CN111081109A

CN111081109A - Automatic fault rapid positioning simulation system for power distribution network

Info

Publication number: CN111081109A
Application number: CN201911412994.7A
Authority: CN
Inventors: 隋春静; 朱宁
Original assignee: Jiangsu Zhongfu Electric Power Engineering Design Co Ltd
Current assignee: Jiangsu Zhongfu Electric Power Engineering Design Co Ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2020-04-28

Abstract

The invention discloses a power distribution network automatic fault rapid positioning simulation system, relates to the technical field of power distribution networks, and aims to solve the problem that in the prior art, professional talents for training fault processing cannot be distinguished from irrelevant personnel, so that resource occupation and waste are caused. The key points of the technical scheme are as follows: GIS platform, BIM model, fault monitoring module, control center, wireless communication module, control center login system is including registering unit, database unit and data processing unit, registering unit gathers operating personnel's identity information, database unit is used for the storage to register the successful operating personnel identity information through registering unit, data processing unit is used for comparing login information and the identity information that data can the unit storage and judging whether authorize. The invention realizes the purpose of authorizing personnel account login simulation systems participating in training and ensures the training.

Description

Automatic fault rapid positioning simulation system for power distribution network

Technical Field

The invention relates to the technical field of power distribution networks, in particular to a power distribution network automatic fault rapid positioning simulation system.

Background

With the continuous improvement of the requirement on power supply reliability, the power grid operation faces huge challenges, and the real-time monitoring and remote control on the operation condition of a power distribution network are objectively required. The construction and operation of the power distribution automation system can effectively reduce the fault processing time, further improve the lean management capability of production operation and improve the power supply service level. The realization of distribution automation is based on distribution system information, and needs to transmit control commands of a control center to a plurality of remote terminals accurately by means of effective communication means, and collect data information reflecting the operating conditions of remote equipment to the control center. Therefore, the distribution automation communication system is a very important link in a distribution network automation system and is a neural system for distribution network automation.

To improve the reliability of power supply, workers need to be trained about fault handling, so that professional talents who can handle faults in time are cultivated. Therefore, the account number for logging in the simulated power distribution system is granted to the personnel participating in training, and the phenomenon that illegal personnel start the monitoring system at will, so that waste and resource occupation are avoided.

Disclosure of Invention

The invention aims to provide a power distribution network automation fault rapid positioning simulation system which has the advantages that personnel accounts authorized to participate in training log in the simulation system, and the training effect is guaranteed.

The above object of the present invention is achieved by the following technical solutions:

a power distribution network automation fault rapid positioning simulation system comprises:

the GIS platform is used for recording and managing the landform and the landform near the line where the power distribution network is located and constructing a real scene model, so that the real scene model has space coordinate information;

the BIM model is constructed according to the real scene model of the GIS platform and the construction drawing information of the power distribution network, and equipment and cables in the power distribution network are numbered;

the fault monitoring modules are distributed on the distribution network lines in a plurality and used for acquiring and monitoring load information and line fault information of the distribution lines;

the control center is used for sending a control signal command to equipment in the power distribution network, receiving feedback information, sending a monitoring command to the fault monitoring module and receiving monitoring information;

the wireless communication module is used for realizing data transmission between the control center and the fault monitoring module;

the control center login system is used for logging in an account number in the system to authorize and start the fault monitoring module and comprises a registration unit, a database unit and a data processing unit, wherein the registration unit is used for collecting identity information of an operator, the database unit is used for storing the identity information of the operator successfully registered through the registration unit, and the data processing unit is used for comparing the login information with the identity information storable in the data unit and judging whether the login information is authorized or not.

The invention is further configured to: the information registration module comprises a face recognition module, a fingerprint recognition module and an identity card information reading module, wherein the face recognition module comprises a static and dynamic image acquisition device and a data processing unit and is used for capturing a static or dynamic human face image and comparing the static or dynamic human face image with image information stored in a storage card or a server to acquire corresponding identity information, the fingerprint recognition module is used for recording fingerprints of operators, and the identity card information reading module is used for recording the identity card information of the operators.

The invention is further configured to: the data of GIS platform derive from unmanned aerial vehicle, install the camera, infrared scanning inductor and laser radar on multiunit unmanned aerial vehicle, utilize multiunit unmanned aerial vehicle to scan above the distribution network, gather GIS data and type in the GIS platform.

The invention is further configured to: and performing real-time optimized rendering on the BIM model data, performing topology analysis, occlusion rejection and rendering sequencing processing on the model according to specific parameters of the GIS data, and then outputting a three-dimensional rendering result frame by frame.

The invention is further configured to: loading the rendered three-dimensional display result into different display platforms; the display platform comprises a PC end platform, a WPF large-screen display platform and a Web end webpage platform; the PC end platform establishes a model display window through QT to display a rendered three-dimensional display result; the WPF large-screen display platform establishes model display modules applied to various large-screen terminals through com component technology so as to display rendered three-dimensional display results; the Web end webpage platform is of a B/S framework, and a three-dimensional interactive interface is established through an ocx technology to display a rendered three-dimensional display result.

