CN105148444A - Fire fighting water pressure real-time monitoring system and monitoring method of fire fighting water pressure real-time monitoring system - Google Patents

Abstract

The invention discloses a fire fighting water pressure real-time monitoring system which comprises at least one water pressure monitoring node, at least one local data monitoring and management center, and a remote monitoring and control center, wherein each water pressure monitoring node is arranged at a water trial end of a pipeline of a fire fighting system, and is used for monitoring water pressure data of a current node position in real time; each local data monitoring and management center monitors and manages the water pressure monitoring nodes within the regulation scope of the local data monitoring and management center; and the remote monitoring and control center is used for processing monitoring data transmitted by each local data monitoring and management center. The invention further discloses a monitoring method of the fire fighting water pressure real-time monitoring system. The fire fighting water pressure real-time monitoring system and the monitoring method realize the effects that water pressure in the pipelines of the fire fighting system can be monitored in real time and online; when an abnormal situation occurs, the local data monitoring and management centers and the remote monitoring and control center can alarm simultaneously, so that the safety and the reliability of the whole fire fighting system are improved greatly.

Description

Fire fighting hydraulic pressure real-time monitoring system and monitoring method thereof

Technical field

The present invention relates to electronic applications, communication field, technical field of fire control etc., particularly a kind of fire fighting hydraulic pressure real-time monitoring system and monitoring method thereof.

Background technology

Along with developing rapidly of city size, skyscraper grows with each passing day.On the one hand, the large multi-functional complexity of skyscraper, densely populated place, modern facilities are many, once breaking out of fire, easily produce stack effect and wind scorpion, fire spreading is rapid, puts out a fire to save life and property very difficult.On the other hand, in the use procedure of skyscraper, the fire-fighting consciousness of estate management unit is comparatively weak, often easily ignores administering and maintaining the fire-fighting system such as waterworks for firefighting, automatic sprinkler system.At present, can not real time remote on-line monitoring fire-fighting system pipeline hydraulic pressure, fire department is caused to be difficult to compress into row effectively supervision to fire water, part fire-fighting system is caused to be in hydraulic pressure deficiency even anhydrous state for a long time, once fire occurs, fire-fighting system can not accomplish timely interlock, performs practically no function, hidden fire-fighting danger is very serious, and this brings huge injury can to undoubtedly the lives and properties of the masses.And in a practical situation; fire protection pipeline hydraulic pressure is once occur abnormal; after artificial discovery; notify that fire department personnel suddenly repaiies to on-the-spot by patrolman; whole process time is long; and some fire protection pipeline hydraulic pressure extremely can't Timeliness coverage, patrolman is also not easy to know abnormal cause, has delayed and has solved the abnormal time.

Summary of the invention

The object of the invention is: provide a kind of fire fighting hydraulic pressure real-time monitoring system, it solving can not to the problem of fire-fighting pipeline real-time in existing fire system; Can the data of each fire fighting hydraulic pressure monitoring node in real time on-line monitoring fire-fighting system, and can realize and alarm when occurring abnormal; And the history hydraulic pressure data of all nodes of fire-fighting system and the abnormal data sometime in section can be provided, facilitate staff to safeguard in time, improve the safety and reliability of whole fire-fighting system.

The technical scheme realizing above-mentioned purpose is: a kind of fire fighting hydraulic pressure real-time monitoring system, it comprises

At least one water pressure monitoring node, water pressure monitoring Node configuration described in each is in fire-fighting system pipeline examination water end (W.E.), and described water pressure monitoring node is used for the hydraulic pressure data of Real-Time Monitoring present node position; Water pressure monitoring node described in each all configures the label that records this water pressure monitoring nodal information;

At least one local data monitoring management center, local data monitoring management center monitors described in each manages the described water pressure monitoring node within the scope of its supervision; Within the scope of its supervision, the equal network of water pressure monitoring node described in each is connected to described local data monitoring management center, the hydraulic pressure data that described local data monitoring management center is monitored for the treatment of water pressure monitoring node described in each;

One remote monitoring center, described in each, local data monitoring management central site network is connected to described remote monitoring center; The Monitoring Data that described remote monitoring center transmits for the treatment of local data monitoring management center described in each.

