CN113256929A - Production unit fire control management method and system - Google Patents
Production unit fire control management method and system Download PDFInfo
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- CN113256929A CN113256929A CN202110383723.4A CN202110383723A CN113256929A CN 113256929 A CN113256929 A CN 113256929A CN 202110383723 A CN202110383723 A CN 202110383723A CN 113256929 A CN113256929 A CN 113256929A
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B17/00—Fire alarms; Alarms responsive to explosion
- G08B17/10—Actuation by presence of smoke or gases, e.g. automatic alarm devices for analysing flowing fluid materials by the use of optical means
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- A—HUMAN NECESSITIES
- A62—LIFE-SAVING; FIRE-FIGHTING
- A62C—FIRE-FIGHTING
- A62C37/00—Control of fire-fighting equipment
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B17/00—Fire alarms; Alarms responsive to explosion
- G08B17/06—Electric actuation of the alarm, e.g. using a thermally-operated switch
Abstract
The invention discloses a production unit fire-fighting management method and a system, wherein the method comprises the steps of a production unit fire-fighting management system; the production unit fire-fighting management system comprises a sensor group, an alarm host and a cloud server; the sensor group and the alarm host are both arranged in a production unit; the sensor group is arranged at the inner top of a monitoring area in a production unit; the number of the sensor groups is multiple; a plurality of sensor components are distributed in an array manner; the sensor group comprises a smoke sensor, a sound sensor and a temperature sensor which correspond to each other; the sensor group is in communication connection with the alarm host; the alarm host is in communication connection with the cloud server; the fire-fighting management method for the production units, provided by the invention, can not only monitor whether the fire happens in time, but also generate the information of the level or the severity of the fire, so that fire-fighting troops can quickly specify a reasonable fire-fighting scheme, and the fire-fighting efficiency is improved.
Description
Technical Field
The invention relates to the technical field of fire protection management, in particular to a fire protection management method and system for a production unit.
Background
The fire disaster is one of disasters seriously threatening the survival and development of human beings, and the occurrence of the fire disaster has the characteristics of high frequency and large space-time span; strengthening fire safety management is the first major thing of each production enterprise, and preventing a fire disaster and eliminating potential safety hazards of the fire disaster are particularly important.
At present, fire monitoring in fire management mostly adopts fire alarm equipment such as smoke alarms to monitor each area of a production unit in real time, when the fire alarm equipment detects a fire, a signal is sent to a fire alarm host, and the fire alarm host rapidly reacts to received fire information to inform field personnel and fire-fighting troops to extinguish the fire.
However, the existing fire alarm equipment can only carry out fire alarm and cannot provide fire level or severity information, and a fire department can make a corresponding fire-fighting scheme only after confirming the fire on site, so that the fire-fighting efficiency is reduced.
Disclosure of Invention
The invention mainly aims to provide a production unit fire control management method and system, and aims to solve the problems that the existing fire control alarm equipment can only carry out fire control alarm and cannot provide fire condition grade or severity information, and the fire control and fire extinguishing efficiency is reduced.
The technical scheme provided by the invention is as follows:
a production unit fire control management method comprises a production unit fire control management system; the production unit fire-fighting management system comprises a sensor group, an alarm host and a cloud server; the sensor group and the alarm host are both arranged in a production unit; the sensor group is arranged at the inner top of a monitoring area in a production unit; the number of the sensor groups is multiple; the plurality of sensor groups are distributed in an array manner; the sensor group comprises a smoke sensor, a sound sensor and a temperature sensor which correspond to each other; the sensor group is in communication connection with the alarm host; the alarm host is in communication connection with the cloud server; the production unit fire protection management method comprises the following steps:
acquiring real-time data of a monitoring area of a production unit, acquired by the sensor group, by the alarm host, wherein the real-time data comprises a smoke concentration value acquired by the smoke sensor, a sound intensity value acquired by the sound sensor and a temperature value acquired by the temperature sensor;
marking the sound sensor corresponding to the sound intensity value larger than a preset intensity value as a target sound sensor;
acquiring a smoke concentration value acquired by the smoke sensor corresponding to the target sound sensor, and marking the smoke concentration value as a target concentration value;
acquiring a temperature value acquired by the temperature sensor corresponding to the target sound sensor, and marking the temperature value as a target temperature value;
judging whether the target concentration value is greater than a preset concentration value or not, and judging whether the target temperature value is greater than a preset temperature value or not;
if so, marking a sensor group corresponding to the target sound sensor as a target group;
acquiring the total number of the target groups within a preset time period since the first target group appears;
generating a fire index based on the total number of the target groups;
and sending fire alarm information to the cloud server based on the fire index.
