CN114694338A - Intelligent building fire-fighting monitoring system and monitoring method thereof - Google Patents
Intelligent building fire-fighting monitoring system and monitoring method thereof Download PDFInfo
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- CN114694338A CN114694338A CN202011563958.3A CN202011563958A CN114694338A CN 114694338 A CN114694338 A CN 114694338A CN 202011563958 A CN202011563958 A CN 202011563958A CN 114694338 A CN114694338 A CN 114694338A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/18—Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast
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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
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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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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B25/00—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
- G08B25/01—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium
- G08B25/10—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium using wireless transmission systems
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Abstract
The invention belongs to the technical field of building fire protection, in particular to an intelligent building fire protection monitoring system and a monitoring method thereof, aiming at the problem of insufficient intelligence, the invention provides the following scheme, which comprises a building fire protection control center, a building fire protection monitoring unit, a building fire protection execution unit and a building fire protection information transmission unit; the building fire-fighting monitoring unit comprises a smoke sensor, a temperature sensor, a flame sensor and a monitoring camera; the building fire-fighting execution unit comprises a GPS positioning module, a spraying fire-extinguishing module, a fan smoke-discharging module, a whistling alarm module, a voice broadcasting module, an elevator control module, a fireproof door control module and an emergency lighting lamp control module; the building fire-fighting information transmission unit comprises a positioning information receiving module, a fire information generating module and a fire information sending module. The invention can extinguish fire in time, prevent fire from spreading, avoid the situation of delaying fire, has the warning function and guides residents to carry out fire-fighting evacuation.
Description
Technical Field
The invention relates to the technical field of building fire protection, in particular to an intelligent building fire protection monitoring system and a monitoring method thereof.
Background
The building fire-fighting equipment refers to a general name of equipment and facilities for preventing and extinguishing building fires, such as an automatic fire alarm system, an automatic water spraying fire extinguishing system, a fire hydrant system and the like arranged in a building. The fire hazard automatic alarm system, the automatic water spraying fire extinguishing system, the fire hydrant system, the gas fire extinguishing system, the foam fire extinguishing system, the dry powder fire extinguishing system, the smoke prevention and exhaust system, the safety evacuation system and the like are commonly used. The fire-fighting safety protection device is an important facility for ensuring the fire-fighting safety and the personnel evacuation safety of a building, and is an important component of a modern building. Plays an important role in protecting buildings, and effectively protects the life safety of citizens and the safety of national property. The building fire-fighting monitoring system which is complementary with the building fire-fighting equipment needs to find out the fire in time and control the building fire-fighting equipment.
The existing building fire-fighting monitoring system and the monitoring method thereof are not intelligent enough, and all links of building fire-fighting facilities still need to be manually opened when a fire disaster happens, so that the situation of delaying the fire condition can occur; the existing building fire-fighting monitoring system and the monitoring method thereof do not have the warning function, and cannot remind residents to guide the residents to carry out fire-fighting evacuation.
Disclosure of Invention
Based on the technical problems in the background art, the invention provides an intelligent building fire protection monitoring system and a monitoring method thereof.
The invention provides an intelligent building fire-fighting monitoring system which comprises a building fire-fighting control center, a building fire-fighting monitoring unit, a building fire-fighting execution unit and a building fire-fighting information transmission unit, wherein the building fire-fighting monitoring unit is used for monitoring whether a fire occurs or not, the building fire-fighting monitoring unit is connected with the building fire-fighting control center, the building fire-fighting control center is used for controlling the opening and closing of building fire-fighting facilities, the building fire-fighting control center is connected with the building fire-fighting execution unit, the building fire-fighting execution unit is used for executing actions such as fire extinguishing and warning of the fire, the building fire-fighting execution unit is connected with the building fire-fighting information transmission unit, and the building fire-fighting information transmission unit is used for transmitting fire information;
the building fire-fighting monitoring unit comprises a smoke sensor, a temperature sensor, a flame sensor and a monitoring camera, and when any one of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera senses that a fire disaster occurs, the building fire-fighting execution unit immediately starts to work;
the building fire-fighting execution unit comprises a GPS positioning module, a spraying fire-extinguishing module, a fan smoke-discharging module, a whistling alarm module, a voice broadcasting module, an elevator control module, a fireproof door control module and an emergency lighting lamp control module, wherein the spraying fire-extinguishing module, the fan smoke-discharging module and the fireproof door control module are all connected with the GPS positioning module;
the building fire-fighting information transmission unit comprises a positioning information receiving module, a fire information generating module and a fire information sending module, wherein the positioning information receiving module is connected with the fire information generating module, the fire information generating module is connected with the fire information sending module, and the positioning information receiving module is connected with the GPS positioning module.
