CN109495545A - A kind of fire water pressure remote monitoring system and its management method - Google Patents

Abstract

The present invention discloses a kind of fire water pressure remote monitoring system, including wireless hydraulic pressure branch node, Internet of Things base station, cloud server, fire hydrant information platform and terminal；The wireless hydraulic pressure branch node is used to acquire the water pressure data of a large amount of fire hydrants, and transfers data to the Internet of Things base station；The Internet of Things base station is used to the water pressure data received being sent to cloud server；The cloud server is for storing the water pressure data that the Internet of Things base station is transmitted；The fire hydrant information platform connects the cloud server, the water pressure data information that automatic comparative analysis receives by the end PC or mobile terminal, and the fire hydrant hydraulic pressure node that notes abnormalities is sent to terminal.The present invention provides a kind of fire water pressure remote monitoring system, can solve that existing fire hydrant water pressure monitoring system monitoring range is small, feedback speed is slow, at high cost, the problem of can not positioning.

Description

A kind of fire water pressure remote monitoring system and its management method

Technical field

The invention belongs to fire remote-monitoring technical field, in particular to a kind of fire water pressure remote monitoring system and its pipe Reason method.

Background technique

Fire hydrant is one of the important fire fighting device to fight a fire as a kind of fixed fire fighting device.City disappears at present Fiery bolt is large number of, and distribution is wide and dissipates, and the reasons such as water pressure monitoring failure cause when fire occurs, and fire-fighting system cannot accomplish Linkage in time, brings huge hidden danger to security against fire.The water pressure monitoring of existing fire hydrant can only monitor hydraulic pressure function, nothing Method makes a response extremely to fire hydrant, and information feedback speed is slow, and efficiency is lower.

Summary of the invention

The present invention provides a kind of fire water pressure remote monitoring system and its management method, can solve existing fire hydrant hydraulic pressure Monitoring system monitoring range is small, feedback speed is slow, at high cost, the problem of can not positioning.

The technical scheme adopted by the invention is as follows:

A kind of fire water pressure remote monitoring system, including wireless hydraulic pressure branch node, Internet of Things base station, cloud server, disappear Fiery bolt information platform and terminal；The wireless hydraulic pressure branch node is used to acquire the water pressure datas of a large amount of fire hydrants, and by data It is sent to the Internet of Things base station；The Internet of Things base station is used to the water pressure data received being sent to cloud server；The cloud End server is for storing the water pressure data that the Internet of Things base station is transmitted；The fire hydrant information platform passes through the end PC or mobile terminal Connect the cloud server, the water pressure data information that automatic comparative analysis receives, the fire hydrant hydraulic pressure node that notes abnormalities hair Give terminal.

As the preferred of the present embodiment, mould is detected comprising several wireless hydraulic pressure in each wireless hydraulic pressure branch node Block, the wireless hydraulic pressure detection module are installed on hose valve.

As the preferred of the present embodiment, the wireless hydraulic pressure monitoring module include micro-control module, wireless hydraulic pressure sensor, Communication module, power module, the port I/O, the wireless hydraulic pressure sensor, communication module, power module, the port I/O with it is micro- Control module is communicatively coupled.

As the preferred of the present embodiment, the wireless hydraulic pressure monitoring module further includes GPS positioning module, the GPS positioning Module is connected with micro-control module.

As the preferred of the present embodiment, the fire hydrant information platform includes data reception module, data processing module, number According to memory module；The data reception module is used to receive the water pressure data of cloud server transmission, and hydraulic pressure information is stored In data memory module, after analyzing comparison processing by the calculating of data processing module, by treated, exception information is sent To terminal.

As the preferred of the present embodiment, the fire hydrant information platform further includes protocol encapsulation module and protocol analysis mould Block carries out protocol encapsulation by protocol encapsulation module by data processing module treated data, according to the number currently supported Data encapsulation is carried out according to communication protocol, it is corresponding with protocol encapsulation by protocol resolution module, the parsing of internet data is completed, number It is connected by network interface with internet according to encapsulation and parsing module.

