CN114065955A - Power cable visual monitoring maintenance management system based on GIS - Google Patents

Abstract

The invention relates to a GIS (geographic information system) -based power cable visual monitoring, overhauling and managing system, which comprises a cloud system, an Internet of things platform, a database, an underground cable temperature measuring terminal, a setting module, an authority configuration module, a data meta module, a database module, a geographic information analysis module, an equipment information analysis module, an underground resource information analysis module, a matching module, a modeling module, a layer drawing module, a visual application module, a layout management module, a data acquisition module, a multi-mode dynamic monitoring and alarming module, a message management module and an inquiring and counting module, wherein the cloud system is connected with the Internet of things platform; the invention can intuitively and accurately restore the information of all underground power cable equipment in the current environment, enables the maintenance work to be more efficient and orderly, avoids low-efficiency and high-error manual operation in the process of matching geographic information and equipment information, and is beneficial to subsequent planning and construction of the whole power cable wiring.

Description

Power cable visual monitoring maintenance management system based on GIS

Technical Field

The invention relates to the technical field of power cable geographic information, in particular to a GIS-based power cable visual monitoring and overhauling management system.

Background

The Geographic Information System (GIS) of power cables is a technical System for collecting, storing, managing, computing, analyzing, displaying and describing relevant Geographic distribution data in the whole or part of the earth surface space under the support of a computer hardware and software System. The power cable is used for transmitting and distributing electric energy and is commonly used for urban underground power grids, power station leading-out lines, power transmission lines under river-crossing seawater and the like. With the advance of urbanization process and the development of technical innovation of the power industry, the power cable is gradually changed from an original overhead mode to be laid underground or in a cable tunnel. In the underground environment, if a power cable fault occurs, the difficulty of maintenance work is often greater. And has higher real-time warning and rapid positioning requirements for emergency repair work.

In the prior art, the traditional engineering drawing mode cannot meet the requirements of rapidness and accuracy, a large amount of time and energy are needed for processing and matching mass data, a high error rate is achieved, and once deviation occurs, the construction cost can be greatly improved.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides the power cable visual monitoring and overhauling management system which can highly integrate a power cable distribution map in an underground complex environment into a three-dimensional visual model and integrates basic information maintenance, visual display and monitoring alarm into a GIS (geographic information system) -based power cable.

The specific technical scheme is as follows: the utility model provides a visual monitoring of power cable overhauls management system based on GIS, includes high in the clouds system, thing networking platform and underground cable temperature measurement terminal, and the high in the clouds system includes:

the setting module is used for reading system basic parameters and initializing a relevant processing process;

the authority configuration module is used for setting the use level and the authority of the user;

the data metadata module is connected with the setting module and used for setting basic data rules;

the database module is connected with the setting module and used for reading, writing and storing data;

the geographic information analysis module is connected with the database module and analyzes the geographic information according to the geographic information analysis rule;

the equipment information analysis module is connected with the database module and analyzes the equipment information according to the equipment information analysis rule;

the underground resource information analysis module is connected with the database module and analyzes the underground resource information according to the underground resource information analysis rule;

the matching module is connected with the geographic information analysis module, the equipment information analysis module and the underground resource information analysis module and is used for calling related modules to carry out comprehensive matching integration;

the modeling module is connected with the matching module and used for forming a power cable wiring three-dimensional model according to the information matching result and the equipment proportion to complete visual rendering;

the layer drawing module is used for manually intervening and correcting under the condition of generating errors through automatic analysis, and customizing display colors and proportions according to different scene requirements;

the visual application module is used for customizing various display conditions and message contents by using personnel according to different scene requirements;

the layout management module is used for customizing a window combination display form according to different scene requirements by using personnel;

the data acquisition module is used for being connected with a third-party software interface to perform data interaction and function expansion;

the multimode dynamic monitoring alarm module is used for setting triggering alarm conditions and sending alarm information to a specific user according to the setting;

the message management module is used for editing the content of the patterned prompt message and popping up an alarm message after matching with a specific trigger condition;

and the query and statistic module is used for setting query and statistic parameters, optionally selecting and setting field condition combination definition, generating corresponding results and exporting the results.

As a preferred scheme, the cloud system further comprises a thread controller, and the thread controller is connected with the geographic information analysis module, the equipment information analysis module and the underground resource information analysis module to perform multi-thread control.

As preferred scheme, high in the clouds system and cable temperature measurement platform intercommunication.

As the preferred scheme, the cloud system is communicated with the intelligent terminal.

As the preferred scheme, the cloud system is communicated with the Internet of things platform.

As an optimal scheme, the Internet of things platform is communicated with the underground cable temperature measuring terminal.

