alarm signals according to preset classification rules, processes the alarm signals by the networking system, and sends confirmation signals to the monitoring center after the processing is finished;

wherein the acknowledgement signal comprises: confirming the result and remarking information. The fire-fighting host status signal includes: fire alarm signal, fault signal, reset signal, supervisory signal, start signal, shielding signal, self-checking signal and delay signal. The fire alarm signal is an alarm of fire when the fire occurs, such as a smoke detector alarm and a manual button alarm signal; the fault signal is an alarm signal generated when the main and standby power of the fire-fighting main unit is in fault or is shut down; the reset signal is used for resetting the fire-fighting host after the alarm signal is eliminated; monitoring the correspondence of the signal value to the equipment state under the non-fire alarm state, such as an air conditioner shutdown signal, a fire door closing signal, a signal butterfly valve closing signal and the like; the starting signal is used for detecting whether the fire-fighting host is started or not; the shielding signal is used for shielding the fire-fighting facility point location during unit decoration and reconstruction, fire-fighting facility fault maintenance or testing, and the shielding point location signal is not monitored during the shielding period.

Further preferably, the preset classification rule is as follows:

s101, if the acquired fire-fighting host status signals contain fire alarm signals, judging the fire-fighting host status signals to be class A alarm signals;

the class a alarm signal indicates the most severe alarm. The A-type alarm can be pushed in a strong reminding mode at both a PC end and an APP end of the networking system so as to supervise and urge the networking system to process in time.

S102, if the acquired fire-fighting host status signal contains a fault signal, judging as a B-type alarm signal;

the B-type alarm signal represents serious fire-fighting hidden danger, and can be pushed at a PC end and an APP end of the networking system to remind the networking system to process in time.

S103, if the shielding signals contained in the acquired fire-fighting host status signals and a preset threshold value are set, and if the number of the shielding signals does not exceed the preset threshold value, judging that a C-type alarm fault occurs; otherwise, the D-type alarm fault is determined.

Class C and class D alarms represent general and mild degrees of fire hazard. The C-type and D-type alarms are stored at the PC end and the APP end of the networking system and are processed by the networking system.

S2, if the monitoring center does not receive the confirmation signal within the preset time, the networking system pushes the alarm signal to the monitoring center;

s3, the monitoring center combines the alarms of the same networking system, the same time period and the same type into an alarm signal, and the monitoring center processes the combined alarm signal.

Further preferably, S3 specifically includes the following steps:

s201, after receiving the alarm signals, the monitoring center stores the alarm signals of the same networking unit, the same time period and the same type in the same queue, and the alarm signals in the same queue are associated with each other;

s202, the monitoring center combines the alarm signals in the same queue into one alarm signal, and after the monitoring center processes the alarm signal, all the alarm signals related to the alarm signal are processed at the same time.

When merging, the monitoring center provides an alarm merging page, wherein the alarm merging page comprises an alarm log, a building plan, a control room video and linkage point location video information, and an additional alarm queue to be merged/merged. The merged alarm automatically enters a 'merged' queue, the next alarm in the queue to be merged is automatically alerted, and the details of the alarm are loaded on the merge alarm page for display for merging.

The beneficial effect of this embodiment does: the monitoring center combines the alarm signals of the same networking system, the same type and the same time period into one alarm signal, and all the alarms related to the combined signal are processed at the same time after the combined signal is processed, so that the alarm signals do not need to be processed one by one, the alarm signal processing amount of the monitoring center is reduced, and the processing efficiency of the monitoring center is improved.

Example 2

On the basis of embodiment 1, the present embodiment provides an alarm signal merging processing system based on a fire alarm system, as shown in fig. 2, which includes a networking system, a fire-fighting host and a monitoring center.

