CN106872856B - Active repair system and method for distribution network faults based on multiple fault acquisition - Google Patents

Abstract

The invention discloses an active emergency repair system and method for distribution network faults based on multiple fault collection. The system includes distribution network fault location server, which is respectively connected with distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system; distribution network fault location server, which is used to connect distribution automation system, 95598 system , the terminal monitoring equipment and the power consumption information collection system are respectively assigned a unique ID number; and then according to the attributes of each fault location solution in the fault location solution set, each ID number is matched with a fault location solution in the fault location solution set Binding; receive the information transmitted from the power distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system and associate the corresponding ID numbers for classification and storage; use the locating fault scheme bound to the ID number to locate the faults with the same ID respectively No. information for fault location and output location results.

Description

Active repair system and method for distribution network faults based on multiple fault acquisition

technical field

The invention belongs to the field of electric power faults, and in particular relates to an active emergency repair system and method for distribution network faults based on multi-element fault collection.

Background technique

With the development of society and the continuous improvement of user demand, the society has higher and higher requirements for power supply reliability, power quality and service level of the power grid. The speed of emergency repair of distribution network faults has become an important link affecting the reliability of power supply.

However, in most cases, the user actively dials 95598 for fault repair and complaints. The power supply company always passively receives the repair work order and dispatches workers to the scene to repair the fault. Affected by factors, emergency repairs often cannot arrive at the repair site quickly, resulting in extended repair time and low customer service satisfaction.

At the same time, a large proportion of user repairs belong to production-type non-fault repair work orders, that is, power outages caused by equipment not caused by the power supply company may be caused by users' arrears of payment or power outages caused by home equipment, which is an internal failure of the user. Under such circumstances, it is very easy to cause the power supply company to dispatch workers blindly and ineffectively, reducing work efficiency.

Contents of the invention

In order to solve the problems in the prior art that the fault information is single and the power supply company always passively receives repair orders and the repair time is often prolonged, the present invention provides an active repair system for distribution network faults based on multiple fault collection.

An active emergency repair system for distribution network faults based on multiple fault collection of the present invention includes a distribution network fault location server, which is connected to a distribution automation system, a 95598 system, and a power consumption information collection system;

The distribution network failure active repair system also includes terminal monitoring equipment installed in the low-voltage outgoing line switch, low-voltage branch box switch, meter box incoming line switch and household switch. Each terminal monitoring equipment collects the displacement information of the corresponding switch, Install corresponding terminal monitoring equipment on the electric transformer, collect monitoring information of all switches in the power distribution area, and upload the collected information to the distribution network fault location server;

The distribution automation system is used to push distribution network fault information to the distribution network fault location server; the 95598 system is used to push user repair information to the distribution network fault location server; the power consumption information collection system is used to Send the collected power outage information to the distribution network fault location server; the distribution network fault location server also stores a set of location fault solutions;

The distribution network fault location server is used for:

Assign a unique ID number to the distribution automation system, 95598 system, terminal monitoring equipment, and power consumption information collection system; A matching fault location solution in the solution set is bound;

Receive the information transmitted by the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system, and correlate with the corresponding ID numbers for classified storage;

Utilize the positioning fault solution bound to the ID number to perform fault positioning on the information with the same ID number and output the positioning results, and feed them back to the distribution network emergency repair command platform, and the distribution network emergency repair command platform dispatches corresponding fault repair work orders to the corresponding repair team.

The active emergency repair system for distribution network faults based on multiple fault collection of the present invention integrates the fault collection systems of distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system, and receives accurate, reliable, Comprehensive and timely status information, and then use the corresponding positioning fault scheme stored in the distribution network fault location server to carry out classified fault judgment, which can accurately locate distribution network faults, and provide emergency repairs for distribution networks, distribution network construction, and grid transformation. Decisions provide a basis for reference.

Further, the system also includes a GIS system, the GIS system is connected to the distribution network fault location server; the GIS system is used to receive the location results output by the distribution network fault location server and display them on the GIS map.

The present invention also integrates the GIS system into the distribution network fault active repair system based on multiple fault collection, and finally sends the positioning result output by the distribution network fault positioning server to the GIS system and visually displays it on the GIS map in a visual manner.

The distribution network fault location server obtains the displacement information of the medium-voltage switch, combines the real-time operation mode of the power grid, and analyzes the impact of the fault on the power outage equipment and users through the call measurement of the power consumption information collection system when necessary, and comprehensively Analyze switch displacement information and distribution automation system data, and feed back real faults to the distribution network emergency repair command platform.

The second object of the present invention is to provide a positioning method for an active emergency repair system for distribution network faults based on multi-element fault collection.

The positioning method of the distribution network fault active repair system based on multiple fault acquisition includes:

Step 1: Distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system respectively collect distribution network fault information, user repair information, fault information detected by on-site line inspection, medium voltage switch displacement information and collected power outage information The information is pushed to the distribution network fault location server;

Step 2: The distribution network fault location server receives and processes the information transmitted from the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system. The specific processing process is as follows:

Assign a unique ID number to the distribution automation system, 95598 system, terminal monitoring equipment, and power consumption information collection system; A matching fault location solution in the solution set is bound;

Receive the information transmitted by the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system, and correlate with the corresponding ID numbers for classified storage;

Use the fault location solution bound to the ID number to locate the faults of the information with the same ID number and output the location results.

The positioning method of the distribution network fault active repair system based on multiple fault collection of the present invention can receive fault information uploaded by fault collection systems such as distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system. Accurate, reliable, comprehensive, and timely status information covering the distribution network within the jurisdiction, and then use the corresponding location fault solution stored in the distribution network fault location server to carry out classified fault judgments, which can accurately locate distribution network faults and provide emergency response for the distribution network. It provides a reference basis for decision-making of rush repair, distribution network construction and network frame transformation.

Further, in the distribution network fault location server, the fault location scheme matching the ID number assigned to the distribution automation system is:

Step 1.1: Judging whether the received distribution network fault information sent by the distribution automation system is a temporary fault or a permanent fault; if it is a temporary fault, the fault location ends; otherwise, go to step 1.2;

Step 1.2: According to the topological relationship of the faulty equipment line, analyze the information of the outage equipment affected by the failure, and import it into the power outage impact table of the distribution automation system; further analyze the metering box of the outage according to the equipment topology relationship, and according to the user information maintained by the marketing system, the power outage The affected user information is imported into the power outage affected user table;

Step 1.3: According to the outage equipment analyzed in step 1.2, analyze the distribution transformer that affects the power outage according to the topological connection of the power grid. If there is no power outage, the fault location is completed; if there is a power outage transformer, continue to step 1.4;

Step 1.4: According to the network topology connection, continue to analyze down to the user meter box, import the analyzed outage equipment into the outage impact table, and enter step 1.5;

Step 1.5: Associate the outage meter box analyzed in step 1.4 according to the equipment information in the user's repair information. If it is associated, a record affecting the 95598 work order will be generated; if it is not associated, no record will be generated, and the fault location is completed.

