CN103545928A - A Step-by-Level Penetrating Intelligent Distribution Network Operation Monitoring System - Google Patents

Abstract

The invention discloses a step-by-step intelligent distribution network operation monitoring system, including a distribution automation system, a repair control system, a data interaction bus, a network release module, a data analysis module, a data storage module, a cloud scheduling module and a monitoring system. server, the monitoring server is respectively connected to the network release module, the data analysis module and the data storage module through the cloud scheduling module, the data analysis module is connected to the data storage module, and the data interaction bus is respectively connected to the distribution automation system and the emergency repair control The system, the network publishing module and the data storage module are connected. The invention integrates multiple module systems through the data interaction bus, so that the monitoring server and the emergency repair control system are connected through database level and WEBSERVICE; at the same time, vertical data penetration to the smallest equipment logic unit and horizontal monitoring diversification are realized. The present invention can be widely used in the field of smart grids as a step-by-step intelligent distribution network operation monitoring system.

Description

A Step-by-Level Penetrating Intelligent Distribution Network Operation Monitoring System

technical field

The invention relates to the field of smart power grids, in particular to an operation monitoring system for a smart distribution network that penetrates step by step.

Background technique

The smart grid is built on the basis of an integrated, high-speed two-way communication network. Through the application of advanced sensing and measurement technology, advanced equipment technology, advanced control method and advanced decision support system technology, the reliability and safety of the power grid can be realized. , economical, efficient, environmentally friendly and safe to use, its main features include self-healing, motivating and including users, resisting attacks, providing power quality that meets the needs of users in the 21st century, allowing access to various forms of power generation, starting power Optimal and efficient operation of markets and assets.

A smart grid is a transmission network created with two-way digital technology to transmit electricity. It can detect the power supply status of power suppliers and the power usage status of general household users to adjust the power consumption of household appliances, so as to achieve the purpose of saving energy, reducing loss and enhancing the reliability of the power grid. The prototype of the smart grid was produced in the 20th century, a simple upgrade of the grid that transmits power from a few central generators to a large number of users. On the basis of the traditional power grid, the topological network of power transmission is more optimized to meet a wider range of various power consumption conditions, such as charging the battery during low power consumption periods, and then providing power to the grid in turn during peak hours.

Today, with the vigorous development of smart grids, all power supply companies are actively building their own smart grids. The progress of specific construction, the degree of practicality, and the economic benefits brought about are invisible to the higher authorities. As the most direct investor, the provincial electric power group companies definitely want to know the use of distribution automation in various cities, and the current method is to report artificially through reports. There are many problems in this way, and it cannot reflect the real problem.

Contents of the invention

In order to solve the above-mentioned technical problems, the object of the present invention is to provide an efficient, step-by-step, intelligent distribution network operation monitoring system with comprehensive information processing capabilities for the bottom logic unit.

The technical solution adopted in the present invention is: a step-by-step intelligent distribution network operation monitoring system, including a distribution automation system, a repair control system, a data interaction bus, a network release module, a data analysis module, a data storage module, A cloud dispatching module and a monitoring server, the monitoring server is respectively connected to the network release module, the data analysis module and the data storage module through the cloud dispatching module, the data analysis module is connected to the data storage module, and the data interaction bus is respectively connected to the power distribution The automation system, the emergency repair control system, the network release module and the data storage module are connected.

Further, the cloud scheduling module includes a cloud computing scheduling submodule and a cloud storage scheduling submodule, and the monitoring server is respectively connected to the cloud computing scheduling submodule and the cloud storage scheduling submodule, and the cloud computing scheduling submodule is connected with the data analysis The modules are connected, and the cloud storage scheduling sub-module is connected with the data storage module.

Further, the network publishing module is used to provide data interaction for the monitoring server through the cloud scheduling module using WEBSERVICE technology.

Further, the data analysis module includes a basic information analysis sub-module, and the basic information analysis sub-module is used for statistics of equipment information, distribution automation coverage, line connection rate and line cabling rate.

Further, the data analysis module includes a real-time monitoring sub-module, which is used to monitor the operation of distribution lines, operation of utility transformers, distribution network accidents and distribution network loads.

Further, the data analysis module includes a real-time analysis sub-module for operation inspection, which is used to analyze line load rate, distribution transformer load rate, distribution network fault repair and low-voltage fault.

Further, the data analysis module includes a real-time statistical sub-module of operation inspection, which is used to count planned power outages, important emergency repair resources, equipment defects, and equipment operating years.

Further, the data analysis module includes an automation application monitoring sub-module, which is used for monitoring the online status of the power distribution terminal, counting the online rate of the power distribution terminal, counting the usage rate of the remote control, and statistically analyzing the fault of the feeder.

Further, the data analysis module includes an index monitoring sub-module, and the index monitoring sub-module is used to monitor the comprehensive voltage pass rate, the low-voltage voltage pass rate, the distribution network power supply reliability rate and the distribution network line loss rate.

