CN116503021A - Digital tool system and method for on-site rush repair of power base unit - Google Patents

Digital tool system and method for on-site rush repair of power base unit Download PDF

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CN116503021A
CN116503021A CN202310484085.4A CN202310484085A CN116503021A CN 116503021 A CN116503021 A CN 116503021A CN 202310484085 A CN202310484085 A CN 202310484085A CN 116503021 A CN116503021 A CN 116503021A
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fault
repair
data
information
work order
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柳林均
杨箴
吴漾
纪元
周玲
陈忠行
李雄
闫光绪
舒彧
宋平琴
欧阳静
刘可
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Guizhou Power Grid Co Ltd
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    • G06COMPUTING; CALCULATING OR COUNTING
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    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y04INFORMATION OR COMMUNICATION TECHNOLOGIES HAVING AN IMPACT ON OTHER TECHNOLOGY AREAS
    • Y04SSYSTEMS INTEGRATING TECHNOLOGIES RELATED TO POWER NETWORK OPERATION, COMMUNICATION OR INFORMATION TECHNOLOGIES FOR IMPROVING THE ELECTRICAL POWER GENERATION, TRANSMISSION, DISTRIBUTION, MANAGEMENT OR USAGE, i.e. SMART GRIDS
    • Y04S10/00Systems supporting electrical power generation, transmission or distribution
    • Y04S10/50Systems or methods supporting the power network operation or management, involving a certain degree of interaction with the load-side end user applications

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Abstract

The invention discloses a digital tool system for on-site rush repair of a power base unit, which comprises: and the rapid rush repair management module: the fusion of asset planning outage, marketing customer service fault reporting and distribution network outage data is realized, and active notification of outage events and cross-system whole-flow processing are supported; and the data comprehensive application module is used for: the statistics of the designed management data in the repair business rush-repair process is realized; the material management module: tools related to material and equipment inquiry are established, material demand filling of a power distribution station and a power supply station is supported, a material subsystem is received, material classification and variety and specification parameter information are obtained, material demand reporting is carried out, inventory is matched according to the requirement, and preliminary research and judgment are carried out on material supply time; the full flow control of the material demands is realized, and the material demand filling, inventory matching, material distribution, demand analysis and suggestion scene application are supported; the problems of discrete tools, decentralized function, incomplete data synthesis and the like in the electric power rush-repair process of the staff of the electric power base layer are solved.

Description

Digital tool system and method for on-site rush repair of power base unit
Technical Field
The invention relates to a digital tool system and a digital tool method for on-site rush repair of a power base unit, and belongs to the technical field of power.
Background
In the current field of power safety production, basic staff still face the problem such as instrument discrete, function dispersion is not concentrated, data synthesis is incomplete in solving the power on-the-spot rush-repair in-process, can not support basic unit on-the-spot safety production comprehensive operation's digitization. The optimization, solidification and automation of the main focusing business flow are lack of application to new generation digital technology and machine vision technology. Therefore, the requirement of 'basic unit strong foundation' is comprehensively realized, the basic field work requirement is fully considered, the mobile internet and the artificial intelligence new technology are fully utilized from the user requirement, the aggregate production application is formed by taking lean benefit and innovation as carriers, comprehensive auxiliary supporting tools which are comprehensive in coverage, convenient to use and simple to operate are provided for first-line teams, the production business process is comprehensively supported, the high-efficiency operation of related business processes is supported, the production business risk is controlled, the safe informatization support of a basic power supply unit power grid is continuously improved, the data driving business innovation is promoted, the service level of basic power supply unit production is continuously improved, the basic unit work experience and efficiency are improved, and the power grid reliability level is improved.
Disclosure of Invention
The invention aims to solve the technical problems that: a digital tool system and method for on-site rush repair of a power base unit are provided, which are used for solving the problems of tool dispersion, function dispersion and concentration, incomplete data synthesis and the like in the power rush repair process of power base staff.
The technical scheme of the invention is as follows:
a power-based unit on-site rush repair digital tool system, the system comprising:
and the rapid rush repair management module: the method realizes the fusion of asset planning power failure, marketing customer service fault reporting and distribution network power failure data, supports the active notification of a power failure event and the whole-process processing of a cross system, comprises fault information, arrival scene, fault positioning, fault restoration, fault re-electricity information reporting and process transfer, and supports the optimization, merging and splitting of fault reporting and repair work orders;
and the data comprehensive application module is used for: the statistics of the designed management data of the repair business rush-repair process is realized, wherein the statistics of the management indexes such as work order signing, departure, arrival, positioning, processing time length and the like is realized; carrying out data statistics in multiple dimensions, supporting various display forms such as a list, a graph and the like, supporting multi-scene report business, carrying out global display on faults and the progress of rush repair by using a map technology, and displaying the geographical distribution of fault reporting work orders and rush repair personnel; the time-consuming data statistics of each node is supported, and the index statistics of fault processing closed-loop rate, rush repair time rate and the like are supported;
The material management module: establishing tools related to material and equipment inquiry, supporting material demand filling of a power distribution station and a power supply station, receiving material subsystem, acquiring material classification and variety and specification parameter information, supporting a rapid retrieval function of material stock state, matching stock according to material demand, and performing preliminary research and judgment on material supply time; and the whole flow control of the material demands is realized, and the material demand filling, inventory matching, material distribution, demand analysis and suggestion scene application are supported.
The quick rush repair management module comprises:
and the power failure event management sub-module: through the comprehensive analysis application of more than one system data information, a distribution network power failure model is constructed, the data mapping of a switch model and a line model is realized, so that the study and judgment of power failure information are supported, the fault power failure, planned power failure and emergency defect power failure information are displayed in a power failure pool, and the client influence range of relevant time is displayed in a correlated mode;
and a rush repair process management sub-module: supporting the judgment of the dispatching personnel on the power failure event by using the measurement data, and realizing the whole flow control on the newly generated power failure event information system processing record rush repair process, wherein the whole flow control comprises the processing of the whole link of a fault work order and a matched work order arrival message reminding mechanism; the method supports the prompt and combination of repeated-guarantee power failure events, supports the combination and splitting of the fault reporting information according to the power failure time, the fault reporting address, the geographic position and the system station line-to-user relationship data, and supports a matched message reminding mechanism with flexible configuration; in the work order processing process, the support of field operation is required to be positioned and punched in a rapid manner, a personal operation habit template configuration function is provided, and the operation input content of the field operation is simplified; establishing a network detection function, sensing the network state of the field tool in real time, and supporting local caching to record field data; support document, photo, and video material attachments; providing a work order overtime early warning mechanism, and supporting work order signing, calculating and displaying the residual time of arriving at the site and a power failure simulation link; supporting the repartition and rollback of the fault worksheet;
And the fault comprehensive management sub-module: real-time household variable data of the integrated marketing system, simulation data of a marketing and distribution data center and produced transformer data are realized, the power outage influence range is comprehensively displayed in a management background, and in-place conditions, fault position distribution and fault events of on-site personnel are tracked and displayed in real time on a map;
and the rush repair support submodule: the construction of a supporting sleeve of the resource relied in the rush-repair process supports a reminding mechanism of a fault work order, supports the rapid checking of the fault work order and fault equipment, and establishes a universal navigation positioning function for an object with coordinates; the method supports the display of the contact modes of related rush-repair teams and resident personnel, supports the inspection and the check of a multiple-electricity case library, supports the quick retrieval of a historical work order, and supports the quick analysis of fault solution problems by field personnel.