Preferably, the generating a fire index based on the total number of the target groups includes:
obtaining the distance value d between the adjacent sensor groups1;
Calculating the fire index:
wherein Z is1Is the fire index, S1Is the total number of the target group.
Preferably, the generating a fire index based on the total number of the target groups further includes:
judging whether the number of the target groups is more than 1;
if yes, acquiring the quantity S of non-adjacent fire regions formed by the target group2;
Calculating the fire index:
wherein Z is1Is the fire index, S1Is the total number of the target group.
Preferably, each sensor group is provided with a unique sensor number; the alarm host stores distribution information, and the distribution information records the sensor number corresponding to each sensor group and the spatial distribution information of each sensor group; the quantity S of the non-adjacent fire regions formed by the target group is obtained2The method comprises the following steps:
acquiring the sensor number of the target group, and marking the sensor number as a target number;
acquiring the distribution information;
acquiring the number S of non-adjacent acquisition areas formed by the target group based on the target number and the distribution information2。
Preferably, the generating a fire index based on the total number of the target groups further includes:
recording the moment of generating the fire index, and marking the moment as an initial moment;
judging whether the target group is newly added after the starting moment;
if so, generating fire emergency information, wherein the fire emergency information comprises the number of the newly added target groups;
and sending the fire emergency information to the cloud server.
Preferably, the fire-fighting management system of the production unit is also arranged on a management host of a fire-fighting command center, and the management host has a display function; the cloud server is in communication connection with the management host; based on the fire index, send fire alarm information to the cloud server, later still include:
sending the fire alarm information to the management host through the cloud server, wherein the fire alarm information comprises the fire index;
and displaying the fire alarm information through the management host.
Preferably, the number of the fire command centers is multiple; based on the fire index, send fire alarm information to the cloud server, later still include:
the fire control command center which is closest to the fire position corresponding to the fire alarm information is marked as a target command center through the cloud server;
sending the fire alarm information to the management host of the target command center through the cloud server, wherein the fire alarm information comprises the fire index;
and displaying the fire alarm information through the management host.
Preferably, the fire-fighting management system of the production unit further comprises automatic fire-extinguishing equipment in communication connection with the alarm host; the automatic fire extinguishing equipment is arranged in a production unit; based on the fire index, send fire alarm information to the cloud server, later still include:
and starting the automatic fire extinguishing equipment through the alarm host.
Preferably, the fire-fighting management system of the production unit further comprises a display screen in communication connection with the alarm host; the display screen is arranged in a production unit; generating a fire index based on the total number of the target groups, and then:
and displaying the fire index on the display screen.
The invention also provides a fire-fighting management system of the production unit, which is applied to the fire-fighting management method of the production unit; the production unit fire-fighting management system comprises a sensor group, an alarm host and a cloud server; the sensor group and the alarm host are both arranged in a production unit; the sensor group is arranged at the inner top of a monitoring area in a production unit; the number of the sensor groups is multiple; the plurality of sensor groups are distributed in an array manner; the sensor group comprises a smoke sensor, a sound sensor and a temperature sensor which correspond to each other; the sensor group is in communication connection with the alarm host; the alarm host is in communication connection with the cloud server.
Through above-mentioned technical scheme, can realize following beneficial effect:
the fire-fighting management method for the production units, provided by the invention, can monitor whether the fire occurs in time, can also generate the grade or severity information of the fire (namely the fire alarm information in the embodiment), and sends the fire alarm information to the fire-fighting command center, so that fire-fighting troops can quickly specify a reasonable fire-fighting scheme, and the fire-fighting efficiency 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 structures shown in the drawings without creative efforts.
