CN213211022U - Processing system of power grid data - Google Patents

Abstract

The utility model discloses a processing system of electric wire netting data. Wherein, this system includes: the system comprises an information interaction server, a distribution network scheduling device and a data processing platform, wherein the information interaction server is arranged at one end of a provincial-level power grid device and is used for receiving power grid data to be processed, and the power grid data is data sent by a local-level power grid device or data sent by a national-level power grid device; the data processing platform is connected with the information interaction server and used for processing the power grid data according to the type of the power grid data; the distribution network scheduling devices correspond to the local-level power grid devices one to one, are connected with the information interaction server and are used for collecting power grid data of the local-level power grid devices. The utility model provides an among the correlation technique all kinds of data of electric wire netting and system independent, can't unify the technical problem who gathers, handles and manage.

Description

Processing system of power grid data

Technical Field

The utility model relates to a power grid data field particularly, relates to a processing system of power grid data.

Background

At present, a provincial power company manages a plurality of local city companies, all systems configured by the local city companies do not access real-time data, the field fault condition and the operation state cannot be effectively controlled, the active study and judgment on the faults of the power distribution network cannot be carried out, and the lean scheduling level of the power distribution network needs to be improved. And the centralized management and uniform release of data such as distribution network graph models are difficult to realize.

In view of the above problems, no effective solution has been proposed.

Disclosure of Invention

The embodiment of the utility model provides a processing system of electric wire netting data to solve all kinds of data of electric wire netting and system independence in the correlation technique at least, can't unify the technical problem who gathers, handles and manage.

According to the utility model discloses an aspect of the embodiment provides a processing system of electric wire netting data, include: the system comprises an information interaction server, a distribution network scheduling device and a data processing platform, wherein the information interaction server is arranged at one end of a provincial power grid device and is used for receiving power grid data to be processed, and the power grid data is data sent by a local power grid device or data sent by a national power grid device; the data processing platform is connected with the information interaction server and used for processing the power grid data according to the type of the power grid data; the distribution network scheduling devices correspond to the metro-level power grid devices one to one, are connected with the information interaction server, and are used for collecting power grid data of the metro-level power grid devices.

Optionally, a first firewall is disposed between the distribution network scheduling device and the information interaction server.

Optionally, a second firewall is disposed between the data processing platform and the information interaction server.

Optionally, the data to be collected includes ledger data, real-time load data, historical load data, and outage/power restoration event data.

Optionally, the data processing platform includes: and the query module is used for querying the data used by the local power grid device through the information interaction server of the provincial power grid device.

Optionally, the data processing platform includes: the determining module is connected with the query module and used for determining a catalogue of the sampling data according to the type of the sampling data; and the counting module is connected with the determining module and used for counting the sampling data in the catalogue according to the catalogue of the sampling data.

Optionally, the method further includes: and the display device is connected with the data processing platform and is used for displaying the data of the data processing platform.

Optionally, the method further includes: and the storage device is connected with the data processing platform and is used for storing the data of the data processing platform.

Optionally, the method further includes: and the electricity utilization information acquisition system is connected with the data processing platform through the second firewall and is used for determining electricity utilization data from the data of the data processing platform and counting and analyzing the electricity utilization data.

Optionally, the marketing basic data system is connected to the data processing platform through the second firewall, and is configured to determine marketing data from the data of the data processing platform, and perform statistics and analysis on the marketing data.

In the embodiment of the utility model, the information interaction server through the provincial power grid device is adopted to receive the power grid data to be processed, wherein the power grid data is the data sent by the local power grid device or the data sent by the national power grid device; the method for processing the power grid data according to the type of the power grid data receives the power grid data through the information interaction server of the provincial power grid device, processes the power grid data in a classified mode according to the type of the power grid data, and achieves the purpose of general acquisition and management of the prefectural power grid data and the national power grid data, so that the technical effects of improving the management efficiency and the integration level of the power grid data are achieved, and the technical problems that various types of data and systems of a power grid are independent and cannot be uniformly acquired, processed and managed in the related technology are solved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:

fig. 1 is a schematic diagram of a system for processing grid data according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a connection structure of each stage of the power grid device according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a grid data processing structure of a provincial power grid device according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a graph-model data access flow according to an embodiment of the present invention;

fig. 5 is a schematic diagram of a data access procedure according to an embodiment of the present invention.