Preferably, every smoke transducer, temperature sensor, flame sensor and surveillance camera head are a set of, smoke transducer, temperature sensor, flame sensor and surveillance camera head are equipped with the multiunit, the multiunit smoke transducer, temperature sensor, flame sensor and surveillance camera head are installed respectively in the building have the place that the conflagration takes place the possibility.
Preferably, the GPS positioning modules are provided with a plurality of GPS positioning modules, and the plurality of GPS positioning modules are respectively installed with the plurality of groups of smoke sensors, the temperature sensors, the flame sensors and the monitoring cameras.
Preferably, when any one of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera senses that a fire disaster occurs, the GPS positioning module sends location information of the fire disaster to a positioning information receiving module in the building fire protection information transmission unit.
Preferably, when any one of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera senses that a fire disaster occurs, the GPS positioning module transmits fire disaster position information to the building fire control center, and the building fire control center controls the spraying fire extinguishing module, the fan smoke discharging module and the fire door control module to work according to the fire disaster position information.
Preferably, the spraying fire extinguishing module and the fan smoke discharging module enable a spraying fire extinguishing system and a fan smoke discharging system at a fire place to start working for extinguishing fire and discharging smoke, and the fire door control module controls a fire door at the fire place to be closed at the same time to prevent the fire from further spreading.
Preferably, when any one of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera senses that a fire disaster occurs, the building fire control center controls the whistle alarm module, the voice broadcast module, the elevator control module and the emergency lighting lamp control module to work.
Preferably, the whistle alarm module makes the buzzer of the building carry out fire alarm, the voice broadcast module makes the voice horn in the building begin to broadcast the fire and withdraw the attention, remind and guide the resident in the building to withdraw in order, the elevator control module controls the elevator in the building to stop running, the emergency lighting lamp control module controls the emergency lighting lamp of the fire-fighting escape passage to open.
Preferably, a positioning information receiving module in the building fire protection information transmission unit is used for receiving the location information of a fire to be caused by the GPS positioning module, the fire information generating module is used for editing the location information of the fire and the time of the fire in a short message form, and the fire information sending module is used for sending the short message generated by the fire information generating module to an information receiving terminal of a fire department and a resident mobile phone terminal in a building.
An intelligent building fire protection monitoring method is characterized by comprising the following steps:
s1: installing a smoke sensor, a temperature sensor, a flame sensor, a monitoring camera and a GPS positioning module at a place where a fire disaster possibly occurs in a building;
s2: when any one of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera senses that a fire disaster occurs, the GPS positioning module sends the position information of the fire disaster to a positioning information receiving module and a building fire-fighting control center in the building fire-fighting information transmission unit;
s3: the fire information sending module sends the short message generated by the fire information generating module to an information receiving terminal of a fire department and a resident mobile phone terminal in a building;
s4: the building fire control center controls the spraying fire-extinguishing module, the fan smoke-discharging module and the fire door control module to work according to the fire position information;
s5: the building fire control center controls the whistle alarm module, the voice broadcast module, the elevator control module and the emergency lighting lamp control module to work.
The beneficial effects of the invention are as follows:
1. the intelligent building fire-fighting monitoring system and the monitoring method thereof monitor fire through the building fire-fighting monitoring unit, when fire occurs, the building fire-fighting control center controls the spraying fire-fighting module in the building fire-fighting execution unit according to the fire place, the fan smoke-discharging module and the fire door control module work, the spraying fire-fighting system and the fan smoke-discharging system start to work to extinguish fire and discharge smoke, meanwhile, the fire door at the fire place is controlled to be closed, the fire is prevented from further spreading, manual opening of each link of the building fire-fighting facility is not needed, fire is timely extinguished, the fire is prevented from spreading, and the condition of delaying the fire is avoided.