Fig. 1 is a flowchart of a first embodiment of a fire protection management method for a production unit according to the present invention.
Detailed Description
It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
The invention provides a fire protection management method and system for a production unit.
As shown in fig. 1, in a first embodiment of a method for managing fire protection of a production unit according to the present invention, the method for managing fire protection of a production unit includes a system for managing fire protection of a production unit; the production unit fire-fighting management system comprises a sensor group, an alarm host and a cloud server; the sensor group and the alarm host are both arranged in a production unit; the sensor group is arranged at the inner top of a monitoring area in a production unit; the number of the sensor groups is multiple; the plurality of sensor groups are distributed in an array manner; the sensor group comprises a smoke sensor, a sound sensor and a temperature sensor which correspond to each other; the sensor group is in communication connection with the alarm host; the alarm host is in communication connection with the cloud server; the embodiment comprises the following steps:
step S110: the alarm host acquires real-time data of a monitoring area of a production unit acquired through the sensor group, wherein the real-time data comprises a smoke concentration value acquired by the smoke sensor, a sound intensity value acquired by the sound sensor and a temperature value acquired by the temperature sensor.
Specifically, the smoke concentration value, the sound intensity value and the rear temperature value can be used for feeding back whether a fire occurs in the monitoring area.
Step S120: and marking the sound sensor corresponding to the sound intensity value larger than the preset intensity value as a target sound sensor.
The alarm host marks the sound sensor corresponding to the sound intensity value larger than a preset intensity value (such as 70 decibels) as a target sound sensor. Namely, the target sound sensor collects sound signals with the intensity greater than 70 decibels, so that the abnormal condition of the monitoring area covered by the target sound sensor can be determined, but the condition that a fire occurs cannot be directly determined at present, and further judgment is needed.
Step S130: and acquiring the smoke concentration value acquired by the smoke sensor corresponding to the target sound sensor, and marking the smoke concentration value as a target concentration value.
The alarm host acquires a smoke concentration value acquired by a smoke sensor corresponding to the target sound sensor (namely, the smoke sensor located in the same sensor group as the target sound sensor), and marks the smoke concentration value as a target concentration value.
Step S140: and acquiring a temperature value acquired by the temperature sensor corresponding to the target sound sensor, and marking the temperature value as a target temperature value.
And the alarm host acquires the temperature value acquired by the temperature sensor corresponding to the target sound sensor (namely the temperature sensor in the same sensor group with the target sound sensor), and marks the temperature value as a target temperature value.
Step S150: and judging whether the target concentration value is greater than a preset concentration value or not, wherein the target temperature value is greater than a preset temperature value.
The alarm host judges whether the target concentration value is greater than a preset concentration value (for example, 100ppm) or not, and the target temperature value is greater than a preset temperature value (for example, 55 ℃).
Namely, the alarm host judges whether the smoke concentration value and the temperature value of the monitoring area corresponding to the target sound sensor meet the standard of fire.
If yes, go to step S160: and marking the sensor group corresponding to the target sound sensor as a target group.
If yes, the fact that the fire occurs is indicated, and the alarm host marks the sensor group corresponding to the target sound sensor as a target group.
Step S170: and acquiring the total number of the target groups within a preset time period after the first target group appears.
Namely, the alarm host acquires the total number of the target groups within a preset time period (10 seconds) after the first target group appears, and the larger the number is, the larger the area range of the fire appears within a short time is proved to be.
Step S180: generating a fire index based on the total number of the target groups.
Specifically, the alarm host generates a corresponding fire index based on the total number of the target group, so that commanders in the consumption center can visually and quickly know the serious condition of the fire level, and corresponding fire fighting measures can be conveniently taken.
Step S190: and sending fire alarm information to the cloud server based on the fire index.
Specifically, the alarm host generates fire alarm information based on the fire index, and sends the fire alarm information to the cloud server, so that the cloud server sends the fire alarm information to the fire control command center for alarming.
