A kind of antiseepage monitoring system and method for monitoring and controlling based on terminal
Technical field
The present invention relates to seepage control project fields, more specifically to a kind of antiseepage monitoring system and prison based on terminal
Control control method.
Background technology
The problem of current building construction leakage and its harmfulness, is more and more, and the exterior wall of building is also because being house
The emphasis of waterproof, because the quality of wall anti-seepage leakage will have a direct impact on using effect and the service life of building, from
And great trouble is brought to work such as estate management, specialized maintenances, it is more brought to owner and resident family on substance and spiritual
Massive losses, exterior wall has to be able to take to expose to the weather under specific natural environment as the coat of building, rainwater
The test washed away.Anti-seepage method in terms of in addition to building, can also carry out antiseepage by electric antiseepage equipment, and electric antiseepage equipment generates
Special waveform electric current, electric current form electricity by the anode being embedded in concrete structure and the cathode being embedded in outside concrete structure
Magnetic field, hydrone is attracted on the outside of structure by magnetic field, as long as electromagnetic field is uninterrupted, hydrone can not enter back into (concrete or
Masonry) in structure, to make structure be chronically at relatively dry state.
It is this when being thrown to antiseepage equipment in use environment, site environment can not be carried out effectively to monitor and manage
Reason, needs to consume a large amount of manpower and materials, be embodied in:There is bursting problem in the measurement of live antiseepage equipment, and user is certainly
Body can not solve, and professional is needed to carry out the repair of antiseepage equipment, and whole process occupies a large amount of manpower and materials and time, makes to prevent
Ooze equipment can not normal operation, meanwhile, also seriously affect the experience of power user.
In conclusion how to efficiently solve in prior art scope, the lightweight of visualization and the management of data is realized,
It is solved with manual site, mitigates work difficulty, expand working environment range, realize that mobile terminal of mobile telephone is convenient for changing and takes
Band, the good characteristics such as remote terminal visualized operation are particularly important.It is directed in the prior art there is no corresponding scheme
Antiseepage monitoring system effectively monitor and manage.
Invention content
1. technical problems to be solved
When for being thrown to antiseepage equipment in use environment, site environment can not be carried out effectively to monitor and manage
Reason, needs to consume a large amount of manpower and materials problem, and the present invention provides a kind of antiseepage monitoring system based on terminal and monitoring control
Method.The lightweight of visualization and the management of data may be implemented in it, formulates expected solution and mitigates work difficulty, expands work
Make environmental field, realizes that mobile terminal of mobile telephone is convenient for changing and carries, the good characteristics such as remote terminal visualized operation.
2. technical solution
The purpose of the present invention is achieved through the following technical solutions.
A kind of antiseepage monitoring system based on terminal, including,
Picture control equipment, collection site image;
Dehumidify percolator, collection site environmental parameter;
Main control device receives the information of picture control equipment and the percolator that dehumidifies, handles the picture control equipment of receiving
With dehumidifying percolator information, and by terminal control signal return picture control equipment and dehumidifying percolator;
Terminal receives main control device and sends information, and control information is back to main control device.
Further, the picture control equipment includes several cameras, and camera is arranged in engineering site.
Further, the dehumidifying percolator includes the first acquisition being fixed on the wall in space to be measured
The second collecting device that equipment, the wall along the space to be measured vertically move.Can also include the first acquisition stand-by equipment, it can
To be used for the first stand-by equipment to replace the first collecting device.
Further, delivery work is being moved along the second collecting device setting of the wall in the space to be measured longitudinal movement
On tool, track is arranged on the wall in space to be detected, and mobile delivery vehicle moves in orbit.
Further, the terminal is mobile terminal or background computer system.
A kind of method for monitoring and controlling of the antiseepage monitoring system based on terminal, its step are as follows:
(1) by terminal profile normal parameters and standard video image, and main control device is sent information to;
(2) main control device obtains the real time video image at scene by the way that picture control equipment at the scene is arranged, by setting
Set the real time environment parameter value that there is the dehumidifying percolator of measurement and transfer function to obtain scene at the scene;
(3) real time environment parameter value is compared by main control device with setup parameter range, and whether judgement ambient condition is different
Often;
If real time environment parameter value falls into setup parameter range, judgement is normal;Terminal is sent information to, is shown in terminal
Regular prompt;If real time environment parameter value sends information to terminal outside setup parameter range, abnormal carry is shown in terminal
Show;
Real time video image is compared with setting video image, if unanimously, sending information to terminal, is shown in terminal
Regular prompt;If inconsistent, terminal is sent information to, abnormal prompt is shown in terminal;
(4) the abnormal real time environment parameter value shown according to terminal, terminal carries out site problems judgement, and provides solution party
Case, selection carry out step (5) by terminal solution, select manual solution, enter step (6);
(5) according to solution, terminal generates corresponding signal, sends the signal to main control device, main control device control figure
As monitoring device and dehumidifying percolator be configured, carry out Resolving probiems;
(6) according to solution, artificial progress Solve on site is prompted.
