CN111047471A - Intelligent water affair GIS geographic information system - Google Patents
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- 238000012544 monitoring process Methods 0.000 claims abstract description 16
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- 238000007689 inspection Methods 0.000 claims description 37
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Abstract
The invention discloses an intelligent water affair GIS geographic information system, which comprises a mobile terminal, a PC terminal and a cloud GIS server; the cloud GIS server comprises a login module; the mobile terminal and the PC terminal access the cloud GIS server to enter a system interface through the login module respectively; a functional module is arranged in the system interface; and the functional module comprises a GIS data module, a two/three-dimensional display module, a pipe explosion plan analysis module and a maintenance monitoring module. According to the invention, through the combination of the Internet of things, the cloud GIS and the two-dimensional and three-dimensional technologies, the water supply pipe network is displayed in two-dimensional and three-dimensional forms for a manager to check, and the generation of the transverse and longitudinal section diagrams of the pipe network is supported, so that the user is assisted to accurately know the distribution, trend and other states of the water supply pipe network. From the perspective of a water supply enterprise, the water supply network GIS system can not only guarantee the detection quality of a pipe network and reduce the economic cost and the labor cost of repeated detection, but also reduce the workload of field workers, improve the efficiency of pipe network monitoring operation, and greatly reduce the cost of manpower, time, economy and the like.
Description
Technical Field
The invention belongs to the technical field of water affair management, and particularly relates to an intelligent water affair GIS geographic information system.
Background
With the continuous promotion of city construction process and the rapid development of social economy, the contradiction between the requirement of scientific and effective management of underground pipelines and the current lagging management means is increasingly prominent. The tap water pipe network is an important part in urban water supply, and great difficulty is brought to the work of the pipe network due to the complexity and the hiding performance of the urban water supply pipe network.
Disclosure of Invention
Aiming at the defects in the prior art, the invention provides the intelligent water affair GIS geographic information system which adopts a mode of combining the Internet of things, the cloud GIS and two three-dimensional integration to better display a water supply network.
The technical scheme adopted by the invention is as follows:
an intelligent water affair GIS geographic information system comprises a mobile terminal, a PC terminal and a cloud GIS server; the cloud GIS server comprises a login module; the mobile terminal and the PC terminal access the cloud GIS server to enter a system interface through the login module respectively; a functional module is arranged in the system interface; the function module comprises a GIS data module, a two/three-dimensional display module, a pipe explosion plan analysis module and a maintenance monitoring module. The processing is performed in the cloud, and cloud computing is a technology for concentrating computing resources so as to achieve more economical and economic utilization of the computing resources. And the cloud computing also facilitates the realization of larger-scale computing, and reduces the difficulty of large data space analysis.
Preferably, the GIS data module comprises a field acquisition sub-module, a GIS position database, an inquiry sub-module and an output map sub-module; the field acquisition submodule acquires information of a monitoring station of the water supply network and stores the information in a GIS position database; the query submodule is used for screening data information meeting the conditions from the GIS position database; and the map output sub-module is used for calling data from the GIS position database to generate and output a three-dimensional water supply network map.
Preferably, the two/three-dimensional display module comprises a water supply pipe network model library, a two-dimensional water supply pipe network display subunit, a three-dimensional water supply pipe network display subunit, a pipe network cross section display subunit and a pipe network longitudinal section display subunit.
Preferably, the water supply network model library is used for storing water supply network models generated by calling position information from the GIS position database; the three-dimensional water supply pipe network subunit is used for three-dimensionally displaying water supply pipe network models in the water supply pipe network model library; the two-dimensional water supply pipe network subunit is used for two-dimensionally displaying water supply pipe network models in the water supply pipe network model library; the pipe network cross section display subunit comprises a cross section setting unit and a cross section display unit; the cross section setting unit is used for setting pipeline cross section position parameters of the water supply pipe network model; the cross section display unit is used for displaying the two-dimensional pipeline cross section of the arranged water supply pipe network model; the pipe network vertical section display subunit comprises a vertical section setting unit and a vertical section display unit, wherein the vertical section setting unit is used for setting the position parameters of the pipeline vertical section of the water supply pipe network model; and the vertical section display unit is used for displaying the two-dimensional pipeline vertical section of the set water supply pipe network model.