The fire-fighting management method for the production units, provided by the invention, can monitor whether the fire occurs in time, can also generate the grade or severity information of the fire (namely the fire alarm information in the embodiment), and sends the fire alarm information to the fire-fighting command center, so that fire-fighting troops can quickly specify a reasonable fire-fighting scheme, and the fire-fighting efficiency is improved.
In a second embodiment of the fire protection management method for a production unit according to the present invention, based on the first embodiment, step S180 includes the following steps:
step S210: obtaining the distance value d between the adjacent sensor groups1(values are greater than 0 in meters).
Specifically, the alarm host acquires a distance value d between adjacent sensor groups1(in meters), the distance between each adjacent sensor group is consistent because the sensor groups are distributed in an array.
Step S220: calculating the fire index:
wherein Z is1Is the fire index, S1And taking the total number of the target groups as a positive integer greater than 1. The fire index is actually the area of the fire region, and can visually reflect the severity of the fire, for example, S in the embodiment1Is 3, d110 m, the fire index Z1Is 300.
In a third embodiment of the fire protection management method for a production unit according to the present invention, based on the first embodiment, step S180 further includes the following steps:
step S310: and judging whether the number of the target groups is more than 1.
Specifically, the alarm host determines whether the number of the target groups is greater than 1.
If yes, go to step S320: acquiring the quantity S of non-adjacent fire regions formed by the target group2。
If the number of the fire areas is more than 1, the fire areas are determined to exist, the fire areas may be adjacent or not, and therefore the alarm host acquires the number S of the non-adjacent fire areas formed by the target group2(value range is greater than or equal to 0), where the number of non-adjacent fire zones S2The more the fire source, the more serious the fire.
Step S330: calculating the fire index:
wherein Z is1Is the fire index, S1Specifically, the fire index in this embodiment refers to the area of the fire area multiplied by the sum of the number of non-adjacent fire areas and the number of target groups, and can reflect the fire level or severity more accurately, for example, S in this embodiment1Is 3, d1Is 10 m, S2A fire index Z of 31Is 600.
In a fourth embodiment of the fire management method for a production unit according to the present invention, based on the third embodiment, each sensor group is provided with a unique sensor number; the alarm host stores distribution information, and the distribution information records the sensor number corresponding to each sensor group and the spatial distribution information of each sensor group (namely the sensor number of each sensor group and the corresponding distribution position relation); step S320, including the following steps:
step S410: and acquiring the sensor number of the target group, and marking the sensor number as a target number.
And the alarm host acquires the sensor number of the target group and marks the sensor number as a target number.
Step S420: and acquiring the distribution information.
Specifically, the alarm host acquires the distribution information.
Step S430: acquiring the number S of non-adjacent acquisition areas formed by the target group based on the target number and the distribution information2。
Specifically, according to the distribution information and the target number, the number S of non-adjacent acquisition regions formed by the target group can be generated2。
In a fifth embodiment of the fire protection management method for a production unit according to the present invention, based on the first embodiment, step S180, the method further includes the following steps:
step S510: and recording the moment of generating the fire index, and marking the moment as the starting moment.
Step S520: and judging whether the target group is newly added after the starting moment.
And the alarm host judges whether the target group is newly added after the starting moment. And judging the acquired spreading trend by judging whether a new target group exists or not.
If yes, go to step S530: and generating fire emergency information, wherein the fire emergency information comprises the number of the newly added target groups.
If yes, the fire situation is shown to be spread, the form of the fire situation is in an emergency, and therefore the alarm host generates fire situation emergency information which comprises the number of the newly added target groups.
Step S540: and sending the fire emergency information to the cloud server.
In a sixth embodiment of the fire management method for a production unit according to the present invention, based on the first embodiment, the fire management system for a production unit is further disposed in a management host of a fire command center, and the management host has a display function; the cloud server is in communication connection with the management host; step S190, the method further includes the following steps:
step S610: the management host sends the fire alarm information through the cloud server, wherein the fire alarm information comprises the fire index.
Step S620: and displaying the fire alarm information through the management host.
