CN110320848A - A kind of intelligent fire remote monitoring system - Google Patents

Abstract

The present invention provides a kind of intelligent fire remote monitoring system, which includes inspection log generation module, equipment state acquisition module, building state acquisition module, remote communication module, alarm module and middle control module；Wherein, the inspection log generation module is for generating about in the corresponding different disposal situation information log of inspection process；The equipment state obtains module and is used to obtain the running state information about the corresponding all devices of monitoring objective；The building state acquisition module is for obtaining about the corresponding building status information of the monitoring objective；The remote communication module is used at least one of the different disposal situation log, the running state information of all devices and building status information data transmission controlling module into this；The data that module is used to transmit the remote communication module are controlled in this to be analyzed and processed, and indicate that the alarm module carries out the alarm operation of adaptability with this.

Description

A kind of intelligent fire remote monitoring system

Technical field

The present invention relates to the technical field of fire-fighting and rescue, in particular to a kind of intelligent fire remote monitoring system.

Background technique

Currently, firefighting monitoring system is all to acquire corresponding monitoring letter in real time by being distributed in the monitoring device of predeterminable area Breath, and collected monitoring information is transmitted in central processing unit and is analyzed, the reality about the predeterminable area is obtained with this When fire fighting state, then alarmed accordingly further according to the real-time fire fighting state and/or dangerous situation exclude operation.Although this disappears Anti- monitoring system can carry out real-time fire fighting state acquisition to predeterminable area, but it can only carry out the region of preset range Monitoring can not carry out long-range fire fighting monitoring to the region in different range, and this requires be directed to different monitoring areas all Need to arrange corresponding monitor terminal, not only increase in this way can fire fighting monitoring cost, while being also unfavorable for different monitoring area The Centralized Monitoring in domain.As it can be seen that existing firefighting monitoring system cannot carry out long-range fire fighting monitoring to different zones, it is complete in order to obtain The real-time fire fighting state in region needs to carry out discrete fire fighting monitoring by the way that distributed monitor terminal is arranged.Actually answering In, this distributed fire fighting monitoring mode can not meet the requirement of a wide range of and long-range fire fighting monitoring.

Summary of the invention

In view of the defects existing in the prior art, the present invention provides a kind of intelligent fire remote monitoring system, the intelligent fire Remote monitoring system includes inspection log generation module, equipment state acquisition module, building state acquisition module, telecommunication Module, alarm module and middle control module；Wherein, the inspection log generation module is for generating about corresponding not in inspection process With disposition information log；The equipment state obtains module and is used to obtain the operation about the corresponding all devices of monitoring objective Status information；The building state acquisition module is for obtaining about the corresponding building status information of the monitoring objective；This is remote Journey communication module is used for the running state information and the building status information of the different disposal situation log, all devices At least one of data transmission module is controlled into this；The data that module is used to transmit the remote communication module are controlled in this to carry out Analysis processing, and indicate that the alarm module carries out the alarm operation of adaptability with this.As it can be seen that the intelligent fire remote monitoring system By the way that the monitoring module of different performance is arranged in monitoring area, the inspection log letter about the monitoring area is obtained with this Breath, device status information and building status information, then by the different type monitoring information of acquisition by way of telecommunication It is transmitted in control module and carries out corresponding analysis processing, and make the alarm operation of adaptability with this, the intelligent fire is long-range The corresponding monitoring information in different monitoring areas is transmitted in same middle control module by monitoring system by way of telecommunication It is focused on, to be effectively reduced the cost of fire fighting monitoring and improve the fire-fighting dangerous situation judgement of different monitoring areas Speed.

The present invention provides a kind of intelligent fire remote monitoring system, it is characterised in that:

The intelligent fire remote monitoring system includes inspection log generation module, equipment state acquisition module, building State acquisition module, remote communication module, alarm module and middle control module；Wherein,

The inspection log generation module is for generating about in the corresponding different disposal situation information log of inspection process；

The equipment state obtains module and is used to obtain the running state information about the corresponding all devices of monitoring objective；

The building state acquisition module is for obtaining about the corresponding building status information of the monitoring objective；

The remote communication module is used for the running state information of the different disposal situation log, all devices With at least one of building status information data transmission to the middle control module；

The data that the middle control module is used to transmit the remote communication module are analyzed and processed, and indicate institute with this State the alarm operation that alarm module carries out adaptability；