The power outage event management submodule includes:
a switch trip event: the tripping switch information of the access distribution network OMS is displayed on the quick rush repair plate, and clear checking information is recorded;
data mapping function: establishing a mapping between an OCS in-station switch model and a GIS medium voltage line model, and establishing in-station and out-of-station association; realizing the data mapping of an OCS (online switching system) switching model of the distribution network, establishing the mapping of an OCS system switching model of the distribution network and a GIS medium voltage line model, and establishing the association of switching real-time data and GIS;
And (3) displaying a power failure event: displaying the work order information according to the province, the region and the county, and simultaneously clearly displaying the name of the county level to the first level from the work order list information;
and (3) power failure simulation: aiming at medium-voltage faults, under the condition of defining line information or switching information, power failure simulation is carried out after dispatching, and an influence range and an influence user information update and release power failure influence range are simulated;
and (3) judging a power failure information pool: summarizing all power outage information of a user to a power outage, establishing a user power outage information base to support comprehensive inquiry of the power outage information of the user through user numbers, user names, telephones and the like, and filtering repeated fault reporting of the client; after the data of the station area which is not influenced by the known medium-voltage power failure event is determined through the data filtering of the known power failure pool, the service scheduling selects and calls the station area to inquire the power failure state and the current and voltage functions in real time, and determines whether the current station area is on the power failure side or not and determines the power failure voltage side; judging that the failure report lists belonging to the failure and the subsequent station areas are all prompt to be combined, and after service scheduling agrees to be combined, the failure report lists are not dispatched;
distribution network power failure analysis model: accessing the power outage related data of a dispatching domain, a marketing domain and a production domain from a data operation system, and constructing a distribution network power outage analysis unified model based on a GIS system, a production system and a marketing system; constructing a collected data outage analysis model based on a master network OCS system, a distribution network OCS system and a metering automation system; constructing a business data outage analysis model based on a marketing system, a production system and a quick power restoration system; constructing a outage verification model based on a distribution network outage analysis unified model, a collected data outage analysis model and a business data outage analysis model;
Medium voltage fault recovery monitoring: the line dependence is inquired through the line id of the medium-voltage fault information, and the medium-voltage fault information is displayed according to the power supply station in the power restoration monitoring.
The rush repair process management submodule comprises:
and (3) fault report merging and splitting: if all the reported barrier addresses are concentrated in a square 1 km area within 30 minutes, the reported barrier addresses are regarded as the same reported barrier; the duplicate monitoring background matches the fault report work order information which is sent to the regional office urgent repair team once and is not generated with the fault report work order information of the battery in the duplicate monitoring background according to the fault report information of the client, including the client number, the client name and the address, and the duplicate monitoring background automatically combines the fault report work order with the work order which is sent to the regional office urgent repair team before in the matched condition; for the suspected matching possible but not determinable, displaying the suspected matching worksheets to a service dispatcher, and manually confirming whether merging is carried out or not by the service dispatcher; for the totally uncombined work orders sent by the service dispatcher to the regional office urgent repair team; if the power failure time difference is within 30 minutes, judging that the power failure addresses are similar and belong to the same report obstacle merging; if the power failure time difference is within 30 minutes, the new power failure address and the address of the fault report work order which is being processed by the emergency repair team of the district office are judged to belong to the same fault report and are combined if the power failure time difference is the same as one distribution transformer; after the fault report worksheets are combined into the same fault report worksheets, the combined fault report worksheets can be split when different fault reports are confirmed subsequently;
Work order reminding: the system regularly reminds operators by presetting arrival scene and planned power restoration time parameter values; regularly judging the position of the emergency repair personnel and the residual vehicle running time of the emergency repair point, automatically reminding if the position exceeds the planned arrival time, and not reminding in the field operation process that the arrival end distance shows a decreasing trend;
automatic positioning and sign-in: setting parameters of a preset distance range, taking the geographical position of the fault reporting as a center, automatically positioning and signing in when the geographical position of the rush-repair personnel enters the arrival distance range, recording positioning time, changing the work order state, and returning arrival site time and position information;
and (3) fault work order processing: dividing the rush-repair flow into five nodes including fault information, arrival scene, fault positioning, fault repairing and fault re-electrifying, clicking a radio button on a group to-be-handled page to inquire a work order conforming to the node, and realizing a work order merging function on the group to-be-handled page; displaying a list of to-be-received, processed and processed work orders, and distinguishing whether overtime and processed or not by using different colors and icons; sequencing according to time and emergency degree; the signing operation tool for the work orders is supported to sign and return the fault work orders; support merging with existing faulty work orders; the fault report work order and the emergency repair work order are supported to be forwarded and pushed, and the low-voltage discovery is that the medium-voltage fault can be converted into emergency repair; the small video shooting, recording and re-uploading functions are supported; the method has the advantages that the function of scanning codes and identifying objects is supported, the effective information of nameplates and bar codes of equipment is scanned, the multi-thread simultaneously triggers the multi-type equipment searching function, the equipment is rapidly searched, and the details of fault reporting and emergency repair work orders are displayed according to different formats;
Fault dispatch and rollback: if the work order is definitely not the repair work order of the power supply station in the positioning link, the operator transfers the work order to the tool; supporting 95598 to send work orders by mistake and then returning the work orders to a distribution and robbery center of a local city by a rush repair staff;
calculating the residual time: the residual time display function is added, the calculation of the residual processing time of signing, arrival, power failure simulation and closed loop calculation is supported, and the residual processing time is displayed on a fault list tracking page;
uploading the rush repair photo: the rush-repair personnel upload the field pictures to the platform server side under the condition of network through photographing, and 95598 customer service and city customer service scheduling can be checked, so that information sharing is realized.
The fault integrated management submodule comprises:
and (3) fault display: the fault positions are distributed on a map to display all overall faults, and fault events are displayed on the map according to the emergency repair progress and the fault reporting time; notifying a rush repair person to open a field video, and checking the field condition by a manager in the process of re-electricity monitoring; searching keywords in all fields of a fault event according to screening of fault failure reporting time, screening according to a region to which the fault belongs or screening according to a current state of the fault, displaying detailed failure reporting information, displaying detailed rush repair detail information, and displaying field photos before rush repair and after rush repair;
Personnel monitoring and displaying: counting personnel in-place situation to display personnel details; prompting reminding when the person arrives for 30, 60 and 90 minutes respectively; screening according to units to which the personnel belong and screening according to the current states of the personnel, and displaying the distribution condition of the emergency repair personnel in all states; searching keywords in all fields of the managed personnel, displaying basic information of the personnel and displaying the fault condition which is being processed by the current personnel;
and (3) fault list monitoring: supporting refreshing and inquiring operations, and reserving updating fault list inquiring result data under screening conditions when clicking inquiring;
impact range analysis: the power outage influence range is comprehensively displayed in the management background through real-time household variable data of the integrated marketing system, simulation data of the marketing data center and produced transformer data.
The rush repair support submodule comprises:
and (3) reminding a fault work order: the coordinated production and marketing system reforms a business process interface to realize the real-time reminding function of a new failure report work order, and after the failure report work order generated by the business system is transmitted to a designated link, the business system sends a message to a rush-repair team to remind and display the time, place and failure phenomenon summary information related to the failure; the message form comprises characters and sounds, and different work order reminding contents and sounds are configured in a distinguishing mode;
And (5) checking the fault worksheet at a high speed: the voice input convenient operation is supported, the fault work order quick detection operation is provided, and the fault address, the fault description, the fault time and the basic information of the processing team are searched at a high speed;
and (5) equipment retrieval: providing equipment display near the current position, providing equipment inquiry under the permission area, checking relevant information of equipment, including basic parameters, pictures and information related to geography and operation, checking inquiry along layout and wiring diagrams, equipment information, providing feeder diagram inquiry function within the urgent work repair permission range, and enabling all objects with coordinates to support positioning and navigation functions on a map;
and (5) an emergency repair assistant: the intelligent monitoring system comprises a related address book, a quick-response case library, an obstacle report work order intelligent search and use help, supports the state and position information of nearby rush repair personnel, supports a voice prompt safety operation rule, and supports the tool prompt of a collecting site when a flow work order is finished;
personal rush repair inquiry: the method comprises the steps of inquiring signed work orders, inquiring returned work orders, inquiring finished work orders, reporting fault work orders and searching emergency repair work orders.