Further, described water pressure monitoring Node configuration has

One pressure sensor, described pressure sensor is installed on fire-fighting system pipeline examination water end (W.E.);

One data acquisition interface, for providing data transmission interface;

One MCU microprocessing unit, described pressure sensor sends the hydraulic pressure data collected to described MCU microprocessing unit by described data acquisition interface, described MCU microprocessing unit is for the treatment of received hydraulic pressure data;

One relay, is connected to described MCU microprocessing unit;

One buzzer, is connected to described MCU microprocessing unit, for giving the alarm to hydraulic pressure data exception;

One network communication module, connects described local data monitoring management center for network.

Further, described MCU microprocessing unit is provided with

One MCU microcontroller, for the treatment of various information data;

One power module, is connected to described MCU microcontroller, for powering for described MCU microprocessing unit, described pressure sensor;

One circuit for signal conditioning, is connected to described pressure sensor by described data acquisition interface, and for the treatment of the signal data that described pressure sensor collects, described circuit for signal conditioning comprises an amplifier module, a filtration module;

One A/D modular converter, is connected to described circuit for signal conditioning, described MCU microcontroller, for analog signal is converted into data signal;

One clock module, is connected to described MCU microcontroller, for providing clock for the work of described MCU microprocessing unit;

One reseting module, is connected to described MCU microcontroller, for being resetted by the MCU microprocessing unit under abnormality.

Further, described local data monitoring management center comprises

One server system, for receiving the hydraulic pressure data that described water pressure monitoring node collects; And

For processing described hydraulic pressure data; And

For show with stores processor after hydraulic pressure data; And

When hydraulic pressure data occur abnormal, for generating warning information, ejecting alert window or starting described buzzer;

One data upload system, for by the data upload at described local data monitoring management center to described remote monitoring center.

Described remote monitoring center comprises a server cluster system, a monitoring host computer, at least one LCD display.

Another object of the present invention is: the monitoring method providing a kind of fire fighting hydraulic pressure real-time monitoring system.

The technical scheme realizing above-mentioned purpose is: a kind of monitoring method of fire fighting hydraulic pressure real-time monitoring system, and it comprises the following steps,

S01: utilize the hydraulic pressure of water pressure monitoring node to the fire-fighting system pipeline examination water end (W.E.) place at its place to monitor;

S02: the local data monitoring management center hydraulic pressure data after water pressure monitoring node processing described in each being passed to its corresponding place;

S03: utilize local data monitoring management center processing hydraulic pressure data;

S04: utilize remote monitoring center to carry out Treatment Analysis to the Monitoring Data that local data monitoring management center described in each is transmitted.

Further, described step S01 comprises the following steps,

S011: utilize pressure sensor Real-time Collection hydraulic pressure data;

S012: utilize circuit for signal conditioning to carry out data processing to the hydraulic pressure data gathered;

S013: utilize A/D modular converter that analog signal is converted into data signal;

S014: judge MCU microcontroller whether receive process after hydraulic pressure data, if receive, then enter step S02; If do not receive, then continue wait-receiving mode hydraulic pressure data.

Further, described step S03 comprises the following steps,

S031: judge the hydraulic pressure data whether local data monitoring management center receives water pressure monitoring node and upload if receive, then to enter step S032; If do not receive, then continue wait-receiving mode hydraulic pressure data;

S032: utilize local data monitoring management center to carry out Data Analysis to the hydraulic pressure data received;

S033: the data after resolving processed, described step S033 comprises the following steps:

S0331: the data after resolving are stored;

S0332: the data after resolving are carried out data analysis;

S0333: the data after resolving directly are sent to described remote monitoring center.

Further, described step S0332 comprises the following steps

S03321: judge whether the hydraulic pressure data that water pressure monitoring node is passed to have exception, if without, continue to judge, if having, enter step S03322;

S03322: generate warning information, ejects alert window; Send instruction to MCU microprocessing unit, closing relay, open buzzer, give the alarm;

S03323: staff's Solve on site abnormal problem.

Further, described step S04 comprises the following steps,

S041: judge whether to receive the Monitoring Data uploaded at described local data monitoring management center, if do not receive, then continue wait-receiving mode, if receive, then enter step S042 or enter step S043;

S042: store the Monitoring Data that described local data monitoring management center is uploaded;

S043: judge whether Monitoring Data has exception, if not abnormal, then continues to judge; If there is exception, then enter step S044;

S044: generate warning information, ejects alert window; Warning information is fed back to Monitoring Data and occur abnormal local data monitoring management center;

S045: staff's Solve on site abnormal problem.