The effect is: this method can accurately locate the faulty equipment and the power outage area and users caused by the fault, facilitate on-site repair personnel to understand the fault details and formulate fault solutions, select appropriate repair equipment and materials, and reduce faults caused by faults. Time wasted due to ignorance of the details leading to incorrect solution formulation or incorrect carrying of emergency repair equipment. Actively send power outage information notifications to the analyzed power outage users and inform them of fault handling, reducing the number of user fault repairs and improving user satisfaction.

Further, in the distribution network fault location server, the fault location scheme that matches the system ID number assigned to 95598 is:

Step 2.1: According to the account number in the user's repair information, query the marketing data and judge the user's electricity bill information. If there is arrears, draw a fault conclusion that the user is in arrears, and the fault judgment is over; if there is no arrears information, go to step 2.2;

Step 2.2: Call and measure the information of the user’s electric energy meter. If the measured data has voltage and no current, it can be concluded that the user’s electric meter is abnormal. If there is voltage and current, it can be concluded that the user’s electric energy meter is normal; if there is no voltage and current, go to step 2.3;

Step 2.3: Call and measure the information of the user's distribution transformer, if there is voltage and current, draw the conclusion of abnormality of the household meter, and draw the conclusion of abnormality of the low-voltage line if the voltage and current lack of phase; if there is no voltage and current, go to step 2.4;

Step 2.4: Compare the line power outage information accessed through the distribution network fault location system to whether the line where the user equipment is located is associated with the known line power outage data. If the connection is not found, draw the conclusion that the upstream transformer of the line where the user is located is abnormal; If it is associated, the specific power outage information that affects the user's power outage can be obtained: planned, temporary, and failure and end.

Its effect is: the administrative address in the user repair information is converted into the power equipment information in the power distribution grid, and through the query of marketing management information, it is judged whether the user's power outage is in arrears, and the arrears are directly fed back to the user to avoid blindness Waste of emergency repair resources caused by labor dispatch. If it is not arrears, analyze the cause of the fault and locate the fault point, so that the on-site repair personnel can understand the details of the fault, formulate a suitable repair plan, quickly complete the fault processing, reduce power outages, and improve user satisfaction.

Further, in the distribution network fault location server, the fault location scheme matching the ID number assigned to the terminal monitoring equipment is:

Step 3.1: Preliminarily locate the fault range based on the received fault information transmitted by the terminal monitoring equipment, such as locating the low-voltage metering box, transfer to the fault judgment process of the user's repair report and output the judgment conclusion; if the fault point is located on the medium-voltage line, transfer to the Medium-voltage fault location judgment and output judgment conclusion; if the fault point is located on the low-voltage line, enter step 3.2;

Step 3.2: According to the low-voltage line attribute of the fault location, measure the real-time voltage and current of the transformer on the line. If there are three-phase voltage and current, it is judged that the low-voltage line is abnormal; if there is a phase loss, it is judged that the low-voltage line is abnormal; Step 3.3;

Step 3.3: Correlate with the power outage line through the known power outage information that has been connected in the system. If the connection fails, it is judged that the transformer is abnormal; if it is connected, it is judged as a planned or temporary or fault power outage, and the end

The effect is: accurately locate the faulty equipment, facilitate the formulation of emergency repair plan and the dispatch of emergency repair personnel and materials. Further through historical data analysis, the lines or equipment with three or more power outages are derived to provide a basis for distribution network transformation.

Further, in the distribution network fault location server, the fault location scheme that matches the ID number assigned to the power consumption information collection system is:

Step 4.1: Associate each collection terminal device in the uploaded electrical information collection system with the power-off device, and query the type of device from the device library. If it is a user electric energy meter device, the fault location is completed; if it is a distribution transformer device, go to step 4.2 ;

Step 4.2: Call and measure the real-time voltage and current data of the transformer. If there is current and voltage, it is judged as an invalid fault if the three phases are complete; if there is no voltage and current, go to step 4.3;

Step 4.3: Step 4.2 judges the transformer with no current and voltage, and derives the line according to the line topology connection, and correlates with the line through the known power outage information that has been connected in the fault location system of the distribution network. The transformer is abnormal; if it is connected, it is judged to be a planned or temporary or faulty power outage, and it ends.

The effect is: accurately locate the faulty equipment, facilitate the formulation of emergency repair plan and the dispatch of emergency repair personnel and materials. Further through historical data analysis, the lines or equipment with three or more power outages are derived to provide a basis for distribution network transformation.

Further, the method further includes: the distribution network fault location server sends the output location result to the GIS system, and displays it on the GIS map.

The invention sends the positioning result output by the distribution network fault positioning server to the GIS system and visually displays it on the GIS map.

The third object of the present invention is to provide another active repair method for distribution network faults based on multiple fault collection.

The active emergency repair method for distribution network faults based on multiple fault collection is completed in a distribution network fault location server, and a set of location fault solutions is stored in the distribution network fault location server; the method specifically includes:

Step (1): The distribution automation system establishes the memory topology of the primary equipment of the distribution network through the topology model of the distribution network, and installs corresponding terminal monitoring on the low-voltage outgoing line switch, low-voltage branch box switch, meter box incoming line switch, and household switch equipment to collect the displacement information of the corresponding switch;

Step (2): Assign a unique ID number to the distribution automation system, 95598 system, terminal monitoring equipment, and power consumption information collection system; then assign each ID number to the Bind with a matching fault location solution in the fault location solution set;

Receive the information transmitted by the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system, and correlate with the corresponding ID numbers for classified storage;

Step (3): Comprehensively analyze the switch displacement information and distribution automation data to determine the real fault, use the fault location scheme bound to the ID number to locate the fault of the information with the same ID number and output the location result;

Step (4): Through the call-up test of the power consumption information collection system, analyze the faults affecting the outage equipment and users. Before the users report for repairs, the real faults are fed back to the distribution network emergency repair command platform, and then dispatched by the control center staff to the corresponding The emergency repair team took the initiative to deal with the fault.

