CN111928120A - Rain and sewage pipe network monitoring system - Google Patents

Abstract

The invention discloses a rain and sewage pipe network monitoring system. Zero-direct-drainage detectors capable of monitoring drainage data are installed in river drainage ports and sewage pipe inspection wells in the monitoring area range, and a zero-direct-drainage traceability monitoring management system of a rain and sewage pipe network is built. After the system is built, rainwater drainage and sewage treatment in all links in a rainwater and sewage network within a supervision area range are dynamically supervised, the informatization monitoring capability of rainwater and sewage network data is gradually formed, the actual water pollution treatment level and capacity are obtained through organic integration and excavation of the data, the ecological environment supervision technical level is further improved, the new requirements of ecological environment management science and technology and refinement under new situations are met, after zero-direct-discharge detectors are installed in a certain number, the system can display the whole underground rainwater and sewage network within the whole area range in a two-dimensional or three-dimensional mode, the rainwater and sewage network is electronized, and the construction of the rainwater and sewage network zero-direct-discharge traceability monitoring and management system is built.

Description

Rain and sewage pipe network monitoring system

Technical Field

The invention relates to the fields of hydrological monitoring technology and data analysis and processing, in particular to a rain and sewage management network monitoring system combining local management control and network remote monitoring.

Background

As the urbanization process is accelerated, the urban population is rapidly expanded, the urban water environment and the ecological environment are gradually deteriorated, and the socialist ecological civilization construction is in the forefront. How to effectively solve and prevent water pollution has become an important problem for urban construction workers.

Urban drainage has great influence on the water quantity and the water quality of the storage water body. The urban drainage pipeline system is an indispensable municipal infrastructure of modern cities and is also a backbone project for urban water pollution prevention and control, urban waterlogging drainage and flood control. The urban rainwater and snow melting sewage treatment system has the task of timely collecting and conveying a large amount of waste water generated in production and life of people in cities, urban rainwater, ice and snow melting water and the like, and avoids the harm of the sewage directly discharged into rivers to pollute water bodies and the ground accumulated water to the production and life of people.

At present, the problems that automatic monitoring equipment is not completely incorporated into a metering authentication system, the types and models of monitoring instruments are few, the price is high, automatic monitoring results are easily subjected to exogenous interference, analysis service of output data is further improved and the like still exist in the construction of a rain and sewage pipe network monitoring system in China.

Disclosure of Invention

In order to solve the problems in the rain sewage zero-direct-discharge construction and overcome the defects of the prior art, the invention aims to provide a rain sewage network monitoring system combining local management control and network remote monitoring. According to relevant national standards and specifications, based on the technology of internet of things, the urban rainwater and sewage network is expanded in source and process, and the zero-direct-emission detector and the system platform which are additionally arranged on site are interconnected and communicated with each other to be integrated into a system, so that the integrated monitoring and multidimensional management process of the water environment pollution source is promoted, and the comprehensive management level of water environment monitoring is improved.

Therefore, the invention adopts the following technical scheme:

a rain and sewage management network monitoring system comprises a zero direct drainage monitoring module, a patrol inspection operation and maintenance module, a GIS data module, a source tracing module and an electronic monitoring module.

The zero-direct-drainage monitoring module collects temperature, water level, flow velocity and flow information of water flow in the pipeline through zero-direct-drainage detectors arranged at a rain and sewage pipe network and an important drainage port in a monitoring area range, acquires real-time data and real-time state of drainage, and analyzes and monitors the acquired data. The system has the functions of state analysis, real-time state and data monitoring and the like, and can display the information of the current flow rate, water temperature, liquid level, water quantity, pipe diameter, pipe network property zero straight-line detector elevation, overflow elevation and the like of a monitoring point; the online rate and the drainage abnormal rate of the zero-direct-discharge detector are displayed through a perspective chart, and abnormal information can be automatically pushed in a short message or micro message mode; the water temperature, liquid level height and flow rate change in 12 hours are shown in a graph form, and the water quantity data change in 12 hours is shown in a bar graph.

The patrol operation and maintenance module can complete the work of key gate information checking, abnormal event early warning information reminding, work order circulation and the like on the mobile phone by virtue of the mobile supporting platform, and managers and inspectors; the platform can be used for patrolling the condition of each key row of ports and the condition of work order processing in real time, supervising and handling, and performing operation decision by using the platform.