The advantage of technique scheme is: fire fighting hydraulic pressure real-time monitoring system of the present invention and monitoring method thereof, adopt the ducted hydraulic pressure of fire fighting hydraulic pressure monitoring node monitoring fire-fighting system, fire fighting hydraulic pressure monitoring node wirelessly accesses local data monitoring management center, local data monitoring management center is by Internet access to remote monitoring center, form internet of things, achieve real-time online to monitor the hydraulic pressure in fire-fighting system pipeline, when hydraulic pressure occurs abnormal, local monitoring management center and remote monitoring center can the two same alarms in aspect, simultaneously, local data monitoring management center and remote monitoring center also possess inquiry, the functions such as statistics, substantially increase the safety and reliability of whole fire-fighting system.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described.

Fig. 1 is the fire fighting hydraulic pressure real-time monitoring system general frame schematic diagram of the embodiment of the present invention 1.

Fig. 2 is the water pressure monitoring nodal function module diagram of the embodiment of the present invention 1.

Fig. 3 is the water pressure monitoring node installation structural representation of the embodiment of the present invention 1.

Fig. 4 is the local data monitoring management center schematic diagram of the embodiment of the present invention 1.

Fig. 5 is the remote monitoring center schematic diagram of the embodiment of the present invention 1.

Fig. 6 is the flow chart of the method for supervising of the fire fighting hydraulic pressure real-time monitoring system of the embodiment of the present invention 2.

Wherein: 1 water pressure monitoring node; 2 local data monitoring management centers; 3 remote monitoring centers;

11 pressure sensors; 12 data acquisition interfaces; 13MCU microprocessing unit;

14 relays; 15 buzzers; 16 network communication module;

131MCU microcontroller; 132 power modules; 133 circuit for signal conditioning;

134A/D modular converter; 135 clock modules; 136 reseting modules;

1331 amplifier modules; 1332 filtration modules; 21 server systems;

22 data upload systems; 31 server cluster systems; 32 monitoring host computers;

33LCD display screen.

Detailed description of the invention

Embodiment 1: as shown in Figure 1, a kind of fire fighting hydraulic pressure real-time monitoring system, it comprises at least one water pressure monitoring node 1, at least one local data monitoring management center 2, remote monitoring center 3.Wherein, remote monitoring center 3 can the fire-fighting system of the multiple networking unit of Real-Time Monitoring, and each networking unit is made up of local data monitoring management center 2 and multiple water pressure monitoring node 1.After each water pressure monitoring node 1 collects hydraulic pressure data, hydraulic pressure data are sent to local data monitoring management center 2,2, local data monitoring management center by Internet by the data upload that monitors to remote monitoring center 3.

Each water pressure monitoring node 1 is arranged at fire-fighting system pipeline examination water end (W.E.), and water pressure monitoring node 1 is for the hydraulic pressure data of Real-Time Monitoring present node position; Each water pressure monitoring node 1 all configures the label that records this water pressure monitoring node 1 information.The numbering of this this corresponding node of labeled marker, the numbering of this node represents floor number and orientation etc. residing for this node.

As shown in Figure 2 and Figure 3, water pressure monitoring node 1 is provided with following part.

One pressure sensor 11, pressure sensor 11 is installed on fire-fighting system pipeline examination water end (W.E.).Pressure sensor 11 is arranged on the examination water end (W.E.) of fire-fighting system pipeline, and external screw thread has been attacked in pressure sensor 11 installation position, and fire protection pipeline corresponding site has attacked internal thread, and pressure sensor 11 and fire protection pipeline are threaded connection installation.Pressure sensor 11 is connected with MCU microprocessing unit 13 by data acquisition interface 12, and MCU microprocessing unit 13 is connected with network communication module 16 by serial ports.

One data acquisition interface 12, for providing data transmission interface.

One MCU microprocessing unit 13, pressure sensor 11 sends the hydraulic pressure data collected to described MCU microprocessing unit 13 by described data acquisition interface 12, described MCU microprocessing unit 13 is for the treatment of received hydraulic pressure data.

One relay 14, is connected to described MCU microprocessing unit 13.

One buzzer 15, is connected to described MCU microprocessing unit 13, for giving the alarm to hydraulic pressure data exception.Buzzer 15 is connected with MCU microprocessing unit 13 by relay 14.When the hydraulic pressure data exception that fire fighting hydraulic pressure monitoring node 1 collects, MCU control relay 14 closes, and starts buzzer 15 and reports to the police.