The present invention can receive accurate, reliable, comprehensive and timely state information covering the distribution network within the jurisdiction by receiving the fault information uploaded by the fault collection systems of the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system , and then use the corresponding positioning fault scheme stored in the distribution network fault location server to carry out classified fault judgment, which can accurately locate distribution network faults, and provide reference for decision-making of distribution network emergency repair, distribution network construction, and grid transformation.

The fourth object of the present invention is to provide another distribution network fault location server.

The distribution network fault location server includes:

Fault location solution binding module, which is used to assign a unique ID number to the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system; Bind each ID number with a matching fault location solution in the set of fault location solutions;

Information classification storage module, which is used to receive the information transmitted from the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system, and associate corresponding ID numbers for classification storage;

The fault location judgment module is used to respectively perform fault location on information with the same ID number by using the location fault scheme bound to the ID number and output the location result.

Compared with prior art, the beneficial effect of the present invention is:

(1) The present invention integrates fault collection systems such as power distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system to receive accurate, reliable, comprehensive and timely status information covering the distribution network within the jurisdiction, and reuse The corresponding positioning fault scheme stored in the distribution network fault location server can be used for classification and judgment of faults, which can accurately locate distribution network faults and provide reference for decision-making of distribution network emergency repair, distribution network construction, and grid transformation.

(2) The present invention also integrates the GIS system into the distribution network fault active repair system based on multiple fault collection, and finally sends the positioning result output by the distribution network fault location server to the GIS system and visualizes it on the GIS map show;

(3) With the help of the active emergency repair mode, the emergency repair personnel on duty can quickly respond to 95598 gradually. The emergency repair personnel on duty and emergency repair dispatchers can grasp the status of the power grid and equipment in advance, perform fault location, dispatch workers and repair in time, effectively improve the ability of active emergency repair, and improve faults Improve the efficiency of emergency repairs, reduce the security risk of the distribution network, and comprehensively improve the quality service level of power supply.

Description of drawings

The accompanying drawings constituting a part of the present application are used to provide further understanding of the present application, and the schematic embodiments and descriptions of the present application are used to explain the present application, and do not constitute improper limitations to the present application.

Fig. 1 is a schematic structural diagram of an active emergency repair system for distribution network faults based on multiple fault acquisitions of the present invention;

Fig. 2 is a flow chart of the location method of the distribution network fault active repair system based on multiple fault acquisition;

Fig. 3 is a flowchart of a fault location scheme matching the ID number assigned to the distribution automation system;

Fig. 4 is another kind of distribution network fault localization method flowchart based on multiple fault collection of the present invention;

Fig. 5 is a schematic structural diagram of a distribution network fault location server;

Fig. 6 is a flow chart of the active emergency repair method of the present invention.

Detailed ways

It should be pointed out that the following detailed description is exemplary and intended to provide further explanation to the present application. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

It should be noted that the terminology used here is only for describing specific implementations, and is not intended to limit the exemplary implementations according to the present application. As used herein, unless the context clearly dictates otherwise, the singular is intended to include the plural, and it should also be understood that when the terms "comprising" and/or "comprising" are used in this specification, they mean There are features, steps, operations, means, components and/or combinations thereof.

FIG. 1 is a schematic structural diagram of the active emergency repair system for distribution network faults based on multi-element fault acquisition according to the present invention.

As shown in Figure 1, an active emergency repair system for distribution network faults based on multiple fault collection includes a distribution network fault location server, which is connected to the distribution automation system, 95598 system, terminal monitoring equipment, and power consumption information collection system. ;

The distribution network failure active repair system also includes terminal monitoring equipment installed in the low-voltage outgoing line switch, low-voltage branch box switch, meter box incoming line switch and household switch. Each terminal monitoring equipment collects the displacement information of the corresponding switch, Install corresponding terminal monitoring equipment on the electric transformer, collect monitoring information of all switches in the power distribution area, and upload the collected information to the distribution network fault location server;

The distribution automation system is used to push distribution network fault information to the distribution network fault location server; the 95598 system is used to push user repair information to the distribution network fault location server; the power consumption information collection system is used to The collected power outage information is sent to the distribution network fault location server; the distribution network fault location server also stores a set of location fault solutions; the distribution network fault location server is used for:

Assign a unique ID number to the distribution automation system, 95598 system, terminal monitoring equipment, and power consumption information collection system; A matching fault location solution in the solution set is bound;

Receive the information transmitted by the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system, and correlate with the corresponding ID numbers for classified storage;

Use the fault location solution bound to the ID number to locate the faults of the information with the same ID number and output the location results.

Distribution automation system: use modern electronic technology, communication technology, computer and network technology to integrate real-time information, offline information, user information, grid structure parameters, and geographical information of the distribution network to form a complete automatic management system to realize power distribution. Monitoring, protection, control and distribution management of the system in normal operation and accident situations.

95598 system: Power system customer hotline service business management system, covering customer reports, customer suggestions, customer complaints, repairs, etc.

Terminal monitoring equipment: The terminal equipment held by the patrol line personnel can record the fault information found and transmit it to the distribution network emergency repair command system through a dedicated network channel. The structure of the terminal monitoring equipment is the prior art, including a current detection device and a current detection device.

Power consumption information collection system: a system for collecting, processing and real-time monitoring of electricity consumption information of power users, realizing automatic collection of power consumption information, measurement abnormality monitoring, power quality monitoring, power consumption analysis and management, and related information release and distribution Smart energy monitoring, information interaction of smart electrical equipment and other functions.

The ID number can be represented by a field combining numbers and letters.

The distribution network fault active repair system based on multiple fault collection in this embodiment integrates the fault collection systems of the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system, and receives accurate and reliable information covering the distribution network within the jurisdiction. , Comprehensive and timely status information, and then use the corresponding positioning fault scheme stored in the distribution network fault location server to carry out classified fault judgment, which can accurately locate distribution network faults, and provide emergency repairs for distribution networks, distribution network construction, and grid transformation provide a basis for decision-making.

In another embodiment, the distribution network fault active repair system based on multiple fault collection also includes a GIS system, the GIS system is connected to the distribution network fault location server; the GIS system is used to receive the distribution network fault location server The output positioning results are displayed on the GIS map.

Among them, the GIS system is a power GIS system, which is a comprehensive information system that connects power equipment, substations, power transmission and distribution networks, power users, power loads, production and management and other core businesses of power companies to form power informationized production management. It provides power equipment and facility information, power grid operation status information, power technology information, production management information and natural environment information such as mountains, rivers, terrain, towns, roads, streets, buildings, and meteorology, hydrology, geology, and resources. system. Through GIS, relevant data, pictures, images, maps, etc. can be queried.