As the preferred of the present embodiment, the terminal can be the end PC or mobile terminal.

The embodiment of the present invention also provides a kind of management method of fire water pressure remote monitoring system, specifically includes following step It is rapid:

(1) wireless hydraulic pressure branch node is by the water pressure data of wireless hydraulic pressure monitoring module acquisition fire hydrant, and by data It is sent to Internet of Things base station；

(2) water pressure data received is sent to cloud server and stored by Internet of Things base station；

(3) fire hydrant information platform is transferred the water pressure data in cloud server and is compared and analyzed, and note abnormalities the fire that disappears Bolt hydraulic pressure node is sent to terminal；

(4) patrol officer receives end message and completes maintenance task, and performance is fed back to fire hydrant by terminal Information platform.

Compared with prior art, the beneficial effects of the present invention are:

Fire water pressure remote monitoring system of the present invention passes through wireless water pressure monitoring branch node, GPS positioning, object The equipment such as symbasis station, cloud server, fire hydrant information platform, terminal realize the long-range monitoring and positioning of fire fighting hydraulic pressure, can Power consumption, wide area, cost are reduced, realizes rapidly and efficiently inspection.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of fire water pressure remote monitoring system of the present invention；

Fig. 2 is the structural schematic diagram of wireless hydraulic pressure monitoring module of the present invention；

Fig. 3 is the structural schematic diagram of no fire hydrant information platform of the present invention；

Fig. 4 is the wireless hydraulic pressure detection node of the present invention and wireless internet of things base station structure diagram.

It is as shown in the figure: 1, wireless hydraulic pressure branch node, 11, wireless hydraulic pressure monitoring module, 111, micro-control module, 112, nothing Line hydraulic pressure sensor, 113, communication module, 114, power module, 115, the port I/O, 116, GPS positioning module, 2, Internet of Things base It stands, 3, cloud server, 4, fire hydrant information platform, 41, data reception module, 42, data processing module, 43, data storage Module, 44, protocol encapsulation module, 45, protocol resolution module, 5, terminal.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Referring to shown in Fig. 1 to 4, the embodiment of the present invention provides a kind of fire water pressure remote monitoring system, specifically includes wireless Hydraulic pressure branch node 1, Internet of Things base station 2, cloud server 3, fire hydrant information platform 4 and terminal 5.Wherein, wireless hydraulic pressure branch Node 1 is used to acquire the water pressure data of a large amount of fire hydrants, and transfers data to Internet of Things base station 2；Internet of Things base station 2 will be for that will receive To water pressure data be sent to cloud server 3；Cloud server 3 is used to store the water pressure data that the Internet of Things base station 2 is transmitted, In the present embodiment, Internet of Things base station 2 uses wireless Internet of Things base station, and Internet of Things base station 2 can receive several in several kilometer ranges in periphery The data of ten thousand wireless water pressure monitoring node acquisitions；Fire hydrant information platform 4 connects the cloud clothes by the end PC or mobile terminal Business device 3, the water pressure data information that automatic comparative analysis receives, the fire hydrant hydraulic pressure node that notes abnormalities are sent to terminal 5；Terminal 5 for receiving the warning reminding of abnormal fire hydrant hydraulic pressure point, and shows the information alert of the exception fire hydrant hydraulic pressure point, disappears Fiery bolt patrol officer receives maintenance task by terminal 5, and fire hydrant patrol officer makes a report on maintenance feedback after completing maintenance task To the fire hydrant information platform 4.