Further, the data storage module includes a primary memory, a secondary memory and a tertiary memory, the primary memory is used to store the real-time data of the distribution automation system and the emergency repair control system obtained through the data interaction bus, and the secondary The memory is used to store classified data on the primary storage, and the third-level storage is used to store relational data reflecting data association on the secondary storage.

The beneficial effects of the present invention are: the distribution automation system used as the bottom support and the emergency repair control system and the network publishing module, data analysis module and data storage module used as the service layer are connected as a whole through the data interaction bus, so that the monitoring server There are both database-level shared connections and WEBSERVICE connections with the emergency repair control system; at the same time, the three-level structure of the data storage module realizes vertical data penetration to the smallest equipment logic unit and horizontal monitoring diversification.

Description of drawings

Fig. 1 is a system structure diagram of the present invention;

Fig. 2 is the system structural diagram that Fig. 1 further realizes;

Fig. 3 is a functional module diagram inside the data analysis module in the present invention.

Detailed ways

The specific embodiment of the present invention will be further described below in conjunction with accompanying drawing:

Referring to Figure 1, a smart distribution network operation monitoring system that penetrates step by step includes a distribution automation system, emergency repair control system, data interaction bus, network release module, data analysis module, data storage module, cloud scheduling module and monitoring server, the monitoring server is respectively connected to the network release module, the data analysis module and the data storage module through the cloud scheduling module, the data analysis module is connected to the data storage module, and the data interaction bus is respectively connected to the distribution automation system and the emergency repair control The system, the network publishing module and the data storage module are connected.

The data interaction bus is connected to multiple sets of distribution automation systems and emergency repair control systems, and each distribution automation system corresponds to a emergency repair control system. The information in the distribution automation system is synchronized to the monitoring server, and the monitoring server can call the three districts (province, city, county) distribution automation WEB to browse, and the distribution network failure of the distribution automation system is synchronized to the emergency repair control system. The distribution automation system and the emergency repair control system jointly construct the underlying support of the integrated monitoring system of the present invention.

Referring to Fig. 2, further as a preferred embodiment, the cloud scheduling module includes a cloud computing scheduling submodule and a cloud storage scheduling submodule, and the monitoring server is respectively connected to the cloud computing scheduling submodule and the cloud storage scheduling submodule, so The cloud computing scheduling submodule is connected to the data analysis module, and the cloud storage scheduling submodule is connected to the data storage module.

As a further preferred embodiment, the network publishing module is used to provide data interaction for the monitoring server through the cloud scheduling module by using WEBSERVICE technology.

Web Service technology enables different applications running on different machines to exchange data or integrate without additional, specialized third-party software or hardware. Applications implemented according to the Web Service specification can exchange data with each other regardless of the language, platform or internal protocol they use. Web Service is a self-describing and self-contained available network module that can perform specific business functions. Web Services are also easy to deploy because they are based on common industry standards and existing technologies such as XML and HTTP. Web Service reduces the cost of application interface. Web Service provides a common mechanism for the integration of business processes across an entire enterprise or even between multiple organizations.

The monitoring server and the emergency repair control system have a shared connection at the database level, that is, the emergency repair control system is connected to the data storage module through the data interaction bus, and the data storage module is connected to the monitoring server through the cloud storage scheduling sub-module; at the same time, the monitoring server and the emergency repair control system There is also a connection through WEBSERVICE, that is, the emergency repair control system is connected to the monitoring server through the data interaction bus, the network publishing module, and the cloud scheduling module in turn. When the emergency repair control system sends a fault to the distribution network, it needs to complete the incident according to the emergency repair command process. Then connect with the monitoring server through WEBSERVICE.

Referring to Fig. 3, further as a preferred embodiment, the data analysis module includes a basic information analysis sub-module, which is used for statistical equipment information, power distribution automation coverage, line connection rate and line cabling Rate.

Referring to FIG. 3 , as a further preferred embodiment, the data analysis module includes a real-time monitoring sub-module, which is used to monitor the operation of distribution lines, operation of utility transformers, distribution network accidents and distribution network loads.

Referring to Fig. 3, further as a preferred embodiment, the data analysis module includes a real-time analysis sub-module of operation inspection, and the real-time analysis sub-module of operation inspection is used to analyze line load rate, distribution transformer load rate, distribution network fault repair and Low voltage failure.

Referring to FIG. 3 , as a further preferred embodiment, the data analysis module includes a real-time statistical submodule of operation inspection, which is used to count planned power outages, important emergency repair resources, equipment defects, and equipment operating years.

Referring to Fig. 3, further as a preferred embodiment, the data analysis module includes an automation application monitoring sub-module, and the automation application monitoring sub-module is used to monitor the online status of the power distribution terminal, count the online rate of the power distribution terminal, and count the use of remote control rate and statistical analysis of feeder faults.

Referring to Fig. 3, further as a preferred embodiment, the data analysis module includes an index monitoring sub-module, and the index monitoring sub-module is used to monitor the comprehensive voltage pass rate, the low-voltage voltage pass rate, the distribution network power supply reliability rate and the distribution network line loss rate.