The data comprehensive application module comprises:
and (3) complex electricity business statistics: the management data related to the repair process of the power restoration service is counted, and the statistics of the management indexes including work order signing, departure, arrival, positioning and processing time length are realized; the method comprises complex electricity index statistics, multidimensional statistics, event backtracking and statistical analysis;
Personnel track tracking: personnel track tracking and track playback of each work order in the monitoring field operation tool support track display according to time period and fault track display processing;
rush repair panorama: displaying a panoramic distribution diagram of fault events and rush repair personnel on a map according to a time dimension, wherein the panoramic distribution diagram comprises fault event screening, rush repair personnel screening and track display;
rush repair map: displaying the geographical distribution of the fault report worksheets and the emergency repair personnel in a map dotting mode, and providing a classification display function;
and (5) rush repair statistics: displaying standing point basic information and pictures, displaying standing point videos through an interface, displaying the working state and the position of a subordinate person of the current standing point by using different colors, displaying the fault record processed by the person, and counting standing point work orders;
time-consuming calculation of the link node: displaying time-consuming real-time calculation data of each node of work order signing, rush repair arriving at site, fault positioning, fault isolation, fault repair and power transmission recovery;
and (5) rush repair time rate statistics: and counting indexes of the fault processing closed-loop rate and the rush repair time rate.
The material management module comprises:
and (3) material demand filling: the method comprises the steps that a material subsystem is used for acquiring material classification, variety and specification parameter information, a basic group staff judges a required material demand list according to fault equipment information in the rush repair process, a material demand list is newly added in material demand filling, material demand filling of a distribution substation and a power supply substation is supported, and the system reports the material demand list to an emergency packet management department;
Demand inventory matching: according to the reported material demands, carrying out demand and inventory matching, and synchronously displaying and informing the current inventory condition to demand reporting personnel according to the matching results, so as to support preliminary study and judgment of material supply time; the matching result shows and informs warehouse management personnel of the current inventory shortage condition so as to prompt the completion of allocation, scheduling and application of the missing equipment;
and (3) material distribution: when the equipment needs warehouse or first-aid kit personnel to deliver, the related personnel register delivery records according to actual delivery needs;
and (3) material demand analysis: carrying out statistical analysis on data according to material filling in the last half year, carrying out association analysis on the required quantity and fault reasons of various devices by a material declaration unit, finally forming association analysis on fault phenomena and material requirements, analyzing the fault rate of model devices according to the fault frequency of the devices, and summarizing analysis results to guide a material purchasing department to complete replenishment of missing stock and purchasing of new devices so as to realize analysis on the distribution quantity of basic material types;
material purchase advice: according to the analysis result of the material demand and the current stock condition, a system gives a proposal purchasing list; and obtaining actual gap supplies after the use units at all levels are integrally matched with the unit stock according to the basic level actual demands, and forming a supply purchasing demand list and purchasing suggestions.
The system also comprises an application interaction module which realizes application interaction by acquiring service data of the asset management system, the data operation system, the marketing management system, the GIS system and the workbench.
The application interaction module comprises:
asset management system interactions: the work order process interface is utilized to support work order dispatching of the quick repair task, and the fault dispatching function is applied and comprises a power outage application issuing interface, a power outage year planning issuing interface, a power outage month planning issuing interface, a low-voltage power distribution network work order sending interface, a safety technology base order sending interface, a network distribution operation order sending interface, a barrier report sending interface, a device account inquiry interface, a device defect inquiry interface, a device inspection recording interface, a tool receiving interface, a data uploading interface and a shift-switching synchronous interface;
data operation system interaction: basic data service of a marketing domain and a production domain is realized through interaction with a data interface of a data operation system; the system comprises a marketing-related client file, a metering point file, an ammeter asset file, a power grid file, a station line-to-customer relationship and a client contact way; production-related production system planning power outage information, medium-voltage fault power outage information, equipment account data, rush repair work order history, tripping information of a 10kV outgoing switch of a substation of a master network OCS system, tripping information of a switch of a distribution network OMS system and tripping information data of a 10kV line distribution network automation switch of a distribution network OCS system; the metering system is configured with a TTU, partial household meter current, voltage and power failure information, and supports the display of work tasks and the application of data statistical analysis;
Marketing management system interactions: acquiring customer service barrier report work order data, and supporting power failure event acquisition and data analysis application of a quick rush repair plate;
GIS system interaction: the offline GIS map data synchronization interface is used for supporting power failure and emergency repair graphic display and updating and synchronizing offline data; real-time GIS map service is realized, feeder diagram, layout, equipment position inquiry and equipment ledger inquiry service are supported, and distribution network patrol related service development is supported;
workstation interaction: after the fault processing is completed, the quick repair processing result, the distribution network inspection result, the work order link, the work tool receiving and returning condition are transmitted back to the workbench system, so that the closed-loop management of the workbench on the comprehensive service is supported.
The invention has the beneficial effects that:
the invention takes the actual demands of production business of first-line staff of a power supply station and a power distribution station as a starting point, takes flexible, practical and easy-to-use main construction principles, completes the function extraction and reconstruction from a plurality of business to a light application platform of field operation rush repair, data comprehensive application and material management according to product thinking, realizes the integrated convergence of the relevant application functions of production, realizes the fusion innovation of business and new technology, supports the first-line staff to efficiently and conveniently develop the field work, and supports the safe production operation of a power grid.
The working mechanism of the emergency repair is optimized, and the working modes of 'synchronous sensing power failure, early researching and judging range and active field emergency repair' are established, so that 'zero dead angle of fault sensing, accurate researching and judging zero time difference and zero distance of customer service' are realized. The active notification of the power failure event and the whole process processing of a cross system are supported by integrating asset planning power failure, marketing customer service fault reporting and distribution network power failure data, so that the active sensing of the power failure of a customer and timely rush repair of the power failure fault are realized; the power failure analysis model of the distribution network, the study and judgment of a power failure information pool and the influence range analysis are created, the whole process monitoring and the intelligent study and judgment of faults of the operation working condition of the distribution network are realized, and the power failure warning and noise reduction are effectively realized; the map panorama displays the position information of faults and emergency repair persons, establishes a moving tool related to material and equipment inquiry, enables a fault work order to reach a line of staff in real time, achieves considerable and measurable last kilometer of quick emergency repair, improves the response speed of the fault emergency repair, shortens the recovery time of fault outage, improves the time rate of the fault emergency repair, and improves the power-assisted emergency repair efficiency and service satisfaction rate.
The problems of discrete tools, decentralized function, incomplete data synthesis and the like in the electric power rush-repair process of the staff of the electric power base layer are solved.
Drawings
FIG. 1 is a schematic diagram of a system architecture according to the present invention.
Detailed Description
Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.
Aiming at the scene of field work such as power failure rush repair, the invention fully utilizes the promotion effect of data on cross-specialty cooperation and adapts to the operation habit of users; and the unified tool entrance and the unified user interaction style are adopted, and application interaction is realized by acquiring service data of an asset management system, a data operation system, a marketing management system, a GIS system and a workbench. According to the actual application requirements of the power supply station production service, the existing tool for analyzing and refining the distribution network is used for finishing the functional refining and reconstruction from a plurality of services to a light application platform, such as field operation rush repair, data comprehensive application and material management, according to the product thinking. The integrated convergence of the production related application functions is realized based on the location service by applying the technologies of a micro service system, combining the native with H5 and the like, and the safe production operation of the power grid power supply unit is supported. Through four modules of quick rush repair management, data comprehensive application, material management and application interaction, asset planning power failure, marketing customer service fault reporting and distribution network power failure data are integrated, active notification of a power failure event and cross-system full-flow processing are supported, and active customer power failure sensing and timely rush repair of a power failure fault are realized; the power failure analysis model of the distribution network, the power failure information pool research and judgment and the influence range analysis are created, the whole process monitoring of the operation working condition of the distribution network and the intelligent research and judgment of faults are realized, the power failure warning and noise reduction are effectively realized, the recovery time of the fault power failure is shortened, the fault rush-repair time rate is improved, the fault rush-repair response speed is improved, and the user inductance knowledge is improved.