The networking system is a detection terminal for detecting a social unit, acquires a fire host state signal of the fire host in real time, divides the fire host state signal into a plurality of types of alarm signals according to preset classification rules through presetting, is processed by the networking system, and sends a confirmation signal to the monitoring center after the processing is finished. Wherein, the preset classification rule is as follows:

s101, if the acquired fire-fighting host status signals contain fire alarm signals, judging the fire-fighting host status signals to be class A alarm signals;

the class a alarm signal indicates the most severe alarm. The A-type alarm can be pushed in a strong reminding mode at both a PC end and an APP end of the networking system so as to supervise and urge the networking system to process in time.

S102, if the acquired fire-fighting host status signal contains a fault signal, judging as a B-type alarm signal;

the B-type alarm signal represents serious fire-fighting hidden danger, and can be pushed at a PC end and an APP end of the networking system to remind the networking system to process in time.

S103, if the shielding signals contained in the acquired fire-fighting host status signals and a preset threshold value are set, and if the number of the shielding signals does not exceed the preset threshold value, judging that a C-type alarm fault occurs; otherwise, the D-type alarm fault is determined.

Class C and class D alarms represent general and mild degrees of fire hazard. The C-type and D-type alarms are stored at the PC end and the APP end of the networking system and are processed by the networking system.

The fire-fighting host computer receives the real-time monitoring signal of each fire-fighting equipment, and the fire-fighting host computer itself possesses fire-fighting host computer status signal simultaneously. Wherein, fire control host computer status signal includes: fire alarm signal, fault signal, reset signal, supervisory signal, start signal, shielding signal, self-checking signal and delay signal. The fire alarm signal is an alarm of fire when the fire occurs, such as a smoke detector alarm and a manual button alarm signal; the fault signal is an alarm signal generated when the main and standby power of the fire-fighting main unit is in fault or is shut down; the reset signal is used for resetting the fire-fighting host after the alarm signal is eliminated; monitoring the correspondence of the signal value to the equipment state under the non-fire alarm state, such as an air conditioner shutdown signal, a fire door closing signal, a signal butterfly valve closing signal and the like; the starting signal is used for detecting whether the fire-fighting host is started or not; the shielding signal is used for shielding the fire-fighting facility point location during unit decoration and reconstruction, fire-fighting facility fault maintenance or testing, and the shielding point location signal is not monitored during the shielding period.

Further, if the networking system completes processing the alarm signal within the preset time, the networking system sends confirmation information to the monitoring center. The confirmation information includes: confirming the result and remark information; and if the monitoring center does not receive the confirmation signal within the preset time, the networking system pushes the alarm signal to the monitoring center.

The monitoring center receives the alarm signals sent by the plurality of networking systems, each pushed alarm needs to be checked, and the alarm result is processed and relevant information including confirmation result, confirmation person, contact telephone, remark information and the like is recorded according to the feedback of the unit. The monitoring center receives the same type of alarm in the same time period by the same networking system, and the alarm reason and the alarm confirmation person information are the same under the common condition, so the monitoring center can combine the alarms when processing the alarms. When the monitoring center does not receive the confirmation signal within the preset time, the networking system sends the alarm signal to the monitoring center, the monitoring center combines the alarm signals of the same networking system, the same time period and the same type into one alarm signal, and the monitoring center processes the combined alarm signal. The alarm processing page of the monitoring center is provided with an alarm merging button, and the number of the alarms of the same type of the current unit is displayed on the alarm merging button. Clicking the button jumps to the alarm merge page. The information displayed in the alarm merging page is completely the same as the alarm processing detail page, and comprises information such as an alarm log, a building plan, a control room video, a linkage point location video and the like, and an additional to-be-merged/merged alarm queue. After the alarms are merged, the alarms can be found in a merged queue, and a user can change the merging state or the non-merging state of one alarm at any time. And repeating the steps until all the alarms needing to be combined are combined and associated. After the alarms are combined, no matter the network system or the monitoring center, after any one of the alarms is processed, all the alarms related to the alarm are processed at the same time, and the confirmation results, the confirmers, the contact phones, the remark information and other confirmation information are completely consistent.

