阅读说明：本技术 一种消防通信系统 (Fire-fighting communication system ) 是由 徐窑善 胡富华 于 2021-01-29 设计创作，主要内容包括：本申请涉及一种消防通信系统,属于消防通信技术的领域,其包括本地服务器、位于各个楼层内的通信装置和用于采集楼层内部图像信息的图像采集模块,所述本地服务器分别与通信装置和图像采集模块连接,所述本地服务器连接有用于对楼内进行监测的消防模块,所述本地服务器连接有云消防平台。本申请具有提高救援效率的效果。(The utility model relates to a fire control communication system belongs to the field of fire control communication technology, and it includes local server, is located the intraformational communication device of each floor and is used for gathering the image acquisition module of the inside image information of floor, local server is connected with communication device and image acquisition module respectively, local server is connected with and is used for carrying out the fire control module of monitoring in the building, local server is connected with cloud fire control platform. This application has the effect that improves rescue efficiency.)

1. A fire fighting communication system, characterized in that: including local server (1), be located communication device (2) in each floor and be used for gathering the image acquisition module (3) of the inside image information of floor, local server (1) is connected with communication device (2) and image acquisition module (3) respectively, local server (1) is connected with and is used for carrying out fire control module (4) monitored in the building, local server (1) is connected with cloud fire control platform (5).

2. A fire fighting communication system according to claim 1, characterized in that: the communication device (2) comprises a fire intercom device (21) and a fire broadcasting device (22).

3. A fire fighting communication system according to claim 1, characterized in that: the image acquisition module (3) is located indoor monitoring subassembly (31) of indoor public domain and the outdoor monitoring subassembly (32) that the multiunit is located the outer indoor condition that is used for shooting when the conflagration takes place of building including the multiunit, indoor monitoring subassembly (31) are including a plurality of indoor monitors (311) that are located indoor public domain.

4. A fire fighting communication system according to claim 3, characterized in that: the outdoor monitoring assembly comprises a supporting piece (321), an outdoor monitor (322) and a rain-proof cover (323), one end of the supporting piece (321) is fixedly connected with a wall body outside a building body, the outdoor monitor (322) is fixedly arranged on the supporting piece (321), and the rain-proof cover (323) is positioned above the supporting piece (321) and the outdoor monitor (322).

5. A fire fighting communication system according to claim 4, characterized in that: the support piece (321) is a rodless electric cylinder, and a sliding table of the rodless electric cylinder is fixedly connected with the outdoor monitor (322).

6. A fire fighting communication system according to claim 5, characterized in that: the rodless electric cylinder and the outdoor monitor (322) are connected with a standby battery (324) together, the outdoor monitor (322) is connected with a wireless communication module (325), and the outdoor monitor (322) is connected with the local server (1) and the cloud fire-fighting platform (5) through the wireless communication module (325).

7. A fire fighting communication system according to claim 1, characterized in that: the fire-fighting module (4) comprises a detection component (41) for detecting disasters and a fire-fighting component (42) for processing the disasters.

8. A fire fighting communication system according to claim 7, characterized in that: the detection assembly (41) comprises a fire detector (411), an audible and visual alarm (413), a combustible gas sensor (412) and a manual fire alarm (414), and the fire detector (411), the combustible gas sensor (412) and the manual fire alarm (414) are all connected with the audible and visual alarm (413).

9. A fire fighting communication system according to claim 1, characterized in that: the fire fighting module (42) includes a sprinkler, a hydrant, and a fire extinguisher storage tank at each floor for extinguishing a fire.

10. A fire fighting communication system according to claim 1, characterized in that: the local server (1), the image acquisition module (3), the fire-fighting module (4) and the communication device (2) are all connected through fireproof cables.

Technical Field

The application relates to the field of fire communication technology, in particular to a fire communication system.

Background

With economic development and social progress, the number of high-rise buildings is increasing year by year. Along with the rise of the floor, the requirements of corresponding fire-fighting measures are stricter, and the high-rise building often brings huge pressure to the fire-fighting and rescue work. At the moment of an accident, the rapid expansion of emergency rescue work is the key for competing with time and striving for gold rescue time; the system has the advantages that the system has good fire communication guarantee, can know the internal condition of the disaster-stricken floor in real time and timely contact with people in the disaster-stricken floor, plays a key role in smoothly carrying out disaster rescue work, and is a necessary means for ensuring the high-efficiency development of disaster rescue emergency command work.