Preferably, the pipe explosion plan analysis module comprises a pipe explosion analysis submodule, a temporary database, a valve closing plan database and a valve closing analysis submodule.
The pipe explosion analysis submodule analyzes a pipe explosion accident of the water supply pipeline to obtain a valve closing scheme of pipe explosion, and stores the valve closing scheme in a temporary database; the valve closing analysis submodule is used for calling a valve closing scheme from the temporary database and running on the water supply pipe network model, and if the valve closing scheme is normal, the valve closing scheme corresponding to the current pipe explosion accident is stored in the valve closing scheme database; if the valve closing scheme has valve failure, the information of the failed valve is transmitted to the pipe explosion analysis module, the pipe explosion analysis submodule generates a secondary valve closing scheme, and the secondary valve closing scheme is stored in a valve closing scheme database.
The maintenance monitoring module comprises an inspection terminal, an inspection position database, a task database, an inspection database and a distribution unit; the inspection position database is used for storing the position information of the inspection equipment; the task database is used for storing the inspection tasks; the inspection database is used for storing inspection data transmitted by the inspection terminal; and the distribution unit is used for calling the tasks from the task database and distributing the tasks to the inspection terminal.
According to the invention, the water supply network is displayed in two-dimensional and three-dimensional forms by combining the Internet of things, the cloud GIS and two-dimensional and three-dimensional technologies, so that the water supply network can be more visually and truly displayed for a manager to check, and a cross-sectional view and a longitudinal-sectional view of the pipe network are supported to be generated, thereby assisting a user to accurately know the distribution, trend and other states of the water supply network. From the perspective of a water supply enterprise, the water supply network GIS system can not only guarantee the detection quality of a pipe network and reduce the economic cost and the labor cost of repeated detection, but also reduce the workload of field workers, improve the efficiency of pipe network monitoring operation, and greatly reduce the cost of manpower, time, economy and the like. The invention is also provided with a pipe explosion plan analysis module which can display the accident on the three-dimensional water supply pipe network, comprehensively monitor the water supply condition of the water supply pipe network, find abnormal pipe networks in time and provide user solutions in time when the pipe networks leak or explode. In addition, the invention is also provided with an inspection monitoring module which can check the position and other conditions of inspection personnel, distribute tasks to the inspection personnel, realize the feedback and report of the tasks when commanding the inspection personnel, and find out some hidden trouble points through real-time monitoring to prevent the hidden trouble. The intelligent scheduling of water supply operation, full-life-cycle pipe network facility management and pipe network hydraulic model support is managed in a more refined and dynamic mode.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.
FIG. 1 is a block diagram of the system of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive effort based on the embodiments of the present invention, are within the scope of the present invention.
As shown in fig. 1, an intelligent water affair GIS geographic information system includes a mobile terminal, a PC terminal and a cloud GIS server; the cloud GIS server comprises a login module; the mobile terminal and the PC terminal access the cloud GIS server to enter a system interface through the login module respectively; a functional module is arranged in the system interface; the function module comprises a GIS data module, a two/three-dimensional display module, a pipe explosion plan analysis module and a maintenance monitoring module. The processing is performed in the cloud, and cloud computing is a technology for concentrating computing resources so as to achieve more economical and economic utilization of the computing resources. And the cloud computing also facilitates the realization of larger-scale computing, and reduces the difficulty of large data space analysis.
The GIS data module comprises a field acquisition sub-module, a GIS position database, an inquiry sub-module and an output map sub-module; the field acquisition submodule acquires information of a monitoring station of the water supply network and stores the information in a GIS position database; the query submodule is used for screening data information meeting the conditions from the GIS position database; and the map output sub-module is used for calling data from the GIS position database to generate and output a three-dimensional water supply network map.
The two/three-dimensional display module comprises a water supply pipe network model library, a two-dimensional water supply pipe network display subunit, a three-dimensional water supply pipe network display subunit, a pipe network cross section display subunit and a pipe network longitudinal section display subunit.