Detailed Description

In order to make the technical solution of the present invention better understood, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Fig. 1 is a schematic diagram of a processing system of power grid data according to an embodiment of the present invention, as shown in fig. 1, according to an aspect of an embodiment of the present invention, there is provided a processing system of power grid data, including: an information interaction server 12, a distribution network dispatching device 14, a data processing platform 16,

the information interaction server 12 is arranged at one end of the provincial power grid device and is used for receiving power grid data to be processed, wherein the power grid data is data sent by the local power grid device or data sent by the national power grid device; the data processing platform 16 is connected with the information interaction server 12 and is used for processing the power grid data according to the type of the power grid data; the distribution network scheduling devices correspond to the metro-level power grid devices one to one, the distribution network scheduling devices 14 are connected with the information interaction server 12, and the distribution network scheduling devices 14 are used for collecting power grid data of the metro-level power grid devices.

Through the system, the information interaction server of the provincial power grid device is adopted to receive power grid data to be processed, wherein the power grid data is data sent by the local power grid device or data sent by the national power grid device; the method for processing the power grid data according to the type of the power grid data receives the power grid data through the information interaction server of the provincial power grid device, processes the power grid data in a classified mode according to the type of the power grid data, and achieves the purpose of general acquisition and management of the prefectural power grid data and the national power grid data, so that the technical effects of improving the management efficiency and the integration level of the power grid data are achieved, and the technical problems that various types of data and systems of a power grid are independent and cannot be uniformly acquired, processed and managed in the related technology are solved.

Optionally, a first firewall is disposed between the distribution network scheduling device and the information interaction server.

Optionally, a second firewall is disposed between the data processing platform and the information interaction server.

Optionally, the data to be collected includes ledger data, real-time load data, historical load data, and outage/power restoration event data.

Optionally, the data processing platform includes: and the query module is used for querying the data used by the local power grid device through the information interaction server of the provincial power grid device.

Optionally, the data processing platform includes: the determining module is connected with the query module and used for determining a catalogue of the sampling data according to the type of the sampling data; and the counting module is connected with the determining module and is used for counting the sampling data in the catalogue according to the catalogue of the sampling data.

Optionally, the method further includes: and the display device is connected with the data processing platform and is used for displaying the data of the data processing platform.

Optionally, the method further includes: and the storage device is connected with the data processing platform and is used for storing the data of the data processing platform.

Optionally, the method further includes: and the electricity utilization information acquisition system is connected with the data processing platform through a second firewall and is used for determining electricity utilization data from the data of the data processing platform and counting and analyzing the electricity utilization data.

Optionally, the marketing basic data system is connected to the data processing platform through a second firewall, and is configured to determine marketing data from data of the data processing platform, and perform statistics and analysis on the marketing data.

In accordance with an embodiment of the present invention, there is provided a method embodiment of a method for processing grid data, where the steps illustrated in the flowchart of the figure may be performed in a computer system, such as a set of computer executable instructions, and where a logical order is illustrated in the flowchart, in some cases the steps illustrated or described may be performed in an order different than that illustrated. The method comprises the following steps:

step S1, receiving power grid data to be processed through an information interaction server of the provincial power grid device, wherein the power grid data are data sent by the local power grid device or data sent by the national power grid device;

and step S2, processing the power grid data according to the type of the power grid data.