One network communication module 16, connects described local data monitoring management center 2 for network.Network communication module 16 can be WiFi network focus, 2G/3G/4G communication network, and also can be other network communication mode, this is not restricted.

Wherein, MCU microprocessing unit 13 forms by with lower component or module.

One MCU microcontroller 131, for the treatment of various information data.

One power module 132, is connected to MCU microcontroller 131, for powering for MCU microprocessing unit 13, pressure sensor 11.

One circuit for signal conditioning 133, is connected to pressure sensor 11 by data acquisition interface 12, and for the treatment of the signal data that pressure sensor 11 collects, circuit for signal conditioning 133 comprises amplifier module 1331, filtration module 1332.

One A/D modular converter 134, is connected to circuit for signal conditioning 133, MCU microcontroller 131, for analog signal is converted into data signal.

Concrete: signal is after amplification filtering, after the A/D modular converter 134 be transferred in MCU microcontroller 131 is converted to data signal, then local data monitoring management center 2 is sent to via serial ports WiFi hotspot, local data monitoring management center 2 can be resolved the data received, if hydraulic pressure data occur abnormal, the timely feedback alarm information of meeting, and control MCU closing relay 14, start buzzer 15 to give the alarm, staff hears that alarm can carry out corresponding operating in time.

One clock module 135, is connected to MCU microcontroller 131, for providing clock for MCU microprocessing unit 13 work,

One reseting module 136, is connected to MCU microcontroller 131, for being resetted by the MCU microprocessing unit 13 under abnormality.

When water pressure monitoring node 1 works, pressure sensor 11 is transferred to MCU microprocessing unit 13 by data acquisition interface 12 after collecting the ducted hydraulic pressure data of fire-fighting system.Again by WiFi network focus, be sent to local data monitoring management center 2 in the mode of wireless transmission.Buzzer 15 is connected with MCU microprocessing unit 13 by relay 14, and cooperating.Each fire fighting hydraulic pressure monitoring node 1 can configure relevant information according to real needs, and can automatically network, and is connected to local data monitoring management center 2.

As shown in Figure 4, the water pressure monitoring node 1 within the scope of each local data monitoring management center 2 its supervision of monitoring management.Within the scope of its supervision, each water pressure monitoring node 1 all network is connected to local data monitoring management center 2, the hydraulic pressure data that local data monitoring management center 2 is monitored for the treatment of each water pressure monitoring node 1.

Wherein, local data monitoring management center 2 comprises server system 21 and a data upload system 22.

The hydraulic pressure data that server system 21 collects for receiving described water pressure monitoring node 1; And for processing described hydraulic pressure data; And for show with stores processor after hydraulic pressure data; And when hydraulic pressure data occur abnormal, for generating warning information, ejecting alert window or starting described buzzer 15.

Concrete: server system 21 receives hydraulic pressure data that water pressure monitoring node 1 collects and shown after processing it and store, if a certain node data occurs abnormal simultaneously, server system 21 generates warning message, ejects warning window or starts described buzzer 15.

Data upload system 22 for by the data upload at described local data monitoring management center 2 to described remote monitoring center 3.Local data monitoring management center 2 can realize the fire fighting hydraulic pressure real time on-line monitoring to local fire-fighting system in this locality.

After local water pressure monitoring node 1 collects the ducted hydraulic pressure data of fire-fighting system, wireless system 21 of uploading onto the server, server system 21 comprises Web server, database server and local data monitoring main frame.The user that Web server is mainly local data monitoring management center 2 provides Web service, the hydraulic pressure data that database server primary recipient and storage fire fighting hydraulic pressure monitoring node 1 gather, local data monitoring main frame is mainly used in the data analyzed and the local water pressure monitoring node 1 disappeared of display gathers, if a certain node data is abnormal, timely generation warning message, eject warning window, send instruction startup buzzer 15 to MCU to report to the police simultaneously, after facilitating staff to receive warning message, arrive Solve on site in time.Data upload system 22 is mainly used in uploading to remote monitoring center 3 the hydraulic pressure data that local fire-fighting system monitors.As seen from the figure, data upload system 22 comprises local data monitoring main frame and wan interface, and wherein, the monitoring main frame that local data is monitored in main frame and server system 21 is same main frame, and wan interface is used for sending data to remote monitoring center 3.

