CN106781201A - A kind of brewery's fire-fighting monitor in real time alarm method and system based on Internet of Things - Google Patents

Abstract

The present invention provides a method and system for real-time monitoring and alarming of winery fire protection based on the Internet of Things, which is used to solve the problem of lack of feedback mechanism in existing fire protection technology. The detection information and operation status information sent by the sensor equipment, and make a judgment on the detection information. If it is abnormal, start the fire fighting equipment to deal with the abnormality; the server obtains the detection information and operation status information forwarded by the front-end monitoring processing node, and installs The real-time video information sent by the factory's video monitoring equipment is stored and provided to the client with an address interface for real-time data access; and a second judgment is made on the detection information and a judgment on the operating status information. If the judgment result is abnormal, Send alarm information to the client; in addition, the present invention also provides an Internet of Things system for realizing the method, which can realize the fire monitoring of the winery in a comprehensive, real-time and remote manner.

Description

A method and system for real-time monitoring and alarming of winery fire protection based on Internet of Things

technical field

The invention relates to the application of the Internet of Things technology in the technical field of fire monitoring and alarming, in particular to a method and system for real-time monitoring and alarming of winery fire protection based on the Internet of Things.

Background technique

The winery has always been a key prevention unit for fire safety. During the brewing process, the winery will produce a large amount of flammable and explosive gases such as ethanol, methane, ammonia, sulfur dioxide, etc. These gases are easily Cause explosion and fire. How to effectively monitor the concentration, ambient temperature and flame of these flammable and explosive gases is the main issue of fire safety in wineries. The environment of the winery is complex and there are many danger sources. It is difficult for a single and scattered fire protection equipment to meet the comprehensive, real-time and remote fire protection needs. Facility alarm management and equipment management can maximize the integration of various sensor resources to meet the needs of no dead ends, all-round, high real-time, and remote fire protection.

At present, the application of the Internet of Things in fire protection is mainly in fire alarm.

For example, the patent document with the authorized announcement number CN204204140U discloses a fire monitoring and alarm system based on the Internet of Things, including an information collection device, a data processing device, a terminal receiving device and a monitoring and alarming device. The information collection device includes an infrared temperature sensor , a smoke sensor, the infrared temperature sensor and the smoke sensor are connected to a data processing device through a data line, the data processing device includes a central processing unit and a wireless communication module, the wireless communication module is connected to the central processing unit, and the wireless The terminal receiving device includes a smart phone, a notebook computer and a tablet computer, and the wireless terminal receiving device is equipped with program software compatible with the wireless communication module, and the monitoring alarm device is provided with an alarm and a camera, and the alarm and The cameras are connected in parallel, and the monitoring alarm device is connected with the data processing device through a data line.

The above-mentioned prior art uses smoke sensors and temperature sensors to judge whether a fire has occurred. This method has no feedback mechanism and cannot prevent fires; there is no fire linkage module, which is not conducive to timely fire extinguishing; lack of sensor failure detection and environmental changes have no impact on sensor parameters. Setting mechanism, prone to fire false alarm.

For another example, the patent document whose application publication number is CN104794846A discloses a locomotive vehicle-mounted fire safety management and control intelligent system based on the Internet of Things, including a fire alarm network server and a fire detector that can be communicatively connected to the fire alarm network server through a communication device, Fire video monitoring device, fire alarm device, fire extinguishing device and fire alarm graphical management platform; fire detectors are integrated with smoke detectors, temperature detectors and carbon monoxide sensors; smoke detectors include two smoke emitters that emit different wavelength spectra The temperature detector includes two temperature sensors that respectively detect the constant temperature and the differential temperature; the smoke detector in the locomotive power room adopts a wide temperature type red and blue light dual detection type smoke and dust separation detector. The above-mentioned existing technology jointly judges various fire sensors on the locomotive, and outputs whether the alarm results. This method only alarms the fire, and also lacks a feedback prevention mechanism and a mechanism for setting sensor parameters; the video used is only used for flames. For detection, there is no overall real-time video of the scene, which is not conducive to the control of the fire scene; there is no historical information record and historical video, which is not conducive to post-event cause analysis.