Through the steps, receiving power grid data to be processed by using an information interaction server of the provincial power grid device, wherein the power grid data is data sent by the local power grid device or data sent by the national power grid device; the method for processing the power grid data according to the type of the power grid data receives the power grid data through the information interaction server of the provincial power grid device, processes the power grid data in a classified mode according to the type of the power grid data, and achieves the purpose of general acquisition and management of the prefectural power grid data and the national power grid data, so that the technical effects of improving the management efficiency and the integration level of the power grid data are achieved, and the technical problems that various types of data and systems of a power grid are independent and cannot be uniformly acquired, processed and managed in the related technology are solved.

The provincial power grid device can be dispatching area equipment of a provincial power company, and can comprise the information interaction server, and is used for carrying out information interaction with a marketing data platform of the provincial power company or a power utilization information acquisition system and other power grid information, so as to acquire marketing data or power utilization information and the like.

The power grid data may be a local level file sent by the local level power grid device, including local level power grid data, or a country and file sent by the country level power grid device, including country level power grid data.

And processing the power grid data according to the type of the power grid data, and performing different processing flows according to the type of the power grid data. Therefore, the information interaction server of the provincial power grid device receives the power grid data, and the power grid data are classified and processed according to the type of the power grid data, so that the aim of universal acquisition and management of the local power grid data and the national power grid data is fulfilled, the technical effect of improving the management efficiency and the integration level of the power grid data is achieved, and the technical problem that various types of data and systems of a power grid in the related technology are independent and cannot be uniformly acquired, processed and managed is solved.

Optionally, the type of the grid data includes graph-model data, and the sampling data is used.

The utilization data may include ledger data, outage and restoration events, near real-time data, and historical load data.

Optionally, the receiving, by the information interaction server of the provincial power grid device, the graph model data to be processed includes: receiving a city export file of the city-level power grid device and a state regulation check file of the state-level power grid device through an information interaction server of the provincial-level power grid device, wherein the graph model data is derived from the city export file and/or the state regulation check file;

the graph model data sources in the power grid data are two types: national tone assessment files and city export files. The national survey assessment file is a full transaction file and comprises all graph model data of one city. There are two types of documents for the city export file: an incremental transaction file and a full transaction file. The city company uploads the full amount transaction file to the province company for the first time, and then uploads the incremental transaction file.

The incremental transaction file contains transaction feeder data, and a transaction-free feeder does not need to be written into the file. The information interaction server is provided with a transaction management module, the transaction management module receives the files of the local cities, performs different processing according to different file types, and updates data in a company model database.

Optionally, processing the power grid data according to the type of the power grid data includes: determining an incremental mobile file according to the city derived file, and determining a full mobile file according to the city derived file and the national regulation check file; and carrying out transaction processing according to the full-amount moving file and the incremental moving file to generate graph mode data.

And acquiring the graph model data according to the city export file of the city-level power grid device and the state regulation check file of the country-level power grid device.

Optionally, performing transaction processing according to the full-volume mobile file and the incremental mobile file, and generating graph-model data includes: classifying the full-scale mobile files and the incremental mobile files according to sources, wherein the derived files from the city are classified into one type, and the derived assessment files from the state are classified into another type; directly uploading file data from a national regulation check file to a transaction management directory; uploading file data originating from a city-of-land derived file to the transaction management directory in a predetermined format.

The mobile management directory can be visualized through a visualization technology and displayed on a display screen.

Optionally, the receiving, by the information interaction server of the provincial power grid device, the data to be processed includes: and inquiring the data used by the local power grid device through the information interaction server of the provincial power grid device.

When receiving the station account DATA, the station account DATA may be related basic DATA in a station area table G _ TG, a distributed power supply user table FC _ GC, a transformer table G _ TRAN, an acquisition object table R _ COLL _ OBJ, an electric energy METER information table D _ METER, a metering point C _ MP, an electric energy METER metering point relation table C _ METER _ MP _ RELA, an acquisition point user relation table R _ CP _ CONS _ RELA, a distributed power supply and electricity related customer relation table FC _ CONS _ GC _ RELA, an operation terminal table R _ TMNL _ RUN, and a DATA identification mapping table DATA _ ID _ MAP _ INFO, which are inquired from the marketing base platform monthly, and the returned DATA content is written into the station area information table yc.