As shown in Figure 5, remote monitoring center 3, the Monitoring Data that the local data monitoring management center 2 being mainly used in receiving and store multiple networking unit is uploaded, realizes long-range real time and on line monitoring.Each local data monitoring management center 2 network is connected to remote monitoring center 3; The Monitoring Data that remote monitoring center 3 transmits for the treatment of each local data monitoring management center 2.Wherein, remote monitoring center 3 comprises server cluster system 31, monitoring host computer 32, at least one LCD display 33.The data that the long-range reception of server cluster system 31 and the local data monitoring management center 2 storing multiple networking unit are uploaded, in monitoring host computer 32 and LCD display 33 access data central site network.The data that the local data monitoring management center 2 that remote monitoring center 3 can receive multiple networking unit is simultaneously uploaded by wan interface, and be stored in database server, server cluster is mainly remote monitoring center 3 and provides various service, comprises Web service, Video service etc.LCD screen is mainly used in the fire-fighting system working condition showing each networking unit, if a certain monitoring node data exception of a certain networking unit, remote monitoring center 3 can show in real time, and generate warning message and then feed back to corresponding networking unit in time, notice relevant work personnel solve abnormal conditions in time.Remote monitoring center 3 can at the fire fighting hydraulic pressure real time on-line monitoring of long-range realization to each networking unit fire-fighting system.

In concrete implementation process, each water pressure monitoring node 1 has a node serial number, and this node serial number represents floor number residing for this node and orientation.Each fire fighting hydraulic pressure monitoring node 1 can configure relevant information according to real needs, and can automatically network, and is connected to local data monitoring management center 2.Local data monitoring management center 2 receives hydraulic pressure data that water pressure monitoring node 1 collects and is shown after processing it and store, if a certain node data occurs abnormal, server system 21 generates warning message, ejects warning window or starts buzzer 15 by control MCU and report to the police.Simultaneously, local data monitoring management center 2 uploads fire-fighting system hydraulic pressure data by WAN mouth to remote monitoring center 3 in real time, remote monitoring center 3 can the data uploaded of long-range reception and the local data monitoring management center 2 that stores multiple networking unit, realize carrying out real time on-line monitoring to the fire fighting hydraulic pressure of multiple networking unit.

Embodiment 2: as shown in Figure 6, a kind of monitoring method of fire fighting hydraulic pressure real-time monitoring system, it comprises the following steps.

S01: utilize the hydraulic pressure of water pressure monitoring node 1 to the fire-fighting system pipeline examination water end (W.E.) place at its place to monitor.

Described step S01 comprises the following steps.

S011: utilize pressure sensor 11 Real-time Collection hydraulic pressure data.Concrete: when system starts, be first the hydraulic pressure data that the pressure sensor 11 of fire fighting hydraulic pressure monitoring node 1 gathers fire-fighting system pipeline.

S012: utilize circuit for signal conditioning 133 to carry out data processing to the hydraulic pressure data gathered.

S013: utilize A/D modular converter 134 that analog signal is converted into data signal.

Wherein, hydraulic pressure data, after signal amplification, filtering and A/D conversion, are sent to MCU microprocessing unit 13.

S014: judge MCU microcontroller 131 whether receive process after hydraulic pressure data, if receive, then enter step S02; If do not receive, then continue wait-receiving mode hydraulic pressure data.Concrete, MCU microcontroller 131 judges whether to receive data, if do not receive data, continues to wait pending data, if the data of receiving, then by serial ports WiFi module, the data wireless received is sent to local data monitoring management center 2.

S02: the hydraulic pressure data after being processed by water pressure monitoring node 1 described in each are passed to the local data monitoring management center 2 at its corresponding place.

S03: utilize local data monitoring management center 2 to process hydraulic pressure data.

Described step S03 comprises the following steps.

S031: judge the hydraulic pressure data whether local data monitoring management center 2 receives water pressure monitoring node 1 and be passed to if receive, then to enter step S032; If do not receive, then continue wait-receiving mode hydraulic pressure data.

S032: utilize local data monitoring management center 2 to carry out Data Analysis to the hydraulic pressure data received.

S033: the data after resolving processed, local data monitoring management center 2 judges whether to receive data, if do not receive data, continues to wait pending data, if the data of receiving, resolves data, get hydraulic pressure data.

Described step S033 comprises the following steps.

S0331: the data after resolving are stored.

S0332: the data after resolving are carried out data analysis.

S0333: the data after resolving directly are sent to described remote monitoring center 3.

