CN107908143A - Fluid flowmeter is used for the intelligent monitor system and its control method of gutter downpipe - Google Patents

Abstract

The present invention provides the intelligent monitor system that a kind of fluid flowmeter is used for gutter downpipe, including：Data acquisition mechanism, analysis projecting body and control terminal, liquid flow sensor and infrared ray sensor and image collecting device are equipped with data acquisition mechanism, data acquisition mechanism is connected by intelligent networking gateway with analyzing the input terminal of projecting body, the output terminal of analysis prediction module is connected with control terminal, and acquisition module, analysis prediction module and showing interface module are connected with control terminal.Its in the present invention can monitor open valley and downpipe operating status in real time by setting liquid flow sensor to be detected the fluid flow at gutter, without manually on duty；Can timely it pinpoint the problems, personnel easy to repair make corresponding measure, and timely gutter is dredged and safeguarded, effectively prevent gutter from blocking to cause to damage to roofing.

Description

Fluid flowmeter is used for the intelligent monitor system and its control method of gutter downpipe

Technical field

The invention belongs to building field, more particularly to a kind of fluid flowmeter is used for the intelligent monitor system of gutter downpipe And its control method.

Background technology

Gutter is structure common in steel building, it usually can either hinder during use because of pollutant Hinder thing to result in blockage it, once gutter blocks rainwater etc. will be caused to deposit, it will to cause serious damage to roofing.

Prevent that gutter and the most common method of leak blockage from being at present：

1）Widen intensification gutter, to block possibility by increasing discharge area to reduce gutter；

2）Add grille cover or protective cover on downpipe, ensure that material blocks downpipe opening to prevent falling stop leaf, room face waterproof

3）Discharge opening is set, and when other measures are failed, water can be overflowed from sluicing, and prevent from turning one's coat to interior.

4）The operating status of video surveillance gutter and downpipe.

Either deepen gutter, on downpipe plus grille cover or protective cover or method that spilled water hole is set using widening, All it is the method for preventing accident that is static, predicting in advance, that is, the measure used at the beginning of building is built, it is impossible to dynamic , historical development tests the gutter operation state during operation.

The operating status of video surveillance gutter and downpipe dynamically can be monitored gutter operating status, but by It is big in image transmission data amount, to bandwidth requirement height.In addition, point counting analysis Programming in Digital Image Processing of using tricks is complicated, easily erroneous judgement.It can only pass through 24 is manually on duty when small, and monitoring cost is high.

The content of the invention

Goal of the invention：In order to overcome the above insufficient, the object of the present invention is to provide a kind of fluid flowmeter to fall for gutter The intelligent monitor system of water pipe, can monitor open valley and downpipe operating status in real time, without manually on duty timely to day Ditch is dredged and safeguarded.

Technical solution：To achieve these goals, the present invention provides a kind of fluid flowmeter to be used for gutter downpipe Intelligent monitor system, including：Data acquisition mechanism, analysis projecting body and control terminal, wherein, in the data acquisition mechanism Equipped with liquid flow sensor, infrared ray sensor and image collecting device, the data acquisition mechanism passes through Internet of Things intelligence Energy gateway is connected with analyzing the input terminal of projecting body, and the output terminal of the analysis prediction module is connected with control terminal, described Acquisition module, analysis prediction module and showing interface module are connected with control terminal.

A kind of heretofore described fluid flowmeter is used for the intelligent monitor system of gutter downpipe, it is by setting liquid Body flow sensor is detected the fluid flow at gutter, to be detected to the water leakage situation of roofing, when it is detected During roofing the occurrence of wetness, can timely it pinpoint the problems, personnel easy to repair make corresponding maintenance, reinforcement measure, effectively Prevent roof leakage from causing to damage to roofing, meanwhile, position sensor is also provided with, allows it to supervise the position being subjected to displacement Survey, go manually to be checked without personnel, greatly improve the security of its working at height, also greatly improve its work Efficiency, degree is minimized by the loss of disaster.

Intelligent controller, the liquid flow sensor and infrared ray sensor are equipped with heretofore described data acquisition mechanism Output terminal intelligent controller input terminal connection, the intelligent controller output terminal is defeated with intelligent networking gateway respectively Enter end connection.

Displacement sensor, anemobiagraph and leakage inspector are equipped with heretofore described detection module, the displacement passes Sensor is used for the data for detecting roofing sliding；

The anemobiagraph is used for wind speed, the wind direction for detecting roofing；

The temperature sensor is used for detection temperature；

The leakage inspector is used for the leak for detecting gutter.