2. According to the intelligent building fire-fighting monitoring system and the monitoring method thereof, when a fire disaster occurs, the building fire-fighting control center controls the whistle alarm module and the voice broadcast module to work, the whistle alarm module enables the buzzer of the building to carry out fire alarm, and the voice broadcast module enables the voice horn in the building to start broadcasting the fire and withdrawing the attention, so that the intelligent building fire-fighting monitoring system has a warning function, can remind residents, and guides the residents to carry out fire-fighting evacuation.
3. According to the intelligent building fire-fighting monitoring system and the monitoring method thereof, when a fire disaster occurs, the building fire-fighting information transmission unit edits the position information of the fire disaster and the time of the fire disaster into a short message form, and then sends the short message to the information receiving terminal of a fire-fighting unit and the mobile phone terminal of residents in the building, so that fire-fighting alarm can be automatically carried out, and residents are further reminded to carry out fire-fighting evacuation.
The parts of the system and method not involved are the same as or can be implemented using existing technology.
Drawings
FIG. 1 is a system diagram of an intelligent building fire monitoring system and a monitoring method thereof according to the present invention;
FIG. 2 is a system diagram of a building fire monitoring unit of the intelligent building fire monitoring system and the monitoring method thereof according to the present invention;
FIG. 3 is a system diagram of a building fire-fighting execution unit of the intelligent building fire-fighting monitoring system and the monitoring method thereof according to the present invention;
fig. 4 is a system diagram of a building fire protection information transmission unit of an intelligent building fire protection monitoring system and a monitoring method thereof 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 drawings in 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.
In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.
Referring to fig. 1-4, an intelligent building fire-fighting monitoring system comprises a building fire-fighting control center, a building fire-fighting monitoring unit, a building fire-fighting execution unit and a building fire-fighting information transmission unit, wherein the building fire-fighting monitoring unit is used for monitoring whether a fire occurs or not, the building fire-fighting monitoring unit is connected with the building fire-fighting control center, the building fire-fighting control center is used for controlling the opening and closing of building fire-fighting facilities, the building fire-fighting control center is connected with the building fire-fighting execution unit, the building fire-fighting execution unit is used for executing actions such as fire extinguishment and warning of the fire, the building fire-fighting execution unit is connected with the building fire-fighting information transmission unit, and the building fire-fighting information transmission unit is used for transmitting fire information;
the building fire-fighting monitoring unit comprises a smoke sensor, a temperature sensor, a flame sensor and a monitoring camera, and when any one of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera senses that a fire disaster occurs, the building fire-fighting execution unit immediately starts to work;
the building fire-fighting execution unit comprises a GPS positioning module, a spraying fire-extinguishing module, a fan smoke-discharging module, a whistling alarm module, a voice broadcasting module, an elevator control module, a fireproof door control module and an emergency lighting lamp control module, wherein the spraying fire-extinguishing module, the fan smoke-discharging module and the fireproof door control module are all connected with the GPS positioning module;
the building fire-fighting information transmission unit comprises a positioning information receiving module, a fire information generating module and a fire information sending module, wherein the positioning information receiving module is connected with the fire information generating module, the fire information generating module is connected with the fire information sending module, and the positioning information receiving module is connected with the GPS positioning module.
In the invention, each smoke sensor, temperature sensor, flame sensor and monitoring camera are in a group, the smoke sensors, the temperature sensors, the flame sensors and the monitoring cameras are provided with a plurality of groups, and the groups of smoke sensors, temperature sensors, flame sensors and monitoring cameras are respectively installed at places with fire hazard possibility in a building.
In the invention, a plurality of GPS positioning modules are arranged, and the plurality of GPS positioning modules are respectively installed with a plurality of groups of smoke sensors, temperature sensors, flame sensors and monitoring cameras.
In the invention, when any one of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera senses that a fire disaster occurs, the GPS positioning module sends the position information of the fire disaster to the positioning information receiving module in the building fire-fighting information transmission unit.
In the invention, when any one of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera senses that a fire disaster occurs, the GPS positioning module transmits fire disaster position information to the building fire control center, and the building fire control center controls the spraying fire extinguishing module, the fan smoke discharging module and the fire door control module to work according to the fire disaster position information.