Further, the inspection log generation module include inspection state adjusting submodule, inspection state verify submodule, Abnormality handles submodule and log transform subblock；Wherein,

Inspection device of the inspection state adjusting submodule for remotely adjusting for the monitoring objective corresponding patrols Inspection state makes the inspection device be able to carry out different inspection operation modes with this；

The inspection state verifies submodule for determining whether the currently performed inspection processing of the inspection device meets Preset condition；

The abnormality processing submodule is used to determine the abnormality that the inspection device determines during inspection Corresponding processing progress；

The log transform subblock is used for according to about the abnormality alignment processing progress, and generation is described not to exist together Manage situation information log；

Further, the inspection state adjusting submodule adjusts the corresponding inspection state of the inspection device and specifically includes,

The inspection state adjusting submodule receives several inspection historical state datas from the remote communication module；

The inspection state adjusting submodule is set according to several inspection historical state datas, building about the inspection Standby inspection operation model；

The inspection state adjusting submodule will be currently about the monitoring objective inspection real time data as the inspection The input source data of operation model obtains the inspection operation module that the inspection device currently adapts to this；

Further, the inspection state verifies submodule and determines whether the currently performed inspection processing of the inspection device accords with Preset condition is closed to specifically include,

The inspection state verifies submodule and receives the preset condition related data from the remote communication module；

The inspection state verifies submodule and presets the current inspection operation execution state of the inspection device with described Condition related data carries out matching treatment, if the two matches, the inspection operation for maintaining the inspection device current executes shape State is constant, if the two mismatches, checks the message of operation exception about current inspection device to the middle control module feedback；

Alternatively,

Abnormality processing submodule is also by the remote communication module, to different described in the middle control module feedback The corresponding processing progress of normal state, wherein the abnormality includes dangerous material storage configuration or power circuit state；

Further, it includes equipment operating temperature acquisition submodule, equipment operating current/electricity that the equipment state, which obtains module, Pressure condition acquisition submodule, operation hours state acquisition submodule and running state information generate submodule；Wherein,

The equipment operating temperature acquisition submodule is used to obtain operating temperature of the equipment in default monitoring period of time Delta data；

Equipment operating current/voltage status the acquisition submodule is for obtaining the equipment in the default monitoring period of time Interior operating current and/or operating voltage delta data；

The equipment running status acquisition submodule is used to obtain the longest duration of operation of the equipment；

The running state information generate submodule be used for according to the temperature change data, operating current and/or At least one of operating voltage delta data, described maximum length in time calculate the operating status letter for obtaining all devices Breath；

Further, the building state acquisition module includes building attribute information acquisition submodule, Indoor environment Environment information acquisition submodule, outdoor buildings environment information acquisition submodule and building status information generate submodule；Its In,

The building attribute information acquisition submodule is used to obtain the build-in attribute data of the building；

The Indoor environment environment information acquisition submodule is for obtaining the corresponding full indoor environment phase of the building Close data；

The outdoor buildings environment information acquisition submodule is related for obtaining the corresponding outdoor environment of the building Data；

The building status information generates submodule and is used for according to the build-in attribute data, the full indoor environment phase It closes at least one of data and the outdoor environment related data and generates the building status information；

Further, the building attribute information acquisition submodule at least obtain the corresponding geographical location of the building, At least one of depth of building and building platform height are used as the build-in attribute data；

Alternatively,

The Indoor environment environment information acquisition submodule at least obtains the corresponding indoor channel distribution of the building At least one of information, indoor fire-fighting device distribution information and house wire route distributed intelligence are used as the full indoor environment Related data；

Alternatively,

The outdoor buildings environment information acquisition submodule at least obtains the corresponding outdoor terrain distribution of the building At least one of information, outdoor vegetation distributed intelligence and outdoor adjacent building distributed intelligence are used as the outdoor environment dependency number According to；

Further, the remote communication module includes that communication port determines that submodule, communication standard determine submodule and lead to Letter data encrypts submodule；Wherein,

The communication port determine submodule for determine the inspection log generation module, equipment state obtain module and Any one in the building state acquisition module, the communication hardware port address mutual with the middle control module；

The communication standard determine submodule for determine the inspection log generation module, equipment state obtain module and Any one in the building state acquisition module, the communication data transfer standard mutual with the middle control module；