Aiming at the related technologies, the inventor thinks that the existing high-rise building fire-fighting system lacks a timely and effective communication mode, so that people suffering from disasters are often trapped in high floors and are disconnected with rescue workers, and the rescue efficiency is influenced.

Disclosure of Invention

In order to solve the problem that the existing high-rise building fire fighting system is lack of a timely and effective communication mode to influence rescue efficiency, the fire fighting communication system is provided.

The application provides a fire control communication system adopts following technical scheme:

the utility model provides a fire control communication system, includes local server, is located the intraformational communication device of each floor and is used for gathering the image acquisition module of the inside image information of floor, local server is connected with communication device and image acquisition module respectively, local server is connected with and is used for carrying out the fire control module of monitoring in the building, local server is connected with cloud fire control platform.

Through adopting above-mentioned technical scheme, get in touch with the floor that takes place for the conflagration in real time through the communication device that is located each floor to quick sparse personnel flee, and stranded personnel can also adopt near communication device to get in touch with ground in real time, improve rescue efficiency. Meanwhile, the image acquisition module can acquire images of the affected floors in real time, provide video data for fire departments, and facilitate fire extinguishing guidance and evacuation guidance of affected personnel through video pictures when smaller disasters are faced, so that the effect of improving rescue efficiency is achieved.

Preferably, the communication device comprises a fire intercom device and a fire broadcasting device.

Through adopting above-mentioned technical scheme, through the setting of fire control broadcaster, be convenient for after the conflagration takes place, fire department or security personnel effectively remind and instruct personnel to carry out effective evacuation to the stranded personnel of catching a disaster can acquire the fire intercom and the ground first-aid staff of this floor and gain the contact, provide the guide for the fire control army, improve rescue efficiency.

Preferably, the image acquisition module comprises a plurality of groups of indoor monitoring assemblies located in indoor public areas and a plurality of groups of outdoor monitoring assemblies located outside the building and used for shooting indoor conditions when a fire disaster occurs, and each indoor monitoring assembly comprises a plurality of indoor monitors located in the indoor public areas.

By adopting the technical scheme, the indoor monitoring assembly is matched with the outdoor monitoring assembly to quickly confirm the fire occurrence place, so that correct evacuation guidance is provided for the people suffering from a disaster through the communication device, reference can be provided for the fire rescue personnel, and the rescue efficiency is improved. Meanwhile, images in the building can be continuously provided far away from the building in outdoor monitoring, the building is not easily affected by fire, and the effect of improving rescue efficiency is achieved.

Preferably, the outdoor monitoring assembly comprises a supporting piece, an outdoor monitor and a rain cover, one end of the supporting piece is fixedly connected with a wall body outside the building body, the outdoor monitor is fixedly arranged on the supporting piece, and the rain cover is positioned above the supporting piece and the outdoor monitor.

Through adopting above-mentioned technical scheme, shoot and pass back local server and cloud fire platform in the disaster-stricken circumstances in to the building through outdoor monitor, can provide the reference for the fire rescue personnel, improve rescue efficiency, protect outdoor monitor through the setting of rain-proof cover simultaneously.

Preferably, the support piece is a rodless electric cylinder, and a sliding table of the rodless electric cylinder is fixedly connected with the outdoor monitor.

By adopting the technical scheme, the distance between the outdoor monitor and the building can be adjusted through the rodless cylinder, so that the monitoring picture of the outdoor monitor can be conveniently regulated and controlled; meanwhile, the outdoor monitor can be in a standby state at ordinary times, and after fire occurs on a certain floor, the outdoor monitor on the floor can be started through the local server or the cloud fire-fighting platform.

Preferably, the rodless electric cylinder and the outdoor monitor are connected with a standby battery together, the outdoor monitor is connected with a wireless communication module, and the outdoor monitor is connected with the local server and the cloud fire-fighting platform through the wireless communication module.

By adopting the technical scheme, the outdoor monitor is separated from the constraint of the cable, and can continue to work to collect image information in the disaster-stricken floor for fire fighters under the condition that the indoor cable is damaged, so that the effect of effectively improving the rescue efficiency is achieved.

Preferably, the fire fighting module comprises a detection component for detecting the disaster and a fire fighting component for processing the disaster.

Through adopting above-mentioned technical scheme, can in time detect the conflagration through the fire control subassembly to in time put out a fire to the condition of a fire through the fire control subassembly, protection resident life safety.

Preferably, the detection assembly comprises a fire detector, an audible and visual alarm, a combustible gas sensor and a manual fire alarm, and the fire detector, the combustible gas sensor and the manual fire alarm are all connected with the audible and visual alarm.

