CN111127804B - Fire-fighting fire grading pushing method and system - Google Patents

Abstract

The invention provides a method and a system for graded pushing of fire fighting fire, which realize the centralized dynamic management of fire fighting conditions of social units by fire fighting departments, and make important early warning signals of the social units more prominent, react and process the hidden fire hazards of the units more efficiently and reduce the workload of personnel processing early warning signals of various fire fighting facilities by means of the centralized monitoring and the dynamic graded pushing of fire fighting host signals; the monitoring center combines the alarm signals of the same networking unit, 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.

Description

Fire-fighting fire grading pushing method and system

Technical Field

The invention relates to the field of fire safety, in particular to a fire fighting fire grading pushing method and a fire fighting fire grading pushing system.

Background

In recent years, with the continuous expansion of urban scale, the potential safety hazards are increased day by day, various disaster accidents have the characteristics of high risk and great harm, and the social public safety requirements are multiplied day by day. For social units, the fire hazard is still the greatest concern of one unit, the fire-fighting host of the current unit has many and complicated signals and lacks of signal importance degree distinction, so that the workload of unit personnel for processing signals is large, and the signal processing of serious facilities is delayed. Meanwhile, during unit fire protection detection and equipment maintenance, a large class of early warning signals are generated on the fire protection host, the signal processing capacity of unit personnel is increased, and the early warning precision of the fire protection host is reduced. Therefore, in order to solve the above problems, the present invention provides a method and a system for classified fire fighting and pushing, which can reduce the workload of unit personnel in processing signals and improve the early warning accuracy of a fire fighting host.

Disclosure of Invention

In view of this, the invention provides a method and a system for classified pushing of fire fighting fires, which can reduce the workload of unit personnel in processing signals and improve the early warning accuracy of a fire fighting host.

The technical scheme of the invention is realized as follows: the invention provides a fire-fighting fire classification pushing method, which comprises the following steps:

s1, the signal monitoring cloud platform acquires early warning signals on the fire-fighting host in real time, filters and grades the early warning signals to obtain various early warning signals, and pushes the early warning signals to corresponding social units for processing according to a preset pushing flow;

s2, sending confirmation signals to the monitoring center and the fire department users after the social unit finishes processing;

and S3, if the monitoring center does not receive the confirmation signal of the social unit to the early warning signal within the preset time, the signal monitoring cloud platform sends the early warning signal to the monitoring center, the monitoring center combines and confirms the early warning signal, and the confirmation signal is sent to the fire department user after the completion of the processing.

On the basis of the above technical solution, preferably, the filtering process of the early warning signal by the signal monitoring cloud platform in S1 specifically includes the following steps:

s101, shielding and recording fire-fighting facility points by a fire-fighting host during unit decoration and reconstruction, fire-fighting facility fault maintenance or testing;

and S102, during the point position shielding period, the fire-fighting host does not monitor the shielding point position signal any more.

On the basis of the above technical scheme, preferably, the early warning signal includes: fire alarm signal, fault signal, reset signal, supervisory signal, start signal, shielding signal, self-checking signal and delay signal.

Further preferably, the step of performing the grading processing on the early warning signal by the signal monitoring cloud platform in S1 specifically includes the following steps:

s201, if the acquired early warning signals comprise fire warning signals, judging the early warning signals to be A-class warning signals;

s202, if the acquired early warning signal contains a fault signal, judging as a B-type warning signal;

s203, if the shielding signals contained in the obtained early warning 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 the C-type warning fault occurs; otherwise, the D-type alarm fault is determined.

On the basis of the above technical solution, preferably, the combining processing of the early warning signals by the monitoring center in S3 specifically includes the following steps:

s301, after receiving the alarm signals, the monitoring center stores the alarm signals of the same signal monitoring cloud platform, 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;

s302, 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 S302, 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.