Referring to fig. 2 to shown in 4, in the present embodiment, in a fire fighting monitoring region, it is equipped with multiple wireless hydraulic pressure branches Node 1, interior each wireless hydraulic pressure branch node 1 includes several wireless hydraulic pressure detection modules 11, wherein wireless hydraulic pressure detects mould Block 11 is installed on hose valve, and wireless hydraulic pressure detection module 11 can acquire the water pressure data of a large amount of fire hydrant simultaneously. In the present embodiment, wireless hydraulic pressure monitoring module 11 includes micro-control module 111, wireless hydraulic pressure sensor 112, communication module 113, power module 114, the port I/O 115 and GPS positioning module 116, wireless hydraulic pressure sensor 112, communication module 113, power supply Module 114, the port I/O 115 and GPS positioning module 116 are communicatively coupled with micro-control module 111.The micro-control molding Block 111 is to control and cooperate with wireless hydraulic pressure sensor 112, communication module 113, power module in wireless water pressure monitoring node 114 and GPS positioning module 116 work.The branch node of wireless hydraulic pressure sensor 112 is connect with micro-control module 111, is monitored And water pressure data is acquired, collected water pressure data is sent to Internet of Things base station 2 by communication module 113.In the present embodiment, Communication module 113 transmits data using spread spectrum, and transmission is more reliable, communication distance is farther.The port I/O 115 and micro-control molding Block 111 connects the initialization and parameter that each module in wireless water pressure monitoring branch node 1 can be set.It can be according to different fire-fighting fields The threshold range of wireless hydraulic pressure sensor 112 is debugged in the requirement of scape.GPS positioning module 116 is connected with micro-control module 116, The position of each wireless hydraulic pressure branch node 1 can accurately be positioned.

Referring to shown in Fig. 1 to 4, in the present embodiment, fire hydrant information platform 4 includes data reception module 41, at data Manage module 42, data memory module 43, protocol encapsulation module 44 and protocol resolution module 45；Data reception module 41 is for receiving The water pressure data that cloud server 3 transmits, and hydraulic pressure information is stored in data memory module 43, pass through data processing module After 43 calculating analysis comparison processing, by treated, exception information is sent to terminal.After the processing of data processing module 43 Data protocol encapsulation is carried out by protocol encapsulation module 44, carry out data encapsulation according to the data communication protocol currently supported, It is corresponding with protocol encapsulation by protocol resolution module 45, the parsing of internet data is completed, data encapsulation and parsing module pass through Network interface is connected with internet.In the present embodiment, each wireless hydraulic pressure branch node 1 is stored in data memory module 43 The hydraulic pressure normal data of middle fire water establishes fire hydrant water pressure data library in data memory module 43 and facilitates data processing module 42 are called.Data processing module 42 is calculated and is analyzed to the water pressure data passed back in real time, and the water that will be monitored is passed through Pressure data are compared and analyze with the database information in data memory module 43, and analysis result is sent to terminal 5.At this In embodiment, data processing module 42 is by collected fire hydrant water pressure data and corresponding standard in data memory module 43 Data are compared, when the water pressure data information of acquisition is more than the hydraulic pressure threshold range of set normal data, fire hydrant letter The breath prompt of platform 4 transfinites and analysis result is sent to terminal 5, and the patrol officer of prompt terminal 5 is handled, when being not above When hydraulic pressure threshold value, fire hydrant information platform 4 automatically saves the analysis as a result, being convenient for the access of follow-up management personnel.By data Treated the data of processing module 42 carry out protocol encapsulation by protocol encapsulation module 44, assist according to the data communication currently supported View carries out data encapsulation, corresponding with protocol encapsulation by protocol resolution module 45, completes the parsing of internet data, data encapsulation It is connected by network interface with internet with parsing module.Wherein communication modes are internal lan, collector between server Carried out data transmission by way of GPRS, ADSL, optical fiber with terminal 5, terminal 5 passes through internet and fire hydrant information platform 4 Carry out data transmission.