To sum up, at present, there is no relevant application of the Internet of Things for winery fire protection in China. The winery fire protection mainly stays at the stage of using independent fire protection equipment. Various equipment use sound and light alarms alone, the alarm range is small, and equipment management is difficult. It is not possible to grasp the fire data and real-time on-site video in real time and to carry out safety prevention beforehand, which is also not conducive to the cause analysis after the event. Therefore, how to provide a fire protection scheme that is more conducive to the fire management of the existing winery for the comprehensive, real-time and remote fire protection requirements of the winery is a technical problem to be solved by those skilled in the art.

Contents of the invention

In view of the shortcomings of the prior art described above, the object of the present invention is to provide a method and system for real-time monitoring and alarming of winery fire protection based on the Internet of Things, which is used to solve the problem of lack of feedback mechanism in existing fire protection technology, inability to dynamically and real-time grasp fire protection data and Real-time on-site video, lack of prior safety precautions, and single fire-fighting functions.

In order to achieve the above object and other related objects, the present invention provides the following technical solutions:

A method for real-time monitoring and alarming of winery fire protection based on the Internet of Things, comprising: the front-end monitoring processing node pre-receives the detection information and operating status information sent by the bottom sensor equipment installed in the winery, and performs a judgment on the detection information , if the judgment result is abnormal, start the fire-fighting equipment pre-installed in the winery to deal with the abnormality; the server obtains the detection information and operation status information forwarded by the front-end monitoring processing node, as well as the video The real-time video information sent by the monitoring equipment stores the detection information, operation status information and real-time video information, and provides the client with an address interface for accessing the detection information, operation status information and real-time video information; and the server It is also used for performing a secondary judgment on the detection information and a primary judgment on the operation status information, and if the judgment result is abnormal, send an alarm message to the client.

Preferably, the step of forwarding the detection information and operation status information by the front-end monitoring processing node includes: when the result of the first judgment is normal, the front-end monitoring processing node periodically sends the detection information and operation status information; And when the result of the first judgment is abnormal, the front-end monitoring processing node sends the detection information and the running status information in real time.

Preferably, the following step is further included: the server is further configured to switch the alignment of the video surveillance equipment to the Abnormal location, obtain the implementation video information of the abnormal location.

Preferably, the method further includes: the server receives the control information sent by the client, and configures or controls at least one of the underlying sensor equipment, fire fighting equipment and video monitoring equipment according to the control information.

According to another aspect of the present invention, there is also provided an Internet of Things system for realizing the above-mentioned winery fire-fighting real-time monitoring and alarm method, including: bottom-level sensing equipment; video monitoring equipment; fire-fighting equipment; front-end monitoring processing nodes, network connection For the bottom-level sensing device, it is used to receive detection information and operating status information sent by the bottom-level sensing device installed at a specified position in advance; and make a judgment on the detection information, and judge in the first judgment module When the result is abnormal, start the fire-fighting equipment installed at the specified position to deal with the abnormality; the monitoring center system is connected to the front-end monitoring processing node through the network, including: a data analysis server, including at least a second judgment module and an alarm module, the second judging module is used to make a second judgment on the detection information and a judgment on the operating state information in real time, and if the judgment result is abnormal, send an alarm message to the client through the alarm module; The data interface server is used to further obtain the detection information and running status information forwarded by the front-end monitoring processing node, as well as the real-time video information sent by the video monitoring equipment installed in the winery, and provide the client with access to the detection information . An address interface for running status information and real-time video information; a data storage server connected to the data interface server for storing the detection information, running status information and real-time video information.

Preferably, the front-end monitoring processing node is further configured to periodically send the detection information and operation status information when the result of the first judgment is normal; and send the information in real time when the result of the first judgment is abnormal. The above detection information and running status information.

Preferably, the data analysis server is further configured to switch the video surveillance equipment to align with the location of the abnormality when the result of the secondary judgment on the detection information and the primary judgment on the operating state information is abnormal , to obtain real-time video information of the abnormal location.

Preferably, the data interface server is further configured to receive control information sent by the client, and configure or control at least one of the underlying sensor equipment, fire fighting equipment, and video monitoring equipment according to the control information.

Preferably, the sensing device includes one or more of a gas sensor, a smoke sensor, a temperature sensor and a flame sensor.

Preferably, the fire-fighting equipment includes at least one of an audible and visual alarm device, a large-displacement fire-fighting fan and a fire-fighting sprinkler device.