Further, the abnormal real time environment parameter value and/or abnormal real time video image that terminal is shown in step (3)
Site problems judgement is carried out, presence states are as follows,
If (a) real-time field environment parameter value is continuously 0, but terminal shows that video is normal;
If (b) large-scale saltus step occurs in real-time field environment parameter value, but terminal shows that video is normal;
If (c) large-scale saltus step occurs in real-time field environment parameter value, and terminal shows that video is abnormal;
If (d) real-time field environment parameter value is continuously steady state value, but terminal shows that video is normal.
Further, real time environment parameter value is shown in by broken line diagram form on terminal device.
Further, further include by obtained site problems and the corresponding solution party provided in step (5), (6)
Case uploads the process of cloud server.This system can also include cloud server, and corresponding problem is uploaded, and obtain more complete
The database of the problem of face and scheme obtain preferred solution.
Further, the main control device collected real time environment parameter value of percolator that will dehumidify carries out in step (3)
It calculates, obtains real-time monitor value, real time environment parameter value is simultaneously compared with setup parameter range.
The specific method for obtaining data is as follows:(A) main control device obtains the first data, and first data are adopted for first
Collection equipment and/or the first acquisition stand-by equipment obtain after being handled its collected humidity;
(A1) master control equipment emits data acquisition instructions to each first collecting device, triggers each first collecting device and carries out
Data acquisition and processing (DAP) obtains the first data;
Master control equipment sends instruction to each first collecting device transmitting data, triggers described in each first collecting device progress
The transmission of first data;
(A2) main control device judges whether to receive the first data, if received, enters step (A3);If do not connect
It receives, then enters step (A4);
(A3) if main control device judges whether the first data are accurate, if accurately, the first data of storage are spare, and enter step
(3);If inaccurate, enter step (A4);
(A4) master control equipment emits data acquisition instructions, triggering the first acquisition stand-by equipment to the first acquisition stand-by equipment
It carries out data acquisition and processing (DAP) and obtains the first data;
Master control equipment sends instruction to the first acquisition stand-by equipment transmitting data, and triggering the first acquisition stand-by equipment carries out
The transmission of first data;
(A5) return to step (A2) is judged after step (A4).
First collecting device and/or the first acquisition stand-by equipment carry out the step of data processing obtains the first data
For:It is calculated using following:
Wherein, HumGuFor fixed collection point integrated humidity, the first data are HumGu, N is natural number, indicates fixed collection point
Quantity, i indicate that i-th of fixation collection point, i-th of the first collecting device fixed on collection point of Nodei expressions and/or first are adopted
The humidity that sensor on collection stand-by equipment is acquired, HumSky 0For the air humidity desired value in space to be measured.
(B) main control device obtain the second data, second data be the second collecting device by its collected humidity into
It is obtained after row processing;
(B1) master control equipment sends mobile control sign on to mobile controller, and the second collecting device of control is according to setting
Determine path movement;
To time T, master control equipment sends mobile control END instruction to mobile controller, controls the second collecting device
Stop movement;
(B2) in time T, master control equipment emits data acquisition instructions according to gap periods t1 to the second collecting device,
It triggers the progress data acquisition and processing (DAP) of the second collecting device and obtains the second data;
Master control equipment sends instruction according to gap periods t1 to the second collecting device transmitting data, and the second acquisition of triggering is set
The standby transmission for carrying out second data;.
Main control device receives the second data, and storage is spare.