The water supply network model library is used for storing water supply network models generated by calling position information from the GIS position database; the three-dimensional water supply pipe network subunit is used for three-dimensionally displaying water supply pipe network models in the water supply pipe network model library; the two-dimensional water supply pipe network subunit is used for two-dimensionally displaying water supply pipe network models in the water supply pipe network model library; the pipe network cross section display subunit comprises a cross section setting unit and a cross section display unit; the cross section setting unit is used for setting pipeline cross section position parameters of the water supply pipe network model; the cross section display unit is used for displaying the two-dimensional pipeline cross section of the arranged water supply pipe network model; the pipe network vertical section display subunit comprises a vertical section setting unit and a vertical section display unit, wherein the vertical section setting unit is used for setting the position parameters of the pipeline vertical section of the water supply pipe network model; and the vertical section display unit is used for displaying the two-dimensional pipeline vertical section of the set water supply pipe network model.
The pipe explosion plan analysis module comprises a pipe explosion analysis submodule, a temporary database, a valve closing plan database and a valve closing analysis submodule. The pipe explosion plan analysis module can display the accident on the three-dimensional water supply pipe network, comprehensively monitor the water supply condition of the water supply pipe network, timely find abnormal pipe networks and timely provide user solutions when water leakage or pipe explosion occurs to the pipe networks.
The pipe explosion analysis submodule analyzes a pipe explosion accident of the water supply pipeline to obtain a valve closing scheme of pipe explosion, and stores the valve closing scheme in a temporary database; the valve closing analysis submodule is used for calling a valve closing scheme from the temporary database and running on the water supply pipe network model, and if the valve closing scheme is normal, the valve closing scheme corresponding to the current pipe explosion accident is stored in the valve closing scheme database; if the valve closing scheme has valve failure, the information of the failed valve is transmitted to the pipe explosion analysis module, the pipe explosion analysis submodule generates a secondary valve closing scheme, and the secondary valve closing scheme is stored in a valve closing scheme database.
The maintenance monitoring module comprises an inspection terminal, an inspection position database, a task database, an inspection database and a distribution unit; the inspection position database is used for storing the position information of the inspection equipment; the task database is used for storing the inspection tasks; the inspection database is used for storing inspection data transmitted by the inspection terminal; and the distribution unit is used for calling the tasks from the task database and distributing the tasks to the inspection terminal. The system can check the position and other conditions of the inspection personnel, distribute tasks to the inspection personnel, realize the feedback and report of the tasks when commanding the inspection personnel, and find out some hidden danger points through real-time monitoring to prevent the hidden danger points in the bud. The intelligent scheduling of water supply operation, full-life-cycle pipe network facility management and pipe network hydraulic model support is managed in a more refined and dynamic mode.
The Internet of things, the cloud GIS and the two-dimensional and three-dimensional technologies are combined, the water supply pipe network is displayed in a two-dimensional and three-dimensional mode, the water supply pipe network can be displayed more visually and truly for a manager to check, a transverse and longitudinal section diagram of the pipe network is generated, and a user is assisted in accurately knowing the distribution, the trend and other states of the water supply pipe network. From the perspective of a water supply enterprise, the water supply network GIS system can not only guarantee the detection quality of a pipe network and reduce the economic cost and the labor cost of repeated detection, but also reduce the workload of field workers, improve the efficiency of pipe network monitoring operation, and greatly reduce the cost of manpower, time, economy and the like.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention.
Claims (7)
1. The utility model provides an wisdom water affairs GIS geographic information system which characterized in that: the system comprises a mobile terminal, a PC terminal and a cloud GIS server; the cloud GIS server comprises a login module; the mobile terminal and the PC terminal access the cloud GIS server to enter a system interface through the login module respectively; a functional module is arranged in the system interface; the function module comprises a GIS data module, a two/three-dimensional display module, a pipe explosion plan analysis module and a maintenance monitoring module.
2. The intelligent water affair GIS geographic information system according to claim 1, wherein: the GIS data module comprises a field acquisition sub-module, a GIS position database, an inquiry sub-module and an output map sub-module; the field acquisition submodule acquires information of a monitoring station of the water supply network and stores the information in a GIS position database; the query submodule is used for screening data information meeting the conditions from the GIS position database; and the map output sub-module is used for calling data from the GIS position database to generate and output a three-dimensional water supply network map.