The home server Edge Server being used near construction project is equipped with heretofore described analysis prediction module With for controlling and monitoring whole Risk Forecast System Cloud Server；

Receive the observation data transmitted by data acquisition mechanism in the Edge Server, pass through the journey being arranged in the machine Sequence is calculated and made prediction, then will calculate and prediction result be sent to Cloud Server at the same time will calculate and prediction result pass to User's visualization interface, if desired for alarm, starts alarm flow；

The Cloud Server is used for the operation data for collecting projects, and the data sent to mist server are monitored, to needing The operating mode to be alarmed carries out secondary analysis, and the remedial measure after early warning occurs instructs.

Monitoring center, client terminal, alarm response system and showing interface machine are equipped with heretofore described control terminal Structure, is equipped with the BIM models for being used for showing whole building information in the database of the client terminal, the prison in the control terminal Control center, client terminal, alarm response system and showing interface mechanism are connected with Edge Server.

Calculating and integrated control platform are equipped with heretofore described Cloud Server, is made of multiple servers host.

Displacement sensor is equipped with heretofore described detection module and anemobiagraph is used in combination, for detecting the wind of roofing Speed-deformation time-history curves.

Image collecting device is additionally provided with heretofore described data acquisition mechanism, described image harvester passes through Internet of Things Net intelligent gateway is connected with analyzing the input terminal of projecting body.

Heretofore described liquid flow sensor is arranged under each downpipe at mouth.

Terminal control unit is equipped with heretofore described control terminal, being equipped with Data Detection in the terminal control unit controls Module, gateway control module, analysis PREDICTIVE CONTROL module, terminal control module and controller module, wherein, the terminal control Be equipped with monitoring center control module, displaying control module and alarm control module in module, the Data Detection control module with Data acquisition mechanism connects, and the gateway control module be connected with intelligent networking gateway, it is described analyze PREDICTIVE CONTROL module and Analyze prediction module to connect, monitoring center control module, displaying control module and controlling alarm in the terminal control module Module is connected with monitoring center, client terminal and alarm response system respectively, the Data Detection control module, gateway control mould Block, analysis PREDICTIVE CONTROL module, terminal control module are connected with controller module.

Heretofore described fluid flowmeter is used for the method for work of the intelligent monitor system of gutter downpipe, specifically Method of work is as follows：

1）：First the liquid flow sensor and infrared ray sensor in data acquisition mechanism, set and arrive under each downpipe Mouthful；

2）：When rainy, liquid flow sensor records the water flow of each downpipe, and will be examined by intelligent networking gateway The data of survey are sent to analysis prediction module；

3）：At the same time, infrared ray sensor can be detected the tamper at gutter, and pass through intelligent networking gateway The data of detection are sent to analysis prediction module；

4）：Then the received data of Edge Server docking analyzed in prediction module are analyzed, then by detection and analysis As a result send Cloud Server to, and the result of analyzing and processing is sent to showing interface mould terminal in the block and is shown；

5）：Edge Server analysis in previous step is when obtaining a result, its according to the result judgement of analysis its whether needs Alarm, if necessary to so start alarm flow, alert process is carried out by alarm response system；

6）：After Cloud Server docks received data, the operating mode of the alarm to edge startup of server carries out secondary analysis processing Remedial measure after early warning occurs instructs；

7）：Alarm response system work at the same time by warning message by way of client software, mail, short message automatic push To related management personnel and responsible person.

Heretofore described fluid flowmeter is used for the method for work of the intelligent monitor system of gutter downpipe, works as liquid After flow sensor detection, analysis prediction module analyzes the data that it is detected, it is specifically analyzed as follows：

When in the data of detection with downpipe at adjacent downpipe or this with data on flows has large error in history when, then may be used Judge gutter and downpipe with its data on flows error exceeds defined scope in history when, then can determine whether gutter and overboard tubulose State is abnormal, it should takes corresponding measure to exclude hidden danger.

Above-mentioned technical proposal can be seen that the present invention and have the advantages that：

1st, a kind of heretofore described fluid flowmeter is used for the intelligent monitor system of gutter downpipe, it is by setting liquid Flow sensor is detected the fluid flow at gutter, to be detected to the water leakage situation of roofing, can monitor room in real time Face gutter and downpipe operating status, without manually on duty；Infrared ray sensor can find the tamper at gutter, energy in time Enough timely to pinpoint the problems, personnel easy to repair make corresponding measure, and timely gutter is dredged and safeguarded, effectively Prevent gutter blocks from causing to damage to roofing.