Second collecting device carries out data processing the step of obtaining the second data and is:It is calculated using following:
Wherein, Y indicates some mobile collection point in the total quantity of the position of metope different height, j expression mobile collection points
J-th of the position measured, Nodej indicate the humidity on j-th of position of the sensor acquisition on the second collecting device, NHumIt moves inclined
It is each mobile collection point relative to HumSky 0Deviation;
Wherein, HumIt moves inclinedIt is the opposite Hum of mobile collection pointSky 0Comprehensive deviation, k is natural number, indicate k-th of mobile collection
Point, M are natural number, indicate mobile collection point total quantity, NHumIt moves inclinedIt is each mobile collection point relative to HumSky 0Deviation,
NHumkIt moves inclinedCalculation formula is exactly NHumIt moves inclinedCalculation formula.
HumIt moves=HumSky 0+HumIt moves inclined;
Wherein, HumIt movesFor mobile collection point integrated humidity, HumIt movesFor the second data, HumSky 0Air for space to be measured is wet
Spend desired value, HumIt moves inclinedIt is the opposite Hum of mobile collection pointSky 0Comprehensive deviation.
(3) main control device handles first data and second data, obtains monitor value.
Main control device processing first data and the second data obtain monitor value, are calculated using following:
HumAir=HumSky 0+HumAir is inclined;
Wherein, HumAirFor the air comprehensive humidity in space to be measured, HumAirFor monitor value, HumAir is inclinedFor the sky in space to be measured
The comprehensive deviation of gas integrated humidity, HumSky 0For the air humidity desired value in space to be measured;
Wherein, HumIt moves inclinedIt is mobile collection point relative to HumSky 0Comprehensive deviation, HumGu partiallyFor fixed collection point relative to
HumSky 0Comprehensive deviation;
Wherein, HumGu partiallyIt is to fix collection point relative to HumSky 0Comprehensive deviation, N is natural number, and N indicates fixed collection point
Quantity, i indicate that i-th of fixation collection point, i-th of the first collecting device fixed on collection point of Nodei expressions and/or first are adopted
The humidity that sensor on collection stand-by equipment is acquired;
Wherein, HumIt moves inclinedIt is mobile collection point relative to HumSky 0Comprehensive deviation, k is natural number, indicate k-th of movement adopt
Collect point, M is natural number, indicates mobile collection point total quantity, NHumIt moves inclinedIt is each mobile collection point relative to HumSky 0Deviation;
Y indicates some mobile collection point in the total number of positions amount of metope different height, and Y is natural number, and j indicates mobile collection
J-th of position that point measures, Nodej indicate the humidity on j-th of position of the sensor acquisition on the second collecting device.
This programme passes through HumAirSetting value judge whether corresponding scene situation occurs with real-time detected value, entirely
System whether normal operation.
3. advantageous effect
Compared with the prior art, the advantage of the invention is that:
(1) present invention adds terminal and picture control equipment on antiseepage equipment, and the setting of picture control equipment is existing in detection
, be used for real-time monitoring field, terminal is user terminal, or the computer system terminal on backstage, terminal can with it is anti-
It oozes equipment to interact, for inputting the environmental parameter value and figure that instruction or display antiseepage equipment measurement obtain to antiseepage equipment
As the video image at the scene that monitoring device measurement obtains;User can observe the antiseepage feelings of monitoring environment by terminal remote
Condition can carry out problem anticipation by terminal operation when the abnormal real time environment parameter value that terminal is shown, and obtain solution,
It realizes that the problem for having directiveness solves, is ignorant of questions and prospect when avoiding general user as operating personnel and cannot operate,
It needs that the defect and deficiency that professional helps or oneself is blindly operated, whole process is asked to use manpower and material resources sparingly, facilitates use
Family operates, effective use equipment, and it is convenient to be brought for user and developer;
(2) this programme in the process, if problem can not be solved by terminal control, provides the user with solution and refers to
It leads user and carries out site problems processing, and handling result is transferred to terminal, reference and foundation are examined in later later period maintenance offer.This
Kind antiseepage equipment project management method realizes the lightweight of visualization and the management of data, formulates expected solution and mitigates work
Difficulty, expands working environment range, terminal have be convenient for carrying, the good characteristics such as visualized operation;
(3) this programme is additionally provided with cloud system, the corresponding problem of the server by being uploaded to cloud system, high in the clouds system
System obtains corresponding solution from database and is sent to terminal, preferably solves the problem, promptness and timeliness
Property is good;
(4) this programme also uses the difference that the first collecting device combines moveable second collecting device to realize space to be measured
The acquisition of the environmental parameter in entire space to be measured can be realized using less collecting device, avoid for the environmental monitoring of position
The waste of collecting device.Using the first collecting device, the second collecting device, realize using less collecting device to sky to be measured
Between the acquisition of comprehensive and accurate data, be a kind of simple and convenient but can ensure that data acquire comprehensive and accurate degree and validity
System.Main control device and the first collecting device, the second collecting device communicate simultaneously, and the acquisition of main control device pair first is facilitated to set
Standby, the second collecting device is controlled;
(5) this programme after controlling the first data of equipment acquisition, the second data by being handled to obtain monitor value, the first data
For fixed collection point integrated humidity, the second data are mobile collection point integrated humidity, by fixing collection point and shifting to setting
The relevant environmental parameter that each collecting device on dynamic collection point obtains is handled, and can comprehensively and accurately reflect space to be measured
The actual value of environmental parameter preferably embodies the situation of site environment, greatly reduces error, swift with judgement, can be accurate
The corresponding method of selection carry out the solution of problem.