The key data in the data storage module in the present invention include distribution network line load rate, distribution transformer load rate, distribution network fault information, feeder automation action record, distribution automation remote control record, distribution network scale data (line connection rate, each number of class devices), etc. In the data analysis module, the basic information analysis sub-module analyzes the real-time load of the distribution line by extracting the telemetry information of the distribution line and the basic configuration information of the distribution line stored in the data storage module; Coverage; the automation application monitoring sub-module analyzes the real-time terminal online rate according to the real-time online status of the distribution intelligent terminal, and analyzes the remote control usage rate and remote control success rate according to the remote control record of the distribution automation master station; the feeder action status and user boundary switch According to the operation situation, the occurrence of distribution network faults and the intelligent degree of distribution automation are analyzed.

As a further preferred embodiment, the data storage module includes a primary storage, a secondary storage and a tertiary storage, and the primary storage is used to store the real-time data of the distribution automation system and the emergency repair control system obtained through the data interaction bus , the secondary storage is used to store classified data on the primary storage, and the tertiary storage is used to store relational data reflecting data association on the secondary storage.

Make full use of the existing system and the key data of the existing system to build an integrated monitoring system, so that the systems are no longer a single information island. Through integrated system integration, make full use of existing system services to quickly build an integrated monitoring system with powerful functions, simple application, and convenient use.

The above is a specific description of the preferred implementation of the present invention, but the invention is not limited to the described embodiments, and those skilled in the art can also make various equivalent transformations or replacements without violating the spirit of the present invention. These equivalent modifications or replacements are all within the scope defined by the claims of the present application.

Claims (10)

1. A step-by-step intelligent distribution network operation monitoring system, characterized in that it includes a distribution automation system, a repair control system, a data interaction bus, a network release module, a data analysis module, a data storage module, and a cloud scheduling module and a monitoring server, the monitoring server is respectively connected to the network release module, the data analysis module and the data storage module through the cloud scheduling module, the data analysis module is connected to the data storage module, and the data interaction bus is respectively connected to the distribution automation system, The emergency repair control system, the network release module and the data storage module are connected. 2. A step-by-step intelligent distribution network operation monitoring system according to claim 1, characterized in that: said cloud scheduling module includes a cloud computing scheduling submodule and a cloud storage scheduling submodule, and said monitoring server respectively connected to the cloud computing scheduling submodule and the cloud storage scheduling submodule, the cloud computing scheduling submodule is connected to the data analysis module, and the cloud storage scheduling submodule is connected to the data storage module. 3. A step-by-step penetration smart distribution network operation monitoring system according to claim 1, characterized in that: the network publishing module is used to provide data interaction for the monitoring server through the cloud scheduling module using WEBSERVICE technology. 4. A step-by-step intelligent distribution network operation monitoring system according to claim 1, characterized in that: the data analysis module includes a basic information analysis sub-module, and the basic information analysis sub-module is used for statistical Equipment information, distribution automation coverage, line connection rate, and line cable conversion rate. 5. A step-by-step intelligent distribution network operation monitoring system according to claim 1, characterized in that: the data analysis module includes a real-time monitoring sub-module, and the real-time monitoring sub-module is used to monitor power distribution Line operation, public transformer operation, distribution network accidents and distribution network load. 6. A step-by-step intelligent distribution network operation monitoring system according to claim 1, characterized in that: the data analysis module includes a real-time analysis sub-module for operation inspection, and the real-time analysis sub-module for operation inspection is used It is used to analyze line load rate, distribution transformer load rate, distribution network fault repair and low-voltage fault. 7. A step-by-step intelligent distribution network operation monitoring system according to claim 1, characterized in that: said data analysis module includes a real-time statistics sub-module for operation inspection, and the real-time statistics sub-module for operation inspection is used for It is used to count planned power outages, important emergency repair resources, equipment defects and equipment operating years. 8. A step-by-step intelligent distribution network operation monitoring system according to claim 1, characterized in that: the data analysis module includes an automation application monitoring sub-module, and the automation application monitoring sub-module is used to monitor Distribution terminal online status, statistical distribution terminal online rate, statistical remote control utilization rate and statistical analysis of feeder faults. 9. A step-by-step intelligent distribution network operation monitoring system according to claim 1, characterized in that: the data analysis module includes an index monitoring sub-module, and the index monitoring sub-module is used to monitor the comprehensive voltage Qualification rate, low-voltage voltage qualification rate, distribution network power supply reliability rate and distribution network line loss rate. 10. A step-by-step intelligent distribution network operation monitoring system according to claim 1, characterized in that: the data storage module includes a primary storage, a secondary storage and a tertiary storage, the primary storage It is used to store the real-time data of the distribution automation system and emergency repair control system obtained through the data interaction bus, the secondary storage is used to store the classified data on the primary storage, and the tertiary storage is used to store and reflect the data on the secondary storage Relational data for data associations.

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