Concrete: three aspect operations can be carried out, first aspect after obtaining hydraulic pressure data simultaneously, directly the hydraulic pressure data after process are stored in the database at local data monitoring management center 2; Second aspect, local data monitoring management center 2 can by WAN mouth by data upload to remote monitoring center 3; The third aspect, to all node datas, local data monitoring management center 2 can judge whether that node data is abnormal.

Described step S0332 comprises the following steps.

S03321: judge whether the hydraulic pressure data that water pressure monitoring node 1 is passed to have exception, if without, continue to judge, if having, enter step S03322.

S03322: generate warning information, ejects alert window; Send instruction to MCU microprocessing unit 13, closing relay 14, open buzzer 15, give the alarm.

S03323: staff's Solve on site abnormal problem.

For the third aspect, if there is node data abnormal, then generate warning message in time and eject warning window, local data monitoring management center 2 can send instructions to MCU microprocessing unit 13 in time simultaneously, control closing relay 14, start buzzer 15 to report to the police, after staff receives warning message, the personnel that can arrange work in time are abnormal to Solve on site.

S04: utilize remote monitoring center 3 to carry out Treatment Analysis to the Monitoring Data that local data monitoring management center 2 described in each is transmitted.

Described step S04 comprises the following steps.

S041: judge whether to receive the Monitoring Data that described local data monitoring management center 2 is passed to, if do not receive, then continue wait-receiving mode, if receive, then enter step S042 or enter step S043.

S042: the Monitoring Data that store local data monitoring management center 2 is passed to.

S043: judge whether Monitoring Data has exception, if not abnormal, then continues to judge; If there is exception, then enter step S044.

S044: generate warning information, ejects alert window; Warning information is fed back to Monitoring Data and occur abnormal local data monitoring management center 2.

S045: staff's Solve on site abnormal problem.

Concrete, for second aspect, remote monitoring center 3 can judge whether to receive data, if do not receive data, continue to wait pending data, if the data of receiving, then can data be stored in the database of remote monitoring center 3, can have been judged whether that node data is abnormal to all by node data simultaneously.If there is node data abnormal, then generate warning message in time and eject warning window, warning message is fed back to the local data monitoring management center 2 of corresponding networking unit simultaneously, remind networking unit to occur abnormal, the personnel that can arrange work in time after networking unit receives information are abnormal to Solve on site.

It should be pointed out that for the present invention through absolutely proving, also can have the embodiment of multiple conversion and remodeling, be not limited to the specific embodiment of above-mentioned embodiment.Above-described embodiment is as just explanation of the present invention, instead of limitation of the present invention.In a word, protection scope of the present invention should comprise those apparent conversion or alternative and remodeling to those skilled in the art.

Claims (10)

1. a fire fighting hydraulic pressure real-time monitoring system, is characterized in that: it comprises

At least one water pressure monitoring node, water pressure monitoring Node configuration described in each is in fire-fighting system pipeline examination water end (W.E.), and described water pressure monitoring node is used for the hydraulic pressure data of Real-Time Monitoring present node position; Water pressure monitoring node described in each all configures the label that records this water pressure monitoring nodal information;

At least one local data monitoring management center, local data monitoring management center monitors described in each manages the described water pressure monitoring node within the scope of its supervision; Within the scope of its supervision, the equal network of water pressure monitoring node described in each is connected to described local data monitoring management center, the hydraulic pressure data that described local data monitoring management center is monitored for the treatment of water pressure monitoring node described in each;

One remote monitoring center, described in each, local data monitoring management central site network is connected to described remote monitoring center; The Monitoring Data that described remote monitoring center transmits for the treatment of local data monitoring management center described in each.

2. fire fighting hydraulic pressure real-time monitoring system according to claim 1, is characterized in that: described water pressure monitoring Node configuration has

One pressure sensor, described pressure sensor is installed on fire-fighting system pipeline examination water end (W.E.);

One data acquisition interface, for providing data transmission interface;

One MCU microprocessing unit, described pressure sensor sends the hydraulic pressure data collected to described MCU microprocessing unit by described data acquisition interface, described MCU microprocessing unit is for the treatment of received hydraulic pressure data;

One relay, is connected to described MCU microprocessing unit;

One buzzer, is connected to described MCU microprocessing unit, for giving the alarm to hydraulic pressure data exception;

One network communication module, connects described local data monitoring management center for network.