As mentioned above, the present invention has the following beneficial effects:

1) The present invention integrates gas, smoke, temperature and flame sensors, and is integrated into one platform together with the monitoring camera, and realizes linkage, comprehensive information collection and high integration; and the equipment is connected through the network, and the compatibility is good;

2) The present invention dynamically displays monitoring data, equipment status and on-site video in real time, which is beneficial for users to conduct remote fire inspections and find problems early for preprocessing;

3) The present invention starts the fire-fighting linkage equipment in time to carry out on-site processing when an alarm is issued, and the alarm processing is rapid; the alarm message is sent in real time through mobile phone text messages, mobile phone APP application messages and WEB page notifications, and the alarm distance is large; and the alarm information is in addition to text descriptions There is also on-site video image information and comprehensive alarm information;

4) The present invention provides the command setting function of the sensor, monitoring camera and fire linkage device, which is convenient for remote management and control of the equipment;

5) The present invention synchronously saves various status information and real-time video information, and provides a historical record query function, which is beneficial for users to grasp the fire status within a period of time, and facilitates analysis of the cause after an alarm occurs.

Description of drawings

Fig. 1 shows a schematic diagram of an Internet of Things system for real-time monitoring and alarming of winery firefighting provided by the present invention.

FIG. 2 is a schematic diagram of the front-end monitoring processing node in FIG. 1 in an embodiment.

FIG. 3 is a schematic diagram of an embodiment of the data analysis server in FIG. 1 .

Explanation of reference numbers

100 Underlying Sensing Devices

200 fire fighting equipment

300 video surveillance equipment

400 front-end monitoring processing nodes

410 receiving module

420 first judgment module

430 fire linkage control module

440 forwarding module

500 monitoring center system

510 data analysis server

511 The second judgment module

512 alarm module

513 Video Control Module

520 data storage server

530 data interface server

600 clients

detailed description

Embodiments of the present invention are described below through specific examples, and those skilled in the art can easily understand other advantages and effects of the present invention from the content disclosed in this specification. The present invention can also be implemented or applied through other different specific implementation modes, and various modifications or changes can be made to the details in this specification based on different viewpoints and applications without departing from the spirit of the present invention. It should be noted that, in the case of no conflict, the following embodiments and features in the embodiments can be combined with each other.

As shown in Figure 1, this embodiment provides an Internet of Things system for real-time monitoring and alarming of winery firefighting. The monitoring processing node 400 and the monitoring center system 500, the monitoring center system 500 are network-connected to the video monitoring equipment 300 and the front-end monitoring processing node 400 respectively, and the front-end monitoring processing node 400 is respectively connected to the bottom sensor equipment 100 and the fire fighting equipment 200, wherein:

The front-end monitoring and processing node 400 is used to receive in advance the detection information and the operation status information sent by the bottom sensor device 100 installed at the specified position, and make a judgment on the detection information; the first judgment module 420 judges When the result is abnormal, activate the fire-fighting equipment installed at the prescribed position to deal with the abnormality; and

The monitoring center system 500 includes:

The data analysis server 510 includes at least an alarm module 512 and a second judging module 511. The second judging module is used to perform a second judgment on the detection information in real time and a judgment on the operating status information. If the judgment result is abnormal , sending alarm information to the client 600 through the alarm module 512;

The data interface server 530 is used to further obtain the detection information and running status information forwarded by the front-end monitoring processing node 400, as well as the real-time video information sent by the video monitoring equipment installed in the winery, and provide the client with access to the Address interface for detection information, running status information and real-time video information;

The data storage server 520 is connected to the data interface server and is used for storing the detection information, operation status information and real-time video information.

Through the technical solutions provided by the above-mentioned embodiments, the monitoring status in the winery can be judged in advance, so as to start the pre-set fire warning scheme at the first time when the abnormality occurs, so that the abnormality can be processed and effectively controlled in time, and at the same time Send the status information and detection information of the underlying sensor equipment to the monitoring center system 500 for further monitoring, and send an alarm message to the client for remote alarm when an abnormality occurs, wherein the alarm information also carries the information of the site where the abnormality is located. Real-time video information, so that you can remotely understand the abnormal situation of the winery, and at the same time realize the control of various monitoring equipment and fire-fighting equipment in the winery, so as to meet the comprehensive, real-time and remote fire-fighting needs of the winery.