3. The intelligent water affair GIS geographic information system according to claim 1, wherein: the two/three-dimensional display module comprises a water supply pipe network model library, a two-dimensional water supply pipe network display subunit, a three-dimensional water supply pipe network display subunit, a pipe network cross section display subunit and a pipe network longitudinal section display subunit.
4. The intelligent water affair GIS geographic information system according to claim 3, wherein: the water supply network model library is used for storing water supply network models generated by calling position information from the GIS position database; the three-dimensional water supply pipe network subunit is used for three-dimensionally displaying water supply pipe network models in the water supply pipe network model library; the two-dimensional water supply pipe network subunit is used for two-dimensionally displaying water supply pipe network models in the water supply pipe network model library; the pipe network cross section display subunit comprises a cross section setting unit and a cross section display unit; the cross section setting unit is used for setting pipeline cross section position parameters of the water supply pipe network model; the cross section display unit is used for displaying the two-dimensional pipeline cross section of the arranged water supply pipe network model; the pipe network vertical section display subunit comprises a vertical section setting unit and a vertical section display unit, wherein the vertical section setting unit is used for setting the position parameters of the pipeline vertical section of the water supply pipe network model; and the vertical section display unit is used for displaying the two-dimensional pipeline vertical section of the set water supply pipe network model.
5. The intelligent water affair GIS geographic information system according to claim 1, wherein: the pipe explosion plan analysis module comprises a pipe explosion analysis submodule, a temporary database, a valve closing plan database and a valve closing analysis submodule.
6. The intelligent water affair GIS geographic information system according to claim 5, wherein: the pipe explosion analysis submodule analyzes a pipe explosion accident of the water supply pipeline to obtain a valve closing scheme of pipe explosion, and stores the valve closing scheme in a temporary database; the valve closing analysis submodule is used for calling a valve closing scheme from the temporary database and running on the water supply pipe network model, and if the valve closing scheme is normal, the valve closing scheme corresponding to the current pipe explosion accident is stored in the valve closing scheme database; if the valve closing scheme has valve failure, the information of the failed valve is transmitted to the pipe explosion analysis module, the pipe explosion analysis submodule generates a secondary valve closing scheme, and the secondary valve closing scheme is stored in a valve closing scheme database.
7. The intelligent water affair GIS geographic information system according to claim 1, wherein: the maintenance monitoring module comprises an inspection terminal, an inspection position database, a task database, an inspection database and a distribution unit; the inspection position database is used for storing the position information of the inspection equipment; the task database is used for storing the inspection tasks; the inspection database is used for storing inspection data transmitted by the inspection terminal; and the distribution unit is used for calling the tasks from the task database and distributing the tasks to the inspection terminal.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112101794A (en) * | 2020-09-17 | 2020-12-18 | 北京慧怡科技有限责任公司 | Intelligent water network remote management method and device |
CN112560291A (en) * | 2020-12-30 | 2021-03-26 | 郑州力通水务有限公司 | Wisdom water utilities water supply pipe network explodes a tub analytic system |
CN112732822A (en) * | 2020-12-29 | 2021-04-30 | 郑州力通水务有限公司 | Intelligent drainage comprehensive management system |
CN112783118A (en) * | 2020-12-30 | 2021-05-11 | 郑州力通水务有限公司 | Digital water affair informatization intelligent management platform |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112101794A (en) * | 2020-09-17 | 2020-12-18 | 北京慧怡科技有限责任公司 | Intelligent water network remote management method and device |
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CN112732822B (en) * | 2020-12-29 | 2023-03-03 | 郑州力通水务有限公司 | Intelligent comprehensive drainage management system |
CN112560291A (en) * | 2020-12-30 | 2021-03-26 | 郑州力通水务有限公司 | Wisdom water utilities water supply pipe network explodes a tub analytic system |
CN112783118A (en) * | 2020-12-30 | 2021-05-11 | 郑州力通水务有限公司 | Digital water affair informatization intelligent management platform |
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