When the quasi-real-time load data is received, every 15 minutes, a third province and a third province can acquire a quasi-real-time load data E file by adopting the full quasi-real-time load data of the system through a webservice request, the file is placed in a quasi-real-time load data designated directory, and the directory is divided according to regions.

When the historical load data is received, the third province and the third province can send a request to the adoption system through the webservice, the adoption system returns the historical load data file to the third province and the third province, and the third province receive the returned data file and place the returned data file in a directory of a designated area.

When the distribution transformer power-off and power-off information is received, the information bus of the acquisition system can be monitored in the three-region of province and dispatching, and after the power-off and power-off information is received, the json format information content is converted into a file and placed in a directory of a specified region.

Optionally, processing the power grid data according to the type of the power grid data includes: determining a catalogue of the sampling data according to the type of the sampling data; and counting the sampling data in the catalogue according to the catalogue of the sampling data.

Optionally, after counting the sampling data in the directory according to the directory of the sampling data, the method further includes: and displaying the catalogue of the statistical sampling data in a preset interface.

It should be noted that the present application also provides an alternative implementation, and the details of the implementation are described below.

The embodiment provides a construction scheme of interaction projects of a power-saving company, a distribution network scheduling technology support system and a power consumption information acquisition system, which comprises the following steps:

the first scheme is as follows: local company and direct adoption interface

Scheme II: the provincial company and the user are used as a uniform interface, and then the information interaction server uniformly sends the information to the city.

Comparing the schemes, and comparing the safety aspects: the first scheme is as follows: the method has the advantages that each city and each other are directly used as interfaces, data are distributed to each city by adopting, the pressure of a system for adopting is increased, a server for adopting is tested greatly, and once downtime occurs due to overlarge load, data for adopting are lost, so that the loss cannot be estimated; scheme II: the information interaction server distributes data, and the information interaction servers of various cities and provinces are used as interfaces, so that the safety of the using server and the data safety are ensured, and the pressure of the using system is reduced. Meanwhile, security protection equipment such as a firewall is arranged between the provincial company information interaction server and the use and acquisition server, and network security in the aspect of use and acquisition is guaranteed.

Energy efficiency comparison: the first scheme is as follows: the interface is made with adopting in the direct city, has increased the work of adopting the server, can lead to server reaction slow after the time has been long, causes data transmission card to hang down slowly, appears losing data phenomenon etc.. Scheme II: if the distribution work is done by the provincial information interaction server, the pressure is reduced for adopting the server, various problems are reduced, and the data can be stably and efficiently distributed.

Equipment life cycle cost comparison: the first scheme is as follows: due to the adoption of the method for distributing the data of each city, the load of the server is increased, the service cycle of hardware is shortened, and once the system is down, immeasurable loss is caused. Scheme II: the data distribution work is specially responsible for the provincial dispatching information interaction server, and work pressure is shared with the utilization server, so that normal processing of data and normal operation of a system are guaranteed, frequency of various problems is reduced, and the service cycle is prolonged.

In summary, the present embodiment adopts the construction scheme of scheme two, that is, the provincial company information interaction server makes a unified interface with each city.

Fig. 2 is a schematic diagram of a connection structure of each stage of power grid devices according to an embodiment of the present invention, and as shown in fig. 2, the hardware architecture of the embodiment is as follows:

and an information interaction server is arranged in a dispatching three area of the provincial company, and an information interaction module of the information interaction server is responsible for carrying out information interaction with a marketing data platform and a power utilization information acquisition system of the provincial company. The distribution network scheduling technology support system of the city company and the provincial company information interaction server adopt a hardware firewall to realize the safety protection of the boundary between the transverse systems, and the provincial company information interaction server realizes direct connection and direct connection with the marketing data platform and the electricity utilization information acquisition system.