As a preferred scheme, the underground cable temperature measuring terminal comprises a gateway, the gateway is arranged on a cable well wall, and the gateway is communicated with the Internet of things platform.

As the preferred scheme, the underground cable temperature measurement terminal comprises a temperature measurement watchband, and the temperature measurement watchband is arranged on the outer side of the cable and communicated with the gateway.

The invention has the technical effects that: the invention integrates the height of the power cable distribution diagram in the underground complex environment into a three-dimensional visual model, and integrates basic information maintenance, visual display and monitoring alarm into a dynamic management system. When the method is applied to work such as patrol, overhaul and the like, the information of all underground power cable equipment in the current environment can be intuitively and accurately restored, and the method can work together with wearing equipment such as MR glasses and the like, so that the overhaul work is more efficient and orderly, the manual work of low efficiency and high error in the process of matching geographic information and equipment information is avoided, and the follow-up planning and construction of the whole power cable wiring are facilitated.

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, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic diagram of a power cable visual monitoring and overhaul management system based on a GIS according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of a cloud system according to an embodiment of the present invention.

Fig. 3 is a visual schematic diagram of a power cable of an embodiment of the present invention.

Fig. 4 is a visualized scene diagram of the power cable according to the embodiment of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

As shown in fig. 1 to 4, the power cable visual monitoring and maintenance management system based on the GIS of the present embodiment includes a cloud system, and the cloud system includes: the system comprises a setting module 1, a permission configuration module 2, a data meta module 3, a database module 4, a geographic information analysis module 5, an equipment information analysis module 6, an underground resource information analysis module 7, a matching module 8, a modeling module 9, a layer drawing module 10, a visual application module 11, a layout management module 12, a data acquisition module 13, a multi-mode dynamic monitoring alarm module 14, a message management module 15 and an inquiry and statistics module 16. The setting module 1 is used for reading system basic parameters and initializing a relevant processing process; the authority configuration module 2 is used for setting the user use level and the authority; the data metadata module 3 is connected with the setting module 1 and used for setting basic data rules; the database module 4 is connected with the setting module 1 and used for reading, writing and storing data; the geographic information analysis module 5 is connected with the database module 4 and analyzes the geographic information according to the geographic information analysis rule; the equipment information analysis module 6 is connected with the database module 4 and analyzes the equipment information according to the equipment information analysis rule; the underground resource information analysis module 7 is connected with the database module 4 and analyzes the underground resource information according to the underground resource information analysis rule; the matching module 8 is connected with the geographic information analysis module 5, the equipment information analysis module 6 and the underground resource information analysis module 7 and is used for calling related modules to carry out comprehensive matching integration; the modeling module 9 is connected with the matching module 8 and used for forming a power cable wiring three-dimensional model according to the information matching result and the equipment proportion to complete visual rendering; the layer drawing module 10 is used for manually intervening and correcting under the condition of generating errors through automatic analysis, and customizing display colors and proportions according to different scene requirements; the visual application module 11 is used for customizing various display conditions and message contents by using personnel according to different scene requirements; the layout management module 12 is used for customizing a window combination display form according to different scene requirements by users; the data acquisition module 13 is used for connecting with a third-party software interface to perform data interaction and function expansion; a multimode dynamic monitoring alarm module 14, configured to set a trigger alarm condition and send an alarm message to a specific user according to the setting; the message management module 15 is used for editing the content of the patterned prompt message and popping up an alarm message after matching with a specific trigger condition; and the query and statistic module 16 is used for setting query and statistic parameters, optionally selecting and setting field condition combination definition, generating corresponding results and exporting the results.

Through the technical scheme, the power cable distribution diagram in the underground complex environment is highly integrated into a three-dimensional visual model, and basic information maintenance, visual display and monitoring alarm are integrated into a dynamic management system. When the method is applied to work such as patrol, overhaul and the like, the information of all underground power cable equipment in the current environment can be intuitively and accurately restored, and the method can work together with wearing equipment such as MR glasses and the like, so that the overhaul work is more efficient and orderly, the manual work of low efficiency and high error in the process of matching geographic information and equipment information is avoided, and the follow-up planning and construction of the whole power cable wiring are facilitated.

In this embodiment, the cloud system further includes a thread controller, and the thread controller is connected with the geographic information analysis module, the device information analysis module, and the underground resource information analysis module, and performs multi-thread control. The cloud system is communicated with the cable temperature measuring platform, so that visual display can be performed through the cable temperature measuring platform.

