CN115641070A - Multi-level multi-department linkage handling method and deduction device for power grid emergency - Google Patents

Abstract

The invention discloses a multi-level multi-department linkage handling method and a deduction device for a power grid emergency, wherein the method comprises the following steps: acquiring emergency early warning information, matching the emergency early warning information with a power grid disaster accident emergency plan, and establishing an early warning template according to a matching result; obtaining an early warning response instruction according to the early warning template, and determining an action task plan according to the early warning response instruction; acquiring an emergency response instruction according to the adjustment of the early warning template, and executing a corresponding action task plan according to the emergency response instruction to obtain an instruction execution result; and obtaining a feedback result of the emergency response instruction according to the instruction execution result, and performing emergency disposal evaluation according to the feedback result to obtain an evaluation result. The invention mainly aims at the problem of incomplete multi-level and multi-department linkage mechanism in the existing power grid disaster accident disposal scheme, and researches multi-level and multi-department cooperative linkage disposal in the aspects of power dispatching, fault treatment, public opinion guidance and the like under an emergency.

Description

Multi-level multi-department linkage handling method and deduction device for power grid emergency

Technical Field

The invention relates to the technical field of power grid disaster accident disposal, in particular to a multilevel multi-door linkage disposal method and a deduction device for a power grid emergency.

Background

The research on power grid disaster accident disposal comprises specific processes such as monitoring and early warning technology, risk assessment method, emergency response mechanism and emergency plan management, and related disaster accident types mainly comprise natural disasters, power system faults and large-area power failure events. Aiming at the disaster accidents, reasonable and feasible emergency disposal schemes are basically formed by provincial and municipal power companies, and information communication mechanisms of superior and subordinate departments and territorial management departments are established.

The existing power grid accident emergency handling process generally only relates to linkage of two levels, most of the existing power grid disaster accident emergency linkage handling schemes only aim at monitoring, early warning and risk assessment of natural disasters such as typhoons, earthquakes, mountain fires and the like, and emergency handling of power system faults and large-area power failure events, and risk identification, monitoring, early warning and early handling of other emergency events such as accident disasters, social security and the like are not considered. At present, the problems of unsmooth multi-department information interaction, untimely emergency response and the like still exist in the power grid disaster accident emergency linkage disposal, and a comprehensive and convenient all-process emergency linkage disposal method with unified leadership, consistent authority and responsibility under various disaster accident scenes is urgently to be proposed.

Disclosure of Invention

The present invention is directed to solving, at least to some extent, one of the technical problems in the related art.

Therefore, the invention aims to provide a multi-level and multi-department linkage handling method for power grid emergencies, and provides a power grid risk fault identification method under four types of emergencies, namely natural disasters, accident disasters, social security and public health aiming at the problem that a multi-level and multi-department linkage mechanism in the existing power grid disaster accident handling scheme is incomplete; constructing a power system monitoring, early warning and coordinated scheduling mechanism under various disaster accident scenes; and establishing an emergency coordination processing flow of the power grid disaster accident in multiple levels and multiple departments.

The invention also aims to provide a multi-level multi-department linkage deduction device for the power grid emergency.

In order to achieve the above object, the present invention provides a multi-level and multi-department linkage handling method for grid emergency, including:

acquiring emergency early warning information, matching the emergency early warning information with a power grid disaster accident emergency plan, and establishing an early warning template according to a matching result;

obtaining an early warning response instruction according to the early warning template, and determining an action task plan according to the early warning response instruction;

acquiring an emergency response instruction according to the adjustment of the early warning template, and executing a corresponding action task plan according to the emergency response instruction to obtain an instruction execution result;

and obtaining a feedback result of the emergency response instruction according to the instruction execution result, and performing emergency treatment evaluation according to the feedback result to obtain an evaluation result.

In order to achieve the above object, another aspect of the present invention provides a multi-level multi-department linkage deduction device for grid emergency, including:

the information acquisition module is used for acquiring the early warning information of the emergency;

the information matching module is used for matching the emergency early warning information with the power grid disaster accident emergency plan and establishing an early warning template according to a matching result;

the early warning response module is used for obtaining an early warning response instruction according to the early warning template, determining an action task plan according to the early warning response instruction, obtaining an emergency response instruction according to the adjustment of the early warning template, and executing a corresponding action task plan according to the emergency response instruction to obtain an instruction execution result;

and the feedback evaluation module is used for obtaining a feedback result of the emergency response instruction according to the instruction execution result and carrying out emergency disposal evaluation according to the feedback result to obtain an evaluation result.