Through adopting above-mentioned technical scheme, detect the conflagration in the floor in real time through fire detector, combustible gas sensor to setting up through combustible gas sensor can prevent the emergence of conflagration. When people find a fire, the people manually press the manual fire alarm button when the fire detector does not detect the fire, and then the fire signal is reported, so that the fire treatment efficiency is effectively improved. And can remind personnel in the floor the very first time in the emergence of the fire through audible and visual annunciator, reach the effect of protecting people's life safety.

Preferably, the fire fighting module includes a sprinkler, a hydrant, and a fire extinguisher storage tank for extinguishing a fire on each floor.

Through adopting above-mentioned technical scheme, can effectively put out the ignition point fast through spray set to the personnel in the field of a disaster can deposit the case through fire hydrant and fire extinguisher and put out a fire the ignition point fast, protect self safety.

Preferably, the local server, the image acquisition module, the fire-fighting module and the communication device are all connected through a fireproof cable.

By adopting the technical scheme, the fire-fighting communication system can be effectively ensured to still keep normal operation when a fire disaster occurs by arranging the fire-proof cable, help is provided for fire fighters and disaster stricken personnel, the disaster stricken personnel can be kept in contact with the outside, and the effect of improving the rescue efficiency is achieved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the communication devices on all floors are in real time contact with the floors with fire, people are quickly evacuated to escape, trapped people can also adopt the communication devices nearby to be in real time contact with the ground, and rescue efficiency is improved. Meanwhile, the image acquisition module can acquire images of the affected floors in real time, provide video data for fire departments, and facilitate fire extinguishing guidance and evacuation guidance for affected personnel through video pictures when smaller disasters occur, so that the effect of improving rescue efficiency is achieved;

2. the indoor monitoring system has the advantages that the outdoor monitor shoots disaster conditions in a building and transmits the disaster conditions back to the local server and the cloud fire platform, so that reference can be provided for fire rescue workers, the rescue efficiency is improved, and meanwhile, the outdoor monitor is protected through the arrangement of the rain cover;

3. can in time detect the conflagration through the fire control subassembly to put out a fire in time to the condition of a fire through the fire control subassembly, protect resident life safety.

Drawings

FIG. 1 is a system block diagram of a fire fighting communication system in an embodiment of the present application;

fig. 2 is a schematic cross-sectional view of an outdoor monitoring assembly in an embodiment of the present application.

Description of reference numerals: 1. a local server; 2. a communication device; 21. a fire fighting intercom device; 22. a fire-fighting broadcaster; 3. an image acquisition module; 31. an indoor monitoring assembly; 311. an indoor monitor; 32. an outdoor monitoring assembly; 321. a support member; 322. an outdoor monitor; 323. a rain cover; 324. a backup battery; 325. a wireless communication module; 4. a fire fighting module; 41. a detection component; 411. a fire detector; 412. a combustible gas sensor; 413. an audible and visual alarm; 414. a manual fire alarm; 42. a fire-fighting component; 5. cloud fire platform.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses a fire control communication system. Referring to fig. 1, a fire fighting communication system includes a local server 1, communication devices 2 located in respective floors, and an image collection module 3 for collecting image information of the inside of the floors. The local server 1 is connected with the communication device 2 and the image acquisition module 3 respectively. Local server 1 is connected with and is used for carrying out the fire module 4 and the cloud fire module 4 monitored in the building, and fire module 4 is used for detecting the environment of building to report to the police and put out a fire after the conflagration breaks out. The cloud fire platform 5 is in butt joint with a fire department, and the fire department can know the operation condition of the local server 1 in real time through the cloud fire platform 5. The communication devices 2 on all floors are in real time contact with the floors where the fire breaks out, people can be evacuated quickly to escape, trapped people can also adopt the communication devices 2 nearby to be in real time contact with the ground, and rescue efficiency is improved.

The local server 1, the image acquisition module 3, the fire-fighting module 4 and the communication device 2 are all connected through a fireproof cable. The standard of the fireproof cable refers to the standard E90 or FE180, so that the fire-fighting communication system can still keep normal operation at the initial stage of fire occurrence, help is provided for fire fighters and disaster victims, the disaster victims are helped to keep in contact with the outside, and the effect of improving the rescue efficiency is achieved.