The present invention also integrates the GIS system into the distribution network fault active repair system based on multiple fault collection, and finally sends the positioning result output by the distribution network fault positioning server to the GIS system and visually displays it on the GIS map in a visual manner.

Fig. 2 is a flow chart of a positioning method for an active emergency repair system for distribution network faults based on multiple fault collection.

The positioning method of the distribution network fault active repair system based on multiple fault acquisition as shown in the figure includes:

Step 1: Distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system respectively push distribution network fault information, user repair information, fault information detected by on-site line inspection and collected power outage information to distribution network fault information location server;

Step 2: The distribution network fault location server receives and processes the information transmitted from the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system. The specific processing process is as follows:

Assign a unique ID number to the distribution automation system, 95598 system, terminal monitoring equipment, and power consumption information collection system; A matching fault location solution in the solution set is bound;

Receive the information transmitted by the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system, and correlate with the corresponding ID numbers for classified storage;

Use the fault location solution bound to the ID number to locate the faults of the information with the same ID number and output the location results.

Specifically, in the distribution network fault location server, the fault location scheme that matches the ID number assigned to the distribution automation system is, as shown in Figure 3:

Step 1.1: Judging whether the received distribution network fault information assigned to the distribution automation system is a transient fault or a permanent fault; if it is a transient fault, the fault location ends; otherwise, go to step 1.2;

Among them, the fault information pushed by the distribution automation system contains the fault type code, and it only needs to judge which type of fault the code corresponds to.

Step 1.2: According to the topological relationship of the faulty equipment line, analyze the information of the 10kV power outage equipment affected by the fault, and import it into the power outage impact table of the distribution automation system; further analyze the metering box of the power outage according to the topological relationship of the equipment, and according to the user information maintained by the marketing system, put The user information affected by the power outage is imported into the user table affected by the power outage;

Step 1.3: According to the 10kV outage equipment analyzed in step 1.2, analyze the distribution transformer that affects the power outage according to the topological connection of the power grid. If there is no power outage, the fault location is completed; if there is a power outage transformer, continue to step 1.4;

Step 1.4: According to the network topology connection, continue to analyze down to the user meter box, import the analyzed outage equipment into the outage impact table, and enter step 1.5;

Step 1.5: Associate the outage meter box analyzed in step 1.4 according to the equipment information in the user's repair information. If it is associated, a record affecting the 95598 work order will be generated; if it is not associated, no record will be generated, and the fault location is completed.

The effect is: this method can accurately locate the faulty equipment and the power outage area and users caused by the fault, facilitate on-site repair personnel to understand the fault details and formulate fault solutions, select appropriate repair equipment and materials, and reduce faults caused by faults. Time wasted due to ignorance of the details leading to incorrect solution formulation or incorrect carrying of emergency repair equipment. Actively send power outage information notifications to the analyzed power outage users and inform them of fault handling, reducing the number of user fault repairs and improving user satisfaction.

Further, in the distribution network fault location server, the fault location scheme that matches the system ID number assigned to 95598 is:

Step 2.1: According to the account number in the user's repair information, query the marketing data and judge the user's electricity bill information. If there is arrears, draw a fault conclusion that the user is in arrears, and the fault judgment is over; if there is no arrears information, go to step 2.2;

Step 2.2: Call and measure the information of the user’s electric energy meter. If the measured data has voltage and no current, it can be concluded that the user’s electric meter is abnormal. If there is voltage and current, it can be concluded that the user’s electric energy meter is normal; if there is no voltage and current, go to step 2.3;

Step 2.3: Call and measure the information of the user's distribution transformer, if there is voltage and current, draw the conclusion of abnormality of the household meter, and draw the conclusion of abnormality of the low-voltage line if the voltage and current lack of phase; if there is no voltage and current, go to step 2.4;

Step 2.4: Compare the line power outage information accessed through the distribution network fault location system to whether the line where the user equipment is located is associated with the known line power outage data. If the connection is not found, draw the conclusion that the upstream transformer of the line where the user is located is abnormal; If it is associated, the specific power outage information that affects the user's power outage can be obtained: planned, temporary, and failure and end.

Its effect is: the administrative address in the user repair information is converted into the power equipment information in the power distribution grid, and through the query of marketing management information, it is judged whether the user's power outage is in arrears, and the arrears are directly fed back to the user to avoid blindness Waste of emergency repair resources caused by labor dispatch. If it is not arrears, analyze the cause of the fault and locate the fault point, so that the on-site repair personnel can understand the details of the fault, formulate a suitable repair plan, quickly complete the fault processing, reduce power outages, and improve user satisfaction.

Further, in the distribution network fault location server, the fault location scheme matching the ID number assigned to the terminal monitoring equipment is:

Step 3.1: Preliminarily locate the fault range based on the received fault information transmitted by the terminal monitoring equipment, such as locating the low-voltage metering box, transfer to the fault judgment process of the user's repair report and output the judgment conclusion; if the fault point is located on the medium-voltage line, transfer to the Medium-voltage fault location judgment and output judgment conclusion; if the fault point is located on the low-voltage line, enter step 3.2;

Step 3.2: According to the low-voltage line attribute of the fault location, measure the real-time voltage and current of the transformer on the line. If there are three-phase voltage and current, it is judged that the low-voltage line is abnormal; if there is a phase loss, it is judged that the low-voltage line is abnormal; Step 3.3;

Step 3.3: Correlate with the power outage line through the known power outage information that has been connected in the system. If the connection fails, it is judged that the transformer is abnormal; if it is connected, it is judged as a planned or temporary or fault power outage, and the end

The effect is: accurately locate the faulty equipment, facilitate the formulation of emergency repair plan and the dispatch of emergency repair personnel and materials. Further through historical data analysis, the lines or equipment with three or more power outages are derived to provide a basis for distribution network transformation.

Further, in the distribution network fault location server, the fault location scheme that matches the ID number assigned to the power consumption information collection system is:

Step 4.1: Associate each collection terminal device in the uploaded electrical information collection system with the power-off device, and query the type of device from the device library. If it is a user electric energy meter device, the fault location is completed; if it is a distribution transformer device, go to step 4.2 ;

Step 4.2: Call and measure the real-time voltage and current data of the transformer. If there is current and voltage, it is judged as an invalid fault if the three phases are complete; if there is no voltage and current, go to step 4.3;

Step 4.3: Step 4.2 judges the transformer with no current and voltage, and derives the line according to the line topology connection, and correlates with the line through the known power outage information that has been connected in the fault location system of the distribution network. The transformer is abnormal; if it is connected, it is judged to be a planned or temporary or faulty power outage, and it ends.