2nd, heretofore described fluid flowmeter is used for the intelligent monitor system of gutter downpipe, it passes through liquid flow Quantity sensor is detected liquid, data on flows non-image information, data take up space it is minimum, the speed of transmission response compared with It hurry up.

3rd, position sensor is also provided with the present invention to be monitored to the position that gutter blocks occurs by it, Go manually to be checked without personnel, greatly improve the security of its working at height, also greatly improve the effect of its work Rate, degree is minimized by the loss of disaster.

4th, image collecting device is also provided with the present invention, image receipts is carried out to the situation of roofing by image collecting device Collection, the concrete condition of open valley is got information about according to the image of collection, allows it in time, accurately can make reply and arranges Apply, avoid staff from greatly improving the efficiency of its work to scene into surveying repeatedly, improve the accuracy of its judgement.

Brief description of the drawings

Fig. 1 is the structure diagram for the intelligent monitor system that fluid flowmeter of the present invention is used for gutter downpipe.

Embodiment

Below in conjunction with the accompanying drawings and specific embodiment, the present invention is furture elucidated.

Embodiment 1

A kind of fluid flowmeter as depicted is used for the intelligent monitor system of gutter downpipe, including：Data acquisition mechanism 1, Projecting body 2 and control terminal 3 are analyzed, wherein, liquid flow sensor 11 and infrared ray are equipped with the data acquisition mechanism 1 Sensor 12 and image collecting device 13, the data acquisition mechanism 1 pass through intelligent networking gateway 4 and analysis projecting body 2 input terminal connection, the output terminal of the analysis prediction module 2 are connected with control terminal 3, the acquisition module 1, analysis prediction Module 2 and showing interface module are connected with control terminal 4.

It is equipped with intelligent controller in data acquisition mechanism described in the present embodiment 1, the liquid flow sensor 11 and red The intelligent controller of the output terminal of outside line sensor 12 input terminal connection, the intelligent controller output terminal respectively with Internet of Things The input terminal connection of intelligent gateway 4.

Displacement sensor, anemobiagraph and leakage inspector, the displacement are equipped with described in the present embodiment in detection module Sensor is used for the data for detecting roofing sliding；

The anemobiagraph is used for wind speed, the wind direction for detecting roofing；

The temperature sensor is used for detection temperature；

The leakage inspector is used for the leak for detecting gutter.

The home server edge service for being equipped with and being used near construction project in prediction module 2 is analyzed described in the present embodiment Device and for controlling and monitoring whole Risk Forecast System Cloud Server；

Receive the observation data transmitted by data acquisition mechanism in the Edge Server, pass through the journey being arranged in the machine Sequence is calculated and made prediction, then will calculate and prediction result be sent to Cloud Server at the same time will calculate and prediction result pass to User's visualization interface, if desired for alarm, starts alarm flow；

The Cloud Server is used for the operation data for collecting projects, and the data sent to mist server are monitored, to needing The operating mode to be alarmed carries out secondary analysis, and the remedial measure after early warning occurs instructs.

Monitoring center, client terminal, alarm response system and showing interface are equipped with control terminal 3 described in the present embodiment Mechanism, is equipped with the BIM models for being used for showing whole building information in the database of the client terminal, in the control terminal 3 Monitoring center, client terminal, alarm response system and showing interface mechanism be connected with Edge Server.

Calculating and integrated control platform are equipped with described in the present embodiment in Cloud Server, is made of multiple servers host.

Displacement sensor is equipped with detection module described in the present embodiment and anemobiagraph is used in combination, for detecting roofing Wind speed-deformation time-history curves.

Liquid flow sensor 11 described in the present embodiment is arranged under each downpipe at mouth.

Terminal control unit is equipped with control terminal 3 described in the present embodiment, Data Detection is equipped with the terminal control unit Control module, gateway control module, analysis PREDICTIVE CONTROL module, terminal control module and controller module, wherein, the terminal Monitoring center control module, displaying control module and alarm control module are equipped with control module, the Data Detection controls mould Block is connected with data acquisition mechanism 1, and the gateway control module is connected with intelligent networking gateway 4, the analysis PREDICTIVE CONTROL Module is connected with analysis prediction module 2, monitoring center control module, displaying control module and report in the terminal control module Alert control module is connected with monitoring center, client terminal and alarm response system respectively, the Data Detection control module, gateway Control module, analysis PREDICTIVE CONTROL module, terminal control module are connected with controller module.