Description of the drawings
Fig. 1 is present system structure flow chart;
Fig. 2 is the method for monitoring and controlling flow chart of the present invention;
Fig. 3 is the process flow diagram flow chart that scheme is provided after terminal judges.
Specific implementation mode
With reference to the accompanying drawings of the specification and specific embodiment, the present invention is described in detail.
Embodiment 1
As shown in Figure 1, a kind of antiseepage monitoring system based on terminal, including,
Picture control equipment, collection site image;The picture control equipment includes several cameras, camera setting
In engineering site.
Dehumidify percolator, collection site environmental parameter;The dehumidifying percolator includes being fixed at sky to be measured
Between wall on the first collecting device, along the space to be measured wall vertically move the second collecting device.It can also wrap
The first acquisition stand-by equipment is included, it can be by the first stand-by equipment for replacing the first collecting device.Wall along the space to be measured
On mobile delivery vehicle, track is arranged on the wall in space to be detected, moves for the second collecting device setting of wall longitudinal movement
Dynamic delivery vehicle moves in orbit.
Main control device receives the information of picture control equipment and the percolator that dehumidifies, handles the picture control equipment of receiving
With dehumidifying percolator information, and by terminal control signal return picture control equipment and dehumidifying percolator;
Terminal receives main control device and sends information, and control information is back to main control device.The terminal is movement
Terminal or background computer system.
The lightweight of visualization and the management of data is realized by above system, is formulated expected solution and is mitigated work hardly possible
Degree expands working environment range, also have if it is mobile terminal be convenient for carrying, the good characteristics such as visualized operation.
Embodiment 2
As shown in Fig. 2, based on above-mentioned system, this programme additionally provides a kind of prison of the antiseepage monitoring system based on terminal
Control method is controlled, its step are as follows:
(1) by terminal profile normal parameters and standard video image, and main control device is sent information to;
(2) main control device obtains the real time video image at scene by the way that picture control equipment at the scene is arranged, by setting
Set the real time environment parameter value that there is the dehumidifying percolator of measurement and transfer function to obtain scene at the scene;Real time environment is joined
Numerical value is shown in by broken line diagram form on terminal device.
(3) real time environment parameter value is compared by main control device with setup parameter range, and whether judgement ambient condition is different
Often;
If real time environment parameter value falls into setup parameter range, judgement is normal;Terminal is sent information to, is shown in terminal
Regular prompt;If real time environment parameter value sends information to terminal outside setup parameter range, abnormal carry is shown in terminal
Show;
Real time video image is compared with setting video image, if unanimously, sending information to terminal, is shown in terminal
Regular prompt;If inconsistent, terminal is sent information to, abnormal prompt is shown in terminal;
The acquisition methods of the setup parameter range of environmental parameter value are the environment ginsengs that specific time is measured using antiseepage equipment
Numerical value can be 3 days, 5 days or one week, the periods such as one month, will be remaining after rejecting the big environmental parameter value of individual gaps
Parameter value averagely obtained.When abnormal real time environment parameter value is displayed on the terminals, in the form of word and line chart
Two ways is shown, facilitates user's checking by client, and carry out corresponding operating;
Real time video image is compared with setting video image, if unanimously, showing that video is normal in terminal;If no
Unanimously, then it shows that video is abnormal in terminal, and shows abnormal real time video image;Set acquisition methods and the setting of screen image
The acquisition methods of environmental parameter value are consistent, measure specific time using camera, can be 3 days, 5 days or one week, one month
The equal periods, video image, after rejecting the big video image of individual gaps, remaining video image is averagely obtained
's.When measurement, if the screen image measured is normal, terminal, which is shown, continues to show original video image, with
When reducing the required flow of image update, only video image exception, screen image is just carried out in terminal to display and more
Newly.