The effect is: accurately locate the faulty equipment, facilitate the formulation of emergency repair plan and the dispatch of emergency repair personnel and materials. Further through historical data analysis, the lines or equipment with three or more power outages are derived to provide a basis for distribution network transformation.

The method also includes: the distribution network fault location server sends the output location result to the GIS system, and displays it on the GIS map.

The invention sends the positioning result output by the distribution network fault positioning server to the GIS system and visually displays it on the GIS map.

The positioning method of the distribution network fault active repair system based on multiple fault collection of the present invention can receive fault information uploaded by fault collection systems such as distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system. Accurate, reliable, comprehensive, and timely status information covering the distribution network within the jurisdiction, and then use the corresponding location fault solution stored in the distribution network fault location server to carry out classified fault judgments, which can accurately locate distribution network faults and provide emergency response for the distribution network. It provides a reference basis for decision-making of rush repair, distribution network construction and network frame transformation.

Fig. 4 is a flow chart of another distribution network fault location method based on multiple fault acquisition according to the present invention.

The distribution network fault location method based on multivariate fault collection as shown in Figure 4 is completed in the distribution network fault location server, and a set of location fault solutions is stored in the distribution network fault location server; the method specifically includes:

Step (1): Assign a unique ID number to the distribution automation system, 95598 system, terminal monitoring equipment, and power consumption information collection system; then assign each ID number to the Bind with a matching fault location solution in the fault location solution set;

Step (2): Receive the information transmitted from the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system, and correlate with corresponding ID numbers for classified storage;

Step (3): Use the fault location scheme bound to the ID number to perform fault location on the information with the same ID number and output the location results.

The present invention can receive accurate, reliable, comprehensive and timely state information covering the distribution network within the jurisdiction by receiving the fault information uploaded by the fault collection systems of the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system , and then use the corresponding positioning fault scheme stored in the distribution network fault location server to carry out classified fault judgment, which can accurately locate distribution network faults, and provide reference for decision-making of distribution network emergency repair, distribution network construction, and grid transformation.

Fig. 5 is a schematic structural diagram of a distribution network fault location server. The distribution network fault location server shown in Figure 5 includes:

Fault location solution binding module, which is used to assign a unique ID number to the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system; Bind each ID number with a matching fault location solution in the set of fault location solutions;

Information classification storage module, which is used to receive the information transmitted from the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system, and associate corresponding ID numbers for classification storage;

The fault location judgment module is used to respectively perform fault location on information with the same ID number by using the location fault scheme bound to the ID number and output the location result.

The present invention integrates fault collection systems such as power distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system, receives accurate, reliable, comprehensive and timely status information covering the distribution network within the jurisdiction, and reuses the distribution network The corresponding location fault scheme stored in the fault location server can be used for classified fault judgment, which can accurately locate distribution network faults, and provide reference for decision-making of distribution network emergency repair, distribution network construction, and grid transformation.

The present invention also integrates the GIS system into the distribution network fault active repair system based on multiple fault collection, and finally sends the positioning result output by the distribution network fault positioning server to the GIS system and visually displays it on the GIS map in a visual manner.

Those of ordinary skill in the art can understand that all or part of the processes in the methods of the above embodiments can be implemented through computer programs to instruct related hardware, and the programs can be stored in a computer-readable storage medium. During execution, it may include the processes of the embodiments of the above-mentioned methods. Wherein, the storage medium may be a magnetic disk, an optical disk, a read-only memory (Read-Only Memory, ROM) or a random access memory (Random Access Memory, RAM) and the like.

As shown in Figure 6, establish the memory topology of the primary equipment of the distribution network, and record the topological relationship of the equipment before the power outage; install corresponding terminal monitoring on the low-voltage outgoing line switch, low-voltage branch box switch, meter box incoming line switch, and household switch Equipment, collect the displacement information of the corresponding switch, install the corresponding monitoring equipment in the distribution transformer, collect the monitoring information of all the switches in the station area, and upload the collected information to the distribution automation system; at the same time, through the power consumption information when necessary Collect system calls and test, and analyze faults affecting outage equipment and users. Comprehensive analysis of switch displacement information and distribution automation system data, before users report for repairs, the real faults will be fed back to the distribution network emergency repair command platform after analysis and analysis, and then dispatched by the control center staff to the corresponding emergency repair team to actively handle faults .

The specific breakdown is as follows:

1. The distribution automation system establishes the memory topology of the primary equipment of the distribution network through the topology model of the distribution network;

2. Install corresponding terminal monitoring equipment on the low-voltage outgoing line switch, low-voltage branch box switch, meter box incoming line switch, and household switch to collect the displacement information of the corresponding switch; install corresponding monitoring equipment on the distribution transformer to collect all Switch monitoring information, and upload the collected information to the distribution automation system;

3. Obtain the displacement information of the medium voltage switch through the distribution automation system, and upload the collected information to the distribution automation system;

4. Comprehensively analyze the switch displacement information and distribution automation data to determine the real fault.

5. Through the call-up test of the power consumption information collection system, analyze the faults affecting the power outage equipment and users.

6. Before the user's fault report for repair, the real fault is fed back to the distribution network emergency repair command platform, and then the staff of the control center dispatches it to the corresponding emergency repair team to actively handle the fault.

Although the specific implementation of the present invention has been described above in conjunction with the accompanying drawings, it does not limit the protection scope of the present invention. Those skilled in the art should understand that on the basis of the technical solution of the present invention, those skilled in the art do not need to pay creative work Various modifications or variations that can be made are still within the protection scope of the present invention.