Referring to fig. 1, the communication device 2 includes a fire intercom device 21 and a fire broadcasting device 22. The fire intercom device 21 comprises a plurality of interphones, so that when people in a disaster get into contact with other floors and the ground through the interphones when the people in the disaster hurry and escape from a fire scene and lose communication tools, the communication devices can ask for help from the fire fighters, and guidance is provided for fire fighting troops, so that the rescue efficiency is improved. Through the setting of fire control broadcaster 22, be convenient for after the conflagration takes place, the fire control department or security personnel effectively remind the floor and instruct personnel to carry out effective evacuation.

Referring to fig. 1 and 2, the image capturing module 3 includes a plurality of indoor monitoring units 31 located in an indoor public area and a plurality of outdoor monitoring units 32 located outside a building for photographing indoor conditions when a fire occurs. The indoor monitoring assembly 31 includes a plurality of indoor monitors 311 located in an indoor common area. By adopting the indoor monitoring component 31 and the outdoor monitoring component 32, the fire place can be quickly determined, the communication device 2 is convenient for providing correct evacuation guidance for the people suffering from the fire, meanwhile, reference can be provided for the fire rescue personnel, and the rescue efficiency is improved. The outdoor monitoring assembly comprises a support 321, an outdoor monitor 322 and a rain-proof cover 323, one end of the support 321 is fixedly connected with a wall outside the building body, and the support 321 is a rodless electric cylinder. The sliding table of the rodless electric cylinder is fixedly connected with the outdoor monitor 322, and the sliding table of the rodless electric cylinder is positioned at the bottom of the rodless electric cylinder. Keep away from the building body in the outdoor control and can continuously provide the image in the floor, be difficult for receiving the conflagration influence, can continuously shoot the disaster-stricken circumstances in the building and pass back local server 1 and cloud fire platform 5 in, can provide the reference for the fire rescue personnel, improve rescue efficiency, protect outdoor monitor 322 through the setting of rain-proof cover 323 simultaneously.

Referring to fig. 1 and 2, a backup battery 324 is connected to the rodless electric cylinder and the outdoor monitor 322, a wireless communication module 325 is connected to the outdoor monitor 322, and the outdoor monitor 322 is connected to the local server 1 and the cloud fire platform 5 through the wireless communication module 325. The wireless communication module 325 employs one or more combinations of a 4G network communication module, a 5G communication module, and a WiFi communication module. The wireless communication module 325 enables the outdoor monitor 322 to be separated from the cable, and can continue to work to collect image information in the disaster-stricken floor for the fire fighters when the indoor cable is damaged, thereby achieving the effect of effectively improving the rescue efficiency.

Referring to fig. 1, the fire fighting module 4 includes a detection component 41 for detecting a disaster and a fire fighting component 42 for dealing with the disaster. Can in time detect the conflagration through fire control subassembly 42 to in time put out a fire to the condition of a fire through fire control subassembly 42, protection resident life safety. The detection assembly 41 includes a fire detector 411, an audible and visual alarm 413, a combustible gas sensor 412 and a manual fire alarm 414. The fire detector 411, the combustible gas sensor 412 and the manual fire alarm 414 are all connected with an audible and visual alarm 413. The fire detector 411 and the combustible gas sensor 412 detect a fire in the building in real time, and the combustible gas sensor 412 is provided to prevent the fire from occurring. When people find a fire, when the fire detector 411 does not detect the fire, the people manually press the manual fire alarm button to report a fire signal, and the fire treatment efficiency is effectively improved. And can remind personnel in the floor in the first time of the fire occurrence through audible and visual alarm 413, reach the effect of protection people's life safety.

The fire fighting module 42 includes a sprinkler, a hydrant, and a fire extinguisher storage tank for extinguishing a fire on each floor. Spray set, fire hydrant and fire extinguisher storage box are prior art and need not be repeated here. Can effectively put out the ignition fast through spray set to the personnel in a disaster can put out a fire fast to the ignition through fire hydrant and fire extinguisher storage box, protect self safety.

The implementation principle of the fire-fighting communication system in the embodiment of the application is as follows: the communication devices 2 on all floors are in real time contact with the floors where the fire breaks out, people can be evacuated quickly to escape, trapped people can also adopt the communication devices 2 nearby to be in real time contact with the ground, and rescue efficiency is improved. Meanwhile, the image acquisition module 3 can acquire images of the affected floors in real time, provide video data for fire departments, and facilitate fire extinguishing guidance and evacuation guidance for affected personnel through video pictures when small disasters are faced, so that the effect of improving rescue efficiency is achieved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.