The invention relates to a digital tool system and a method for on-site rush repair of a power base unit, which concretely comprise the following steps:
and the rapid rush repair management module:
the method realizes the fusion of asset planning power failure, marketing customer service fault reporting and distribution network power failure data, supports the active notification of a power failure event and the whole-process processing of a cross system, comprises the information reporting and the process transfer of a plurality of links such as fault information, arrival scene, fault positioning, fault repairing, fault re-electrifying and the like, and supports the optimization, merging and splitting of fault reporting and repair work orders. The rapid repair management module consists of four sub-modules of power failure event management, repair process management, fault comprehensive management and repair support.
And the power failure event management sub-module: refers to the comprehensive analysis application through the information of multi-system data (such as a switch tripping event, a metering acquisition power failure event and the like). The method comprises the steps of constructing a distribution network power failure model, realizing data mapping of a switch model and a circuit model, supporting research and judgment of power failure information, displaying fault power failure, planned power failure and emergency defect power failure information in a power failure pool, associating and displaying client influence ranges of related time and the like, and forming 7 functions of switch tripping event, data mapping function, power failure event display, power failure simulation, power failure pool information research and judgment, distribution network power failure analysis model and medium-voltage fault re-electricity monitoring. The method specifically comprises the following steps:
A switch trip event: the trip switch information of the distribution network OMS is accessed, displayed on the quick rush repair plate, and clear checking information is recorded, and when the trip record is checked by anyone.
Data mapping function: and (3) establishing mapping between an OCS in-station switch model and a GIS medium voltage line model, and establishing in-station and out-of-station association. And realizing the data mapping of the distribution network OCS switch model, establishing the mapping of the distribution network OCS system switch model and the GIS medium voltage line model, and establishing the association of the switch real-time data and the GIS.
And (3) displaying a power failure event: and displaying the work order information according to the province, the region and the county, and simultaneously clearly displaying the name of the county level from the work order list information to the first level.
And (3) power failure simulation: and under the condition that part of medium-voltage faults are clear in line information or switch information, carrying out power failure simulation after dispatching a bill, simulating an influence range and influenced user information, and timely updating and releasing the influence range of power failure.
And (3) judging a power failure information pool: and summarizing all power outage information of the users to power outage (including power outage user information of fast power outage of low-voltage faults, planned power outage, fault outage, peak fault electricity limiting and emergency defect power outage influence of a distribution network production management system), establishing a user power outage information base so as to support comprehensive inquiry of the user power outage information through user numbers, user names, telephones and the like, and filtering repeated fault reporting of clients. After the data of the station area which is not affected by the known medium-voltage power failure event is determined through the known power failure pool data filtering, the service scheduling can select and call the station area to inquire the power failure state and the current voltage function in real time, determine whether the current station area is in power failure or not, judge the power failure voltage side, judge that the fault belongs to the fault, and prompt and combine the fault report sheets of the station area after the follow-up station area, wherein the fault report sheets are not dispatched under the follow-up station area after the service scheduling agrees to combine (namely, the fault report sheets are automatically combined to the first station area fault report sheet and are automatically associated with the corresponding repair work sheet). Analyzing whether power failure occurs to the distribution transformer or not according to the measured condition, and judging the rule of fault of the power failure voltage side: 1) The current has voltage, and the distribution is normal; 2) The voltage is available or not, and the low-voltage side of the distribution transformer is likely to have faults; 3) No voltage and no current, and faults occur on the medium voltage side of the distribution transformer.
Distribution network power failure analysis model: accessing the related data of power outage of a dispatching domain, a marketing domain and a production domain from a data operation system, and constructing a unified distribution network power outage analysis model (station, line, change and user) based on a GIS system, a production system and a marketing system; constructing a collected data outage analysis model based on a master network OCS system, a distribution network OCS system and a metering automation system; constructing a business data outage analysis model based on a marketing system, a production system and a quick power recovery system; and constructing a outage verification model based on the distribution network outage analysis unified model, the collected data outage analysis model and the service data outage analysis model.
Medium voltage fault recovery monitoring: the line dependence is inquired through the line id of the medium-voltage fault information, and the medium-voltage fault information is displayed according to the power supply station in the power restoration monitoring.
And a rush repair process management sub-module: the measurement data is used for supporting the judgment of the dispatching personnel on the power failure event, and the whole flow control is realized for the newly generated power failure event information system processing record rush repair process, including the processing of the whole link of the fault work order and the matched work order arrival message reminding mechanism. The method supports the prompt and combination of repeated-guarantee power failure events, supports the combination and splitting of the fault reporting information according to the data such as power failure time, fault reporting address, geographic position, system station line change relationship and the like, and supports a matched message reminding mechanism which is flexibly configured. In the work order processing process, on-site operation is required, quick positioning and punching are supported, a personal operation habit template configuration function is provided, and on-site operation input content is simplified. And establishing a network detection function, sensing the network state of the field tool in real time, and supporting local caching to record field data. And various data attachments such as documents, photos and videos are supported, and the format content of the on-site work data is enriched. The method provides a work order overtime early warning mechanism, and supports the calculation and display of the residual time of links such as work order signing, on-site arrival, power failure simulation and the like. Supporting the repartition and rollback of the failed worksheet. The system specifically comprises 7 sub-functional modules for reporting fault merging and splitting, work order reminding, automatic positioning and signing, fault work order processing, fault transferring and backing, residual time calculating and rush repair photo uploading.
And (3) fault report merging and splitting: a plurality of barrier addresses are concentrated in a square 1 km (configurable) area within 30 minutes and are regarded as the same barrier; the duplicate electricity monitoring background is matched with the fault report work order information (fuzzy address, preliminary study power outage distribution) which is sent to the regional office emergency repair team once and is not generated for stopping the battery in the duplicate electricity monitoring background according to the fault report information (client number, client name and address) of the client: for matching, the duplicate electricity monitoring background automatically merges the fault report work order with the work order which has been sent to the regional office urgent repair team before (namely, hangs the fault report work order on the previous fault report work order); for a suspected match, but not determinable, the worksheet suspected of being matched is displayed to the service dispatcher for manual confirmation by the service dispatcher of whether the merge is performed. For totally non-merger, a service dispatcher issues a work order to the regional office urgent team,
if the power failure time difference is within 30 minutes and the power failure addresses are similar, judging that the power failure addresses belong to the same fault report, and merging; if the power failure time difference is within 30 minutes, the new power failure address and the address of the fault report work order which is being processed by the emergency repair team of the district belong to the same distribution transformer, and the fault report work orders are judged to belong to the same block, and the fault report work orders can be combined; after a plurality of fault report worksheets are combined into the same fault report worksheet, the combined fault report worksheets can be split when different fault reports are confirmed subsequently.
Work order reminding: the system regularly reminds operators by presetting the parameter values of the on-site and planned power restoration time. As predicted 22:00 re-electrification can be carried out in advance for 30 minutes, 10 minutes and 5 minutes to remind re-electrification personnel. And (3) planning to arrive at the site for 30 minutes, regularly judging the positions of the emergency repair personnel and the residual vehicle running time of the emergency repair points, and automatically reminding if the positions exceed the planned arrival time, wherein the arrival terminal distance is not reminded in the site operation process of showing a decreasing trend.
Automatic positioning and sign-in: the parameter setting of a preset distance range is supported, the automatic positioning and sign-in of the geographical position of the rush-repair personnel in the arrival distance range is supported by taking the fault reporting geographical position as a center, the positioning time is recorded, the work order state is changed, and the arrival site time and position information are returned.