The encryption of communicated data submodule is used to obtain module and institute to the inspection log generation module, equipment state State any one in building state acquisition module, the communication data mutual with the middle control module executes preset mode Encryption；

Further, the alarm module includes fire-fighting dangerous situation notice submodule and fire-fighting dangerous situation message cluster transmition submodule；Its In,

The fire-fighting dangerous situation notice submodule is used to execute difference to the corresponding equipment of the monitoring objective or building The fire-fighting dangerous situation broadcast operation of form；

The fire-fighting dangerous situation message cluster transmition submodule is used for pre-set not to the intelligent fire remote monitoring system With terminal mass-sending about the monitoring objective there is currently fire-fighting dangerous situation message；

Further, the middle control module is also used to corresponding all to the monitoring objective by the remote communication module Each of equipment accordingly support by maintenance client or the corresponding service for infrastructure end of the building, transmission fire-fighting dangerous situation Notification message；

Alternatively,

The middle control module is also used to carry out sending early warning to all devices according to the running state information of all devices, and It controls the equipment to stop working, the middle control module carries out sending early warning to all devices, and controls the equipment and stop work The process of work specifically includes,

Step (1) obtains module using the equipment state and obtains the running state information of current all devices, and extracts The running state information corresponding feature vector D1, described eigenvector D1 for forming all devices include N number of element value, N =N1*N2, N1 are the total quantity of equipment, and N2 is the equipment index quantity that each equipment needs to detect；

Step (2), forms a historical information database in the middle control module, and the historical information database includes Each equipment corresponding P data when being safeguarded, each data in the P data include described eigenvector D1 Corresponding N number of element value forms matrix A according to N number of element value that the P data respectively contains, and in the P data Each data behind mark its and corresponding need facility information for safeguarding so as to form maintenance vector Y；

Balanced vector D and balanced matrix B is calculated using following formula (1) in step (3)

In above-mentioned formula (1), B_i,tFor the element value of the i-th row t column in the balanced matrix B, A_i,tFor the matrix A In the i-th row t column element value, D1_tFor t-th of element value of described eigenvector D1, D_tIt is t-th of the balanced vector D Element value, sum (D1) indicate to feature vector D1 carry out summation operation, i=1,2 ..., P, t=1,2 ..., N；

The difference matrix CY of the balanced matrix B is calculated using following formula (2) for step (4)

In above-mentioned formula (2), CY_j,tFor in the difference matrix CY jth row t arrange element value, j=1,2 ..., P, T=1,2 ..., N；

The coefficient of variation vector C of the difference matrix CY is calculated using following formula (3) for step (5)

| CY- λ E | C=0 (3)

In above-mentioned formula (3), E is unit matrix, obtains characteristic coefficient λ by solving above-mentioned formula (3), will have most The characteristic coefficient λ being worth greatly is updated to above-mentioned formula (3), that is, the coefficient of variation vector C is calculated；

Step (6) calculates the score value of the balanced vector D using following formula (4) and (5) and calculates the balanced moment The corresponding score value of every a line in battle array B

In above-mentioned formula (4) and (5), DF is the score value of the balanced vector D, F_iFor the i-th row in the balanced matrix B Score value, C_tFor t-th of element value of the coefficient of variation vector C, e is natural constant,Expression pair A function containing unknown number xIntegral operation is carried out, and the value of x is 0-t, It indicates to a function containing unknown number xIntegral operation is carried out, and the value of x is 0-t；

Step (7) needs to issue early warning using following formula (6) determination, and stops working

Z=findmin (| DF-F₁|、|DF-F₂|、|DF-F₃|……|DF-F_P|) (6)

In above-mentioned formula (6), findmin () indicates to find the subscript value in bracket with the corresponding element of minimum value, Z To find obtained small scale value, corresponding the Z value Y in the maintenance vector Y at this time_zCorresponding equipment be then can issue it is pre- It is alert, and the equipment to stop working；

Step (8), the control module needs to issue early warning according to what the step (7) determined, and what is stopped working sets It is standby to execute corresponding operation.