The invention provides a multi-level multi-department linkage handling method and a deduction device for power grid emergencies, and provides a power grid risk fault identification method under four types of emergencies, namely natural disasters, accident disasters, social security and public health, aiming at the problem that a multi-level and multi-department linkage mechanism in the conventional power grid disaster accident handling scheme is incomplete; constructing a power system monitoring, early warning and coordinated scheduling mechanism under various disaster accident scenes; and establishing a multi-level and multi-department emergency cooperative disposal flow of the power grid disaster accident.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a flowchart of a multi-level multi-department linkage handling method for a grid emergency according to an embodiment of the present invention;

fig. 2 is a power grid disaster accident emergency plan architecture diagram according to an embodiment of the present invention;

fig. 3 is a diagram of a power grid disaster accident emergency organization architecture according to an embodiment of the present invention;

FIG. 4 is a simplified diagram of a grid emergency handling process according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a multi-level multi-department linkage deduction device for a grid emergency according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a first multi-level multi-door linkage deduction according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of a second multi-level multi-door linkage deduction according to an embodiment of the present invention;

FIG. 8 is a schematic diagram of a third multi-level multi-door linkage deduction according to the embodiment of the present invention;

FIG. 9 is a diagram illustrating a fourth multi-level multi-door linkage derivation according to an embodiment of the present invention;

fig. 10 is a schematic diagram illustrating a fifth multi-level multi-door linkage deduction according to an embodiment of the present invention.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The following describes a multi-level and multi-department linkage handling method and a deduction device for a grid emergency according to an embodiment of the present invention with reference to the drawings.

Fig. 1 is a flowchart of a multi-level multi-department linkage handling method for a grid emergency according to an embodiment of the present invention.

As shown in fig. 1, the method includes, but is not limited to, the steps of:

s1, acquiring emergency early warning information, matching the emergency early warning information with a power grid disaster accident emergency plan, and establishing an early warning template according to a matching result;

s2, obtaining an early warning response instruction according to the early warning template, and determining an action task plan according to the early warning response instruction;

s3, acquiring an emergency response instruction according to the adjustment of the early warning template, and executing a corresponding action task plan according to the emergency response instruction to obtain an instruction execution result;

and S4, obtaining a feedback result of the emergency response instruction according to the instruction execution result, and performing emergency treatment evaluation according to the feedback result to obtain an evaluation result.

As an example, the warning response instruction includes a warning response instruction for outputting power transformation, power transmission and power distribution specialties, and the method further includes:

issuing a first emergency on-duty instruction according to the power transformation professional early warning response instruction, and obtaining a first instruction execution result according to the first emergency on-duty instruction;

issuing a second emergency on duty instruction according to the power transmission professional early warning response instruction, and obtaining a second instruction execution result according to the second emergency on duty instruction;

and issuing a third emergency on-duty instruction according to the power distribution professional early warning response instruction, and obtaining a third instruction execution result according to the third emergency on-duty instruction.

As an example, the warning response instruction further includes a customer service warning response instruction, and the method further includes:

obtaining a first preparation early warning response instruction according to the customer service early warning response instruction, and obtaining a fourth instruction execution result according to the first preparation early warning response instruction;

obtaining an emergency on duty instruction according to the customer service early warning response instruction, and obtaining a fifth instruction execution result according to the emergency on duty instruction;

and obtaining a second preparation early warning response instruction according to the customer service early warning response instruction, and obtaining a sixth instruction execution result according to the second preparation early warning response instruction.

As an example, the forewarning response instruction further includes a logistics forewarning response instruction, and the method further includes:

obtaining a real estate hidden danger troubleshooting instruction according to the logistics early warning response instruction, and obtaining a seventh instruction execution result according to the real estate hidden danger troubleshooting instruction;

obtaining a logistics service instruction according to the logistics early warning response instruction, and obtaining an eighth instruction execution result according to the logistics service instruction;

obtaining a vehicle safety inspection instruction according to the logistics early warning response instruction, and obtaining a ninth instruction execution result according to the vehicle safety inspection instruction;

and obtaining an issued project construction instruction according to the logistics early warning response instruction, and obtaining a tenth instruction execution result according to the project construction instruction.