And (3) fault work order processing: the first-aid repair flow is divided into five nodes including fault information, arrival scene, fault positioning, fault repair and fault power restoration, a group to-do page can click a radio button to inquire a work order conforming to the node, and the group to-do page can realize a work order merging function. Displaying a list of the work orders to be received, processed and transacted, and distinguishing whether overtime and processed or not by using different colors and icons; support ordering by time, degree of urgency; the signing operation tool for supporting the work orders supports signing and rollback operations for the fault work orders; support merging with existing faulty work orders. The fault report work order and the emergency repair work order are supported to be forwarded and pushed, and the low-voltage discovery is that the medium-voltage fault can be converted into emergency repair. And the small video shooting, recording and re-uploading functions are supported. The method has the advantages of supporting the function of scanning codes and identifying objects, scanning effective information such as equipment nameplates and bar codes, triggering the function of searching multi-type equipment simultaneously by multithreading, realizing quick searching of equipment, and displaying details of fault reporting and emergency repair work orders according to different formats.
Fault dispatch and rollback: in the positioning link, if the work order is definitely not the repair work order of the power supply station, the work order can be transferred on the tool by an operator. And supporting 95598 to return the work order to the emergency centre of the local exchange for operation after the work order is misplaced.
Calculating the residual time: the residual time display function is added, the calculation of the residual processing time calculated by four nodes of signing, arrival, power failure simulation and closed loop is supported, and the residual processing time is displayed on a fault list tracking page.
Uploading the rush repair photo: the rush repair personnel can upload the field pictures to the platform server side under the condition of network through photographing, and 95598 customer service and ground city customer service scheduling can be checked, so that information sharing is realized.
And the fault comprehensive management sub-module: real-time household variable data, simulation data of a marketing data center and produced transformer data of the integrated marketing system are realized, a power outage influence range is comprehensively displayed in a management background, in-place personnel conditions, fault position distribution, fault events and the like are tracked and displayed on a map in real time, and the integrated marketing system comprises 4 sub-functional modules including fault display, personnel monitoring display, fault list monitoring and influence range analysis;
and (3) fault display: and the fault positions are distributed, all the overall faults are displayed on the map, and fault events are displayed on the map according to the emergency repair progress and the fault reporting time. And (5) notifying a rush-repair person to open the field video, and checking the field condition by a manager in the process of re-electricity monitoring. Screening according to fault failure reporting time, screening according to the region to which the fault belongs, screening according to the current state of the fault, and searching keywords in all fields of the fault event. And displaying detailed fault reporting information, detailed emergency repair detail information and field photos before and after emergency repair.
Personnel monitoring and displaying: the personnel in place (the number of people who are dispatched, in place, on the way, not departing, still needing to be amplified, and the like) can be counted, and the personnel details can be displayed. The personnel arrive at the residence time of 30, 60 and 90 minutes to respectively prompt the reminding function. Screening according to the unit to which the person belongs, and screening according to the current state of the person. The distribution condition of the rush repair personnel in all states can be displayed at the same time. And searching keywords in all fields of the managed personnel, displaying basic information of the personnel, and displaying the fault condition which is being processed by the current personnel.
And (3) fault list monitoring: and supporting refreshing and inquiring operations, and updating the fault list inquiring result data under the screening condition when clicking the inquiring operation.
Impact range analysis: real-time household variable data, simulation data of marketing and distribution data center and produced transformer data of the integrated marketing system are comprehensively displayed in a management background. And the inquiry and early warning use of the influence user data are supported, wherein the inquiry and early warning use comprises the influence user number, user details, important users, special users and the like.
And the rush repair support submodule: the construction of the supporting sleeve member of the resource relied in the rush-repair process supports the reminding mechanism (including message and bell sound) of the fault work order, supports the quick checking of the fault work order and fault equipment, and establishes a universal navigation positioning function for the object with coordinates. The method supports the display of the contact modes of related rush-repair teams and resident personnel, supports the inspection and the check of a multiple-electricity case library, supports the quick retrieval of a historical work order, and supports the quick analysis of fault solution problems by field personnel. The system comprises 5 sub-function modules for fault work order reminding, fault work order quick checking, equipment searching, emergency repair assistant and personal emergency repair inquiry.
And (3) reminding a fault work order: the coordinated production and marketing system reforms a business process interface to realize the real-time reminding function of a new failure report work order, and after the failure report work order generated by the business system is transmitted to a designated link, the business system sends a message to a rush-repair team to remind, and summary information such as time, place, failure phenomenon and the like related to the failure is displayed by default. The message form comprises two forms of text and sound, and different work order reminding contents are configured differently from the sound.
And (5) checking the fault worksheet at a high speed: the method supports convenient operation such as voice input and the like, provides rapid detection operation of a fault work order, and searches basic information such as fault addresses, fault descriptions, fault time, processing teams and the like at high speed.
And (5) equipment retrieval: providing a device display near the current position, providing a device query under a permission area, viewing related information of the device, including basic parameters, pictures and information related to geography and operation, viewing the query along a layout and a wiring diagram, querying the device information, providing a feeder diagram query function within the permission range of urgent repair work, and supporting positioning and navigation functions on a map by all objects with coordinates.
And (5) an emergency repair assistant: the intelligent monitoring system comprises a related address book, a quick power recovery case library, fault report worksheets, use assistance and the like, supports the provision of information such as the state and the position of nearby rush repair personnel, supports the voice prompt of safety operation rules, supports the prompt of tools and tools on a collection site when a process worksheet is finished, and the like.
Personal rush repair inquiry: the method comprises the steps of inquiring signed work orders, inquiring returned work orders, inquiring finished work orders, reporting fault work orders and searching emergency repair work orders.
And the data comprehensive application module is used for:
the method and the device realize statistics of designed management data in the repair process of the power restoration service, and realize statistics of management indexes such as work order signing, departure, arrival, positioning, processing time length and the like. The data statistics is carried out in multiple dimensions, a plurality of display forms such as a list, a graph and the like are supported, a multi-scene report business is supported, the overall display of faults and the progress of rush repair is carried out by using a map technology, and the geographical distribution of fault reporting work orders and rush repair personnel is displayed. And supporting time-consuming data statistics of each node, and supporting index statistics such as fault processing closed-loop rate, rush repair time rate and the like. The system comprises 7 sub-functional modules of power restoration service statistics, personnel track tracking, rush repair panorama, rush repair map, rush repair statistics, link node time-consuming calculation and rush repair time rate statistics.
And (3) complex electricity business statistics: the method and the device realize statistics of the related management data in the repair process of the power restoration service, wherein the statistics of the management indexes including work order signing, departure, arrival, positioning, processing time length and the like is realized. The system supports data statistics according to multiple dimensions of regions, county offices, outsourcing units, standing point organizations and the like, supports various display forms such as lists, graphs and the like, supports fault report work orders, emergency repair work orders, on-site work arrangement and recording, command and record report multi-scene report business, and comprises duplicate electricity index statistics, multidimensional statistics, event backtracking and statistical analysis.
And (3) complex electricity index statistics: the indexes such as the signing, departure time, arrival time, fault locating time and the like of the work order are realized through interface statistics.
Multidimensional statistics: the method is realized by interface background logic of various dimension statistical data such as global, regional bureau, external delegation unit, standing point and the like.
Backtracking of events: and backtracking the interface background logic of the single fault details by stepping down.
Statistical analysis: the method comprises fault occurrence frequency, rush repair material statistics, rush repair link statistics and rush repair personnel statistics.
Personnel track tracking: and accessing an intelligent south-net aerial view, tracking personnel tracks and replaying tracks of each work order in the monitoring field operation tool, and supporting track display according to time periods and fault track display processing.
Rush repair panorama: and displaying the fault event and the panorama distribution diagram of the rush-repair personnel on the map according to the time dimension, wherein the panorama distribution diagram comprises fault event screening, rush-repair personnel screening, track displaying and the like.
Fault event screening: and displaying fault information in a list mode, a listing mode and the like.