The GIS data module monitors data in real time and utilizes the Internet of things technology to distribute zero direct discharge detectors at important nodes of a sewage discharge pipeline, mark GIS information and analyze the GIS information.

The source tracing module can simulate a dynamic underground rainwater and sewage pipe network diagram, can display the rainwater and sewage pipe network simulation diagram and the drainage abnormity warning through the GIS map and realize the tracing management of the drainage source, and can dynamically correct the weather parameters of the analysis result of the pipeline drainage source according to the actual weather condition so as to realize the accurate tracing of the sewage drainage source.

The electronic monitoring module displays main information contents through a platform schematic diagram of the rain and sewage pipe network monitoring system, and comprises display interfaces such as key drainage information data, statistics of drainage size, water flow velocity, water level and temperature anomaly information and the like as a platform portal interface. The page displays login entries of sub-modules of other platforms, and mainly comprises a geographical position, pipeline basic information, real-time data acquisition, data node comparison, support of rapid switching, embedding of an efficient GIS platform and the like.

The invention has the advantages that the real-time monitoring of the drainage at the important drainage port on the riverway edge can realize the timely discovery of the sewage entering the river, and the discharge capacity can be determined according to the data; the source tracing can effectively trace the source of the sewage, and effective dredging and blocking combination measures are implemented through the sewage source tracing, so that an effective basis is provided for the implementation of a dredging project of a rainwater and sewage pipe network; reduce and shorten achievement show period, show through the achievement, in real time with rain and sewage pipe network electronization, to the data of different time quantums work according to, it is according to be well documented.

Drawings

FIG. 1 is a basic schematic diagram of a storm sewage pipe network monitoring system of the present invention;

FIG. 2 is a block diagram of the rain and sewage management network monitoring system of the present invention.

Detailed Description

The invention will be further elucidated with reference to the specific embodiments and the accompanying drawings.

FIG. 1 is the basic principle of a rain and sewage pipe network monitoring system, basic map data are arranged and GIS data acquisition is carried out through a data acquisition module, and then water quality and pipe network problems are inspected through monitoring and routing inspection management of a local zero-direct-emission detector.

In the aspect of network remote monitoring, the problem of water quality or pipe network is judged according to the data of electronic monitoring and tracing, and the problem is reconverged to a zero direct discharge detector monitoring and inspection management module.

All functions are combined with each other to construct a rain and sewage management network monitoring system combining local management control and network remote monitoring.

Examples

As shown in fig. 2, a rain and sewage management system according to the present invention shows modules included in the system. The method comprises the following steps:

the zero-direct-drainage monitoring module is used for acquiring temperature, water level, flow speed and flow information of water flow in a pipeline through a zero-direct-drainage detector arranged at a rain and sewage pipe network and an important drainage port in an area range, acquiring real-time data and real-time state of drainage, and analyzing and monitoring the acquired data.

Further, state analysis is implemented: the system can display the monitoring point name, the serial number of the zero-direct-discharge detector, the pipe diameter, the pipe network property, the elevation of the zero-direct-discharge detector, the overflow elevation and other basic information; the data information such as the current flow speed, the water temperature, the liquid level, the water quantity and the like of the flowing water of the pipeline can be displayed in real time; the online rate and the drainage abnormal rate of the zero straight-line detector are shown through a perspective chart, and abnormal information can be automatically pushed in a short message or micro message mode.

Further, the pipeline flow information and the parameter information are displayed in a perspective view table mode such as a list, a histogram, a graph and the like for data analysis.

Further, displaying data information of an Internet of things card matched with the system through a chart; the icon form shows the state of a power supply battery of the equipment, the power consumption condition and the power supply mode for power blockage monitoring.

The patrol operation and maintenance module is combined with the application of the mobile terminal of the mobile phone to achieve scientific management and achieve the effectiveness and accuracy of project patrol, and comprises a work flow, a patrol check-in part, a log management part, a data processing part and the like.

Further, the polling personnel regularly and regularly polling the key row ports, opening a mobile phone application interface for position positioning after the key row ports are reached, and performing card punching operation on arrival time and departure time; the system event function is used for task inspection of the monitoring station, and the event function can record the condition needing to be recorded or abnormal in the whole inspection process.