As an example, the warning response instruction further includes a large-scale first-aid repair warning instruction, and the method further includes:

acquiring emergency repair demand instructions of different early warning levels according to the large-scale emergency repair early warning instruction, and acquiring an eleventh instruction execution result according to the emergency repair demand instructions of different early warning levels;

obtaining a safety supervision instruction according to the large-scale first-aid repair early warning instruction, and obtaining a twelfth instruction execution result according to the safety supervision instruction;

obtaining a logistics early warning response instruction according to the large-scale first-aid repair early warning instruction, and obtaining a thirteenth instruction execution result according to the logistics early warning response instruction;

obtaining a logistics support instruction according to the large-scale first-aid repair early warning instruction, and obtaining a fourteenth instruction execution result according to the logistics support instruction

The multi-level multi-department linkage handling method for the power grid emergency according to the embodiment of the invention is explained in detail below with reference to the accompanying drawings.

As an example, the emergency plan system of the national grid company is set according to three levels, namely a general plan, a special plan and a field disposal plan, as shown in FIG. 2. The general plan and the special plan are arranged on the level of the general company and the network province company, and the general plan, the special plan and the field disposal plan are arranged on the level of the city, county power supply company and other units. The special plans comprise natural disaster emergency plans such as typhoon disaster emergency plans, thunder and lightning disaster emergency plans, earthquake and geological disaster emergency plans, forest and grassland fire emergency plans, rain, snow and ice freezing disaster emergency plans and safety production accident emergency plans, and secondary disaster accident emergency plans caused by social security events and public health events, such as large-area power failure events, equipment and facility damage events, communication system emergency events, electric power service events, important power protection events, personal casualty events, public opinion events and other emergency plans.

Aiming at the characteristics of diversity, multiple occurrence, severity and the like presented by an emergency, the aim of setting the targets of transverse to side, longitudinal to bottom, up-down correspondence and inside-outside connection in a plan is required to be realized. The emergency plan should define the emergency command organization, stipulate the relevant requirements of monitoring pre-alarm, response starting, disposal measures, safeguard measures and the like, and put forward a plan management method. The monitoring and early warning comprises risk monitoring, early warning grading, early warning issuing and the like, and the response measures comprise equipment first-aid repair, scheduling treatment, electric power support, coordination linkage, public opinion guidance, secondary disaster defense and the like.

Further, as shown in fig. 3, the emergency organization architecture of the grid emergency event is that a company sets an emergency leader group for emergency incidents, and uniformly organizes the prevention and the corresponding work of the emergency disasters; aiming at the specific emergent events, an emergency command department is established and is particularly responsible for commanding and coordinating the handling work of the specific emergent disaster events. The emergency leader group of the emergency consists of main responsible persons of all departments (centers) such as a company office, a development planning department, a financial asset department, a safety supervision department, an operation and maintenance overhaul department, an marketing department, a construction department, a material department, an interconnection office, a power dispatching control center, a comprehensive service center and the like.

Specifically, the emergent disaster leader group has main responsibilities: (1) The law, regulation and method of the company related to the work of preventing the disaster accident are implemented, and the implementation of each company unit is supervised. (2) The command and the indication of superior mechanisms and companies are timely transmitted, and the safety precaution work is comprehensively organized. (3) An emergency organization system of the health company is established, emergency response plans of the company are organized and formulated or revised, disaster accident prevention and control emergency work responsibilities of all departments of the company are implemented, and the major problems in emergency work are solved. (4) The system is responsible for daily management work of company disaster accident prevention and timely reporting related information. The disaster accident prevention work of the company and the affiliated units is managed, supervised, checked and examined. (5) The system is responsible for emergency management work under the emergency of a company, issuing disaster early warning and response information in time, and organizing the disaster rescue and relief work of the company and each unit to which the company belongs.

After a disaster event occurs, the incident unit establishes an on-site command department according to the situation, the main command is taken by a main responsible person of the incident unit, the subsidiary command is taken by a branch management leader of the incident unit, and the members comprise a responsible person of related units, a related person of superior units, an emergency expert, a responsible person of emergency teams and the like. The general command is responsible for the command work of the field organization, and the butt joint of the field command mechanism is well done. The company sends out the work group according to the situation to be deployed with the on-site command department, and guides the on-site command department to carry out the coping work in a coordinated manner. The field command department obeys the unified command of the emergency command department of the company emergencies and is particularly responsible for organizing and implementing the field emergency disposal work. The emergency command department is provided with a comprehensive coordination group, a power grid regulation and control group, an emergency repair recovery group, a power supply service group, a public opinion disposal group, a technical support group, a logistics support group and other work groups, and is particularly responsible for professional disposal work.