Referring to shown in Fig. 1 to 4, the embodiment of the present invention also provides a kind of management method of fire water pressure remote monitoring system, Specifically includes the following steps:

(1) wireless hydraulic pressure branch node is by the water pressure data of wireless hydraulic pressure monitoring module acquisition fire hydrant, and by data It is sent to Internet of Things base station；

(2) water pressure data received is sent to cloud server and stored by Internet of Things base station；

(3) fire hydrant information platform is transferred the water pressure data in cloud server and is compared and analyzed, and note abnormalities the fire that disappears Bolt hydraulic pressure node is sent to terminal；

(4) patrol officer receives end message and completes maintenance task, and performance is fed back to fire hydrant by terminal Information platform.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims (8)

1. a kind of fire water pressure remote monitoring system, it is characterised in that: including wireless hydraulic pressure branch node (1), Internet of Things base station (2), cloud server (3), fire hydrant information platform (4) and terminal (5)；The wireless hydraulic pressure branch node (1) is for acquiring The water pressure data of a large amount of fire hydrants, and transfer data to the Internet of Things base station (2)；The Internet of Things base station (2) will be for that will receive To water pressure data be sent to cloud server (3)；The cloud server (3) is transmitted for storing the Internet of Things base station (2) Water pressure data；The fire hydrant information platform (4) connects the cloud server (3) by the end PC or mobile terminal, automatic right Than analyzing the water pressure data information received, the fire hydrant hydraulic pressure node that notes abnormalities is sent to terminal (5).

2. fire water pressure remote monitoring system according to claim 1, it is characterised in that: each wireless hydraulic pressure branch It include several wireless hydraulic pressure detection modules (11) in node (1), the wireless hydraulic pressure detection module (11) is installed in the fire that disappears On bolt valve.

3. fire water pressure remote monitoring system according to claim 2, it is characterised in that: the wireless hydraulic pressure monitoring module It (11) include micro-control module (111), wireless hydraulic pressure sensor (112), communication module (113), power module (114), the end I/O Mouthful (115), the wireless hydraulic pressure sensor (112), communication module (113), power module (114), the port I/O (115) with Micro-control module (111) is communicatively coupled.

4. fire water pressure remote monitoring system according to claim 3, it is characterised in that: the wireless hydraulic pressure monitoring module It (11) further include GPS positioning module (116), the GPS positioning module (116) is connected with micro-control module (111).

5. fire water pressure remote monitoring system according to claim 2, it is characterised in that: the fire hydrant information platform It (4) include data reception module (41), data processing module (42), data memory module (43)；The data reception module (41) for receiving the water pressure data of cloud server (3) transmission, and hydraulic pressure information is stored in data memory module (43), After analyzing comparison processing by the calculating of data processing module (42), by treated, exception information is sent to terminal (5).

6. fire water pressure remote monitoring system according to claim 1, it is characterised in that: the fire hydrant information platform It (4) further include protocol encapsulation module (44) and protocol resolution module (45), by data processing module (42) treated data Protocol encapsulation is carried out by protocol encapsulation module (44), data encapsulation is carried out according to the data communication protocol currently supported, passes through Protocol resolution module (45) is corresponding with protocol encapsulation, completes the parsing of internet data, and data encapsulation and parsing module pass through net Network interface is connected with internet.

7. fire water pressure remote monitoring system according to claim 1, it is characterised in that: the terminal (5) can be PC End or mobile terminal.

8. a kind of management method of fire water pressure remote monitoring system, which comprises the following steps:

(1) wireless hydraulic pressure branch node is by the water pressure data of wireless hydraulic pressure monitoring module acquisition fire hydrant, and by data transmission To Internet of Things base station；

(2) water pressure data received is sent to cloud server and stored by Internet of Things base station；

(3) fire hydrant information platform is transferred the water pressure data in cloud server and is compared and analyzed, and note abnormalities fire hydrant water Pressure node is sent to terminal；

(4) patrol officer receives end message and completes maintenance task, and performance is fed back to fire hydrant information by terminal Platform.