Compared with the prior art, which includes that inspection log generation module, equipment state obtain Modulus block, building state acquisition module, remote communication module, alarm module and middle control module；Wherein, which generates Module is for generating about in the corresponding different disposal situation information log of inspection process；The equipment state obtains module for obtaining Take the running state information about the corresponding all devices of monitoring objective；The building state acquisition module is for obtaining about this The corresponding building status information of monitoring objective；The remote communication module is used for the different disposal situation log, this all sets At least one of standby running state information and building status information data transmission controls module into this；Module is controlled in this Data for transmitting to the remote communication module are analyzed and processed, and indicate that the alarm module carries out the report of adaptability with this Alert operation.As it can be seen that the intelligent fire remote monitoring system by monitoring area be arranged different performance monitoring module, with this The inspection log information about the monitoring area, device status information and building status information are obtained, then by remotely leading to The different type monitoring information transmission of acquisition is carried out corresponding analysis processing into middle control module by the mode of letter, and is made with this The alarm of adaptability operates, and the intelligent fire remote monitoring system is corresponding by different monitoring areas by way of telecommunication Monitoring information be transmitted in same middle control module and focused on, to be effectively reduced the cost of fire fighting monitoring and mention The fire-fighting dangerous situation of high difference monitoring area judges speed.

Other features and advantages of the present invention will be illustrated in the following description, also, partly becomes from specification It obtains it is clear that understand through the implementation of the invention.The objectives and other advantages of the invention can be by written explanation Specifically noted structure is achieved and obtained in book, claims and attached drawing.

Below by drawings and examples, technical scheme of the present invention will be described in further detail.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with It obtains other drawings based on these drawings.

Fig. 1 is a kind of structural schematic diagram of intelligent fire remote monitoring system provided by the invention.

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.

It refering to fig. 1, is a kind of structural schematic diagram of intelligent fire remote monitoring system provided in an embodiment of the present invention.The intelligence Can fire remote-monitoring system include that inspection log generation module, equipment state obtain module, building state acquisition module, remote Journey communication module, alarm module and middle control module；Wherein,

The inspection log generation module is for generating about in the corresponding different disposal situation information log of inspection process；

The equipment state obtains module and is used to obtain the running state information about the corresponding all devices of monitoring objective；

The building state acquisition module is for obtaining about the corresponding building status information of the monitoring objective；

The remote communication module be used for by the different disposal situation log, all devices running state information and this build It builds at least one of object status information data transmission and controls module into this；

The data that module is used to transmit the remote communication module are controlled in this to be analyzed and processed, and the alarm is indicated with this Module carries out the alarm operation of adaptability.

Preferably, which includes that inspection state adjusting submodule, inspection state verify submodule, different Normal state processing submodule and log transform subblock；

Preferably, the inspection state adjusting submodule is corresponding for the inspection device of the monitoring objective for remotely adjustment Inspection state makes the inspection device be able to carry out different inspection operation modes with this；

Preferably, which verifies submodule for determining whether the currently performed inspection processing of the inspection device accords with Close preset condition；

Preferably, abnormality processing submodule is used to determine the abnormal shape that the inspection device determines during inspection The corresponding processing progress of state；

Preferably, which is used to generate the difference according to about the abnormality alignment processing progress Disposition information log.

Preferably, which adjusts the corresponding inspection state of the inspection device and specifically includes,

The inspection state adjusting submodule receives several inspection historical state datas from the remote communication module；

The inspection state adjusting submodule constructs patrolling about the inspection device according to several inspection historical state datas Examine operation model；

The inspection state adjusting submodule currently will operate mould as the inspection about the monitoring objective inspection real time data The input source data of type obtains the inspection operation module that the inspection device currently adapts to this.

Preferably, it is pre- to determine whether the currently performed inspection processing of the inspection device meets for inspection state verification submodule If condition specifically includes,

The inspection state verifies submodule and receives the preset condition related data from the remote communication module；

The inspection state verifies the submodule inspection operation execution state and the preset condition phase that the inspection device is current It closes data and carries out matching treatment, if the two matches, the inspection operation execution state for maintaining the inspection device current is constant, if The two mismatches, then the message that module feedback checks operation exception about current inspection device is controlled into this；

Preferably, abnormality processing submodule also passes through the remote communication module, and to module feedback is controlled in this, this is different The corresponding processing progress of normal state, wherein the abnormality includes dangerous material storage configuration or power circuit state.