And (3) comprehensive coordination group: coordinating each working group to carry out emergency disposal work; the system is responsible for communicating accident handling progress conditions to each working group; timely allocating emergency power cars and allocating and transporting emergency materials according to accident conditions; is responsible for supervising and urging each unit to make field safety management; the system is responsible for information collection, reporting and report continuing work in the disaster event handling process; accident investigation is completed according to relevant regulations, etc.

A power grid regulation and control group: the system is responsible for adjusting the operation mode of the power grid; and the system is responsible for reporting the condition of power grid emergency disposal and statistical analysis of related regulation and control information to the command department.

Rush-repair recovery group: the system is responsible for the organization and coordination work of site emergency and repair work; understanding and mastering the condition and the processing progress of the emergency, collecting and counting the damage and repair information of the field equipment, and reporting the information to a command department in time.

Power supply service group: the system is responsible for reporting the emergency situation to important users and timely knowing the loss and influence of the emergency on the important users; supervising important users to implement emergency precautionary measures; the priority and order scheme of important users in the emergency recovery stage is determined, loss information and recovery information of the power load and the electric quantity are collected and counted, and the important power supply recovery condition is reported to a command department in time.

Group is dealt with to public opinion: collecting related information of disaster events in time, and sorting and organizing news report manuscripts; drawing up a news publishing scheme and publishing contents to be responsible for news publishing work; a reception, organization and management media reporter makes an interview; and is responsible for internal and external publicity work during the handling of the emergency.

The technical support group comprises: the emergency command center is responsible for professional technical support such as information communication and the like; and the system is responsible for technical support of various emergency command system platforms in the emergency command center.

Logistics support group: the logistics support of personnel in and out, food and lodging, medical health, meeting affairs and the like is responsible.

As an example, the overall emergency disposal process of the power grid disaster accident is researched by combining main disaster characteristics faced by the power grid system and facing emergency disposal processes of different levels of departments such as countries, provinces and cities, as shown in fig. 4. The emergency handling process of the power grid emergency event comprises daily monitoring, disaster research and judgment early warning, early warning release, related preparation work (mainly comprising power transmission and transformation and other related professional defense and emergency repair personnel material preparation), early warning adjustment and termination, emergency response release, response action development (mainly comprising an establishment command mechanism, professional emergency repair, team material supply, logistics support and public opinion handling), response adjustment and termination, and summary evaluation.

Specifically, daily risk monitoring: reporting emergency early warning information issued or forwarded by related departments and national network headquarters; reporting the early warning and influence information of the emergency reported by the basic unit.

Studying, judging and early warning: and defining trigger conditions and early warning suggestion contents of various early warning corresponding levels, defining early warning information gathering, consultation research and judgment, audit approval, information release, external reporting flow and division of labor, and establishing early warning templates according to categories.

Early warning action: and starting an emergency command center and providing work required to be carried out by a lead department. And (4) carrying out emergency duty, determining participation range and work to be carried out, and indicating time limit, content and channel for summarizing the early warning action information.

And (4) early warning the action consultation, and defining the head-up department, the meeting agenda and the meeting participation range of the early warning action consultation. And (3) special patrol and special maintenance of the reinforced equipment: and defining special inspection, protection and hidden danger troubleshooting task measures of power transmission, transformation and distribution equipment. Preparing for emergency repair, and providing requirements for emergency repair teams, materials, vehicle resources and integration of the power grid. The method has the advantages that the power grid operation monitoring is enhanced, the operation mode is reasonably adjusted, the requirements of task measures such as the preparation of abnormal condition disposal, the definition of an overhaul plan, the mode adjustment, the accident prediction, the duty preparation, the monitoring equipment inspection and the like are met. Communication guarantee and motor emergency communication system starting preparation are made, emergency communication guarantee task measures such as satellite communication, cluster phones and emergency communication vehicles are determined, and requirements for rush-repair teams, materials and vehicle resources and integration of communication equipment are met. Strengthen the communication with the superior and inferior units, and clear the task measures of the butt joint and the administrative duty work requirements.