3. fire fighting hydraulic pressure real-time monitoring system according to claim 2, is characterized in that: described MCU microprocessing unit is provided with

One MCU microcontroller, for the treatment of various information data;

One power module, is connected to described MCU microcontroller, for powering for described MCU microprocessing unit, described pressure sensor;

One circuit for signal conditioning, is connected to described pressure sensor by described data acquisition interface, and for the treatment of the signal data that described pressure sensor collects, described circuit for signal conditioning comprises an amplifier module, a filtration module;

One A/D modular converter, is connected to described circuit for signal conditioning, described MCU microcontroller, for analog signal is converted into data signal;

One clock module, is connected to described MCU microcontroller, for providing clock for the work of described MCU microprocessing unit;

One reseting module, is connected to described MCU microcontroller, for being resetted by the MCU microprocessing unit under abnormality.

4. fire fighting hydraulic pressure real-time monitoring system according to claim 1, is characterized in that: described local data monitoring management center comprises

One server system, for receiving the hydraulic pressure data that described water pressure monitoring node collects; And

For processing described hydraulic pressure data; And

For show with stores processor after hydraulic pressure data; And

When hydraulic pressure data occur abnormal, for generating warning information, ejecting alert window or starting described buzzer;

One data upload system, for by the data upload at described local data monitoring management center to described remote monitoring center.

5. fire fighting hydraulic pressure real-time monitoring system according to claim 1, is characterized in that: described remote monitoring center comprises a server cluster system, a monitoring host computer, at least one LCD display.

6. realize a monitoring method for fire fighting hydraulic pressure real-time monitoring system according to claim 1, it is characterized in that: it comprises the following steps,

S01: utilize the hydraulic pressure of water pressure monitoring node to the fire-fighting system pipeline examination water end (W.E.) place at its place monitor and process;

S02: the local data monitoring management center hydraulic pressure data after water pressure monitoring node processing described in each being passed to its corresponding place;

S03: utilize local data monitoring management center processing hydraulic pressure data;

S04: utilize remote monitoring center to carry out Treatment Analysis to the Monitoring Data that local data monitoring management center described in each is transmitted.

7. the monitoring method of fire fighting hydraulic pressure real-time monitoring system according to claim 6, is characterized in that: described step S01 comprises the following steps,

S011: utilize pressure sensor Real-time Collection hydraulic pressure data;

S012: utilize circuit for signal conditioning to carry out data processing to the hydraulic pressure data gathered;

S013: utilize A/D modular converter that analog signal is converted into data signal;

S014: judge MCU microcontroller whether receive process after hydraulic pressure data, if receive, then enter step S02; If do not receive, then continue wait-receiving mode hydraulic pressure data.

8. the monitoring method of fire fighting hydraulic pressure real-time monitoring system according to claim 6, is characterized in that: described step S03 comprises the following steps,

S031: judge the hydraulic pressure data whether local data monitoring management center receives water pressure monitoring node and be passed to if receive, then to enter step S032; If do not receive, then continue wait-receiving mode hydraulic pressure data;

S032: utilize local data monitoring management center to carry out Data Analysis to the hydraulic pressure data received;

S033: the data after resolving processed, described step S033 comprises the following steps:

S0331: the data after resolving are stored;

S0332: the data after resolving are carried out data analysis;

S0333: the data after resolving directly are sent to described remote monitoring center.

9. the monitoring method of fire fighting hydraulic pressure real-time monitoring system according to claim 8, is characterized in that: described step S0332 comprises the following steps

S03321: judge whether the hydraulic pressure data that water pressure monitoring node is passed to have exception, if without, continue to judge, if having, enter step S03322;

S03322: generate warning information, ejects alert window; Send instruction to MCU microprocessing unit, closing relay, open buzzer, give the alarm;

S03323: staff's Solve on site abnormal problem.

10. the monitoring method of fire fighting hydraulic pressure real-time monitoring system according to claim 6, is characterized in that: described step S04 comprises the following steps,

S041: judge whether to receive the Monitoring Data uploaded at described local data monitoring management center, if do not receive, then continue wait-receiving mode, if receive, then enter step S042 or enter step S043;

S042: store the Monitoring Data that described local data monitoring management center is uploaded;

S043: judge whether Monitoring Data has exception, if not abnormal, then continues to judge; If there is exception, then enter step S044;

S044: generate warning information, ejects alert window; Warning information is fed back to Monitoring Data and occur abnormal local data monitoring management center;

S045: staff's Solve on site abnormal problem.