Preferably, it includes equipment operating temperature acquisition submodule, equipment operating current/voltage which, which obtains module, State acquisition submodule, operation hours state acquisition submodule and running state information generate submodule；

Preferably, which is used to obtain work temperature of the equipment in default monitoring period of time Spend delta data；

Preferably, the equipment operating current/voltage status acquisition submodule is for obtaining the equipment in the default monitoring Operating current and/or operating voltage delta data in section；

Preferably, which is used to obtain the longest duration of operation of the equipment；

Preferably, the running state information generate submodule be used for according to the temperature change data, operating current and/ Or at least one of operating voltage delta data, the maximum length in time calculate the operating status letter for obtaining all devices Breath.

Preferably, which includes building attribute information acquisition submodule, Indoor environment ring Border acquisition of information submodule, outdoor buildings environment information acquisition submodule and building status information generate submodule；

Preferably, which is used to obtain the build-in attribute data of the building；

Preferably, the Indoor environment environment information acquisition submodule is for obtaining the corresponding full indoor environment of the building Related data；

Preferably, the outdoor buildings environment information acquisition submodule is for obtaining the corresponding outdoor environment phase of the building Close data；

Preferably, which generates submodule and is used for according to the build-in attribute data, the full indoor environment At least one of related data and the outdoor environment related data generate the building status information.

Preferably, which at least obtains the corresponding geographical location of the building, building At least one of object height and building platform height are used as the build-in attribute data；

Preferably, which at least obtains the corresponding indoor channel point of the building At least one of cloth information, indoor fire-fighting device distribution information and house wire route distributed intelligence are used as the full indoor environment Related data；

Preferably, which at least obtains the corresponding outdoor terrain point of the building At least one of cloth information, outdoor vegetation distributed intelligence and outdoor adjacent building distributed intelligence are used as the outdoor environment dependency number According to.

Preferably, which includes that communication port determines that submodule, communication standard determine submodule and communication Data encryption submodule；

Preferably, which determines submodule for determining that the inspection log generation module, equipment state obtain mould Any one in block and the building state acquisition module, the communication hardware port address mutual with control module in this；

Preferably, which determines submodule for determining that the inspection log generation module, equipment state obtain mould Any one in block and the building state acquisition module, the communication data transfer standard mutual with control module in this；

Preferably, which is used to obtain module to the inspection log generation module, equipment state Preset mode is executed with any one in the building state acquisition module, the communication data mutual with control module in this Encryption.

Preferably, which includes fire-fighting dangerous situation notice submodule and fire-fighting dangerous situation message cluster transmition submodule；

Preferably, fire-fighting dangerous situation notice submodule is used to execute not to the corresponding equipment of the monitoring objective or building With the fire-fighting dangerous situation broadcast operation of form；

Preferably, which is used for pre-set to the intelligent fire remote monitoring system Different terminals mass-sending about the monitoring objective there is currently fire-fighting dangerous situation message.

Preferably, module is controlled in this to be also used to through the remote communication module into the corresponding all devices of the monitoring objective Each corresponding maintenance client or the corresponding service for infrastructure end of the building, send fire-fighting dangerous situation and support notice and disappear Breath；

Preferably, in this control module be also used to that all devices issue according to the running state information of all devices it is pre- It is alert, and control the equipment and stop working, control module carries out sending early warning to all devices in this, and controls the equipment and stop The process of work specifically includes,

Step (1) obtains module using the equipment state and obtains the running state information of current all devices, and extracts shape It include N number of element value, N=N1* at the corresponding feature vector D1 of the running state information of all devices, this feature vector D1 N2, N1 are the total quantity of equipment, and N2 is the equipment index quantity that each equipment needs to detect；

Step (2) is controlled in this and forms a historical information database in module, which includes each Equipment corresponding P data when being safeguarded, each data in the P data include the corresponding N of this feature vector D1 A element value forms matrix A, and each number in the P data according to N number of element value that the P data respectively contains Corresponding need facility information for safeguarding so as to form maintenance vector Y according to its is marked below；

Balanced vector D and balanced matrix B is calculated using following formula (1) in step (3)

In above-mentioned formula (1), B_i,tFor the element value that the i-th row t in the equilibrium matrix B is arranged, A_i,tIt is in the matrix A The element value of i row t column, D1_tFor t-th of element value of this feature vector D1, D_tFor t-th of element value of equilibrium vector D, Sum (D1) indicate to feature vector D1 carry out summation operation, i=1,2 ..., P, t=1,2 ..., N；

The difference matrix CY of the equilibrium matrix B is calculated using following formula (2) for step (4)