Fluid flowmeter described in the present embodiment is used for the method for work of the intelligent monitor system of gutter downpipe, specifically Method of work it is as follows：

1）：The liquid flow sensor 11 in data acquisition mechanism 1 is set mouth under each downpipe first；

2）：When rainy, liquid flow sensor 11 records the water flow of each downpipe, and passes through intelligent networking gateway 4 The data of detection are sent to analysis prediction module 2；

3）：At the same time, infrared ray sensor 12 can be detected the tamper at gutter, and pass through Internet of Things intelligent network Close 4 and the data of detection are sent to analysis prediction module 2；

4）：Then the received data of Edge Server docking analyzed in prediction module 2 are analyzed, then by detection and analysis As a result Cloud Server is sent to, and the terminal that the result of analyzing and processing is sent in showing interface module 3 is shown；

5）：Edge Server analysis in previous step is when obtaining a result, its according to the result judgement of analysis its whether needs Alarm, if necessary to so start alarm flow, alert process is carried out by alarm response system；

6）：After Cloud Server docks received data, the operating mode of the alarm to edge startup of server carries out secondary analysis processing Remedial measure after early warning occurs instructs；

7）：Alarm response system work at the same time by warning message by way of client software, mail, short message automatic push To related management personnel and responsible person；

8）：Meanwhile the actual conditions that image collecting device 13 can block gutter are really fed back, according to actual feelings Condition handles it.

Fluid flowmeter described in the present embodiment is used for the method for work of the intelligent monitor system of gutter downpipe, works as liquid After body flow sensor 11 detects, analysis prediction module 2 analyzes the data that it is detected, it is specifically analyzed as follows：

When in the data of detection with downpipe at adjacent downpipe or this with data on flows has large error in history when, then may be used Judge gutter and downpipe with its data on flows error exceeds defined scope in history when, then can determine whether gutter and overboard tubulose State is abnormal, it should takes corresponding measure to exclude hidden danger.

Each gutter downpipe lower nozzle set fluid flowmeter, according to rainfall situation, adjacent downpipe difference in flow, Downpipe itself historical data is contrasted to judge whether operating status is abnormal.Concrete condition is as follows：

1）, there is obvious rainfall, but when certain wants that water flow is zero under downpipe, can determine that as operation exception.

2）, the lower water of certain root downpipe that monitors differ larger with history ratio with the ratio between water under adjacent downpipe When, it can determine that as doubtful operation exception.

3）, occurred similar rainfall in history, the lower water of certain the root downpipe monitored the phase compared with history value When difference is larger, it can determine that as doubtful operation exception.

The above is only the preferred embodiment of the present invention, it is noted that is come for those skilled in the art Say, without departing from the principle of the present invention, some improvement can also be made, these improvement also should be regarded as the protection of the present invention Scope.

Claims (10)

1. a kind of fluid flowmeter is used for the intelligent monitor system of gutter downpipe, it is characterised in that：Including：Data acquisition mechanism （1）, analysis projecting body（2）And control terminal（3）, wherein, the data acquisition mechanism（1）In be equipped with liquid flow sensor （11）, infrared ray sensor（12）And image collecting device（13）, the data acquisition mechanism（1）Pass through Internet of Things intelligent network Close（4）With analyzing projecting body（2）Input terminal connection, the analysis prediction module（2）Output terminal and control terminal（3）Even Connect, the acquisition module（1）, analysis prediction module（2）And showing interface module（3）And control terminal（4）Connection.

2. fluid flowmeter according to claim 1 is used for the intelligent monitor system of gutter downpipe, it is characterised in that：Institute State data acquisition mechanism（1）In be equipped with intelligent controller, the liquid flow sensor（11）And infrared ray sensor（12）'s The intelligent controller of output terminal input terminal connection, the intelligent controller output terminal respectively with intelligent networking gateway（4）'s Input terminal connects.

3. fluid flowmeter according to claim 1 is used for the intelligent monitor system of gutter downpipe, it is characterised in that：Institute State and displacement sensor, anemobiagraph and leakage inspector are equipped with detection module, institute's displacement sensors are used to detect roofing cunning The data of shifting；

The anemobiagraph is used for wind speed, the wind direction for detecting roofing；

The temperature sensor is used for detection temperature；

The leakage inspector is used for the leak for detecting gutter.

