CN210865032U - Urban waterlogging monitoring and early warning system - Google Patents

Abstract

The utility model relates to an urban waterlogging monitoring and early warning system, this urban waterlogging monitoring and early warning system includes: the system comprises a processing unit, a surface runoff water accumulation depth monitoring unit, an underground drainage pipe network monitoring unit, a meteorological information monitoring unit, a rainfall monitoring unit, a communication unit and a drainage unit, wherein the surface runoff water accumulation depth monitoring unit, the underground drainage pipe network monitoring unit, the meteorological information monitoring unit, the rainfall monitoring unit, the communication unit and the drainage unit are electrically connected with the processing unit; the processing unit is suitable for judging the urban waterlogging condition according to the actual surface runoff flow, the surface waterlogging depth, the drainage state of the underground drainage pipe network, the meteorological information and the precipitation of each monitoring point, and uploading the urban waterlogging condition to the server in real time through the communication unit; when the processing unit judges that the urban waterlogging occurs, the processing unit controls the drainage unit to drain water; the utility model discloses a to the comprehensive transmission processing of monitoring data, combine big data and degree of depth study artificial intelligence to carry out analysis and statistics, issue early warning information, generate in advance and handle planning measures, implement intelligent control to each website electrical equipment.

Description

Urban waterlogging monitoring and early warning system

Technical Field

The utility model relates to an urban water conservancy monitoring field especially relates to an urban waterlogging monitoring and early warning system.

Background

With the acceleration of the urbanization process of China, the urban drainage facilities are continuously constructed and developed, the monitoring means of the urban drainage facilities are continuously improved due to the technological progress, various monitoring information is accumulated for a long time, the data only need to be recorded and stored and cannot play the corresponding functions, and a comprehensive system integrating monitoring, acquisition, transmission, statistics, analysis, early warning and control is urgently needed. In order to more accurately master the existing drainage facility condition in the urban area of the urban center, change the traditional information data management mode, realize the digitization of monitoring information, improve the operation and management efficiency of a municipal facility system, assist decision and scheduling, realize various functions such as monitoring of the condition of rain, inquiry of the drainage facility, wireless data transmission, intelligent statistical analysis of data, control monitoring and management of drainage equipment and the like by installing an urban waterlogging monitoring and early warning control system, comprehensively master the accumulated water drainage condition, real-time rainfall information, the operation condition of a drainage pipe network and video monitoring of key accumulated water sections in low-lying areas of urban roads for better realizing the scientific and efficient management of the urban municipal drainage facility system, simultaneously realize the comprehensive transmission processing of the monitoring data, combine a large data and deep learning artificial intelligent system to carry out further analysis and statistics, and release early warning information, and a planning measure is generated in advance, intelligent control is implemented on the electrical equipment of each station, the digital and intelligent process of city management is promoted, and a good foundation is laid for realizing a smart city.

In order to realize the specialized, intelligent, multidimensional and image-text integrated informatization system integrating urban accumulated water drainage overall process supervision, intelligent monitoring of drainage facilities, information recording analysis, business cooperative management, emergency rapid command, scientific decision and public service by utilizing advanced technologies such as internet of things, AI deep learning technology, cloud computing technology, GIS technology, internet technology, automatic control technology, wireless communication technology, database technology, system integration and the like, the municipal facility supervision visualization, business management integration and drainage decision scientization are realized, the operation and management efficiency of the municipal facilities is improved, and the digital construction, online monitoring, early scheduling and decision advance of the municipal facilities are effectively implemented.

Therefore, it is necessary to develop a new urban waterlogging monitoring and early warning system to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an urban waterlogging monitoring and early warning system to solve the problem of how to carry out online monitoring dispatch in advance to drainage system.