In above-mentioned formula (2), CY_j,tFor in the difference matrix CY jth row t arrange element value, j=1,2 ..., P, t =1,2 ..., N；

The coefficient of variation vector C of difference matrix CY is calculated using following formula (3) for step (5)

| CY- λ E | C=0 (3)

In above-mentioned formula (3), E is unit matrix, obtains characteristic coefficient λ by solving above-mentioned formula (3), will have most The characteristic coefficient λ being worth greatly is updated to above-mentioned formula (3), that is, coefficient of variation vector C is calculated；

Step (6) calculates the score value of equilibrium vector D using following formula (4) and (5) and calculates the equilibrium matrix B In the corresponding score value of every a line

In above-mentioned formula (4) and (5), DF is the score value of equilibrium vector D, F_iFor point of the i-th row in the equilibrium matrix B Value, C_tFor t-th of element value of coefficient of variation vector C, e is natural constant,It indicates to containing not Know a function of several xIntegral operation is carried out, and the value of x is 0-t,It indicates To a function containing unknown number xIntegral operation is carried out, and the value of x is 0-t；

Step (7) needs to issue early warning using following formula (6) determination, and stops working

Z=findmin (| DF-F₁|、|DF-F₂|、|DF-F₃|……|DF-F_P|) (6)

In above-mentioned formula (6), findmin () indicates to find the subscript value in bracket with the corresponding element of minimum value, Z To find obtained small scale value, corresponding the Z value Y in the maintenance vector Y at this time_zCorresponding equipment be then can issue it is pre- It is alert, and the equipment to stop working；

Step (8), the control module needs to issue early warning according to what the step (7) determined, and what is stopped working sets It is standby to execute corresponding operation.

From above-described embodiment as can be seen that the intelligent fire remote monitoring system includes inspection log generation module, equipment State acquisition module, building state acquisition module, remote communication module, alarm module and middle control module；Wherein, the inspection day Will generation module is for generating about in the corresponding different disposal situation information log of inspection process；The equipment state obtains module For obtaining the running state information about the corresponding all devices of monitoring objective；The building state acquisition module is for obtaining About the corresponding building status information of the monitoring objective；The remote communication module is used for the different disposal situation log, is somebody's turn to do At least one of the running state information of all devices and the building status information data transmission control module into this；In this The data that control module is used to transmit the remote communication module are analyzed and processed, and indicate that the alarm module is adapted to this Property alarm operation.As it can be seen that the intelligent fire remote monitoring system passes through the monitoring mould in monitoring area setting different performance Block obtains the inspection log information about the monitoring area, device status information and building status information with this, then passes through The different type monitoring information transmission of acquisition is carried out corresponding analysis processing into middle control module by the mode of telecommunication, and with This makes the alarm operation of adaptability, and the intelligent fire remote monitoring system is by way of telecommunication by the monitored area of difference The corresponding monitoring information in domain is transmitted in same middle control module and is focused on, to be effectively reduced the cost of fire fighting monitoring And the fire-fighting dangerous situation of the different monitoring areas of raising judges speed.

Obviously, various changes and modifications can be made to the invention without departing from essence of the invention by those skilled in the art Mind and range.In this way, if these modifications and changes of the present invention belongs to the range of the claims in the present invention and its equivalent technologies Within, then the present invention is also intended to include these modifications and variations.

Claims (10)

1. a kind of intelligent fire remote monitoring system, it is characterised in that:

The intelligent fire remote monitoring system includes inspection log generation module, equipment state acquisition module, building state Obtain module, remote communication module, alarm module and middle control module；Wherein,

The inspection log generation module is for generating about in the corresponding different disposal situation information log of inspection process；

The equipment state obtains module and is used to obtain the running state information about the corresponding all devices of monitoring objective；

The building state acquisition module is for obtaining about the corresponding building status information of the monitoring objective；

The remote communication module is used for the different disposal situation log, the running state information of all devices and institute At least one of building status information data transmission is stated to the middle control module；

The data that the middle control module is used to transmit the remote communication module are analyzed and processed, and indicate the report with this Alert module carries out the alarm operation of adaptability.