Claims (6)

1. An active emergency repair system for distribution network faults based on multiple fault collection, including a distribution network fault location server, which is connected to a distribution automation system, a 95598 system, and a power consumption information collection system; It is characterized in that: the distribution network failure active repair system also includes terminal monitoring equipment installed on the low-voltage outgoing line switch, low-voltage branch box switch, meter box incoming line switch and household switch, and each terminal monitoring equipment collects the displacement of the corresponding switch Information, install corresponding terminal monitoring equipment in distribution transformers, collect monitoring information of all switches in the distribution area, and upload the collected information to the distribution network fault location server; The distribution automation system is used to push distribution network fault information to the distribution network fault location server; the 95598 system is used to push user repair information to the distribution network fault location server; the power consumption information collection system is used to Send the collected power outage information to the distribution network fault location server; the distribution network fault location server also stores a set of location fault solutions; The distribution network fault location server is used for: Assign a unique ID number to the distribution automation system, 95598 system, terminal monitoring equipment, and power consumption information collection system; A matching fault location solution in the solution set is bound; Receive the information transmitted by the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system, and correlate with the corresponding ID numbers for classified storage; Utilize the positioning fault solution bound to the ID number to perform fault positioning on the information with the same ID number and output the positioning results, and feed them back to the distribution network emergency repair command platform, and the distribution network emergency repair command platform dispatches corresponding fault repair work orders to the corresponding the emergency repair team; In the distribution network fault location server, the fault location scheme that matches the ID number assigned to the distribution automation system is: Judging whether the received distribution network fault information sent by the distribution automation system is a temporary fault or a permanent fault; if it is a temporary fault, the fault location ends; Otherwise, according to the topological relationship of the faulty equipment line, analyze the information of the outage equipment affected by the failure, and import it into the power outage impact table of the distribution automation system; further analyze the metering box of the outage according to the equipment topology relationship, and use the user information maintained by the marketing system. User information is imported into the power outage affected user table; According to the analyzed outage equipment, analyze the distribution transformers that affect the power outage according to the topological connection of the power grid. If there is no power outage, the fault location is over; If there is a power outage transformer, continue to analyze down to the user meter box according to the grid topology connection, and import the analyzed power outage equipment into the power outage impact table; According to the association analysis of the power outage meter box in the user repair information, if it is associated, a record affecting the 95598 work order will be generated; if it is not associated, no record will be generated, and the fault location will be completed; In the distribution network fault location server, the fault location scheme matched with the system ID number assigned to 95598 is: According to the account number in the user's repair information, query the marketing data, judge the user's electricity bill information, such as arrears, draw a fault conclusion that the user is in arrears, and the fault judgment is over; If there is no arrears information, call and test the information of the user's electric energy meter. If the measured data has voltage and no current, it can be concluded that the user's meter is abnormal; if there is voltage and current, it can be concluded that the user's electric meter is normal; If there is no voltage and current, call and test the information of the user's distribution transformer. If there is voltage and current, it can be concluded that the household meter is abnormal, and the voltage and current lack of phase can be concluded that the low-voltage line is abnormal; There is no voltage and current, and the power outage information of the line accessed through the fault location system of the distribution network is compared with the known line power outage data to see if the line where the user equipment is located is connected. ; If it is connected, the specific power outage information that affects the user's power outage can be obtained: plan, temporary and failure and end; In the distribution network fault location server, the fault location scheme matched with the ID number assigned to the terminal monitoring equipment is: Preliminarily locate the fault range based on the fault information transmitted by the received terminal monitoring equipment, such as locating the low-voltage metering box, transfer to the fault judgment process of the user's repair report and output the judgment conclusion; if the fault point is located on the medium-voltage line, transfer to the medium-voltage fault Positioning judgment and output judgment conclusion; If the fault point is located on the low-voltage line, according to the low-voltage line attribute of the fault location, the real-time voltage and current of the transformer on the line are measured. If there are three-phase voltage and current, it is judged that the low-voltage line is abnormal; if there is a phase loss, it is judged that the low-voltage line is abnormal; If there is no voltage or current, use the known power outage information connected to the system to correlate with the power outage line. If the connection fails, it is judged that the transformer is abnormal; In the distribution network fault location server, the fault location scheme matched with the ID number assigned to the power consumption information collection system is: Associate each collection terminal device in the uploaded electrical information collection system with the power-off device, and query the type of device from the device library. If it is a user electric energy meter device, the fault location is completed; If it is a distribution transformer equipment, call and measure the real-time voltage and current data of the transformer. If there is current and voltage, it is judged as an invalid fault if the three phases are complete; If there is no voltage and current, according to the transformer that is judged to have no current and voltage, the line is derived according to the line topology connection, and the known power outage information that has been connected to the fault location system of the distribution network is associated with the line. If it cannot be associated, judge It is an abnormality of the transformer; if it is connected, it is judged to be a planned or temporary or faulty power outage, and it is over. 2. A kind of distribution network failure active repair system based on multiple fault collection as claimed in claim 1, characterized in that: it also includes a GIS system, and the GIS system is connected with a distribution network fault location server; the GIS system It is used to receive the location results output by the distribution network fault location server and display them on the GIS map. 3. A kind of distribution network fault active repair system based on multivariate fault collection as claimed in claim 1, is characterized in that: The distribution network fault location server obtains the displacement information of the medium-voltage switch, combines the real-time operation mode of the power grid, and analyzes the impact of the fault on the power outage equipment and users through the call measurement of the power consumption information collection system. Bit information and distribution automation system data are used to feed back real faults to the distribution network emergency repair command platform. 