In order to solve the technical problem, the utility model provides an urban waterlogging monitoring and early warning system, it includes: the system comprises a processing unit, a surface runoff water accumulation depth monitoring unit, an underground drainage pipe network monitoring unit, a meteorological information monitoring unit, a rainfall monitoring unit, a communication unit and a drainage unit, wherein the surface runoff water accumulation depth monitoring unit, the underground drainage pipe network monitoring unit, the meteorological information monitoring unit, the rainfall monitoring unit, the communication unit and the drainage unit are electrically connected with the processing unit; the processing unit is suitable for acquiring the actual surface runoff flow and the surface ponding depth of each monitoring point through the surface runoff ponding depth monitoring unit; the processing unit is suitable for acquiring the drainage state of the underground drainage pipe network of each monitoring point through the underground drainage pipe network monitoring unit; the processing unit is suitable for acquiring meteorological information of each monitoring point through the meteorological information monitoring unit; the processing unit is suitable for acquiring the precipitation of each monitoring point through the rainfall monitoring unit; the processing unit is suitable for judging the urban waterlogging condition according to the actual surface runoff flow, the surface waterlogging depth, the drainage state of the underground drainage pipe network, the meteorological information and the precipitation of each monitoring point, and uploading the urban waterlogging condition to the server in real time through the communication unit; and when the processing unit judges that the urban waterlogging occurs, controlling the drainage unit to drain water.

Further, surface runoff water depth monitoring unit includes: a plurality of flowmeters respectively arranged at each monitoring point and a plurality of pre-buried water level meters respectively arranged at each monitoring point; the flow meter and the pre-buried water level meter are electrically connected with the processing unit; the processing unit is suitable for acquiring the actual flow of the surface runoff through the flowmeter; the processing unit is suitable for collecting the depth of the surface accumulated water through the pre-buried water level meter.

Further, the underground drainage pipe network monitoring unit includes: a plurality of cameras respectively arranged at each monitoring point and a plurality of drop-in type water level meters respectively arranged at each monitoring point; the camera and the input type water level gauge are electrically connected with the processing unit; the processing unit is suitable for monitoring the drainage state of the underground drainage pipe network through the camera and the input type water level gauge.

Further, the weather information monitoring unit includes: a plurality of meteorological monitoring devices respectively arranged at each monitoring point; the meteorological monitoring equipment is electrically connected with the processing unit; the processing unit is adapted to collect weather information via the weather monitoring device.

Further, the rainfall monitoring unit includes: a plurality of rainfall sensors respectively arranged at each monitoring point; the rainfall sensor is electrically connected with the processing unit; the processing unit is suitable for collecting precipitation through the rainfall sensor.

Further, the processing unit is suitable for performing classified storage, table establishment, statistics, histogram drawing, time history curve drawing and geometric proportion increase statistics on the actual surface runoff flow, the surface water depth, the drainage state of the underground drainage pipe network, the meteorological information and the precipitation of each monitoring point; the processing unit acquires historical meteorological hydrological information from the server through the communication unit, comprehensively analyzes and draws a comparison curve by combining surface runoff actual flow, surface water depth, underground drainage pipe network drainage state, meteorological information, precipitation and historical meteorological hydrological information of each monitoring point through deep artificial intelligence, automatically retests and compensates abnormal measurement parameters, namely, the processing unit judges urban inland inundation conditions.

Further, when the processing unit judges that the city has waterlogging, the processing unit is suitable for sending depth early warning information, no-pass alarm information, heavy rain information, ponding road sections, ponding depth and drainage conditions to the server through the communication module so as to prompt safe passing of pedestrians and vehicles and customize a safe travel route plan.

The beneficial effects of the utility model are that, the utility model discloses a grasp urban road low-lying area ponding drainage condition comprehensively, real-time rainfall information, drainage network operation status, key ponding district video monitoring, realize above-mentioned monitoring data's comprehensive transmission simultaneously and handle, combine big data and deep learning AI system to carry out further analysis and statistics, issue early warning information, generate in advance and handle planning measures, implement intelligent control to each website electrical equipment, promote city management's digitization, intelligent process, it is visual to realize the municipal administration supervision, the business management integration, drainage decision-making scientification, improve municipal administration operation and management efficiency, effectively implement the digital construction of municipal administration, on-line monitoring, early dispatch, make a decision in advance.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic block diagram of the urban waterlogging monitoring and early warning system of the present invention;

fig. 2 is the utility model discloses a city waterlogging monitoring and early warning system's block diagram.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

Example 1

Fig. 1 is the utility model discloses a city waterlogging monitoring and early warning system's functional block diagram.