On the other hand, the invention provides a fire fighting fire grading pushing system which comprises a fire fighting host, a signal monitoring cloud platform, fire department users and a monitoring center, wherein the signal monitoring cloud platform comprises an early warning signal grading module, a pushing module and an early warning signal shielding module;

the fire fighting host receives real-time monitoring signals of all fire fighting equipment and sends early warning signals to the signal monitoring cloud platform;

the early warning signal shielding module is used for shielding some equipment, and the shielded equipment does not receive signals sent by the early warning signal shielding module any more by the signal monitoring cloud platform;

the early warning signal grading module is used for grading the early warning signals sent by the fire-fighting host into a plurality of grades according to the severity of the disaster;

the pushing module pushes the information to a corresponding social unit according to a preset pushing rule, the information is processed by the social unit, and after the processing is finished, a confirmation signal is sent to a fire department user and a monitoring center;

the monitoring center and the signal monitoring cloud platform establish a data transmission channel, if the monitoring center receives a confirmation signal sent by a social unit within a preset time, the signal monitoring cloud platform pushes the signal originally pushed to the social unit to the monitoring center, the signal is processed by the monitoring center, and after the processing of the monitoring center is completed, the confirmation signal is sent to a user of a fire department;

the fire department user receives the confirmation signal sent by the social unit and the monitoring center and carries out corresponding fire treatment work aiming at the confirmation signal.

On the basis of the above technical solution, preferably, the monitoring center includes a merging module;

the merging module correlates the early warning signals of the same social unit, the same time period and the same type, and after the monitoring center processes one of the early warning signals, all the correlated early warning signals are processed at the same time.

Compared with the prior art, the method and the system for pushing the fire-fighting fire in a grading manner have the following beneficial effects:

(1) the centralized dynamic management of the fire fighting conditions of the social units by the fire fighting departments is realized, the important early warning signals of the social units are more prominent through the centralized monitoring and the dynamic grading pushing of the fire fighting host signals, the response processing of the fire hazard hidden danger of the units is more efficient, and the workload of personnel for processing various early warning signals of fire fighting facilities is reduced;

(2) the monitoring center combines the alarm signals of the same networking unit, 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 a method for classified fire fighting pushing according to the present invention;

fig. 2 is a frame diagram of a fire-fighting fire graded pushing system according to the 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.

As shown in fig. 1, the method for pushing fire fighting fire in stages of the invention comprises the following steps:

s1, the signal monitoring cloud platform acquires early warning signals on the fire-fighting host in real time, filters and grades the early warning signals to obtain various early warning signals, and pushes the early warning signals to corresponding social units for processing according to a preset pushing flow;

wherein, early warning 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 filtering processing of the early warning signal by the signal monitoring cloud platform specifically comprises the following steps:

s101, shielding and recording fire-fighting facility points by a fire-fighting host during unit decoration and reconstruction, fire-fighting facility fault maintenance or testing;

and S102, during the point position shielding period, the fire-fighting host does not monitor the shielding point position signal any more.

Further preferably, the step of carrying out grading processing on the early warning signal by the signal monitoring cloud platform specifically comprises the following steps:

s201, if the acquired early warning signal comprises a fire warning signal, judging as an A-class warning signal;

s202, if the acquired early warning signal contains a fault signal, judging as a B-type warning signal;

s203, if the shielding signals contained in the obtained early warning 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 the C-type warning fault occurs; otherwise, the D-type alarm fault is determined.

S2, sending confirmation signals to the monitoring center and the fire department users after the social unit finishes processing;

wherein the acknowledgement signal comprises: confirming the result and remarking information. The confirmation result indicates whether the current fire is a real fire alarm.

And S3, if the monitoring center does not receive the confirmation signal of the signal monitoring cloud platform to the early warning signal within the preset time, the early warning signal is sent to the monitoring center, the monitoring center combines and confirms the early warning signal, and the confirmation signal is sent to the fire department user after the processing is finished.

Further preferably, the step of combining the early warning signals by the monitoring center in S3 specifically includes the following steps:

s301, 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;

s302, 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 that alarm are loaded on the merge alarms page for merging.