4. A positioning method for an active repair system for distribution network faults based on multiple fault acquisition, characterized in that it includes: Step 1: Distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system respectively collect distribution network fault information, user repair information, fault information detected by on-site line inspection, medium voltage switch displacement information and collected power outage information The information is pushed to the distribution network fault location server; Step 2: The distribution network fault location server receives and processes the information transmitted from the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system. The specific processing process is as follows: Assign a unique ID number to the distribution automation system, 95598 system, terminal monitoring equipment, and power consumption information collection system; A matching fault location solution in the solution set is bound; Receive the information transmitted by the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system, and correlate with the corresponding ID numbers for classified storage; Use the fault location solution bound to the ID number to perform fault location on the information with the same ID number and output the location results; In the distribution network fault location server, the fault location scheme that matches the ID number assigned to the distribution automation system is: Step 1.1: Judging whether the received distribution network fault information sent by the distribution automation system is a temporary fault or a permanent fault; if it is a temporary fault, the fault location ends; otherwise, go to step 1.2; Step 1.2: According to the topological relationship of the faulty equipment line, analyze the information of the outage equipment affected by the failure, and import it into the power outage impact table of the distribution automation system; further analyze the metering box of the outage according to the equipment topology relationship, and according to the user information maintained by the marketing system, the power outage The affected user information is imported into the power outage affected user table; Step 1.3: According to the outage equipment analyzed in step 1.2, analyze the distribution transformer that affects the power outage according to the topological connection of the power grid. If there is no power outage, the fault location is completed; if there is a power outage transformer, continue to step 1.4; Step 1.4: According to the network topology connection, continue to analyze down to the user meter box, import the analyzed outage equipment into the outage impact table, and enter step 1.5; Step 1.5: Associate the outage meter box analyzed in step 1.4 according to the equipment information in the user's repair information. If it is associated, a record affecting the 95598 work order will be generated; if it is not associated, no record will be generated, and the fault location will end; In the distribution network fault location server, the fault location scheme matched with the system ID number assigned to 95598 is: Step 2.1: According to the account number in the user's repair information, query the marketing data and judge the user's electricity bill information. If there is arrears, draw a fault conclusion that the user is in arrears, and the fault judgment is over; if there is no arrears information, go to step 2.2; Step 2.2: Call and measure the information of the user’s electric energy meter. If the measured data has voltage and no current, it can be concluded that the user’s electric meter is abnormal. If there is voltage and current, it can be concluded that the user’s electric energy meter is normal; if there is no voltage and current, go to step 2.3; Step 2.3: Call and measure the information of the user's distribution transformer, if there is voltage and current, draw the conclusion of abnormality of the household meter, and draw the conclusion of abnormality of the low-voltage line if the voltage and current lack of phase; if there is no voltage and current, go to step 2.4; Step 2.4: Compare the line power outage information accessed through the distribution network fault location system to whether the line where the user equipment is located is associated with the known line power outage data. If the connection is not found, draw the conclusion that the upstream transformer of the line where the user is located is abnormal; If it is connected, the specific power outage information that affects the user's power outage can be obtained: planned, temporary and fault and end; In the distribution network fault location server, the fault location scheme matched with the ID number assigned to the terminal monitoring equipment is: Step 3.1: Preliminarily locate the fault range based on the received fault information transmitted by the terminal monitoring equipment, such as locating the low-voltage metering box, transfer to the fault judgment process of the user's repair report and output the judgment conclusion; if the fault point is located on the medium-voltage line, transfer to the Medium-voltage fault location judgment and output judgment conclusion; if the fault point is located on the low-voltage line, enter step 3.2; Step 3.2: According to the low-voltage line attribute of the fault location, measure the real-time voltage and current of the transformer on the line. If there are three-phase voltage and current, it is judged that the low-voltage line is abnormal; if there is a phase loss, it is judged that the low-voltage line is abnormal; Step 3.3; Step 3.3: Correlate with the power outage line through the known power outage information that has been connected in the system. If the connection cannot be made, it is judged that the transformer is abnormal; In the distribution network fault location server, the fault location scheme matched with the ID number assigned to the power consumption information collection system is: Step 4.1: Associate each collection terminal device in the uploaded electrical information collection system with the power-off device, and query the type of device from the device library. If it is a user electric energy meter device, the fault location is completed; if it is a distribution transformer device, go to step 4.2 ; Step 4.2: Call and measure the real-time voltage and current data of the transformer. If there is current and voltage, it is judged as an invalid fault if the three phases are complete; if there is no voltage and current, go to step 4.3; Step 4.3: Step 4.2 judges the transformer with no current and voltage, and derives the line according to the line topology connection, and correlates with the line through the known power outage information that has been connected in the fault location system of the distribution network. The transformer is abnormal; if it is connected, it is judged to be a planned or temporary or faulty power outage, and it ends. 5. An active emergency repair method for distribution network faults based on multiple fault collection, characterized in that it includes: Step (1): The distribution automation system establishes the memory topology of the primary equipment of the distribution network through the topology model of the distribution network, and installs corresponding terminal monitoring on the low-voltage outgoing line switch, low-voltage branch box switch, meter box incoming line switch, and household switch equipment to collect the displacement information of the corresponding switch; Step (2): Assign a unique ID number to the distribution automation system, 95598 system, terminal monitoring equipment, and power consumption information collection system; then assign each ID number to the Bind with a matching fault location solution in the fault location solution set; Receive the information transmitted by the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system, and correlate with the corresponding ID numbers for classified storage; Step (3): Comprehensively analyze the switch displacement information and distribution automation data to determine the real fault, use the fault location scheme bound to the ID number to locate the fault of the information with the same ID number and output the location result; Step (4): Through the call-up test of the power consumption information collection system, analyze the faults affecting the outage equipment and users. Before the users report for repairs, the real faults are fed back to the distribution network emergency repair command platform, and then dispatched by the control center staff to the corresponding The emergency repair team takes the initiative to deal with the fault; In the distribution network fault location server, the fault location scheme that matches the ID number assigned to the distribution automation system is: Step 1.1: Judging whether the received distribution network fault information sent by the distribution automation system is a temporary fault or a permanent fault; if it is a temporary fault, the fault location ends; otherwise, go to step 1.2; Step 1.2: According to the topological relationship of the faulty equipment line, analyze the information of the outage equipment affected by the failure, and import it into the power outage impact table of the distribution automation system; further analyze the metering box of the outage according to the equipment topology relationship, and according to the user information maintained by the marketing system, the power outage The affected user information is imported into the power outage affected user table; Step 1.3: According to the outage equipment analyzed in step 1.2, analyze the distribution transformer that affects the power outage according to the topological connection of the power grid. If there is no power outage, the fault location is completed; if there is a power outage transformer, continue to step 1.4; Step 1.4: According to the network topology connection, continue to analyze down to the user meter box, import the analyzed outage equipment into the outage impact table, and enter step 1.5; Step 1.5: Associate the outage meter box analyzed in step 1.4 according to the equipment information in the user's repair information. If it is associated, a record affecting the 95598 work order will be generated; if it is not associated, no record will be generated, and the fault location will end; In the distribution network fault location server, the fault location scheme matched with the system ID number assigned to 95598 is: Step 2.1: According to the account number in the user's repair information, query the marketing data and judge the user's electricity bill information. If there is arrears, draw a fault conclusion that the user is in arrears, and the fault judgment is over; if there is no arrears information, go to step 2.2; Step 2.2: Call and measure the information of the user’s electric energy meter. If the measured data has voltage and no current, it can be concluded that the user’s electric