In this embodiment, the cloud system communicates with the intelligent terminal 17, and through the APP or the wechat applet installed on the intelligent terminal 17, visual display can be performed. The cloud system is communicated with the Internet of things platform 18, the Internet of things platform 18 is communicated with the underground cable temperature measuring terminal 19, information measured through the cable temperature measuring terminal 19 is sent to the Internet of things platform 18, and the information is transmitted to the data acquisition module 13 through the Internet of things platform 18. The underground cable temperature measuring terminal 19 comprises a gateway 20, the gateway is arranged on a cable well wall 30, and the gateway 20 is communicated with the Internet of things platform 18. The underground cable temperature measurement terminal 19 comprises a temperature measurement watchband 21, and the temperature measurement watchband 21 is arranged on the outer side of the cable and communicated with the gateway 20. Can record cable 40's temperature through the temperature measurement watchband, through LORA wireless technology, with signal transmission for the gateway, the gateway uploads/receives data through the 4G network.

As shown in figures 3 and 4, the cable joints of the urban underground cable are not numerous but dense like a spider web at present. The GIS-based power cable visual monitoring and overhauling management system has the following advantages that: 1. all cable information can be known through a GIS (geographic information system) diagram, a maintenance department can find which cable and which connector can be connected by only one mobile phone or pad on site without holding a drawing; 2. the temperature change of the cable can be monitored in real time by installing a joint temperature measuring device (most of the healthy operation of the cable can be known through the temperature, and the temperature of the cable is raised to a certain extent before explosion); 3. through the system, the underground cable electronic tag can play a role.

Although the above description has been made on the visual monitoring and maintenance management system for a power cable based on GIS according to the present invention, the present invention is not limited to the above-described specific embodiment, and various modifications and changes may be made without departing from the scope of the claims. The present invention includes various modifications and alterations within the scope of the claims.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, those skilled in the art will appreciate that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (8)

1. The utility model provides a visual monitoring of power cable overhauls management system based on GIS, which characterized in that, including high in the clouds system, thing networking platform and underground cable temperature measurement terminal, the high in the clouds system includes:

the setting module is used for reading system basic parameters and initializing a relevant processing process;

the authority configuration module is used for setting the use level and the authority of the user;

the data metadata module is connected with the setting module and used for setting basic data rules;

the database module is connected with the setting module and used for reading, writing and storing data;

the geographic information analysis module is connected with the database module and analyzes the geographic information according to the geographic information analysis rule;

the equipment information analysis module is connected with the database module and analyzes the equipment information according to the equipment information analysis rule;

the underground resource information analysis module is connected with the database module and analyzes the underground resource information according to the underground resource information analysis rule;

the matching module is connected with the geographic information analysis module, the equipment information analysis module and the underground resource information analysis module and is used for calling related modules to carry out comprehensive matching integration;

the modeling module is connected with the matching module and used for forming a power cable wiring three-dimensional model according to the information matching result and the equipment proportion to complete visual rendering;

the layer drawing module is used for manually intervening and correcting under the condition of generating errors through automatic analysis, and customizing display colors and proportions according to different scene requirements;

the visual application module is used for customizing various display conditions and message contents by using personnel according to different scene requirements;

the layout management module is used for customizing a window combination display form according to different scene requirements by using personnel;

the data acquisition module is used for being connected with a third-party software interface to perform data interaction and function expansion;

the multimode dynamic monitoring alarm module is used for setting triggering alarm conditions and sending alarm information to a specific user according to the setting;

the message management module is used for editing the content of the patterned prompt message and popping up an alarm message after matching with a specific trigger condition;

and the query and statistic module is used for setting query and statistic parameters, optionally selecting and setting field condition combination definition, generating corresponding results and exporting the results.

2. The GIS-based power cable visual monitoring and overhauling management system according to claim 1, wherein the cloud system further comprises a thread controller, and the thread controller is connected with the geographic information analysis module, the equipment information analysis module and the underground resource information analysis module to perform multi-thread control.

3. The GIS-based power cable visual monitoring and overhaul management system as claimed in claim 2, wherein the cloud system is in communication with a cable temperature measurement platform.

4. The GIS-based power cable visual monitoring and overhaul management system according to claim 3, wherein the cloud system is in communication with the intelligent terminal.

5. The GIS-based power cable visual monitoring and overhaul management system according to claim 4, wherein the cloud system is in communication with an Internet of things platform.

6. The GIS-based power cable visual monitoring, overhauling and management system according to claim 5, wherein the platform of the Internet of things is communicated with the underground cable temperature measuring terminal.

7. The GIS-based power cable visual monitoring, overhauling and management system according to claim 6, wherein the underground cable temperature measuring terminal comprises a gateway, the gateway is arranged on a cable well wall, and the gateway is in communication with the Internet of things platform.

8. The GIS-based power cable visual monitoring, overhauling and management system according to claim 7, wherein the underground cable temperature measurement terminal comprises a temperature measurement watchband, and the temperature measurement watchband is arranged outside the cable and communicated with the gateway.

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