Fig. 3 is a schematic diagram of a power grid data processing structure of a provincial power grid device according to an embodiment of the present invention, and as shown in fig. 3, a software architecture of the embodiment is as follows: in order to ensure the relevant data interaction of the power utilization information acquisition system, the marketing system and the dispatching network dispatching technology support systems of various regions, a three-region dispatching-saving functional architecture is shown as the following figure and mainly realizes the following functions:

1. data access

(1) Network distribution graph model data access: and the provincial information interaction platform receives the provincial distribution network graph model file, analyzes and stores the provincial distribution network graph model file to form a provincial distribution network graph model library.

(2) Accessing by adopting standing book data: and accessing account data such as a marketing system area, a metering point, an electric meter and the like to the provincial dispatching side information interaction platform.

(3) Accessing quasi-real-time load data: and acquiring the quasi-real-time load data file of the acquisition system at regular time according to the acquisition interval of the acquisition system.

(4) Accessing historical load data: a previous day historical load data file is obtained from the marketing system.

(5) And (3) power failure event access: monitoring the using and collecting information bus, and acquiring the power failure and recovery event of the using and collecting system in real time.

2. Data processing

(1) And E, standing book data matching: and providing a tool for matching the name of the transformer acquisition area with the name of the distribution transformer.

(2) And (3) quasi-real-time load data processing and distribution: and analyzing the quasi-real-time load data file, converting the quasi-real-time load data file into a file capable of being analyzed by the local dispatching, and distributing the file to a specified directory of the quasi-real-time load data in the three regions of the local distribution network.

(3) Processing and distributing historical load data: and analyzing the historical load data file, converting the historical load data file into a file capable of being analyzed by the local dispatching, and distributing the file to a specified directory of the historical load data of the three areas of the local distribution network.

(4) And (3) generating and distributing a power failure and restoration information file: and the provincial dispatching side information interaction platform generates a file from the received power outage and restoration message, and distributes the file to a three-area power outage and restoration data designated directory of a local distribution network.

The data flow of the present embodiment is as follows:

fig. 4 is a schematic diagram of a graph-model data access flow according to an embodiment of the present invention, as shown in fig. 4, the graph-model data access flow is as follows:

there are two sources of graph model data: national tone assessment files and city export files. The national survey assessment file is a full transaction file and comprises all graph model data of one city. There are two types of documents for the city export file: an incremental transaction file and a full transaction file. The city company uploads the full amount transaction file to the province company for the first time, and then uploads the incremental transaction file. The incremental transaction file contains transaction feeder data, and a transaction-free feeder does not need to be written into the file. And the transaction management module receives the files of the local city company, performs different processing according to different file types, and updates the data in the province company model database.

Fig. 5 is a schematic diagram of a data access flow according to an embodiment of the present invention, as shown in fig. 5, the data access flow is as follows:

the data access and acquisition of the provincial information interaction platform system comprises: the flow of data access is shown as the following figure, wherein the platform account data province information interaction platform inquires a marketing basic platform database, returns platform account data contents and writes the platform account data contents into an acquisition platform account data table; the provincial information interaction platform for the power failure and restoration event monitors a system information bus in the three areas, generates a file after receiving a power failure and restoration message, and transmits the file to a specified directory of distribution network scheduling technology support systems in various cities in a file mode; the provincial information interaction platform sends a quasi-real-time load data request to the acquisition system every 15 minutes through webservice in the three areas, the acquisition system returns a quasi-real-time data E file, and the provincial information interaction platform is transmitted to a specified directory of distribution network scheduling technology support systems in various cities after id conversion; the provincial information interaction platform sends a historical load data request to the utilization system through the webservice, the utilization system returns a previous data E file, and the provincial information interaction platform is transmitted to a specified directory of distribution network scheduling technology support systems in various cities after id conversion.