Wherein, the front-end monitoring processing node is a controller, which includes hardware structures such as a processor, a memory, and a communication module. Combined with programming technology, processor-executable instructions that can represent the following functional modules can be written into the memory of the controller : receiving module 410, for receiving in advance detection information and operating status information sent by the bottom sensor device 100 installed at the specified position; first judging module 420, for once judging the detection information; fire linkage control A module 430, configured to start the fire-fighting equipment installed at a specified position to deal with the abnormality when the result of the judgment by the first judging module 420 is abnormal.

It should be understood that other modules in the following front-end monitoring and processing nodes can also be realized by the above-mentioned method; and it is the same in the server, and the computer program can be written into the server through the above-mentioned implementation mode, and the server can execute the computer program. Get the corresponding function.

Wherein, the above-mentioned client terminal and the monitoring center system 500 perform interactive communication through a network, and the specific manner of interactive communication may be wireless communication manners such as 2G, 3G, and 4G.

Wherein, the underlying sensing device is a sensor, which may specifically include a gas sensor, a smoke sensor, a flame sensor, and a temperature sensor. More specifically, the gas sensor may include an ethanol sensor, a methane sensor, an ammonia sensor, a carbon dioxide sensor, and a sulfur dioxide sensor; Among them, various sensors can be installed in the winery in the following ways:

For example, the ethanol sensor is installed near the (30-60) cm distance from the ground in the alcohol storage area of the factory building to obtain the concentration of ethanol gas;

For example, the methane sensor is installed near the place (0.5-2) m above the easily leaking methane release source in the factory building to obtain the methane gas concentration;

For example, the ammonia gas sensor is installed near the place (0.5-2) m above the easily leaking ammonia gas release source in the factory building to obtain the ammonia gas concentration;

For example, the carbon dioxide sensor is installed near the place (30-60) cm above the ground where carbon dioxide is easily leaked in the factory building, and is used to obtain the concentration of carbon dioxide gas;

For example, the sulfur dioxide sensor is installed near the place (30-60) cm above the ground where sulfur dioxide is easily leaked in the factory building, and is used to obtain the concentration of sulfur dioxide gas.

For example, the smoke sensor is installed on the central ceiling of the factory building to obtain the smoke concentration of the factory building.

For example, the flame sensor is installed on the wall, roof or fixed frame, and is generally inclined downward at an angle of 30-45° when installed, and is used to detect whether there is a fire in the factory building.

For example, a temperature sensor is installed on the central ceiling of the factory building to obtain the indoor temperature of the factory building.

In a specific embodiment, the fire fighting equipment may include an audible and visual alarm device, a large displacement fire fighting fan and a fire sprinkler device, wherein the audible and visual alarm device may be a buzzer and an LED light. Specifically, fire-fighting equipment can be installed as follows:

For example, the sound and light alarm device is installed at the safety exit of the factory building;

For example, large-displacement fire-fighting fans are installed through walls around the factory building;

For example, fire sprinklers are installed on the suspended ceiling of the factory building.

Specifically, the fire-fighting equipment can be connected to the fire-fighting linkage control module in the front-end monitoring processing node through a switch circuit, so as to realize the purpose of controlling the fire-fighting equipment through the fire-fighting linkage control module.

Based on the settings of the above-mentioned underlying sensing equipment and fire-fighting equipment, when an abnormality is detected, the front-end monitoring and processing nodes can be linked to start the fire-fighting equipment to deal with the abnormality, provide timely fire-fighting measures, and send relevant detection information and operating status information Upload to the monitoring center system to further notify relevant personnel.

For the upload processing of detection information and running status information, see FIG. 2, it can also be implemented in this way: In a preferred embodiment, the front-end monitoring processing node can also include: a forwarding module 440, which is used to If the result of the judgment is data forwarding, if the result is normal, periodically forward the detection information and operation status information; if the result is abnormal, forward the detection information and operation status information in real time; wherein, the data interface server It is used to receive the forwarded detection information and running status information. This embodiment adopts this information uploading method, which can effectively reduce the load of data transmission, and also ensure the stability of the entire system operation.

On the linkage control fire equipment, it can be implemented as follows:

First of all, one front-end monitoring processing node can control multiple sensors, and the front-end monitoring processing node is connected to the sensor through the RS485/RS232 interface, and the sensors are distinguished by the preset address.