2. intelligent fire remote monitoring system as described in claim 1, it is characterised in that:

The inspection log generation module includes that inspection state adjusting submodule, inspection state verify submodule, at abnormality Manage submodule and log transform subblock；Wherein,

The inspection state adjusting submodule is directed to the corresponding inspection shape of inspection device of the monitoring objective for remotely adjusting State makes the inspection device be able to carry out different inspection operation modes with this；

The inspection state verifies submodule for determining it is default whether the currently performed inspection processing of the inspection device meets Condition；

The abnormality that the abnormality processing submodule is used to determine that the inspection device to determine during inspection is corresponding Processing progress；

The log transform subblock is used to generate the different disposal feelings according to about the abnormality alignment processing progress Condition information log.

3. intelligent fire remote monitoring system as claimed in claim 2, it is characterised in that:

The inspection state adjusting submodule adjusts the corresponding inspection state of the inspection device and specifically includes, the inspection state Adjusting submodule receives several inspection historical state datas from the remote communication module；

The inspection state adjusting submodule is constructed according to several inspection historical state datas about the inspection device Inspection operation model；

The inspection state adjusting submodule will be operated currently about the monitoring objective inspection real time data as the inspection The input source data of model obtains the inspection operation module that the inspection device currently adapts to this.

4. intelligent fire remote monitoring system as claimed in claim 2, it is characterised in that:

The inspection state verifies submodule and determines whether the currently performed inspection processing of the inspection device meets preset condition It specifically includes,

The inspection state verifies submodule and receives the preset condition related data from the remote communication module；

The inspection state verifies the submodule inspection operation execution state and the preset condition that the inspection device is current Related data carries out matching treatment, if the two matches, the inspection operation execution state for maintaining the inspection device current is not Become, if the two mismatches, checks the message of operation exception about current inspection device to the middle control module feedback；

Alternatively,

The abnormality processing submodule is also by the remote communication module, to exception shape described in the middle control module feedback The corresponding processing progress of state, wherein the abnormality includes dangerous material storage configuration or power circuit state.

5. intelligent fire remote monitoring system as described in claim 1, it is characterised in that:

It includes equipment operating temperature acquisition submodule, equipment operating current/voltage status acquisition that the equipment state, which obtains module, Submodule, operation hours state acquisition submodule and running state information generate submodule；Wherein,

The equipment operating temperature acquisition submodule is used to obtain temperature change of the equipment in default monitoring period of time Data；

Equipment operating current/voltage status the acquisition submodule is for obtaining the equipment in the default monitoring period of time Operating current and/or operating voltage delta data；

The equipment running status acquisition submodule is used to obtain the longest duration of operation of the equipment；The operating status Information generates submodule and is used for according to the temperature change data, operating current and/or operating voltage delta data, described At least one of maximum length in time calculates the running state information for obtaining all devices.

6. intelligent fire remote monitoring system as described in claim 1, it is characterised in that:

The building state acquisition module includes building attribute information acquisition submodule, Indoor environment environment information acquisition Submodule, outdoor buildings environment information acquisition submodule and building status information generate submodule；Wherein,

The building attribute information acquisition submodule is used to obtain the build-in attribute data of the building；

The Indoor environment environment information acquisition submodule is for obtaining the corresponding full indoor environment dependency number of the building According to；

The outdoor buildings environment information acquisition submodule is for obtaining the corresponding outdoor environment related data of the building；

The building status information generates submodule and is used for according to the build-in attribute data, the full indoor environment dependency number The building status information is generated according to at least one of the outdoor environment related data.

7. intelligent fire remote monitoring system as claimed in claim 6, it is characterised in that:

The building attribute information acquisition submodule at least obtain the corresponding geographical location of the building, depth of building and At least one of building platform height is used as the build-in attribute data；

Alternatively,

The Indoor environment environment information acquisition submodule at least obtain the corresponding indoor channel distributed intelligence of the building, Indoor fire-fighting device distribution information and at least one of house wire route distributed intelligence are related as the full indoor environment Data；

Alternatively,

The outdoor buildings environment information acquisition submodule at least obtain the corresponding outdoor terrain distributed intelligence of the building, At least one of outdoor vegetation distributed intelligence and outdoor adjacent building distributed intelligence are used as the outdoor environment related data.