The procedure of the ledger data access is as follows:

inquiring a station area table G _ TG, a distributed power supply user table FC _ GC, a transformer table G _ TRAN, an acquisition object table R _ COLL _ OBJ, an electric energy METER information table D _ METER, a metering point C _ MP, an electric energy METER metering point relation table C _ METER _ MP _ RELA, an acquisition point user relation table R _ CP _ CONS _ RELA, a distributed power supply and electricity utilization related customer relation table FC _ CONS _ GC _ RELA, an operation terminal table R _ TMNL _ RUN and related basic DATA in a DATA identification mapping table DATA _ ID _ MAP _ INFO from a marketing basic platform every month, and writing the returned DATA content into an acquisition station area information table EMS.

The quasi-real-time load data access process comprises the following steps:

and at intervals of 15 minutes, acquiring a quasi-real-time load data E file by using the full-scale quasi-real-time load data of the system through a webservice request in the province and the third region, putting the file into a quasi-real-time load data specified directory, and dividing the directory according to regions. The request inquiry input parameter is based on the interface specification of the electricity utilization information acquisition system and the distribution network scheduling technology support system.

The access flow of the historical load data is as follows:

and the third province send requests to the adoption system through the webservice, the adoption system returns the historical load data files to the third province and the third province, and the third province receive the returned data files and place the returned data files in a directory of a designated area. The request inquiry input parameter is based on the interface specification of the electricity utilization information acquisition system and the distribution network scheduling technology support system.

The process of the power distribution transformer power failure and restoration information access is as follows:

and monitoring a message bus of the acquisition system in the third provincial dispatching area, and converting the json format message content into a file after receiving the power failure and restoration message and placing the file in a directory of a specified area.

The process of the distribution network graph mode data access is as follows:

in order to meet the requirement of dynamic change management of the power distribution network and reflect the dynamic change process of a power distribution network model, the system adopts a set of maintenance-free intelligent model transaction management technology, and the system comprises automatic processing mechanisms such as verification of a graph model file, conversion of the graph model file, data entering into an off-line library and the like. All the processes of the model transaction management are automatically completed, so that the convenience of the graph model management is improved. And companies in various cities push the graphic model files which are abnormal in various cities on the same day at regular time, and the system completes incremental updating of model data in the database and changes of the graphic files, so that updating of the graphic model data of the provincial dispatching system is completed. The online full-automatic importing of the fully-provincial transaction feeder model is realized, and the operation and maintenance workload is effectively reduced.

The sources of transaction are two types: the system comprises a national dispatching assessment file and a city map model data export file. And the equipment transaction management software carries out different transaction processing according to different transaction source types.

(2) National survey assessment documents; provincial dispatches are directly uploaded to the transaction management directory through the examined files.

(2) The city map model export file: map-model files exported by the city are uploaded to the transaction management directory using the FTP format.

The transaction mode comprises the following steps: (1) and (3) transmitting content: the transaction management is based on CIME/CIMG file format. And uploading the whole network model file and the corresponding graphic file to a specified transaction management directory in each place.

(2) Data format: the model and all graphics files are uploaded in one compact package. The whole network model file comprises a main network model and a distribution network model, and the graph file is mainly a feeder graph.

Model file name: regional pinyin _ date CIME, as: bazhong _20200427. CIME.

The graphic file name is: feeder name.

The graph model compression package name is: zone pinyin _ type of transaction _ date zip (0 for full, 1 for increment), e.g., bazhong _0_20170901 zip.

The transaction management directory stores the graphic model files sent from each region according to the region.

Transaction statistics and interface display: and the graph model data access condition is stored in a model import state registration table, and the transaction statistical interface acquires the import condition of each model file according to the transaction single number and displays the import condition on the interface.

And E, standing book data matching: the difference exists between the data of the acquisition station account and the data of the distribution station account, the acquisition station area and the distribution transformer, the user of the distributed power supply and the distribution load need to be matched, and a foundation is laid for accessing the distribution technology support system by the acquisition and distribution transformer power failure and recovery information, the quasi-real-time load and the historical load.