Secondly, the front-end monitoring processing node periodically obtains the detection information and operation status information of the sensor through polling at regular intervals, in which the detection information is mainly the state of the monitored object, such as gas concentration, flame temperature, etc.; The status information may be the status information of the sensor itself, the location information of the sensor, the communication status information between the sensor and the sensor controller, etc., wherein the location information of the sensor may be obtained by means of a preset address.

Then, the front-end monitoring processing node can also judge the acquired detection information, for example, when it is judged that the smoke concentration of the smoke sensor exceeds the set concentration threshold, the temperature in the temperature sensor exceeds the set temperature threshold, or a fire alarm occurs in the flame sensor , the fire linkage control module in the front-end monitoring processing node starts the sound and light alarm device and the fire sprinkler device to carry out the fire extinguishing operation;

For another example, when the concentrations monitored by the ethanol sensor, methane sensor, ammonia sensor, carbon dioxide sensor, and sulfur dioxide sensor exceed the set threshold, the fire linkage control module will activate the sound and light alarm device and the large-displacement fire fan to perform exhaust operation.

In addition, the front-end monitoring processing node also periodically sends the operation status information to the monitoring center system. Specifically, the front-end monitoring processing node and the monitoring center system can be connected through an RJ45 interface for communication.

In a specific embodiment, the above-mentioned video monitoring equipment can be a network high-definition high-speed explosion-proof ball camera with pan-tilt control, such as DS-FB5284 (Hikang), and the camera can be installed on the top of the factory building to obtain real-time video information of the factory building , and is connected to the monitoring center system through the RJ45 network port, and the monitoring center system receives the control instructions sent by the client to realize the manual control of the rotation and focus adjustment of the camera.

Based on the above-mentioned video monitoring equipment, see Fig. 3, the above-mentioned solution can also be further implemented in this way: In a preferred embodiment, the data analysis server also includes: a video control module 513, which is used to perform secondary When it is judged and the result of a judgment on the operation state information is abnormal, switch the video monitoring device to align with the abnormal position, so as to obtain the real-time video information of the abnormal position.

In a specific implementation, switching the video surveillance equipment to align with the abnormal position can be implemented as follows: the position of the camera is preset, and after the camera receives the control command sent by the client through the monitoring center system, it can Switch the camera to this preset position.

In another specific implementation, switching the position where the video surveillance equipment is aligned with the abnormality can also be implemented in this way: the detection information or operating status information received by the monitoring center system includes the position information of the sensor, and when the detection information is received Or when the running status information is abnormal, the camera can be switched to the abnormal location according to the location information.

In the above-mentioned monitoring center system, the running status information sent by the front-end monitoring and processing nodes will be analyzed in real time. When an alarm of this type occurs for the first time at the same location within a period of time, a control command will be sent to the video control module according to the abnormal location information, and the camera will be turned to the preset position to align with the alarm scene; at the same time, the data The analysis server will also send the abnormal information and the corresponding on-site images/videos to the alarm module, and the alarm module will forward the abnormal information and the corresponding on-site images/videos to the client to realize the purpose of alarming.

Specifically, the client here may be an application software running on an electronic device or a WEB page. Specifically, the alarm method can be a mobile phone text message or an application message push, etc., and the content of the alarm information can be at least one of the alarm type, alarm location, alarm time, and alarm scene image. After receiving the alarm information, the user can accurately To understand the police situation, in order to take appropriate measures.

Based on the above client, all detection information, running status information and real-time video information stored in the data storage server can be accessed through the address interface provided by the data interface server. For example, historical query of information can be realized.

Specifically, on the client side, the actual distribution position of each plant sensor and the status information of the corresponding gas sensor, smoke sensor, temperature sensor, and flame sensor, as well as the real-time high-definition video of each camera, can be displayed through the application software or the WEB page; When an alarm occurs, the alarm information box will pop up in time and display the real-time video of the alarm scene; the sensor parameter setting, fire linkage device control and camera control interface are provided on the mobile phone APP application and the WEB page, and the user can adjust according to the environmental changes of the plant and other factors. Set the parameters of the sensor. For example, because the indoor temperature of the factory building changes greatly in winter and summer, it is necessary to set the temperature threshold of the temperature sensor; when a problem is found, the fire linkage device can be manually activated to eliminate fire hazards; users can also Rotate the angle and adjust the focus of the camera, conduct remote fire inspections, and deal with problems as soon as possible; at the same time, it also provides a historical data query interface for sensor monitoring information query and video query, so that users can grasp the fire status and help analyze the cause of accidents, so as to realize Comprehensive monitoring of the winery.