meter is abnormal. If there is voltage and current, it can be concluded that the user’s electric energy meter is normal; if there is no voltage and current, go to step 2.3; Step 2.3: Call and measure the information of the user's distribution transformer, if there is voltage and current, draw the conclusion of abnormality of the household meter, and draw the conclusion of abnormality of the low-voltage line if the voltage and current lack of phase; if there is no voltage and current, go to step 2.4; Step 2.4: Compare the line power outage information accessed through the distribution network fault location system to whether the line where the user equipment is located is associated with the known line power outage data. If the connection is not found, draw the conclusion that the upstream transformer of the line where the user is located is abnormal; If it is connected, the specific power outage information that affects the user's power outage can be obtained: planned, temporary and fault and end; In the distribution network fault location server, the fault location scheme matched with the ID number assigned to the terminal monitoring equipment is: Step 3.1: Preliminarily locate the fault range based on the received fault information transmitted by the terminal monitoring equipment, such as locating the low-voltage metering box, transfer to the fault judgment process of the user's repair report and output the judgment conclusion; if the fault point is located on the medium-voltage line, transfer to the Medium-voltage fault location judgment and output judgment conclusion; if the fault point is located on the low-voltage line, enter step 3.2; Step 3.2: According to the low-voltage line attribute of the fault location, measure the real-time voltage and current of the transformer on the line. If there are three-phase voltage and current, it is judged that the low-voltage line is abnormal; if there is a phase loss, it is judged that the low-voltage line is abnormal; Step 3.3; Step 3.3: Correlate with the power outage line through the known power outage information that has been connected in the system. If the connection cannot be made, it is judged that the transformer is abnormal; In the distribution network fault location server, the fault location scheme matched with the ID number assigned to the power consumption information collection system is: Step 4.1: Associate each collection terminal device in the uploaded electrical information collection system with the power-off device, and query the type of device from the device library. If it is a user electric energy meter device, the fault location is completed; if it is a distribution transformer device, go to step 4.2 ; Step 4.2: Call and measure the real-time voltage and current data of the transformer. If there is current and voltage, it is judged as an invalid fault if the three phases are complete; if there is no voltage and current, go to step 4.3; Step 4.3: Step 4.2 judges the transformer with no current and voltage, and derives the line according to the line topology connection, and correlates with the line through the known power outage information that has been connected in the fault location system of the distribution network. The transformer is abnormal; if it is connected, it is judged to be a planned or temporary or faulty power outage, and it ends. 6. A distribution network fault location server, characterized in that: comprising: Fault location scheme binding module, which is used to assign a unique ID number to the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system; and then according to the attributes of each fault location scheme in the set of fault location schemes, Bind each ID number with a matching fault location solution in the set of fault location solutions; Information classification storage module, which is used to receive the information transmitted from the distribution automation system, 95598 system, terminal monitoring equipment and power consumption information collection system, and correlate with corresponding ID numbers for classification storage; A fault location judgment module, which is used to perform fault location on information with the same ID number by using a location fault scheme bound to the ID number and output a location result; In the distribution network fault location server, the fault location scheme matching the ID number assigned to the distribution automation system is: Judging whether the received distribution network fault information sent by the distribution automation system is a temporary fault or a permanent fault; if it is a temporary fault, the fault location ends; Otherwise, according to the topological relationship of the faulty equipment line, analyze the information of the outage equipment affected by the failure, and import it into the power outage impact table of the distribution automation system; further analyze the metering box of the outage according to the equipment topology relationship, and use the user information maintained by the marketing system. User information is imported into the power outage affected user table; According to the analyzed outage equipment, analyze the distribution transformers that affect the power outage according to the topological connection of the power grid. If there is no power outage, the fault location is over; If there is a power outage transformer, continue to analyze down to the user meter box according to the grid topology connection, and import the analyzed power outage equipment into the power outage impact table; According to the association analysis of the power outage meter box in the user repair information, if it is associated, a record affecting the 95598 work order will be generated; if it is not associated, no record will be generated, and the fault location will be completed; In the distribution network fault location server, the fault location scheme matched with the system ID number assigned to 95598 is: Step 2.1: According to the account number in the user's repair information, query the marketing data and judge the user's electricity bill information. If there is arrears, draw a fault conclusion that the user is in arrears, and the fault judgment is over; if there is no arrears information, go to step 2.2; Step 2.2: Call and measure the information of the user’s electric energy meter. If the measured data has voltage and no current, it can be concluded that the user’s electric meter is abnormal. If there is voltage and current, it can be concluded that the user’s electric energy meter is normal; if there is no voltage and current, go to step 2.3; Step 2.3: Call and measure the information of the user's distribution transformer, if there is voltage and current, draw the conclusion of abnormality of the household meter, and draw the conclusion of abnormality of the low-voltage line if the voltage and current lack of phase; if there is no voltage and current, go to step 2.4; Step 2.4: Compare the line power outage information accessed through the distribution network fault location system to whether the line where the user equipment is located is associated with the known line power outage data. If the connection is not found, draw the conclusion that the upstream transformer of the line where the user is located is abnormal; If it is connected, the specific power outage information that affects the user's power outage can be obtained: planned, temporary and fault and end; In the distribution network fault location server, the fault location scheme matched with the ID number assigned to the terminal monitoring equipment is: Step 3.1: Preliminarily locate the fault range based on the fault information transmitted by the received terminal monitoring equipment, such as locating the low-voltage metering box, transfer to the fault judgment process of the user's repair report and output the judgment conclusion; if the fault point is located on the medium-voltage line, transfer to the Medium-voltage fault location judgment and output judgment conclusion; if the fault point is located on the low-voltage line, enter step 3.2; Step 3.2: According to the low-voltage line attribute of the fault location, measure the real-time voltage and current of the transformer on the line. If there are three-phase voltage and current, it is judged that the low-voltage line is abnormal; if there is a phase loss, it is judged that the low-voltage line is abnormal; Step 3.3; Step 3.3: Correlate with the power outage line through the known power outage information that has been connected in the system. If the connection cannot be made, it is judged that the transformer is abnormal; In the distribution network fault location server, the fault location scheme matched with the ID number assigned to the power consumption information collection system is: Step 4.1: Associate each collection terminal device in the uploaded electrical information collection system with the power-off device, and query the type of device from the device library. If it is a user electric energy meter device, the fault location is completed; if it is a distribution transformer device, go to step 4.2 ; Step 4.2: Call and measure the real-time voltage and current data of the transformer. If there is current and voltage, it is judged as an invalid fault if the three phases are complete; if there is no voltage and current, go to step 4.3; Step 4.3: Step 4.2 judges the transformer with no current and voltage, and derives the line according to the line topology connection, and correlates with the line through the known power outage information that has been connected in the fault location system of the distribution network. The transformer is abnormal; if it is connected, it is judged to be a planned or temporary or faulty power outage, and it ends.