In this embodiment, as shown in fig. 1, the utility model provides an urban waterlogging monitoring and early warning system, it includes: the system comprises a processing unit, a surface runoff water accumulation depth monitoring unit, an underground drainage pipe network monitoring unit, a meteorological information monitoring unit, a rainfall monitoring unit, a communication unit and a drainage unit, wherein the surface runoff water accumulation depth monitoring unit, the underground drainage pipe network monitoring unit, the meteorological information monitoring unit, the rainfall monitoring unit, the communication unit and the drainage unit are electrically connected with the processing unit; the processing unit is suitable for acquiring the actual surface runoff flow and the surface ponding depth of each monitoring point through the surface runoff ponding depth monitoring unit; the processing unit is suitable for acquiring the drainage state of the underground drainage pipe network of each monitoring point through the underground drainage pipe network monitoring unit; the processing unit is suitable for acquiring meteorological information of each monitoring point through the meteorological information monitoring unit; the processing unit is suitable for acquiring the precipitation of each monitoring point through the rainfall monitoring unit; the processing unit is suitable for judging the urban waterlogging condition according to the actual surface runoff flow, the surface waterlogging depth, the drainage state of the underground drainage pipe network, the meteorological information and the precipitation of each monitoring point, and uploading the urban waterlogging condition to the server in real time through the communication unit; and when the processing unit judges that the urban waterlogging occurs, controlling the drainage unit to drain water.

Fig. 2 is the utility model discloses a city waterlogging monitoring and early warning system's block diagram.

In the present embodiment, as shown in fig. 2, the processing unit includes: the system comprises a host and slaves arranged at monitoring points; the host and each slave machine carry out data transmission through the communication module; the communication unit includes: a wireless communication module and a wired digital communication module.

In this embodiment, the wireless communication module may adopt, but is not limited to, a 4G module and a WIFI module, and the wired digital communication module may adopt, but is not limited to, an RS485 data communication module.

Referring to fig. 2, in the present embodiment, the structural connection between the master and any one of the slaves is as shown in fig. 2.

In this embodiment, the master may be, but is not limited to, an STM32 series single chip microcomputer, and the slave may be, but is not limited to, an STM32 series single chip microcomputer.

In this embodiment, the processing unit monitors, intelligently controls and warns faults of the drainage unit through the multi-channel I/O module; the drainage unit may be an in-city drainage facility.

In this embodiment, the comprehensive transmission processing of the monitoring data is realized by comprehensively grasping the accumulated water drainage condition, the real-time rainfall information, the operation condition of a drainage pipe network and the video monitoring of the key accumulated water area in the low-lying area of the urban road, further analysis and statistics are performed by combining a big data and deep learning AI system, early warning information is issued, a processing planning measure is generated in advance, intelligent control is performed on electrical equipment of each station, the digitization and intelligent process of urban management is promoted, the visualization of municipal facility supervision, the integration of business management and the scientization of drainage decision are realized, the operation and management efficiency of the municipal facility is improved, and the digitization construction, online monitoring, early scheduling and early decision making of the municipal facility are effectively implemented.

In order to gather the surface runoff actual flow and the surface ponding depth of each monitoring point, surface runoff ponding depth monitoring unit includes: a plurality of flowmeters respectively arranged at each monitoring point and a plurality of pre-buried water level meters respectively arranged at each monitoring point; the flow meter and the pre-buried water level meter are electrically connected with the processing unit; the processing unit is suitable for acquiring the actual flow of the surface runoff through the flowmeter; the processing unit is suitable for collecting the depth of the surface accumulated water through the pre-buried water level meter.

In order to gather the underground drainage pipe network drainage state of each monitoring point, underground drainage pipe network monitoring unit includes: a plurality of cameras respectively arranged at each monitoring point and a plurality of drop-in type water level meters respectively arranged at each monitoring point; the camera and the input type water level gauge are electrically connected with the processing unit; the processing unit is suitable for monitoring the drainage state of the underground drainage pipe network through the camera and the input type water level gauge.