Correspondingly, on the side of the monitoring center system, in a preferred embodiment, the data interface server is also used to receive the control information sent by the client, the control information includes Configuration parameters and control instructions of at least one of the devices are monitored. Receive sensor parameter setting commands, fire linkage device control commands and camera control commands from the client through network calls, and forward them to the sensor control module and video monitoring module respectively, thereby realizing remote control of the monitoring equipment in the winery .

In another embodiment, there is also provided a method for real-time monitoring and alarming of winery fire protection based on the Internet of Things, which includes the following implementation steps:

S1. The front-end monitoring and processing node receives the detection information and operating status information sent by the bottom sensor equipment installed in the winery in advance, and makes a judgment on the detection information. If the judgment result is abnormal, start the pre-installed in the winery The fire-fighting equipment in the winery to deal with the abnormality;

S2, the server obtains the detection information and the operation status information forwarded by the front-end monitoring processing node, and the real-time video information sent by the video monitoring equipment installed in the winery, and stores the detection information, operation status information and real-time video information, And provide the client with an address interface to access the detection information, running status information and real-time video information;

S3, the server is further configured to perform a secondary judgment on the detection information and a primary judgment on the operation status information, and if the judgment result is abnormal, send an alarm message to the client.

In the specific implementation, the client can send and provide the address interface through the monitoring center system to obtain the actual distribution position of each plant sensor and the corresponding status information of the gas sensor, smoke sensor, temperature sensor, and flame sensor, as well as the real-time high-definition video of each camera; When an alarm occurs, the alarm information box will pop up in time and display the real-time video of the alarm scene; the sensor parameter setting, fire linkage device control and camera control interface are provided on the mobile phone APP application and WEB page, and the user can adjust according to the environmental changes of the plant, etc. Factors to set the parameters of the sensor, for example, because the indoor temperature of the factory building varies greatly in winter and summer, it is necessary to set the temperature threshold of the temperature sensor; when a problem is found, the fire linkage device can also be manually activated to eliminate fire hazards; It can rotate the angle and adjust the focus of the camera, carry out remote fire inspections, and deal with problems as soon as possible; at the same time, it also provides a historical data query interface for sensor monitoring information query and video query, so that users can grasp the fire status and help analyze the cause of accidents. Realize the comprehensive monitoring of the winery.

In a preferred embodiment, in step S2, the step of further obtaining the detection information and the running state information forwarded by the front-end monitoring processing node includes: the front-end monitoring processing node performs data forwarding according to the result of the first judgment: if If the result is normal, send the detection information and operation status information periodically; if the result is abnormal, send the detection information and operation status information in real time; the monitoring center system receives and sends the detection information and operation status information .

In a preferred embodiment, when the result of the second judgment on the detection information and the first judgment on the operating state information is abnormal, it also includes: switching the real-time video information to align with the abnormal location location steps.

In a preferred embodiment, the above method may further include: receiving control information sent by the client, the control information including configuration parameters and control instructions for at least one of the underlying sensor equipment, fire fighting equipment and video surveillance equipment .

In summary, the present invention has the following advantages:

1) The present invention integrates gas, smoke, temperature and flame sensors, and is integrated into one platform together with the monitoring camera, and realizes linkage, comprehensive information collection and high integration; and the equipment is connected through the network, and the compatibility is good;

2) The present invention dynamically displays monitoring data, equipment status and on-site video in real time, which is beneficial for users to conduct remote fire inspections and find problems early for preprocessing;

3) The present invention starts the fire-fighting linkage equipment in time to carry out on-site processing when an alarm is issued, and the alarm processing is rapid; the alarm message is sent in real time through mobile phone text messages, mobile phone APP application messages and WEB page notifications, and the alarm distance is large; and the alarm information is in addition to text descriptions There is also on-site video image information and comprehensive alarm information;

4) The present invention provides the command setting function of sensors, monitoring cameras and fire linkage devices, which is convenient for remote management and control of equipment.

5) The present invention synchronously saves various state information and video information, and provides a historical record query function, which is beneficial to the user to grasp the fire state within a period of time, and facilitates analysis of the cause after the alarm occurs.