Further, the manager can acquire the integrated data of each site.

Furthermore, the polling personnel fills in the field situation description and uploads the field photo through the function, the system automatically uploads the station number, the station name, the administrative village, the attendance personnel, the attendance time and the leaving time to form a complete operation and maintenance record and uploads the complete operation and maintenance record to the server, and the uploaded data is inquired and displayed in the daily operation and maintenance record.

Furthermore, the administrator can receive and process the patrol data at any time, generate a summary report and send the summary report to leaders for examination or archiving.

Further, by means of the mobile supporting platform, managers and inspectors can complete the work of key entrance arrangement information checking, abnormal event early warning information reminding, work order circulation and the like on the mobile phone.

The GIS data module realizes the comprehensive display and management of GIS data, and comprises the functions of displaying a platform schematic diagram of a rain and sewage management network monitoring system, updating and managing data and performing statistical analysis.

And further, displaying the GIS data by a platform schematic diagram of the rain and sewage pipe network monitoring system, and performing comprehensive display of the map layer according to selection of the user.

Furthermore, GIS data is updated and managed, browsing, inquiring, counting and editing are provided, and meanwhile historical data management is carried out on metadata.

And further, performing statistical analysis, namely performing a statistical analysis function of different image layers.

The source tracing module simulates a dynamic underground rainwater and sewage pipe network diagram, the rainwater and sewage pipe network simulation diagram can be displayed through a GIS map, abnormal drainage is alarmed, and drainage source tracing management is realized; and dynamically correcting weather parameters of the analysis result of the pipeline water drainage source according to the actual weather condition, so as to realize accurate tracking of the sewage drainage source.

Furthermore, the method can be used for amplifying and entering a specific pipeline in a GIS map, displaying data information of the pipeline and a monitoring point, analyzing a flowing water source and determining a pollution discharge source.

Furthermore, various reports are built in the system, historical data such as monitoring point installation information, pipe network property information, pipeline drainage information and the like in a selected time period can be displayed through the statistical report function, and bases are provided for equipment maintenance, network management repair, large water volume data analysis and the like.

Furthermore, the digital coordinates of the pipelines and the information of the size, the material, the trend and the like of the pipelines are provided, and the digital, information and graphical display of the rain and sewage pipe network is realized.

The electronic monitoring module displays main information contents through a platform schematic diagram of the rain and sewage pipe network monitoring system, effectively highlights key points through various themes, colors and icon configurations, and is convenient for a terminal user to quickly acquire required information.

Furthermore, the electronic monitoring module comprises a position management module, pipeline basic information, real-time data acquisition module, data node comparison module, fast switching support module and an embedded efficient GIS platform.

It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

Claims (1)

1. A rain and sewage management network monitoring system is characterized by comprising a zero direct drainage monitoring module, an inspection operation and maintenance module, a GIS data module, a source tracing module and an electronic monitoring module;

the zero-direct-drainage monitoring module is used for acquiring the temperature, water level, flow velocity and flow information of water flow in a pipeline through a zero-direct-drainage detector arranged at a rain and sewage pipe network and an important drainage port in a monitoring area range, acquiring real-time data and real-time state of drainage, and analyzing and monitoring the acquired data;

the inspection operation and maintenance module is used for inspection management and is combined with the mobile terminal application of the mobile phone;

the GIS data module distributes zero direct discharge detectors on nodes of a sewage discharge pipeline by using real-time monitoring data and an Internet of things technology, marks GIS information and analyzes the GIS information;

the source tracing module simulates a dynamic underground rainwater and sewage pipe network diagram, displays the rainwater and sewage pipe network simulation diagram and drainage abnormity warning through a GIS map and realizes source tracing management of a drainage source; the method can dynamically correct the weather parameters of the analysis result of the pipeline water drainage source according to the actual weather condition, thereby realizing the accurate tracking of the sewage drainage source;

the electronic monitoring module displays main information contents, including key drainage information data, drainage quantity, water flow velocity, water level and temperature abnormal information; and the page displays login entries of sub-modules of other platforms, including geographic positions, pipeline basic information, real-time data acquisition, data node comparison, support of quick switching and embedding of an efficient GIS platform.

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