The abnormal real time environment parameter value and/or abnormal real time video image that terminal is shown carry out site problems judgement, existing
Field state is as follows,
If (a) real-time field environment parameter value is continuously 0, but terminal shows that video is normal;
If (b) large-scale saltus step occurs in real-time field environment parameter value, but terminal shows that video is normal;
If (c) large-scale saltus step occurs in real-time field environment parameter value, and terminal shows that video is abnormal;
If (d) real-time field environment parameter value is continuously steady state value, but terminal shows that video is normal.
(4) the abnormal real time environment parameter value shown according to terminal, terminal carries out site problems judgement, and provides solution party
Case, selection carry out step (5) by terminal solution, select manual solution, enter step (6);
First judge parameter value, because parameter value is most accurate, such as:It sets node and measures moistness value range as (0-100), wherein
Range of normal value is (40-90), and measured value is compared with range of normal value, there is following several situations:
Measured value is in range of normal value:External environment humidity is normal;Deviate on range of normal value boundary but in normal value model
In enclosing:External ambient humidity allows user to choose whether that antiseepage dehumidifies by terminal;It is offset to the limit, humidity sensor measurement side
Boundary's numerical value (upper limit 100:Water covers, lower limit 0:Sensor degradation), it is monitored in real time by camera, artificial judgment equipment is
No damage.
If parameter is abnormal, judged using image, it will observe following situations:
Measurement module, main controller is smoldered or casing deformation:High temperature store does not dissipate in machine or short-circuit high temperature causes, and report equipment is burnt
It damages bad;Acquire monitoring module, the abnormal flicker of power lights of main controller:Flicker frequency not pair or is not gone out, powerup issue;Acquisition prison
Control module, the abnormal flicker of program monitoring lamp of main controller:Flicker frequency not pair or is not gone out, program or sensor or Communication;
Whether removable acquisition mould module periodically moves, and movement is can't see when long in image, and power lights are good, motor or circuit or rail
Road failure, if power lights are bad, power supply circuit is bad.
When image is also abnormal, artificial judgment is carried out, corresponding specific solution is taken to handle.
(5) according to solution, terminal generates corresponding signal, sends the signal to main control device, main control device control figure
As monitoring device and dehumidifying percolator be configured, carry out Resolving probiems;
(6) according to solution, artificial progress Solve on site is prompted.Step 5,6 can also by obtained site problems and
The corresponding solution provided uploads the process of cloud server.This system can also include cloud server, will be corresponding
Problem uploads, and obtains the database of more fully problem and scheme, obtains preferred solution.Site problems and corresponding
Solution upload server stores in the server, to form the complete failure logging about antiseepage equipment, after facilitating
Statistics, repair of phase etc..Can also further include that terminal sends the process reported to server according to handling result the problem of acquisition.
Include the problematic request for whether solving and whether needing professional to help in the report.If terminal user's solution is never
Site problems then can ask professional to help by the report;If terminal user solves site problems,
The report then sent is stored in server, is checked with facilitating the later stage to call.Obtain corresponding solution, have directiveness carry out ask
The key to exercises is determined, and blindness that ordinary user solves the problems, such as or constant when needing to solve by professional staff, side are reduced
Just quick, save manpower and materials;It should be noted that when, ordinary user goes to scene to ask according to the solution that terminal indicates
When the key to exercises is determined, it is the need to ensure that the power supply at scene, circuit are in working condition.