The beneficial effect of this embodiment does: the monitoring center combines the alarm signals of the same networking system, the same type and the same time period into one alarm signal, and all the alarms related to the combined signal are processed at the same time after the combined signal is processed, so that the alarm signals do not need to be processed one by one, the alarm signal processing amount of the monitoring center is reduced, and the processing efficiency of the monitoring center is improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. The alarm signal merging processing method based on the fire alarm system is characterized by comprising the following steps: the method comprises the following steps:

s1, the networking system acquires the fire-fighting host status signals sent by the fire-fighting host, divides the fire-fighting host status signals into a plurality of types of alarm signals according to preset classification rules, processes the alarm signals by the networking system, and sends confirmation signals to the monitoring center after the processing is finished;

s2, if the monitoring center does not receive the confirmation signal within the preset time, the networking system pushes the alarm signal to the monitoring center;

s3, the monitoring center combines the alarm signals of the same networking system, the same time period and the same type into one alarm signal, and the monitoring center processes the combined alarm signal.

2. The fire alarm system-based alarm signal combination processing method according to claim 1, wherein: the acknowledgement signal includes: confirming the result and remarking information.

3. The fire alarm system-based alarm signal combination processing method according to claim 1, wherein: the fire-fighting host status signal comprises: fire alarm signal, fault signal, reset signal, supervisory signal, start signal, shielding signal, self-checking signal and delay signal.

4. The fire alarm system-based alarm signal combination processing method according to claim 3, wherein: the preset classification rule in S1 is:

s101, if the acquired fire-fighting host status signals contain fire alarm signals, judging the fire-fighting host status signals to be class A alarm signals;

s102, if the acquired fire-fighting host status signal contains a fault signal, judging as a B-type alarm signal;

s103, if the shielding signals contained in the acquired fire-fighting host status signals and a preset threshold value are set, and if the number of the shielding signals does not exceed the preset threshold value, judging that a C-type alarm fault occurs; otherwise, the D-type alarm fault is determined.

5. The fire alarm system-based alarm signal combination processing method according to claim 1, wherein: the S3 specifically includes the following steps:

s201, after receiving the alarm signals, the monitoring center stores the alarm signals of the same networking system, the same time period and the same type in the same queue, and the alarm signals in the same queue are associated with each other;

s202, the monitoring center combines the alarm signals in the same queue into one alarm signal, and after the monitoring center processes the alarm signal, all the alarm signals related to the alarm signal are processed at the same time.

6. The fire alarm system-based alarm signal combination processing method according to claim 5, wherein: in the S202, the monitoring center provides an alarm merging page, where the alarm merging page includes alarm logs, a building plan, a control room video, a linkage point location video information, and an additional to-be-merged/merged alarm queue.

7. The fire alarm system-based alarm signal combination processing method according to claim 6, wherein: the alarm signals merged in S202 automatically enter the "merged" queue, the next alarm signal in the queue to be merged is automatically alerted, and the details of the alarm signal are loaded and displayed on the merged alarm page for merging.

8. Alarm signal merges processing system based on fire alarm system, and it includes networking system and fire control host computer, its characterized in that: the system also comprises a monitoring center;

the networking system is a detection terminal for detecting a social unit, acquires a fire host state signal of the fire host in real time, divides the fire host state signal into a plurality of types of alarm signals according to a preset classification rule through presetting, is processed by the networking system, and sends a confirmation signal to a monitoring center after the processing is finished;

and the fire-fighting host acquires a detection signal of the fire-fighting equipment in real time.

The monitoring center receives alarm signals sent by a plurality of networking systems, if the monitoring center does not receive confirmation signals within preset time, the networking systems push the alarm signals to the monitoring center, the monitoring center combines the alarm signals of the same networking system, the same time period and the same type into one alarm signal, and the monitoring center processes the combined alarm signal.

9. The fire alarm system-based alarm signal combining processing system according to claim 8, wherein: after the monitoring center processes the combined alarm signals, all the alarm signals related to the monitoring center are processed at the same time.

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