4. fluid flowmeter according to claim 1 is used for the intelligent monitor system of gutter downpipe, it is characterised in that：Institute State analysis prediction module（2）In be equipped be used for construction project near home server Edge Server and for controlling and monitoring Whole Risk Forecast System Cloud Server；

Receive the observation data transmitted by data acquisition mechanism in the Edge Server, pass through the journey being arranged in the machine Sequence is calculated and made prediction, then will calculate and prediction result be sent to Cloud Server at the same time will calculate and prediction result pass to User's visualization interface, if desired for alarm, starts alarm flow；

The Cloud Server is used for the operation data for collecting projects, and the data sent to mist server are monitored, to needing The operating mode to be alarmed carries out secondary analysis, and the remedial measure after early warning occurs instructs.

5. fluid flowmeter according to claim 1 is used for the intelligent monitor system of gutter downpipe, it is characterised in that：Institute State control terminal（3）In be equipped with monitoring center, client terminal, alarm response system and showing interface mechanism, the client terminal Database in be equipped with and be used to show the BIM models of whole building information, the control terminal（3）In monitoring center, client Terminal, alarm response system and showing interface mechanism are connected with Edge Server.

6. the fluid flowmeter stated according to claim 3 is used for the intelligent monitor system of gutter downpipe, it is characterised in that：It is described Displacement sensor is equipped with detection module and anemobiagraph is used in combination, for detecting wind speed-deformation time-history curves of roofing.

7. fluid flowmeter according to claim 1 is used for the intelligent monitor system of gutter downpipe, it is characterised in that：Institute State liquid flow sensor（11）At mouth under each downpipe.

8. fluid flowmeter according to claim 1 is used for the intelligent monitor system of gutter downpipe, it is characterised in that：Institute State control terminal（3）In be equipped with terminal control unit, Data Detection control module, gateway control mould are equipped with the terminal control unit Block, analysis PREDICTIVE CONTROL module, terminal control module and controller module, wherein, monitoring is equipped with the terminal control module Central Control Module, displaying control module and alarm control module, the Data Detection control module and data acquisition mechanism（1） Connection, the gateway control module and intelligent networking gateway（4）Connection, the analysis PREDICTIVE CONTROL module and analysis prediction mould Block（2）Connect, monitoring center control module, displaying control module and alarm control module difference in the terminal control module It is connected with monitoring center, client terminal and alarm response system, the Data Detection control module, gateway control module, analysis PREDICTIVE CONTROL module, terminal control module are connected with controller module.

9. it is used for the work of the intelligent monitor system of gutter downpipe according to claim 1 to 8 any one of them fluid flowmeter Make method, it is characterised in that：Specific method of work is as follows：

1）：First data acquisition mechanism（1）In liquid flow sensor（11）Mouth under each downpipe is set；

2）：When rainy, liquid flow sensor（11）The water flow of each downpipe is recorded, and passes through intelligent networking gateway （4）The data of detection are sent to analysis prediction module（2）；

3）：At the same time, infrared ray sensor（12）Tamper at gutter can be detected, and pass through Internet of Things intelligence Gateway（4）The data of detection are sent to analysis prediction module（2）；

4）：Then prediction module is analyzed（2）In Edge Server dock received data and analyzed, then will detection and analysis Result send Cloud Server to, and the result of analyzing and processing is sent to showing interface module（3）In terminal shown；

5）：Edge Server analysis in previous step is when obtaining a result, its according to the result judgement of analysis its whether needs Alarm, if necessary to so start alarm flow, alert process is carried out by alarm response system；

6）：After Cloud Server docks received data, the operating mode of the alarm to edge startup of server carries out secondary analysis processing Remedial measure after early warning occurs instructs；

7）：Alarm response system work at the same time by warning message by way of client software, mail, short message automatic push To related management personnel and responsible person.

10. fluid flowmeter according to claim 9 is used for the method for work of the intelligent monitor system of gutter downpipe, its It is characterized in that：Work as liquid flow sensor（11）After detection, prediction module is analyzed（2）The data that it is detected are analyzed, its Specifically it is analyzed as follows：

When in the data of detection with downpipe at adjacent downpipe or this with data on flows has large error in history when, then may be used Judge gutter and downpipe with its data on flows error exceeds defined scope in history when, then can determine whether gutter and overboard tubulose State is abnormal, it should takes corresponding measure to exclude hidden danger.