In this embodiment, key water accumulation places are monitored in real time through the camera.

In order to collect the meteorological information of each monitoring point, the meteorological information monitoring unit comprises: a plurality of meteorological monitoring devices respectively arranged at each monitoring point; the meteorological monitoring equipment is electrically connected with the processing unit; the processing unit is adapted to collect weather information via the weather monitoring device.

In the present embodiment, the meteorological monitoring device may be, but is not limited to, a microclimate monitoring apparatus.

In order to collect precipitation of each monitoring point, the rainfall monitoring unit comprises: a plurality of rainfall sensors respectively arranged at each monitoring point; the rainfall sensor is electrically connected with the processing unit; the processing unit is suitable for collecting precipitation through the rainfall sensor.

In this embodiment, through microclimate monitoring devices and rain graduated flask, carry out real-time monitoring record to real-time weather conditions such as wind speed, wind direction, temperature, sunshine, air humidity and rainfall.

In order to be capable of analyzing by combining historical meteorological hydrological information and collected data, the processing unit is suitable for classifying and storing the actual flow of surface runoff, the depth of surface water, the drainage state of an underground drainage pipe network, meteorological information and precipitation of each monitoring point, establishing a table, counting, drawing a histogram and a time history curve, and carrying out geometric ring ratio increase counting; the processing unit acquires historical meteorological hydrological information from the server through the communication unit, comprehensively analyzes and draws a comparison curve by combining surface runoff actual flow, surface water depth, underground drainage pipe network drainage state, meteorological information, precipitation and historical meteorological hydrological information of each monitoring point through deep artificial intelligence, automatically retests and compensates abnormal measurement parameters, namely, the processing unit judges urban inland inundation conditions.

In this embodiment, the processing unit automatically analyzes and extracts various effective data in the database in the server through deep artificial intelligence, including data information in various forms such as characters, images, sounds, videos and the like, intelligently analyzes the validity and practicability of the data, and comprehensively compares current measurement data and historical meteorological hydrological information, so as to analyze, supplement and perfect the acquired data, analyze the future ponding drainage trend, integrate expected data to be infinitely close to the actual ponding and drainage conditions, so that a preplan can be planned and processed in advance, a key area is arranged in advance to prevent, personnel are arranged in position in advance, early warning of early ponding road sections is issued, part of drainage facility hidden dangers are eliminated in advance, and the data can be further used as important reference data for urban drainage facility planning.

In order to reasonably plan urban drainage work, when the processing unit judges that the urban waterlogging occurs, the processing unit is suitable for sending depth early warning information, no-pass warning information, heavy rain information, a water accumulation road section, water accumulation depth and drainage conditions to a server through a communication module so as to prompt pedestrians and vehicles to pass safely and customize a safe trip route plan.

In the present embodiment, the above methods for analyzing data processing by the processing unit all belong to the prior art.

In this embodiment, this urban waterlogging monitoring and early warning system includes: the LED display screens are electrically connected with the processing unit; the LED display screen is used for displaying data information collected by each monitoring point, depth early warning information, traffic prohibition alarm information, heavy rain information, ponding road sections, ponding depth and drainage conditions so as to prompt pedestrians and vehicles to safely pass and customize safe trip route plans.

In this embodiment, this urban waterlogging monitoring and early warning system still includes: the alarm unit is electrically connected with the processing unit; the processing unit is suitable for controlling the alarm unit to alarm waterlogging.

To sum up, the utility model discloses a grasp urban road low-lying area ponding drainage condition comprehensively, real-time rainfall information, drainage network running situation, key ponding district video monitoring, realize above-mentioned monitoring data's comprehensive transmission simultaneously and handle, combine big data and deep learning AI system to carry out further analysis and statistics, issue early warning information, generate in advance and handle planning measures, implement intelligent control to each website electrical equipment, promote city management's digitization, intelligent process, it is visual to realize the municipal administration supervision, the business management integration, drainage decision-making scientification, improve municipal administration operation and management efficiency, effectively implement the digital construction of municipal administration, on-line monitoring, early scheduling, make a decision in advance.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (7)