The beneficial effect of this embodiment does: the centralized dynamic management of the fire fighting conditions of the social units by the fire fighting departments is realized, the important early warning signals of the social units are more prominent through the centralized monitoring and the dynamic grading pushing of the fire fighting host signals, the response processing of the fire hazard hidden danger of the units is more efficient, and the workload of personnel for processing various early warning signals of fire fighting facilities is reduced;

the monitoring center combines the alarm signals of the same networking unit, 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 a fire protection and fire hazard classification pushing system, as shown in fig. 2, which includes a fire protection host, a signal monitoring cloud platform, fire protection department users and a monitoring center.

The fire-fighting host machine receives real-time monitoring signals of all the fire-fighting equipment, and meanwhile, the fire-fighting host machine has fire alarm signals, fault signals, reset signals, supervision signals, starting signals, shielding signals, self-checking signals, delay signals and other fire-fighting host machine state signals. 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.

And the signal monitoring cloud platform receives the real-time monitoring signals of all the fire-fighting hosts, and centrally displays the received signals to realize the real-time monitoring of the state of the unit fire-fighting facilities. Specifically, in this embodiment, the signal monitoring cloud platform includes an early warning signal classification module, a push module, and an early warning signal shielding module.

The early warning signal shielding module is used for shielding some equipment in a specific scene, wherein the shielded equipment does not receive signals sent by the signal monitoring cloud platform any more; the specific scenario may be during a unit renovation, a fire service breakdown or a test. In this embodiment, the shielding of some devices by the early warning signal shielding module is a preliminary filtering process for a signal input to the signal monitoring cloud platform. Therefore, the signal monitoring cloud platform filters the early warning signal, and specifically comprises: the fire-fighting host computer shields the fire-fighting facility point location for record, and during the point location shielding period, the fire-fighting host computer no longer monitors the shielding point location signal. Because the fire-fighting host computer no longer monitors the shielding point location signal, consequently, do not contain the shielding point location signal in the status signal that the fire-fighting host computer sent for signal monitoring cloud platform, tentatively reduced signal processing volume of signal monitoring cloud platform.

After the early warning signal shielding module filters the input signal, in order to further reduce the signal processing amount and improve the early warning precision of the fire-fighting host, in this embodiment, the early warning signal is also subjected to classification processing. The signal monitoring cloud platform performs grading processing on the early warning signals and specifically comprises the following steps:

s201, if the acquired early warning signal comprises a fire warning signal, judging as an A-class warning signal;

s202, if the acquired early warning signal contains a fault signal, judging as a B-type warning signal;

s203, if the shielding signals contained in the obtained early warning 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 the C-type warning fault occurs; otherwise, the D-type alarm fault is determined.

After the early warning signals are subjected to grading processing by the signal monitoring cloud platform, the pushing module pushes the early warning signals subjected to grading processing to the social units according to a preset pushing rule, the social units process the early warning signals, and after the processing is finished, confirmation signals are sent to the signal monitoring cloud platform and the monitoring center.

The monitoring center and the signal monitoring cloud platform establish a data transmission channel, and if the monitoring center receives a confirmation signal sent by a social unit within a preset time, the signal monitoring cloud platform pushes a signal originally pushed to the social unit to the monitoring center, and the signal is processed by the monitoring center. Because the monitoring center monitors the fire in the whole city or a certain area, one signal monitoring cloud platform monitors the fire condition of a social unit, and the signals sent to the monitoring center by the signal monitoring cloud platform are only all the early warning signals after shielding or grading processing, if the early warning signals input to the monitoring center are not preprocessed, the signal quantity received by the monitoring center is greatly increased, and the signal processing of the facility is delayed seriously. Therefore, in order to simplify the throughput of the monitoring center and improve the monitoring accuracy of the monitoring center, in the present embodiment, a merging module is provided in the monitoring center. The merging module merges early warning signals of the same social unit, the same time period and the same type, wherein the merging specifically comprises the following steps:

s301, 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;

s302, 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 fire department user receives the confirmation signal sent by the social unit and the monitoring center and carries out corresponding fire treatment work according to the confirmation signal. Wherein, when the determined result in the confirmation signal indicates that the current alarm signal is a real fire, the fire department user immediately makes the work related to fire elimination.