The fire alarm information is displayed through the management host computer, so that workers of the consumption command center can quickly and intuitively know the level or the severity of the fire.
In a seventh embodiment of the fire protection management method for a production unit, based on the sixth embodiment, the number of the fire protection command centers is multiple; step S190, the method further includes the following steps:
step S710: and marking the fire control command center which is closest to the fire position corresponding to the fire alarm information as a target command center through the cloud server.
Step S720: and sending the fire alarm information to the management host of the target command center through the cloud server, wherein the fire alarm information comprises the fire index.
Step S730: and displaying the fire alarm information through the management host.
The effect of this embodiment lies in, will acquire alarm information and send to the consumption command center nearest away from the condition of a fire position to reduce the journey time.
In an eighth embodiment of the fire management method for a production unit according to the present invention, based on the first embodiment, the fire management system for a production unit further includes an automatic fire extinguishing apparatus communicatively connected to the alarm host; the automatic fire extinguishing equipment is arranged in a production unit; step S190, the method further includes the following steps:
step S810: and starting the automatic fire extinguishing equipment through the alarm host.
The automatic fire extinguishing equipment comprises a carbon dioxide spraying device and an automatic water spraying device, and the field fire extinguishing equipment is started to extinguish fire at the first time.
In a ninth embodiment of the fire management method for a production unit according to the present invention, based on the first embodiment, the fire management system for a production unit further includes a display screen and an intelligent terminal (such as a mobile phone) in communication connection with the alarm host; the display screen is arranged in a production unit; step S180, the following steps are also included thereafter:
step S910: and displaying the fire index on the display screen.
Step S920: and sending the fire index to the intelligent terminal, and carrying the intelligent terminal to related managers at any time.
Through this embodiment, can be fast with condition of a fire information routing to production unit's managers, or show in production unit's display screen.
The invention also provides a fire-fighting management system of the production unit, which is applied to the fire-fighting management method of the production unit; the production unit fire-fighting management system comprises a sensor group, an alarm host and a cloud server; the sensor group and the alarm host are both arranged in a production unit; the sensor group is arranged at the inner top of a monitoring area in a production unit; the number of the sensor groups is multiple; the plurality of sensor groups are distributed in an array manner; the sensor group comprises a smoke sensor, a sound sensor and a temperature sensor which correspond to each other; the sensor group is in communication connection with the alarm host; the alarm host is in communication connection with the cloud server.
The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.
Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, wherein the software product is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk), and includes instructions for enabling a terminal (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.
While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.
Claims (10)
1. A production unit fire control management method is characterized by comprising a production unit fire control management system; the production unit fire-fighting management system comprises a sensor group, an alarm host and a cloud server; the sensor group and the alarm host are both arranged in a production unit; the sensor group is arranged at the inner top of a monitoring area in a production unit; the number of the sensor groups is multiple; the plurality of sensor groups are distributed in an array manner; the sensor group comprises a smoke sensor, a sound sensor and a temperature sensor which correspond to each other; the sensor group is in communication connection with the alarm host; the alarm host is in communication connection with the cloud server; the production unit fire protection management method comprises the following steps:
acquiring real-time data of a monitoring area of a production unit, acquired by the sensor group, by the alarm host, wherein the real-time data comprises a smoke concentration value acquired by the smoke sensor, a sound intensity value acquired by the sound sensor and a temperature value acquired by the temperature sensor;
marking the sound sensor corresponding to the sound intensity value larger than a preset intensity value as a target sound sensor;
acquiring a smoke concentration value acquired by the smoke sensor corresponding to the target sound sensor, and marking the smoke concentration value as a target concentration value;
acquiring a temperature value acquired by the temperature sensor corresponding to the target sound sensor, and marking the temperature value as a target temperature value;
judging whether the target concentration value is greater than a preset concentration value or not, and judging whether the target temperature value is greater than a preset temperature value or not;
if so, marking a sensor group corresponding to the target sound sensor as a target group;
acquiring the total number of the target groups within a preset time period since the first target group appears;
generating a fire index based on the total number of the target groups;
and sending fire alarm information to the cloud server based on the fire index.