Standing book data matching tool: the standing book data matching tool supports fuzzy matching of a station acquisition area and a distribution transformer, distributed power source acquisition users and distribution load names.

The matching tool supports screening of equipment data according to feeders and stations, a word segmentation algorithm is automatically called to carry out fuzzy matching on equipment names, and matching results are arranged in a descending order according to matching frequency values, so that a user can conveniently confirm the results.

The matching tool can filter according to the user responsibility area, only displays the information of the distribution transformer and the load in the current responsibility area, realizes data distribution, and can use a picture browser to perform special coloring on the matching result of the distribution transformer and the load according to a feeder line on a matching result page, thereby facilitating visual viewing.

And (3) statistical display of matching results: the standing book statistical data matched with the standing book matching tool are updated into the real-time library, the matching result statistical page displays the matching data of all places in real time, and the statistical page display content comprises: the matched number, the unmatched number and the total number of the district adopting the district and the distributed power supply users in each city and the whole province.

Interacting with the tone information: and the provincial dispatching system and the local dispatching system perform information interaction through the E file, and mainly comprise power outage and restoration information, quasi-real-time load data and historical load data. The provincial dispatching system also relates to the interaction with the service related to the data access, and the data access is used for converting the matched standing book so as to provide the data for the local dispatching system application.

And (3) stopping power restoration information interaction: the provincial dispatching system pushes the station area terminal outage and restoration data acquired from the power utilization acquisition system to the local dispatching system in real time, and the local dispatching system realizes real-time monitoring and fault research and judgment of the distribution transformer electrified state. The provincial dispatching system forms the power failure and restoration events into E files, distributes the E files to dispatching catalogs of all regions, monitors the catalog information of the interface server in real time by the dispatching of the regions, and analyzes the information.

Quasi-real-time load data interaction: the provincial dispatching system pushes the quasi-real-time measurement data of the transformer area acquired from the acquisition system to the local dispatching system, and the local dispatching system monitors the measurement information to realize the quasi-real-time monitoring of the distribution transformer information. The provincial dispatching system forms E files by load data of one section every 15 minutes at regular time and pushes the E files to each local dispatching system, and the local dispatching systems receive the E files to analyze and apply the E files.

Historical load data interaction: the provincial dispatching system pushes the measurement data of the historical transformer area to the local dispatching system as required, and the local dispatching system assists the local dispatching system to analyze the distribution transformer running state and study and judge power failure faults by using the historical measurement information. The provincial dispatching system forms the load data of the previous day into an E file every day and pushes the E file to the local dispatching system. And the local dispatching system applies the load information according to the requirement.

Information interaction real-time monitoring

And providing a function of monitoring the information interaction condition with the local tone in real time, including real-time monitoring of the data acquisition access condition, the data acquisition distribution condition and the like in various cities. The data access condition mainly comprises power failure and power restoration information access time and file names, quasi-real-time load data access time and file names, historical load data access time and file names; the data distribution condition mainly comprises the time and file name of each city where the power-on/off information is distributed, the time and file name of each city where the quasi-real-time load data is distributed, and the time and file name of each city where the historical load data is distributed.

Economic and financial compliance

According to the requirement analysis of ' national grid company project exploitable economy and financial compliance evaluation guidance opinions ' (national grid property (2015) 536) '), the project is accurate in project establishment, meets the requirements of various mandatory financial management regulations such as national laws, regulations, policies and national grid company internal management system, and does not have project boundary problems such as project contents to be listed in grid infrastructure, non-production technical improvement overhaul, zero-order purchase, marketing, informatization and the like, and spare part purchase and the like; the conditions of separation and establishment items and unreasonable frequent reconstruction do not exist; the investment of the project is reasonable and accurate, and the disposal of the waste materials meets the requirements.

According to the utility model discloses on the other hand of the embodiment, still provide a processing apparatus of electric wire netting data, include: a receiving module and a processing module, which are described in detail below.