8. intelligent fire remote monitoring system as described in claim 1, it is characterised in that:

The remote communication module includes that communication port determines that submodule, communication standard determine submodule and encryption of communicated data Module；Wherein,

The communication port determines submodule for determining that the inspection log generation module, equipment state obtain module and described Any one in building state acquisition module, the communication hardware port address mutual with the middle control module；

The communication standard determines submodule for determining that the inspection log generation module, equipment state obtain module and described Any one in building state acquisition module, the communication data transfer standard mutual with the middle control module；

The encryption of communicated data submodule is used to obtain module to the inspection log generation module, equipment state and described build Build any one in object state acquisition module, the communication data mutual with the middle control module executes the encryption of preset mode Processing.

9. intelligent fire remote monitoring system as described in claim 1, it is characterised in that:

The alarm module includes fire-fighting dangerous situation notice submodule and fire-fighting dangerous situation message cluster transmition submodule；Wherein,

The fire-fighting dangerous situation notice submodule is used to execute different form to the corresponding equipment of the monitoring objective or building Fire-fighting dangerous situation broadcast operation；

The fire-fighting dangerous situation message cluster transmition submodule is used for pre-set different whole to the intelligent fire remote monitoring system End mass-sending about the monitoring objective there is currently fire-fighting dangerous situation message.

10. intelligent fire remote monitoring system as described in claim 1, it is characterised in that:

The middle control module is also used to every into the corresponding all devices of the monitoring objective by the remote communication module One corresponding maintenance client or the corresponding service for infrastructure end of the building, send fire-fighting dangerous situation and support notification message；

Alternatively,

The middle control module is also used to carry out sending early warning to all devices according to the running state information of all devices, and controls The equipment stops working, and the middle control module carries out sending early warning to all devices, and controls what the equipment stopped working Process specifically includes,

Step (1) obtains module using the equipment state and obtains the running state information of current all devices, and extracts and to be formed The running state information of all devices corresponding feature vector D1, described eigenvector D1 include N number of element value, N=N1* N2, N1 are the total quantity of equipment, and N2 is the equipment index quantity that each equipment needs to detect；

Step (2), forms a historical information database in the middle control module, and the historical information database includes each Equipment corresponding P data when being safeguarded, each data in the P data include described eigenvector D1 corresponding N number of element value, the N number of element value respectively contained according to the P data forms matrix A, and every in the P data Its corresponding facility information for needing to safeguard is marked behind one data so as to form maintenance vector Y；

Balanced vector D and balanced matrix B is calculated using following formula (1) in step (3)

In above-mentioned formula (1), B_i,tFor the element value of the i-th row t column in the balanced matrix B, A_i,tIt is in the matrix A The element value of i row t column, D1_tFor t-th of element value of described eigenvector D1, D_tFor t-th of element of the balanced vector D Value, sum (D1) indicate to feature vector D1 carry out summation operation, i=1,2 ..., P, t=1,2 ..., N；

The difference matrix CY of the balanced matrix B is calculated using following formula (2) for step (4)

In above-mentioned formula (2), CY_j,tFor in the difference matrix CY jth row t arrange element value, j=1,2 ..., P, t= 1,2,…,N；

The coefficient of variation vector C of the difference matrix CY is calculated using following formula (3) for step (5)

| CY- λ E | C=0 (3)

In above-mentioned formula (3), E is unit matrix, obtains characteristic coefficient λ by solving above-mentioned formula (3), will have maximum value Characteristic coefficient λ be updated to above-mentioned formula (3), that is, the coefficient of variation vector C is calculated；

Step (6) calculates the score value of the balanced vector D using following formula (4) and (5) and calculates the balanced matrix B In the corresponding score value of every a line

In above-mentioned formula (4) and (5), DF is the score value of the balanced vector D, F_iFor point of the i-th row in the balanced matrix B Value, C_tFor t-th of element value of the coefficient of variation vector C, e is natural constant,It indicates to containing A function of unknown number xIntegral operation is carried out, and the value of x is 0-t,It indicates To a function containing unknown number xIntegral operation is carried out, and the value of x is 0-t；

Step (7) determines the equipment for needing to issue early warning, and stopping working using following formula (6)

Z=findmin (| DF-F₁|、|DF-F₂|、|DF-F₃|……|DF-F_P|) (6)

In above-mentioned formula (6), findmin () indicates to find the subscript value in bracket with the corresponding element of minimum value, and Z is to seek The small scale value found, at this time corresponding the Z value Y in the maintenance vector Y_zCorresponding equipment is then that can issue early warning, And the equipment to stop working；

Step (8), the control module needs to issue early warning according to what the step (7) determined, and the equipment to stop working is held Row corresponding operation.