1. The utility model provides an urban waterlogging monitoring and early warning system which characterized in that includes:

the system comprises a processing unit, a surface runoff water accumulation depth monitoring unit, an underground drainage pipe network monitoring unit, a meteorological information monitoring unit, a rainfall monitoring unit, a communication unit and a drainage unit, wherein the surface runoff water accumulation depth monitoring unit, the underground drainage pipe network monitoring unit, the meteorological information monitoring unit, the rainfall monitoring unit, the communication unit and the drainage unit are electrically connected with the processing unit; wherein

The processing unit is suitable for acquiring the actual surface runoff flow and the surface ponding depth of each monitoring point through the surface runoff ponding depth monitoring unit;

the processing unit is suitable for acquiring the drainage state of the underground drainage pipe network of each monitoring point through the underground drainage pipe network monitoring unit;

the processing unit is suitable for acquiring meteorological information of each monitoring point through the meteorological information monitoring unit;

the processing unit is suitable for acquiring the precipitation of each monitoring point through the rainfall monitoring unit;

the processing unit is suitable for judging the urban waterlogging condition according to the actual surface runoff flow, the surface waterlogging depth, the drainage state of the underground drainage pipe network, the meteorological information and the precipitation of each monitoring point, and uploading the urban waterlogging condition to the server in real time through the communication unit; and

and when the processing unit judges that the urban waterlogging occurs, the processing unit controls the drainage unit to drain water.

2. The urban waterlogging monitoring and early-warning system according to claim 1,

surface runoff water accumulation depth monitoring unit includes: a plurality of flowmeters respectively arranged at each monitoring point and a plurality of pre-buried water level meters respectively arranged at each monitoring point;

the flow meter and the pre-buried water level meter are electrically connected with the processing unit;

the processing unit is suitable for acquiring the actual flow of the surface runoff through the flowmeter;

the processing unit is suitable for collecting the depth of the surface accumulated water through the pre-buried water level meter.

3. The urban waterlogging monitoring and early-warning system according to claim 1,

the underground drainage pipe network monitoring unit includes: a plurality of cameras respectively arranged at each monitoring point and a plurality of drop-in type water level meters respectively arranged at each monitoring point;

the camera and the input type water level gauge are electrically connected with the processing unit;

the processing unit is suitable for monitoring the drainage state of the underground drainage pipe network through the camera and the input type water level gauge.

4. The urban waterlogging monitoring and early-warning system according to claim 1,

the weather information monitoring unit includes: a plurality of meteorological monitoring devices respectively arranged at each monitoring point;

the meteorological monitoring equipment is electrically connected with the processing unit;

the processing unit is adapted to collect weather information via the weather monitoring device.

5. The urban waterlogging monitoring and early-warning system according to claim 1,

the rainfall monitoring unit includes: a plurality of rainfall sensors respectively arranged at each monitoring point;

the rainfall sensor is electrically connected with the processing unit;

the processing unit is suitable for collecting precipitation through the rainfall sensor.

6. The urban waterlogging monitoring and early-warning system according to claim 1,

the processing unit is suitable for classifying and storing the surface runoff actual flow, the surface water depth, the drainage state of an underground drainage pipe network, meteorological information and precipitation of each monitoring point, establishing a table, counting, drawing a histogram, drawing a time history curve and carrying out geometric ring ratio increase counting;

the processing unit acquires historical meteorological hydrological information from the server through the communication unit, comprehensively analyzes and draws a comparison curve by combining the surface runoff actual flow, the surface water depth, the drainage state of an underground drainage pipe network, the meteorological information, the precipitation and the historical meteorological hydrological information of each monitoring point through the depth artificial intelligence, and automatically retests and compensates data of abnormal measurement parameters, namely

The processing unit judges the urban waterlogging condition.

7. The urban waterlogging monitoring and early-warning system according to claim 6,

when the processing unit judges that the city has waterlogging, the processing unit is suitable for sending depth early warning information, no-pass alarm information, heavy rain information, ponding road sections, ponding depth and drainage conditions to the server through the communication module so as to prompt pedestrians and vehicles to pass safely and customize safe trip route plans.

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