The above-mentioned embodiments only illustrate the principles and effects of the present invention, but are not intended to limit the present invention. Anyone skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Therefore, all equivalent modifications or changes made by those skilled in the art without departing from the spirit and technical ideas disclosed in the present invention should still be covered by the claims of the present invention.

Claims (10)

1. a kind of brewery's fire-fighting monitor in real time alarm method based on Internet of Things, it is characterised in that including：

The detection information and operation shape that are sent installed in the bottom sensing equipment of brewery are received by front end monitoring treatment node in advance State information, and the detection information is once judged, if the result for judging is exception, startup is pre-installed in the brewery The interior reply abnormal fire-fighting equipment；

Server obtains the detection information and running state information of front end monitoring treatment node forwarding and installed in brewery Video monitoring equipment send real-time video information, the detection information, running state information and real-time video information are given To store, and the address interface for accessing the detection information, running state information and real-time video information is provided to client；

And

The server is additionally operable to carry out the detection information secondary judgement and the running state information is once sentenced It is disconnected, if the result for judging is exception, warning message is sent to client.

2. the brewery's fire-fighting monitor in real time alarm method based on Internet of Things according to claim 1, it is characterised in that described The step of front end monitoring treatment node forwards the detection information and running state information includes：

The result for once judging as it is normal when, the front end monitoring treatment node cycle sends the detection information and fortune Row status information；And

When the result for once judging is as exception, the front end monitoring treatment node sends the detection information and fortune in real time Row status information.

3. the brewery's fire-fighting monitor in real time alarm method based on Internet of Things according to claim 1, it is characterised in that also wrap Include following steps：The server is additionally operable to carrying out the detection information secondary judgement and entering the running state information When the result that row once judges is as exception, switches the video monitoring equipment and be directed at the abnormal position, obtain abnormal institute In the real-time video information of position.

4. the brewery's fire-fighting monitor in real time alarm method based on Internet of Things according to claim 1, it is characterised in that also wrap Include：

The server receives the control information that client sends, and according to the control information to the bottom sensing equipment, At least one in fire-fighting equipment and video monitoring equipment is configured or controlled.

5. a kind of Internet of Things system for realizing any described brewery's fire-fighting monitor in real time alarm methods of the claims 1-4 System, it is characterised in that including：

Bottom sensing equipment；

Video monitoring equipment；

Fire-fighting equipment；

Front end monitoring treatment node, network connection presses what assigned position was installed in the bottom sensing equipment for receiving in advance Detection information and running state information that the bottom sensing equipment sends；And the detection information is once judged, When the result that first judge module judges is as exception, start the reply abnormal fire-fighting installed by assigned position Equipment；

Monitoring center system, network connection processes node in front end monitoring, including：

Data analytics server, at least including the second judge module and alarm module, second judge module is used for right in real time The detection information carries out secondary judgement and the running state information is once judged, if the result for judging is exception, Warning message is sent to client by the alarm module；

Data interface server, the detection information and running status for further obtaining front end monitoring treatment node forwarding The real-time video information that information and the video monitoring equipment installed in brewery send, and provide access institute to client State the address interface of detection information, running state information and real-time video information；

Data storage server, is connected to the data interface server, for the detection information, running state information and Real-time video information is stored.

6. Internet of things system according to claim 5, it is characterised in that the front end monitoring treatment node, is additionally operable to The result for once judging as it is normal when, the cycle sends the detection information and running state information；And it is described once When the result for judging is as exception, the detection information and running state information are sent in real time.

7. Internet of things system according to claim 5, it is characterised in that the data analytics server is additionally operable to institute State detection information carry out it is secondary judge and to result that the running state information is once judged as it is abnormal when, switching is described Video monitoring equipment is directed at the abnormal position, to obtain the real-time video information of abnormal position.

8. Internet of things system according to claim 5, it is characterised in that the data interface server, is additionally operable to receive The control information that client sends, and according to the control information to the bottom sensing equipment, fire-fighting equipment and video monitoring At least one in equipment is configured or controlled.

9. Internet of things system according to claim 5, it is characterised in that the sensing equipment includes gas sensor, cigarette Mist sensor, temperature sensor and one or more therein of flame sensor.

10. Internet of things system according to claim 5, it is characterised in that the fire-fighting equipment include acoustic-optic alarm, At least one in huge discharge fire-fighting fan and fire-fighting spray device.