Embodiment 3
Embodiment 3 is substantially the same manner as Example 2, also resides in, the abnormal real time environment parameter value and/or exception that terminal is shown
Real time video image carries out site problems judgement, and presence states are more specifically as follows,
If (a) real-time field environment parameter value is continuously 0, but terminal shows that video is normal, then whether judges the first equipment
Damage, terminal simultaneously shows solution, specific as follows:
Whether the surface that terminal observes the equipment with measurement and transfer function by camera in real time is damaged;
If there are damaged surfaces, terminal shows the first solution;
If damaged surfaces are not present, reboot operation instruction is sent to the first equipment by terminal, for triggering described the
One equipment resurveys and emits real time environment parameter value;
If terminal reacquires the real time environment parameter value at scene by the way that the first equipment at the scene is arranged, terminal is shown
Problem remotely solves;If terminal cannot reacquire the real time environment parameter value at scene by the way that the first equipment at the scene is arranged,
Then terminal shows the second solution;
If (b) large-scale saltus step occurs in real-time field environment parameter value, but terminal shows that video is normal, then judges first
Whether equipment is damaged, and terminal simultaneously shows solution, specific as follows:
Whether the surface that terminal observes the equipment with measurement and transfer function by camera in real time is damaged;
If there are damaged surfaces, terminal shows the first solution;Field replaceable or repair described first are gone before artificial
Equipment.
If damaged surfaces are not present, reboot operation instruction is sent to the first equipment by terminal, for triggering described the
One equipment resurveys and emits real time environment parameter value;
If terminal reacquires the real time environment parameter value at scene by the way that the first equipment at the scene is arranged, terminal is shown
Problem remotely solves;If terminal cannot reacquire the real time environment parameter value at scene by the way that the first equipment at the scene is arranged,
Then terminal shows the second solution;Site Detection, repair are gone before artificial or replace first equipment.
If (c) large-scale saltus step occurs in real-time field environment parameter value, and terminal shows that video is abnormal, then terminal is shown
Third solution;Third solution be it is artificial before go Site Detection environment, detection, repair or replace first equipment.
If (d) real-time field environment parameter value is continuously steady state value, but terminal shows that video is normal, then terminal is set to first
Preparation send parameter acquisition to instruct, and real-time field environment parameter value is acquired for triggering the first equipment;
If the real-time field environment parameter value that terminal is shown changes, and terminal obtains the most recent parameters that the first equipment is sent and returns
Multiple instruction, then terminal display problem solution;
If the real-time field environment parameter value that terminal is shown does not change, but terminal obtains the most recent parameters that the first equipment is sent
Replying instruction, then terminal show the 4th solution;Site Detection, repair are gone before artificial or replace being used for for first equipment
The part of data transmission.
If the real-time field environment parameter value that terminal is shown does not change, and terminal does not obtain the newest ginseng of the first equipment transmission
Replying instruction is counted, then terminal shows the 5th solution.Site Detection, repair or the use for replacing first equipment are gone before artificial
In the part of data acquisition.
Above-mentioned solution can be set according to demand, can also such as be controlled by terminal, be restarted corresponding
Equipment carries out the solution of problem.
Embodiment 4
Based on embodiment 2, embodiment 4 further includes, and the main control device percolator that will dehumidify is collected in real time in step (3)
Environmental parameter value is calculated, and real-time monitor value is obtained, and real time environment parameter value is simultaneously compared with setup parameter range.
The specific method for obtaining data is as follows:(A) main control device obtains the first data, and first data are adopted for first
Collection equipment and/or the first acquisition stand-by equipment obtain after being handled its collected humidity;
(A1) master control equipment emits data acquisition instructions to each first collecting device, triggers each first collecting device and carries out
Data acquisition and processing (DAP) obtains the first data;
Master control equipment sends instruction to each first collecting device transmitting data, triggers described in each first collecting device progress
The transmission of first data;
(A2) main control device judges whether to receive the first data, if received, enters step (A3);If do not connect
It receives, then enters step (A4);
(A3) if main control device judges whether the first data are accurate, if accurately, the first data of storage are spare, and enter step
(3);If inaccurate, enter step (A4);
(A4) master control equipment emits data acquisition instructions, triggering the first acquisition stand-by equipment to the first acquisition stand-by equipment
It carries out data acquisition and processing (DAP) and obtains the first data;
Master control equipment sends instruction to the first acquisition stand-by equipment transmitting data, and triggering the first acquisition stand-by equipment carries out
The transmission of first data;
(A5) return to step (A2) is judged after step (A4).
First collecting device and/or the first acquisition stand-by equipment carry out the step of data processing obtains the first data
For:It is calculated using following:
Wherein, HumGuFor fixed collection point integrated humidity, the first data are HumGu, N is natural number, indicates fixed collection point
Quantity, i indicate that i-th of fixation collection point, i-th of the first collecting device fixed on collection point of Nodei expressions and/or first are adopted
The humidity that sensor on collection stand-by equipment is acquired, HumSky 0For the air humidity desired value in space to be measured.