The receiving module is used for receiving the power grid data to be processed through an information interaction server of the provincial power grid device, wherein the power grid data is data sent by the local power grid device or data sent by the national power grid device; and the processing module is connected with the receiving module and is used for processing the power grid data according to the type of the power grid data.

By the device, the receiving module is adopted to receive the power grid data to be processed through the information interaction server of the provincial power grid device, wherein the power grid data is data sent by the local power grid device or data sent by the national power grid device; the processing module receives the power grid data through the information interaction server of the provincial power grid device according to the type of the power grid data, classifies and processes the power grid data according to the type of the power grid data, and achieves the purpose of universal acquisition and management of the metro-level power grid data and the national-level power grid data, so that the technical effect of improving the management efficiency and the integration level of the power grid data is achieved, and the technical problem that various types of data and systems of a power grid in related technologies are independent and cannot be uniformly acquired, processed and managed is solved.

According to another aspect of the embodiments of the present invention, there is provided a processor, where the processor is configured to run a program, and when the program runs, the processor executes a processing method of the power grid data of any one of the above.

According to another aspect of the embodiments of the present invention, there is provided a computer storage medium, wherein the computer storage medium includes a stored program, and when the program runs, the device where the computer storage medium is located is controlled to execute the processing method of the power grid data of any one of the above items.

The above embodiment numbers of the present invention are only for description, and do not represent the advantages and disadvantages of the embodiments.

In the above embodiments of the present invention, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to the related descriptions of other embodiments.

In the embodiments provided in the present application, it should be understood that the disclosed technology can be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units may be a logical division, and in actual implementation, there may be another division, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, units or modules, and may be in an electrical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A system for processing grid data, comprising: an information interaction server, a distribution network scheduling device, a data processing platform,

the information interaction server is arranged at one end of the provincial power grid device and is used for receiving power grid data to be processed, wherein the power grid data is data sent by the local power grid device or data sent by the national power grid device;

the data processing platform is connected with the information interaction server and used for processing the power grid data according to the type of the power grid data;

the distribution network scheduling devices correspond to the metro-level power grid devices one to one, are connected with the information interaction server, and are used for collecting power grid data of the metro-level power grid devices.

2. The system for processing grid data according to claim 1, wherein a first firewall is disposed between the distribution network scheduling device and the information interaction server.

3. The system for processing grid data according to claim 2, wherein a second firewall is disposed between the data processing platform and the information interaction server.

4. The grid data processing system according to claim 3, wherein the utility data includes ledger data, real-time load data, historical load data, outage/restoration event data.

5. The system for processing grid data according to claim 4, wherein the data processing platform comprises:

and the query module is used for querying the data used by the local power grid device through the information interaction server of the provincial power grid device.

6. The system for processing grid data according to claim 5, wherein the data processing platform comprises:

the determining module is connected with the query module and used for determining a catalogue of the sampling data according to the type of the sampling data;

and the counting module is connected with the determining module and used for counting the sampling data in the catalogue according to the catalogue of the sampling data.

7. The system for processing grid data according to claim 6, further comprising: a display device for displaying the image of the object,

and the display device is connected with the data processing platform and is used for displaying the data of the data processing platform.

8. The system for processing grid data according to claim 7, further comprising: a storage device for storing the data of the storage device,

the storage device is connected with the data processing platform and used for storing the data of the data processing platform.

9. The system for processing grid data according to claim 8, further comprising: an electricity utilization information acquisition system is provided,

the power utilization information acquisition system is connected with the data processing platform through the second firewall and is used for determining power utilization data from the data of the data processing platform and counting and analyzing the power utilization data.

10. The system for processing grid data according to claim 9, further comprising: a system for marketing-based data, comprising a marketing basic data system,

and the marketing basic data system is connected with the data processing platform through the second firewall and is used for determining marketing data from the data of the data processing platform and counting and analyzing the marketing data.

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