According to the invention, the spraying fire extinguishing module and the fan smoke discharging module enable the spraying fire extinguishing system and the fan smoke discharging system at the fire place to start working for fire extinguishing and smoke discharging, and the fire door control module simultaneously controls the closing of a fire door at the fire place to prevent the fire from further spreading.
In the invention, when any one of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera senses that a fire disaster occurs, the building fire control center controls the whistle alarm module, the voice broadcast module, the elevator control module and the emergency lighting lamp control module to work.
According to the invention, a buzzer of a building carries out fire alarm by a whistle alarm module, a voice broadcast module enables a voice horn in the building to start broadcasting fire and evacuation cautions, so as to remind and guide residents in the building to evacuate orderly, an elevator control module controls an elevator in the building to stop running, and an emergency lighting lamp control module controls an emergency lighting lamp of a fire escape passage to be turned on.
In the invention, a positioning information receiving module in a building fire-fighting information transmission unit is used for receiving the position information of a place where a fire disaster happens by a GPS positioning module, a fire disaster information generating module is used for editing the position information of the place where the fire disaster happens and the time when the fire disaster happens into a short message form, and a fire disaster information sending module is used for sending the short message generated by the fire disaster information generating module to an information receiving terminal of a fire-fighting unit and a resident mobile phone terminal in a building.
An intelligent building fire protection monitoring method is characterized by comprising the following steps:
s1: installing a smoke sensor, a temperature sensor, a flame sensor, a monitoring camera and a GPS positioning module at a place where a fire disaster possibly occurs in a building;
s2: when any one of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera senses that a fire disaster occurs, the GPS positioning module sends the position information of the fire disaster to a positioning information receiving module and a building fire-fighting control center in the building fire-fighting information transmission unit;
s3: the fire disaster information sending module sends the short message generated by the fire disaster information generating module to an information receiving terminal of a fire fighting unit and a resident mobile phone terminal in a building;
s4: the building fire control center controls the spraying fire-extinguishing module, the fan smoke-discharging module and the fire door control module to work according to the fire position information; the spraying fire extinguishing module and the fan smoke discharging module enable a spraying fire extinguishing system and a fan smoke discharging system at a fire place to start working for fire extinguishing and smoke discharging, and the fire door control module simultaneously controls a fire door at the fire place to be closed so as to prevent the fire from further spreading;
s5: building fire control center control alarm module that whistles, the voice broadcast module, elevator control module and emergency lighting lamp control module work, the alarm module that whistles makes the bee calling organ of building carry out fire alarm, the voice broadcast module makes the interior voice horn of building begin to broadcast the condition of a fire and withdraw the notice, remind and guide the interior resident of building to withdraw in order, elevator control module control interior elevator stop operation, emergency lighting lamp control module control fire escape passage's emergency lighting lamp is opened.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.
Claims (10)
1. An intelligent building fire-fighting monitoring system comprises a building fire-fighting control center, a building fire-fighting monitoring unit, a building fire-fighting execution unit and a building fire-fighting information transmission unit, and is characterized in that the building fire-fighting monitoring unit is used for monitoring whether a fire occurs or not, the building fire-fighting monitoring unit is connected with the building fire-fighting control center, the building fire-fighting control center is used for controlling the opening and closing of building fire-fighting facilities, the building fire-fighting control center is connected with the building fire-fighting execution unit, the building fire-fighting execution unit is used for executing actions such as fire extinguishing and warning of the fire, the building fire-fighting execution unit is connected with the building fire-fighting information transmission unit, and the building fire-fighting information transmission unit is used for transmitting fire information;
the building fire-fighting monitoring unit comprises a smoke sensor, a temperature sensor, a flame sensor and a monitoring camera, and when any one of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera senses that a fire disaster occurs, the building fire-fighting execution unit immediately starts to work;
the building fire-fighting execution unit comprises a GPS positioning module, a spraying fire-extinguishing module, a fan smoke-discharging module, a whistling alarm module, a voice broadcasting module, an elevator control module, a fireproof door control module and an emergency lighting lamp control module, wherein the spraying fire-extinguishing module, the fan smoke-discharging module and the fireproof door control module are all connected with the GPS positioning module;
the building fire-fighting information transmission unit comprises a positioning information receiving module, a fire information generating module and a fire information sending module, wherein the positioning information receiving module is connected with the fire information generating module, the fire information generating module is connected with the fire information sending module, and the positioning information receiving module is connected with the GPS positioning module.