2. The method of claim 1, wherein generating a fire index based on the total number of target groups comprises:
obtaining the distance value d between the adjacent sensor groups1;
Calculating the fire index:
wherein Z is1Is the fire index, S1Is the total number of the target group.
3. The method of claim 1, wherein generating a fire index based on the total number of target groups further comprises:
judging whether the number of the target groups is more than 1;
if yes, acquiring the quantity S of non-adjacent fire regions formed by the target group2;
Calculating the fire index:
wherein Z is1Is a stand forIndex of fire, S1Is the total number of the target group.
4. A fire management method for production units according to claim 3, wherein each sensor group is provided with a unique sensor number; the alarm host stores distribution information, and the distribution information records the sensor number corresponding to each sensor group and the spatial distribution information of each sensor group; the quantity S of the non-adjacent fire regions formed by the target group is obtained2The method comprises the following steps:
acquiring the sensor number of the target group, and marking the sensor number as a target number;
acquiring the distribution information;
acquiring the number S of non-adjacent acquisition areas formed by the target group based on the target number and the distribution information2。
5. The method of claim 1, wherein generating a fire index based on the total number of target groups further comprises:
recording the moment of generating the fire index, and marking the moment as an initial moment;
judging whether the target group is newly added after the starting moment;
if so, generating fire emergency information, wherein the fire emergency information comprises the number of the newly added target groups;
and sending the fire emergency information to the cloud server.
6. The fire management method for the production units according to claim 1, wherein the fire management system for the production units is further arranged on a management host of a fire command center, and the management host has a display function; the cloud server is in communication connection with the management host; based on the fire index, send fire alarm information to the cloud server, later still include:
sending the fire alarm information to the management host through the cloud server, wherein the fire alarm information comprises the fire index;
and displaying the fire alarm information through the management host.
7. The fire management method for production units according to claim 6, wherein the number of the fire command centers is multiple; based on the fire index, send fire alarm information to the cloud server, later still include:
the fire control command center which is closest to the fire position corresponding to the fire alarm information is marked as a target command center through the cloud server;
sending the fire alarm information to the management host of the target command center through the cloud server, wherein the fire alarm information comprises the fire index;
and displaying the fire alarm information through the management host.
8. The fire management method for the production units according to claim 1, wherein the fire management system for the production units further comprises automatic fire extinguishing equipment in communication connection with the alarm host; the automatic fire extinguishing equipment is arranged in a production unit; based on the fire index, send fire alarm information to the cloud server, later still include:
and starting the automatic fire extinguishing equipment through the alarm host.
9. The fire management method for a production unit according to claim 1, wherein the fire management system for a production unit further comprises a display screen communicatively connected to the alarm host; the display screen is arranged in a production unit; generating a fire index based on the total number of the target groups, and then:
and displaying the fire index on the display screen.
10. A production unit fire management system, which is applied to the production unit fire management method according to any one of claims 1 to 9; the production unit fire-fighting management system comprises a sensor group, an alarm host and a cloud server; the sensor group and the alarm host are both arranged in a production unit; the sensor group is arranged at the inner top of a monitoring area in a production unit; the number of the sensor groups is multiple; the plurality of sensor groups are distributed in an array manner; the sensor group comprises a smoke sensor, a sound sensor and a temperature sensor which correspond to each other; the sensor group is in communication connection with the alarm host; the alarm host is in communication connection with the cloud server.
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| CN113671886A (en) * | 2021-08-25 | 2021-11-19 | 江苏霆善科技有限公司 | Fire safety monitoring method and system based on 5G |
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| CN101427112A (en) * | 2004-06-03 | 2009-05-06 | 霍尼韦尔国际公司 | Acoustic fire sensing system |
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| CN111450450A (en) * | 2020-04-28 | 2020-07-28 | 清华四川能源互联网研究院 | Fire-fighting early warning method and system for energy storage power station |
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| CN113671886A (en) * | 2021-08-25 | 2021-11-19 | 江苏霆善科技有限公司 | Fire safety monitoring method and system based on 5G |
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