The beneficial effect of this embodiment does: the fire-fighting state centralized dynamic management of the social units by the fire-fighting department is realized, the important early warning signals of the social units are more prominent through the centralized monitoring and the dynamic grading pushing of the fire-fighting host signals, the response treatment to the fire hazard hidden danger of the units is more efficient, the workload of personnel for treating the early warning signals of various fire-fighting facilities is reduced, the early warning efficiency is improved, and the Wuhan fire prevention and control three-level network with the functions of social unit autonomous management, monitoring center cooperative supervision and accurate fire prevention and control of the fire-fighting department is comprehensively constructed.

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 (4)

1. A fire-fighting fire graded pushing method is characterized in that: the method comprises the following steps:

s1, the signal monitoring cloud platform acquires early warning signals on the fire-fighting host in real time, filters and grades the early warning signals to obtain various early warning signals, and pushes the early warning signals to corresponding social units for processing according to a preset pushing flow;

the early warning signal includes: fire alarm signal, fault signal, reset signal, supervisory signal, start signal, shielding signal, self-checking signal and delay signal;

the step of carrying out grading processing on the early warning signal by the signal monitoring cloud platform in the S1 specifically comprises the following steps:

s201, if the acquired early warning signal comprises a fire warning signal, judging as an A-class warning signal;

s202, if the acquired early warning signal contains a fault signal, judging as a B-type warning signal;

s203, if the shielding signals contained in the obtained early warning 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 the C-type warning fault occurs; otherwise, judging the D-type alarm fault;

s2, sending confirmation signals to the monitoring center and the fire department users after the social unit finishes processing;

s3, if the monitoring center does not receive the confirmation signal of the social unit to the early warning signal within the preset time, the signal monitoring cloud platform sends the early warning signal to the monitoring center, the monitoring center combines and confirms the early warning signal, and the confirmation signal is sent to the fire department user after the completion of the processing;

the step of merging the early warning signals by the monitoring center in the step S3 specifically includes the following steps:

s301, after receiving the alarm signals, the monitoring center stores the alarm signals of the same signal monitoring cloud platform, 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;

s302, 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.

2. A fire fighting fire staging method as recited in claim 1, wherein: the filtering processing of the early warning signal by the signal monitoring cloud platform in the S1 specifically comprises the following steps:

s101, shielding and recording fire-fighting facility points by a fire-fighting host during unit decoration and reconstruction, fire-fighting facility fault maintenance or testing;

and S102, during the point position shielding period, the fire-fighting host does not monitor the shielding point position signal any more.

3. A fire fighting fire staging method as recited in claim 1, wherein: in the step S302, 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.

4. A fire-fighting fire graded pushing system for executing the steps of the fire-fighting fire graded pushing method of any one of claims 1 to 3, which comprises a fire-fighting host, a signal monitoring cloud platform, fire department users and a monitoring center, and is characterized in that: the signal monitoring cloud platform comprises an early warning signal grading module, a pushing module and an early warning signal shielding module;

the fire fighting host receives real-time monitoring signals of all fire fighting equipment and sends early warning signals to the signal monitoring cloud platform;

the early warning signal shielding module is used for shielding some equipment, and the shielded equipment does not receive signals sent by the early warning signal shielding module any more by the signal monitoring cloud platform;

the early warning signal grading module is used for grading the early warning signals sent by the fire-fighting host into a plurality of grades according to the severity of the disaster;

the pushing module pushes the information to a corresponding social unit according to a preset pushing rule, the information is processed by the social unit, and after the processing is finished, a confirmation signal is sent to a fire department user and a monitoring center;

the monitoring center and the signal monitoring cloud platform establish a data transmission channel, if the monitoring center receives a confirmation signal sent by a social unit within a preset time, the signal monitoring cloud platform pushes the signal originally pushed to the social unit to the monitoring center, the monitoring center processes the signal, and after the monitoring center processes the signal, the monitoring center sends the confirmation signal to a user of a fire department;

the monitoring center comprises a merging module;

the merging module correlates the early warning signals of the same social unit, the same time period and the same type, and after the monitoring center processes one of the early warning signals, all the correlated early warning signals are processed at the same time;

and the fire department user receives the confirmation signal sent by the social unit and the monitoring center and carries out corresponding fire treatment work aiming at the confirmation signal.

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