(B) main control device obtain the second data, second data be the second collecting device by its collected humidity into
It is obtained after row processing;
(B1) master control equipment sends mobile control sign on to mobile controller, and the second collecting device of control is according to setting
Determine path movement;
To time T, master control equipment sends mobile control END instruction to mobile controller, controls the second collecting device
Stop movement;
(B2) in time T, master control equipment emits data acquisition instructions according to gap periods t1 to the second collecting device,
It triggers the progress data acquisition and processing (DAP) of the second collecting device and obtains the second data;
Master control equipment sends instruction according to gap periods t1 to the second collecting device transmitting data, and the second acquisition of triggering is set
The standby transmission for carrying out second data;.
Main control device receives the second data, and storage is spare.
Second collecting device carries out data processing the step of obtaining the second data and is:It is calculated using following:
Wherein, Y indicates some mobile collection point in the total quantity of the position of metope different height, j expression mobile collection points
J-th of the position measured, Nodej indicate the humidity on j-th of position of the sensor acquisition on the second collecting device, NHumIt moves inclined
It is each mobile collection point relative to HumSky 0Deviation;
Wherein, HumIt moves inclinedIt is the opposite Hum of mobile collection pointSky 0Comprehensive deviation, k is natural number, indicate k-th of mobile collection
Point, M are natural number, indicate mobile collection point total quantity, NHumIt moves inclinedIt is each mobile collection point relative to HumSky 0Deviation,
NHumkIt moves inclinedCalculation formula is exactly NHumIt moves inclinedCalculation formula.
HumIt moves=HumSky 0+HumIt moves inclined;
Wherein, HumIt movesFor mobile collection point integrated humidity, HumIt movesFor the second data, HumSky 0Air for space to be measured is wet
Spend desired value, HumIt moves inclinedIt is the opposite Hum of mobile collection pointSky 0Comprehensive deviation.
(3) main control device handles first data and second data, obtains monitor value.
Main control device processing first data and the second data obtain monitor value, are calculated using following:
HumAir=HumSky 0+HumAir is inclined;
Wherein, HumAirFor the air comprehensive humidity in space to be measured, HumAirFor monitor value, HumAir is inclinedFor the sky in space to be measured
The comprehensive deviation of gas integrated humidity, HumSky 0For the air humidity desired value in space to be measured;
Wherein, HumIt moves inclinedIt is mobile collection point relative to HumSky 0Comprehensive deviation, HumGu partiallyFor fixed collection point relative to
HumSky 0Comprehensive deviation;
Wherein, HumGu partiallyIt is to fix collection point relative to HumSky 0Comprehensive deviation, N is natural number, and N indicates fixed collection point
Quantity, i indicate that i-th of fixation collection point, i-th of the first collecting device fixed on collection point of Nodei expressions and/or first are adopted
The humidity that sensor on collection stand-by equipment is acquired;
Wherein, HumIt moves inclinedIt is mobile collection point relative to HumSky 0Comprehensive deviation, k is natural number, indicate k-th of movement adopt
Collect point, M is natural number, indicates mobile collection point total quantity, NHumIt moves inclinedIt is each mobile collection point relative to HumSky 0Deviation;
Y indicates some mobile collection point in the total number of positions amount of metope different height, and Y is natural number, and j indicates mobile collection
J-th of position that point measures, Nodej indicate the humidity on j-th of position of the sensor acquisition on the second collecting device.
This programme passes through HumAirSetting value scene corresponding with the multilevel iudge of real-time detected value whether go out present situation
Condition, whole system whether normal operation.
Schematically the invention and embodiments thereof are described above, description is not limiting, not
In the case of the spirit or essential characteristics of the present invention, the present invention can be realized in other specific forms.Institute in attached drawing
What is shown is also one of the embodiment of the invention, and actual structure is not limited to this, any attached in claim
Icon note should not limit the claims involved.So if those skilled in the art are enlightened by it, do not departing from
In the case of this creation objective, frame mode similar with the technical solution and embodiment are not inventively designed, it should all
Belong to the protection domain of this patent.In addition, one word of " comprising " is not excluded for other elements or step, "one" word before the component
It is not excluded for including " multiple " element.The multiple element stated in claim to a product can also by an element by software or
Person hardware is realized.The first, the second equal words are used to indicate names, and are not represented any particular order.