2. An intelligent building fire-fighting monitoring system and a monitoring method thereof according to claim 1, wherein each of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera is a group, a plurality of groups of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera are provided, and the groups of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera are respectively installed at places where fire disasters are likely to occur in the building.
3. An intelligent building fire monitoring system as recited in claim 2, wherein a plurality of GPS positioning modules are provided, and the plurality of GPS positioning modules are respectively mounted with the plurality of groups of smoke sensors, temperature sensors, flame sensors and monitoring cameras.
4. The intelligent building fire protection monitoring system according to claim 3, wherein when any one of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera senses a fire, the GPS positioning module sends location information of the fire to a positioning information receiving module in the building fire protection information transmission unit.
5. The intelligent building fire monitoring system of claim 4, wherein when any one of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera senses a fire, the GPS positioning module transmits fire position information to the building fire control center, and the building fire control center controls the spraying fire extinguishing module, the fan smoke exhausting module and the fire door control module to operate according to the fire position information.
6. The intelligent building fire monitoring system of claim 5, wherein the spraying fire extinguishing module and the fan smoke exhausting module enable the spraying fire extinguishing system and the fan smoke exhausting system at the fire occurrence location to start to perform fire extinguishing and smoke exhausting, and the fire door control module simultaneously controls the fire door at the fire occurrence location to close so as to prevent the fire from further spreading.
7. The intelligent building fire monitoring system of claim 6, wherein when any one of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera senses a fire, the building fire control center controls the whistle alarm module, the voice broadcast module, the elevator control module and the emergency lighting lamp control module to work.
8. The intelligent building fire monitoring system of claim 7, wherein the whistle alarm module enables a buzzer of a building to alarm a fire, the voice broadcast module enables a voice horn in the building to start to broadcast a fire and withdraw cautionary matters to remind and guide residents in the building to withdraw orderly, the elevator control module controls an elevator in the building to stop running, and the emergency lighting lamp control module controls an emergency lighting lamp of a fire escape channel to be turned on.
9. The intelligent building fire monitoring system according to claim 8, wherein a positioning information receiving module in the building fire information transmission unit is configured to receive location information of a location where a fire occurs by the GPS positioning module, the fire information generating module is configured to edit the location information of the fire and a time of the fire in a form of a short message, and the fire information sending module is configured to send the short message generated by the fire information generating module to an information receiving terminal of a fire department and a resident mobile phone terminal in a building.
10. An intelligent building fire-fighting monitoring method is characterized by comprising the following steps:
s1: installing a smoke sensor, a temperature sensor, a flame sensor, a monitoring camera and a GPS positioning module at a place where a fire disaster possibly occurs in a building;
s2: when any one of the smoke sensor, the temperature sensor, the flame sensor and the monitoring camera senses that a fire disaster occurs, the GPS positioning module sends the position information of the fire disaster to a positioning information receiving module and a building fire-fighting control center in the building fire-fighting information transmission unit;
s3: the fire information sending module sends the short message generated by the fire information generating module to an information receiving terminal of a fire department and a resident mobile phone terminal in a building;
s4: the building fire control center controls the spraying fire extinguishing module, the fan smoke discharging module and the fire door control module to work according to the fire position information;
s5: the building fire control center controls the whistle alarm module, the voice broadcast module, the elevator control module and the emergency lighting lamp control module to work.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN117521978A (en) * | 2024-01-04 | 2024-02-06 | 深圳市一广建设工程有限公司 | Intelligent high-rise building fire control monitored control system |
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2020
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN117521978A (en) * | 2024-01-04 | 2024-02-06 | 深圳市一广建设工程有限公司 | Intelligent high-rise building fire control monitored control system |
CN117521978B (en) * | 2024-01-04 | 2024-04-26 | 深圳市一广建设工程有限公司 | Intelligent high-rise building fire control monitored control system |
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Application publication date: 20220701 |