Screening by emergency repair personnel: and displaying personnel related information in a list mode, a listing mode and the like.
Track display: and displaying the track from the departure to the completion of the rush repair by the fault report work order processor, and displaying the in-situ track of the rush repair personnel.
Rush repair map: the geographical distribution of the fault report worksheets and the emergency repair staff is displayed in a map dotting mode, a classification display function is provided, the time, the place and the brief description of the worksheets can be checked on the map, brief information, complex information and other modes are provided, and the relations and the contents among the fault report worksheets, the emergency repair worksheets and the emergency repair staff are displayed.
And (5) rush repair statistics: displaying standing point basic information and pictures, displaying standing point videos through an interface, displaying the working state and the position of a subordinate person of the current standing point by using different colors, displaying the fault record processed by the person, and counting the standing point work orders (according to the date, the detail of the opening work orders can be drilled down).
Time-consuming calculation of the link node: and displaying time-consuming real-time calculation data of each node of work order signing, rush repair arriving on site, fault positioning, fault isolation, fault repair and power transmission recovery.
And (5) rush repair time rate statistics: and counting indexes such as fault processing closed-loop rate, rush repair time rate and the like.
The material management module:
tools related to material and equipment inquiry are established, material demand filling of a power distribution station and a power supply station is supported, parameter information such as material classification, varieties, specifications and the like is acquired for a material subsystem, a rapid retrieval function of material stock state is supported, stock is matched according to the material demand, and preliminary research and judgment are carried out on material supply time. The full flow control of the material demands is realized, and the scene applications such as material demand filling, stock matching, material distribution, demand analysis and suggestion are supported. The system comprises 6 sub-functional modules of material demand filling, material stock retrieval, demand stock matching, material distribution, material demand analysis and material purchasing suggestion.
And (3) material demand filling: and the receiving material subsystem is used for acquiring parameter information such as material classification, variety, specification and the like. In the rush-repair process, basic group staff judges a required material demand list according to fault equipment information, a material demand list is newly added in material demand filling, material demand filling by a power distribution station and a power supply station is supported, and the system reports the material demand list to an emergency packet management department.
Inventory matching: according to the reported material demands, carrying out demand and inventory matching, and synchronously displaying matching results to demand reporting personnel to inform the current inventory condition and support preliminary study and judgment of material supply time. The matching result is displayed to warehouse manager to inform the current inventory shortage condition so as to prompt the warehouse manager to finish the allocation, scheduling, application and the like of the missing equipment as soon as possible.
And (3) material distribution: and when the equipment needs warehouse/first-aid kit personnel to deliver, relevant staff can register delivery records according to actual delivery needs, so that time particles in the rush repair process can be conveniently divided.
And (3) material demand analysis: and carrying out statistical analysis on data according to the material filling in the last half year, and carrying out association analysis on the number required by various devices and fault reasons by a material declaration unit. And meanwhile, analyzing model equipment failure rate according to equipment failure frequency, and summarizing analysis results to guide a material purchasing department to finish replenishment of missing stock and purchasing new equipment so as to realize analysis of distribution quantity of basic material types.
Material purchase advice: and according to the analysis result of the material demand and the current stock condition, a proposal purchasing list is given by the system. And obtaining actual gap supplies after the use units at all levels are integrally matched with the unit stock according to the basic level actual demands, and forming a supply purchasing demand list and purchasing suggestions.
Application interaction:
the application interaction is realized by acquiring service data of an asset management system, a data operation system, a marketing management system, a GIS system and a workbench.
Asset management system interactions: and supporting the work order dispatching, fault dispatching and other functional applications of the quick repair task by using the work order flow processing interface. The system comprises a power outage issuing application form interface, a power outage year issuing planning interface, a power outage month issuing planning interface, a low-voltage distribution network work ticket sending interface, a security technology base ticket sending interface, a network distribution operation ticket sending interface, a barrier report sending interface, a device account checking interface, a device defect checking interface, a device inspection recording interface, a tool and appliance receiving interface, a data uploading interface and a shift switching synchronous interface.
Data operation system interaction: basic data services with marketing domains and production domains are realized through interaction with an implementation data interface of a data operation system (data center). Basic data such as a marketing-related client file, a metering point file, an ammeter asset file, a power grid file, a station line-to-customer relationship, a client contact way and the like are included; production-related production system planning power outage information, medium-voltage fault power outage information, equipment account data, rush repair work order history, tripping information of a 10kV outgoing switch of a substation of a master network OCS system, tripping information of a switch of a distribution network OMS system, tripping information of a 10kV line distribution network automation switch of a distribution network OCS system and the like; the metering system is configured with TTU, partial household meter current, voltage and power failure information, and supports the display of work tasks and the application of data statistical analysis.
Marketing management system interactions: and acquiring customer service fault report work order data, and supporting the data analysis application of the power failure event acquisition and quick repair plate.
GIS system interaction: the offline GIS map data synchronization interface is used for supporting power failure and emergency repair graphic display and offline data updating and synchronization. The real-time GIS map service supports the services of a feeder diagram, a layout, equipment position inquiry, equipment account inquiry and the like, and supports the development of relevant business of distribution network patrol.
Workstation interaction: after the fault processing is completed, the quick repair processing result, the distribution network inspection result, the work order link, the tool receiving and returning condition are transmitted back to the workbench system, so that the closed-loop management of the workbench on the comprehensive service is supported.
Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the present invention, which is intended to be covered by the claims of the present invention.

Claims (10)

1. The utility model provides a digital instrument system of electric power basic unit on-spot rush repair which characterized in that: the system comprises:
And the rapid rush repair management module: the method realizes the fusion of asset planning power failure, marketing customer service fault reporting and distribution network power failure data, supports the active notification of a power failure event and the whole-process processing of a cross system, comprises fault information, arrival scene, fault positioning, fault restoration, fault re-electricity information reporting and process transfer, and supports the optimization, merging and splitting of fault reporting and repair work orders;
and the data comprehensive application module is used for: the statistics of the designed management data of the repair business rush-repair process is realized, wherein the statistics of the management indexes such as work order signing, departure, arrival, positioning, processing time length and the like is realized; carrying out data statistics in multiple dimensions, supporting various display forms such as a list, a graph and the like, supporting multi-scene report business, carrying out global display on faults and the progress of rush repair by using a map technology, and displaying the geographical distribution of fault reporting work orders and rush repair personnel; the time-consuming data statistics of each node is supported, and the index statistics of fault processing closed-loop rate, rush repair time rate and the like are supported;
the material management module: establishing tools related to material and equipment inquiry, supporting material demand filling of a power distribution station and a power supply station, receiving material subsystem, acquiring material classification and variety and specification parameter information, supporting a rapid retrieval function of material stock state, matching stock according to material demand, and performing preliminary research and judgment on material supply time; and the whole flow control of the material demands is realized, and the material demand filling, inventory matching, material distribution, demand analysis and suggestion scene application are supported.