In conclusion, the beneficial technical effects of the invention are as follows:

1. through the arrangement of the GIS platform, the BIM model, the fault monitoring module, the control center, the wireless communication module and the control center login system, personnel participating in training are authorized to enter the simulation system, so that resource occupation and waste caused by repeated entering of irrelevant personnel into the system are avoided, and meanwhile, with the assistance of the GIS platform and the BIM model, the training personnel can more accurately and intuitively acquire coordinate information of a fault position;

2. the BIM model data is subjected to real-time optimization rendering, so that training personnel are helped to further accurately position fault points in a three-dimensional space;

3. by loading the rendered three-dimensional display result to different display platforms, training personnel can log in and train by using different tools, and the training mode is diversified.

Drawings

FIG. 1 is an overall system block diagram of an embodiment of the present invention.

Detailed Description

The invention discloses a rapid positioning simulation system for distribution network automation faults, which comprises:

the control center login system is used for logging in an account number in the system to authorize and start the fault monitoring module and comprises a registration unit, a database unit and a data processing unit, wherein the registration unit is used for collecting identity information of an operator, the database unit is used for storing the identity information of the operator successfully registered through the registration unit, and the data processing unit is used for comparing the login information with the identity information which can be stored in the data processing unit and judging whether the login information is authorized or not. The fault monitoring module is in a fault detection mode of the existing power distribution network. The wireless communication module selects one of 4G, 5G, WiFi.

The information registration module comprises a face recognition module, a fingerprint recognition module and an identity card information reading module, wherein the face recognition module comprises a static and dynamic image acquisition device and a data processing unit and is used for capturing a static or dynamic human face image and comparing the static or dynamic human face image with image information stored in a storage card or a server to acquire corresponding identity information, the fingerprint recognition module is used for recording fingerprints of operators, and the identity card information reading module is used for recording the identity card information of the operators.

The data of GIS platform derive from unmanned aerial vehicle, with the camera, infrared scanning inductor and laser radar install on multiunit unmanned aerial vehicle, utilize multiunit unmanned aerial vehicle to scan in the distribution network sky, gather GIS data and type GIS platform.

And performing real-time optimized rendering on the BIM model data, performing topology analysis, occlusion rejection and rendering sequencing processing on the model according to specific parameters of the GIS data, and then outputting a three-dimensional rendering result frame by frame.

Loading the rendered three-dimensional display result into different display platforms; the display platform comprises a PC end platform, a WPF large-screen display platform and a Web end webpage platform; establishing a model display window by the PC end platform through QT to display a rendered three-dimensional display result; the WPF large-screen display platform is used for establishing a model display module applied to various large-screen terminals through com component technology so as to display rendered three-dimensional display results; the Web end webpage platform is of a B/S framework, and a three-dimensional interactive interface is established through an ocx technology to display a rendered three-dimensional display result.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. The utility model provides a distribution network automation trouble fixes a position analog system fast which characterized in that includes:

2. The power distribution network automation fault rapid location simulation system of claim 1, characterized in that: the information registration module comprises a face recognition module, a fingerprint recognition module and an identity card information reading module, wherein the face recognition module comprises a static and dynamic image acquisition device and a data processing unit and is used for capturing a static or dynamic human face image and comparing the static or dynamic human face image with image information stored in a storage card or a server to acquire corresponding identity information, the fingerprint recognition module is used for recording fingerprints of operators, and the identity card information reading module is used for recording the identity card information of the operators.

3. The power distribution network automation fault rapid location simulation system of claim 1, characterized in that: the data of GIS platform derive from unmanned aerial vehicle, install the camera, infrared scanning inductor and laser radar on multiunit unmanned aerial vehicle, utilize multiunit unmanned aerial vehicle to scan above the distribution network, gather GIS data and type in the GIS platform.

4. The power distribution network automation fault rapid location simulation system of claim 3, wherein: and performing real-time optimized rendering on the BIM model data, performing topology analysis, occlusion rejection and rendering sequencing processing on the model according to specific parameters of the GIS data, and then outputting a three-dimensional rendering result frame by frame.

5. The power distribution network automation fault rapid location simulation system of claim 4, wherein: loading the rendered three-dimensional display result into different display platforms; the display platform comprises a PC end platform, a WPF large-screen display platform and a Web end webpage platform; the PC end platform establishes a model display window through QT to display a rendered three-dimensional display result; the WPF large-screen display platform establishes model display modules applied to various large-screen terminals through com component technology so as to display rendered three-dimensional display results; the Web end webpage platform is of a B/S framework, and a three-dimensional interactive interface is established through an ocx technology to display a rendered three-dimensional display result.