2. The power base unit on-site rush repair digital chemical industry system according to claim 1, wherein: the quick rush repair management module comprises:
and the power failure event management sub-module: through the comprehensive analysis application of more than one system data information, a distribution network power failure model is constructed, the data mapping of a switch model and a line model is realized, so that the study and judgment of power failure information are supported, the fault power failure, planned power failure and emergency defect power failure information are displayed in a power failure pool, and the client influence range of relevant time is displayed in a correlated mode;
and a rush repair process management sub-module: supporting the judgment of the dispatching personnel on the power failure event by using the measurement data, and realizing the whole flow control on the newly generated power failure event information system processing record rush repair process, wherein the whole flow control comprises the processing of the whole link of a fault work order and a matched work order arrival message reminding mechanism; the method supports the prompt and combination of repeated-guarantee power failure events, supports the combination and splitting of the fault reporting information according to the power failure time, the fault reporting address, the geographic position and the system station line-to-user relationship data, and supports a matched message reminding mechanism with flexible configuration; in the work order processing process, the support of field operation is required to be positioned and punched in a rapid manner, a personal operation habit template configuration function is provided, and the operation input content of the field operation is simplified; establishing a network detection function, sensing the network state of the field tool in real time, and supporting local caching to record field data; support document, photo, and video material attachments; providing a work order overtime early warning mechanism, and supporting work order signing, calculating and displaying the residual time of arriving at the site and a power failure simulation link; supporting the repartition and rollback of the fault worksheet;
And the fault comprehensive management sub-module: real-time household variable data of the integrated marketing system, simulation data of a marketing and distribution data center and produced transformer data are realized, the power outage influence range is comprehensively displayed in a management background, and in-place conditions, fault position distribution and fault events of on-site personnel are tracked and displayed in real time on a map;
and the rush repair support submodule: the construction of a supporting sleeve of the resource relied in the rush-repair process supports a reminding mechanism of a fault work order, supports the rapid checking of the fault work order and fault equipment, and establishes a universal navigation positioning function for an object with coordinates; the method supports the display of the contact modes of related rush-repair teams and resident personnel, supports the inspection and the check of a multiple-electricity case library, supports the quick retrieval of a historical work order, and supports the quick analysis of fault solution problems by field personnel.
3. The power base unit on-site rush repair digital chemical industry system according to claim 2, wherein: the power outage event management submodule includes:
a switch trip event: the tripping switch information of the access distribution network OMS is displayed on the quick rush repair plate, and clear checking information is recorded;
data mapping function: establishing a mapping between an OCS in-station switch model and a GIS medium voltage line model, and establishing in-station and out-of-station association; realizing the data mapping of an OCS (online switching system) switching model of the distribution network, establishing the mapping of an OCS system switching model of the distribution network and a GIS medium voltage line model, and establishing the association of switching real-time data and GIS;
And (3) displaying a power failure event: displaying the work order information according to the province, the region and the county, and simultaneously clearly displaying the name of the county level to the first level from the work order list information;
and (3) power failure simulation: aiming at medium-voltage faults, under the condition of defining line information or switching information, power failure simulation is carried out after dispatching, and an influence range and an influence user information update and release power failure influence range are simulated;
and (3) judging a power failure information pool: summarizing all power outage information of a user to a power outage, establishing a user power outage information base to support comprehensive inquiry of the power outage information of the user through user numbers, user names, telephones and the like, and filtering repeated fault reporting of the client; after the data of the station area which is not influenced by the known medium-voltage power failure event is determined through the data filtering of the known power failure pool, the service scheduling selects and calls the station area to inquire the power failure state and the current and voltage functions in real time, and determines whether the current station area is on the power failure side or not and determines the power failure voltage side; judging that the failure report lists belonging to the failure and the subsequent station areas are all prompt to be combined, and after service scheduling agrees to be combined, the failure report lists are not dispatched;
distribution network power failure analysis model: accessing the power outage related data of a dispatching domain, a marketing domain and a production domain from a data operation system, and constructing a distribution network power outage analysis unified model based on a GIS system, a production system and a marketing system; constructing a collected data outage analysis model based on a master network OCS system, a distribution network OCS system and a metering automation system; constructing a business data outage analysis model based on a marketing system, a production system and a quick power restoration system; constructing a outage verification model based on a distribution network outage analysis unified model, a collected data outage analysis model and a business data outage analysis model;
Medium voltage fault recovery monitoring: the line dependence is inquired through the line id of the medium-voltage fault information, and the medium-voltage fault information is displayed according to the power supply station in the power restoration monitoring.
4. The power base unit on-site rush repair digital chemical industry system according to claim 2, wherein: the rush repair process management submodule comprises:
and (3) fault report merging and splitting: if all the reported barrier addresses are concentrated in a square 1 km area within 30 minutes, the reported barrier addresses are regarded as the same reported barrier; the duplicate monitoring background matches the fault report work order information which is sent to the regional office urgent repair team once and is not generated with the fault report work order information of the battery in the duplicate monitoring background according to the fault report information of the client, including the client number, the client name and the address, and the duplicate monitoring background automatically combines the fault report work order with the work order which is sent to the regional office urgent repair team before in the matched condition; for the suspected matching possible but not determinable, displaying the suspected matching worksheets to a service dispatcher, and manually confirming whether merging is carried out or not by the service dispatcher; for the totally uncombined work orders sent by the service dispatcher to the regional office urgent repair team; if the power failure time difference is within 30 minutes, judging that the power failure addresses are similar and belong to the same report obstacle merging; if the power failure time difference is within 30 minutes, the new power failure address and the address of the fault report work order which is being processed by the emergency repair team of the district office are judged to belong to the same fault report and are combined if the power failure time difference is the same as one distribution transformer; after the fault report worksheets are combined into the same fault report worksheets, the combined fault report worksheets can be split when different fault reports are confirmed subsequently;
Work order reminding: the system regularly reminds operators by presetting arrival scene and planned power restoration time parameter values; regularly judging the position of the emergency repair personnel and the residual vehicle running time of the emergency repair point, automatically reminding if the position exceeds the planned arrival time, and not reminding in the field operation process that the arrival end distance shows a decreasing trend;
automatic positioning and sign-in: setting parameters of a preset distance range, taking the geographical position of the fault reporting as a center, automatically positioning and signing in when the geographical position of the rush-repair personnel enters the arrival distance range, recording positioning time, changing the work order state, and returning arrival site time and position information;
and (3) fault work order processing: dividing the rush-repair flow into five nodes including fault information, arrival scene, fault positioning, fault repairing and fault re-electrifying, clicking a radio button on a group to-be-handled page to inquire a work order conforming to the node, and realizing a work order merging function on the group to-be-handled page; displaying a list of to-be-received, processed and processed work orders, and distinguishing whether overtime and processed or not by using different colors and icons; sequencing according to time and emergency degree; the signing operation tool for the work orders is supported to sign and return the fault work orders; support merging with existing faulty work orders; the fault report work order and the emergency repair work order are supported to be forwarded and pushed, and the low-voltage discovery is that the medium-voltage fault can be converted into emergency repair; the small video shooting, recording and re-uploading functions are supported; the method has the advantages that the function of scanning codes and identifying objects is supported, the effective information of nameplates and bar codes of equipment is scanned, the multi-thread simultaneously triggers the multi-type equipment searching function, the equipment is rapidly searched, and the details of fault reporting and emergency repair work orders are displayed according to different formats;
Fault dispatch and rollback: if the work order is definitely not the repair work order of the power supply station in the positioning link, the operator transfers the work order to the tool; supporting 95598 to send work orders by mistake and then returning the work orders to a distribution and robbery center of a local city by a rush repair staff;
calculating the residual time: the residual time display function is added, the calculation of the residual processing time of signing, arrival, power failure simulation and closed loop calculation is supported, and the residual processing time is displayed on a fault list tracking page;
uploading the rush repair photo: the rush-repair personnel upload the field pictures to the platform server side under the condition of network through photographing, and 95598 customer service and city customer service scheduling can be checked, so that information sharing is realized.
5. The power base unit on-site rush repair digital chemical industry system according to claim 2, wherein: the fault integrated management submodule comprises:
and (3) fault display: the fault positions are distributed on a map to display all overall faults, and fault events are displayed on the map according to the emergency repair progress and the fault reporting time; notifying a rush repair person to open a field video, and checking the field condition by a manager in the process of re-electricity monitoring; searching keywords in all fields of a fault event according to screening of fault failure reporting time, screening according to a region to which the fault belongs or screening according to a current state of the fault, displaying detailed failure reporting information, displaying detailed rush repair detail information, and displaying field photos before rush repair and after rush repair;
Personnel monitoring and displaying: counting personnel in-place situation to display personnel details; prompting reminding when the person arrives for 30, 60 and 90 minutes respectively; screening according to units to which the personnel belong and screening according to the current states of the personnel, and displaying the distribution condition of the emergency repair personnel in all states; searching keywords in all fields of the managed personnel, displaying basic information of the personnel and displaying the fault condition which is being processed by the current personnel;
and (3) fault list monitoring: supporting refreshing and inquiring operations, and reserving updating fault list inquiring result data under screening conditions when clicking inquiring;
impact range analysis: the power outage influence range is comprehensively displayed in the management background through real-time household variable data of the integrated marketing system, simulation data of the marketing data center and produced transformer data.
6. The power base unit on-site rush repair digital chemical industry system according to claim 2, wherein: the rush repair support submodule comprises:
and (3) reminding a fault work order: the coordinated production and marketing system reforms a business process interface to realize the real-time reminding function of a new failure report work order, and after the failure report work order generated by the business system is transmitted to a designated link, the business system sends a message to a rush-repair team to remind and display the time, place and failure phenomenon summary information related to the failure; the message form comprises characters and sounds, and different work order reminding contents and sounds are configured in a distinguishing mode;
And (5) checking the fault worksheet at a high speed: the voice input convenient operation is supported, the fault work order quick detection operation is provided, and the fault address, the fault description, the fault time and the basic information of the processing team are searched at a high speed;
and (5) equipment retrieval: providing equipment display near the current position, providing equipment inquiry under the permission area, checking relevant information of equipment, including basic parameters, pictures and information related to geography and operation, checking inquiry along layout and wiring diagrams, equipment information, providing feeder diagram inquiry function within the urgent work repair permission range, and enabling all objects with coordinates to support positioning and navigation functions on a map;
and (5) an emergency repair assistant: the intelligent monitoring system comprises a related address book, a quick-response case library, an obstacle report work order intelligent search and use help, supports the state and position information of nearby rush repair personnel, supports a voice prompt safety operation rule, and supports the tool prompt of a collecting site when a flow work order is finished;
personal rush repair inquiry: the method comprises the steps of inquiring signed work orders, inquiring returned work orders, inquiring finished work orders, reporting fault work orders and searching emergency repair work orders.
7. The power base unit on-site rush repair digital chemical industry system according to claim 1, wherein: the data comprehensive application module comprises:
And (3) complex electricity business statistics: the management data related to the repair process of the power restoration service is counted, and the statistics of the management indexes including work order signing, departure, arrival, positioning and processing time length are realized; the method comprises complex electricity index statistics, multidimensional statistics, event backtracking and statistical analysis;
personnel track tracking: personnel track tracking and track playback of each work order in the monitoring field operation tool support track display according to time period and fault track display processing;
rush repair panorama: displaying a panoramic distribution diagram of fault events and rush repair personnel on a map according to a time dimension, wherein the panoramic distribution diagram comprises fault event screening, rush repair personnel screening and track display;
rush repair map: displaying the geographical distribution of the fault report worksheets and the emergency repair personnel in a map dotting mode, and providing a classification display function;
and (5) rush repair statistics: displaying standing point basic information and pictures, displaying standing point videos through an interface, displaying the working state and the position of a subordinate person of the current standing point by using different colors, displaying the fault record processed by the person, and counting standing point work orders;
time-consuming calculation of the link node: displaying time-consuming real-time calculation data of each node of work order signing, rush repair arriving at site, fault positioning, fault isolation, fault repair and power transmission recovery;
And (5) rush repair time rate statistics: and counting indexes of the fault processing closed-loop rate and the rush repair time rate.
8. The power base unit on-site rush repair digital chemical industry system according to claim 1, wherein: the material management module comprises:
and (3) material demand filling: the method comprises the steps that a material subsystem is used for acquiring material classification, variety and specification parameter information, a basic group staff judges a required material demand list according to fault equipment information in the rush repair process, a material demand list is newly added in material demand filling, material demand filling of a distribution substation and a power supply substation is supported, and the system reports the material demand list to an emergency packet management department;
demand inventory matching: according to the reported material demands, carrying out demand and inventory matching, and synchronously displaying and informing the current inventory condition to demand reporting personnel according to the matching results, so as to support preliminary study and judgment of material supply time; the matching result shows and informs warehouse management personnel of the current inventory shortage condition so as to prompt the completion of allocation, scheduling and application of the missing equipment;
and (3) material distribution: when the equipment needs warehouse or first-aid kit personnel to deliver, the related personnel register delivery records according to actual delivery needs;
And (3) material demand analysis: carrying out statistical analysis on data according to material filling in the last half year, carrying out association analysis on the required quantity and fault reasons of various devices by a material declaration unit, finally forming association analysis on fault phenomena and material requirements, analyzing the fault rate of model devices according to the fault frequency of the devices, and summarizing analysis results to guide a material purchasing department to complete replenishment of missing stock and purchasing of new devices so as to realize analysis on the distribution quantity of basic material types;
material purchase advice: according to the analysis result of the material demand and the current stock condition, a system gives a proposal purchasing list; and obtaining actual gap supplies after the use units at all levels are integrally matched with the unit stock according to the basic level actual demands, and forming a supply purchasing demand list and purchasing suggestions.
9. The power base unit on-site rush repair digital chemical industry system according to claim 1, wherein: the system also comprises an application interaction module which realizes application interaction by acquiring service data of the asset management system, the data operation system, the marketing management system, the GIS system and the workbench.
10. The power base unit on-site rush repair digital chemical industry system according to claim 9, wherein: the application interaction module comprises:
Asset management system interactions: the work order process interface is utilized to support work order dispatching of the quick repair task, and the fault dispatching function is applied and comprises a power outage application issuing interface, a power outage year planning issuing interface, a power outage month planning issuing interface, a low-voltage power distribution network work order sending interface, a safety technology base order sending interface, a network distribution operation order sending interface, a barrier report sending interface, a device account inquiry interface, a device defect inquiry interface, a device inspection recording interface, a tool receiving interface, a data uploading interface and a shift-switching synchronous interface;
data operation system interaction: basic data service of a marketing domain and a production domain is realized through interaction with a data interface of a data operation system; the system comprises a marketing-related client file, a metering point file, an ammeter asset file, a power grid file, a station line-to-customer relationship and a client contact way; production-related production system planning power outage information, medium-voltage fault power outage information, equipment account data, rush repair work order history, tripping information of a 10kV outgoing switch of a substation of a master network OCS system, tripping information of a switch of a distribution network OMS system and tripping information data of a 10kV line distribution network automation switch of a distribution network OCS system; the metering system is configured with a TTU, partial household meter current, voltage and power failure information, and supports the display of work tasks and the application of data statistical analysis;
Marketing management system interactions: acquiring customer service barrier report work order data, and supporting power failure event acquisition and data analysis application of a quick rush repair plate;
GIS system interaction: the offline GIS map data synchronization interface is used for supporting power failure and emergency repair graphic display and updating and synchronizing offline data; real-time GIS map service is realized, feeder diagram, layout, equipment position inquiry and equipment ledger inquiry service are supported, and distribution network patrol related service development is supported;
workstation interaction: after the fault processing is completed, the quick repair processing result, the distribution network inspection result, the work order link, the work tool receiving and returning condition are transmitted back to the workbench system, so that the closed-loop management of the workbench on the comprehensive service is supported.
CN202310484085.4A 2023-04-28 2023-04-28 Digital tool system and method for on-site rush repair of power base unit Pending CN116503021A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN117639280B (en) * 2024-01-25 2024-04-12 国网四川省电力公司天府新区供电公司 Cloud computing-based intelligent power grid fault monitoring system
CN118710255A (en) * 2024-08-27 2024-09-27 国网山东省电力公司无棣县供电公司 Power failure management method, system, terminal and storage medium

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN117639280B (en) * 2024-01-25 2024-04-12 国网四川省电力公司天府新区供电公司 Cloud computing-based intelligent power grid fault monitoring system
CN118710255A (en) * 2024-08-27 2024-09-27 国网山东省电力公司无棣县供电公司 Power failure management method, system, terminal and storage medium

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