The method has the advantages that the high-quality service and emergency power supply preparation of the customers are made, the power failure risk is informed to the users, and the power supply task of the important customers is guaranteed. Preparing logistics support and preparing small-sized infrastructure shutdown risk avoidance, and providing the measures of catering, accommodation, vehicles and medical support tasks for emergency personnel; and (3) preparing measures for flood control and waterlogging prevention in office areas and shutdown and risk avoidance requirements of small-sized capital construction sites are determined. The method comprises the steps of preparing for shutdown danger avoidance of a construction site and support of a construction team, proposing requirements for shutdown danger avoidance of a construction project and measures for waterlogging prevention of the shutdown site, and proposing requirements for assembly support and first-aid repair of the construction team. The news propaganda and public opinion guide work is well done, and task measures such as external propaganda and public opinion monitoring are provided. The organization of the emergency repair site safety supervision force defines the requirements of emergency repair site safety supervision personnel on allocation standards, working procedures, checking and correcting information summary and notification and the like. Setting positions of managers in advance, preparing to establish a field command department, determining configuration standards of commanders and emergency disposal group members of the field command department under different emergency conditions, and determining the position configuration and the responsibility and working requirements of the managers needing to set the positions in advance. Setting emergency resources in advance, and determining the type requirements and the quantity measurement standards of resources such as emergency teams, equipment, materials and the like needing setting in advance under different emergency conditions.

Adjusting and removing early warning: and (4) defining the triggering conditions, adjusting programs and approving procedures of early warning adjustment and removal.

Emergency response: carrying out disaster damage investigation: the method is characterized in that the investigation tasks of transmission, transformation and distribution equipment or lines are determined, the demands of personnel, vehicles and equipment of a survey team are put forward, different organization modes of disaster damage investigation are determined according to different emergency scenes, and the method comprises the following steps: the equipment owner surveys, the rescue team surveys in the rescue area, the support unit rescue team surveys according to the task, and the like.

Making a first-aid repair plan: and (4) defining the principle of emergency repair priority of the power failure equipment and making an emergency repair plan. The influence degree of the power failure equipment on the safety of the power grid, the importance of the power supply object, the number of power supply users, the power failure time sequence, social public opinion, the complaint condition of the users and the like can be comprehensively considered.

And (3) carrying out equipment emergency repair: the emergency maintenance method for the equipment in the power transformation, power transmission and distribution lines, power distribution station rooms, power plants and the like is characterized in that emergency teams, equipment and material types required by emergency maintenance are determined, and the emergency maintenance method is used in different emergency scenes.

Dispatching a customer service emergency team, tracking important users, lifeline users and the power restoration progress situation of large and medium-sized communities, making user soothing, allocating metering equipment and matching with the power restoration guarantee of users. And according to the power failure condition of the user, an emergency repair group is recommended to reasonably adjust an equipment repair plan. And task measure requirements of scheduling staffs at all levels such as standby shift, scheduling right transfer, emergency repair and power restoration sequence, unconventional situation handling and the like are determined. The working requirements of safety education before entry of first-aid repair personnel, supervision of key points by field safety supervisors, typical violation notification of the field and the like are determined, and the requirements of the safety supervisors and the configuration requirements of equipment are determined. Based on the calling principle of emergency materials, according to the material requirements reported on the first-aid repair site, the work of material matching, distribution, adoption and the like is carried out, and the material support requirements are provided according to the material storage condition of the unit. And carrying out public opinion monitoring, official public opinion market guidance, folk public opinion market guidance, news publicity, internal publicity, news release meeting and other works. According to public opinion conditions, an emergency repair combination is suggested to adjust equipment repair plan. Catering, accommodation and medical security are well ensured; traffic, water, oil and the like are well guaranteed; and guiding an outsider to support the emergency repair team to make logistics support work. The method has the advantages that catering, accommodation, vehicles and medical support measures of emergency personnel are determined, and the demands of logistics support personnel and logistics vehicles are provided. And audio and video communication guarantee work among all levels of emergency command centers, field command departments and emergency repair fields is well carried out. Emergency communication guarantee emergency repair task measures such as satellite communication, cluster telephone and emergency communication vehicles are determined, and emergency repair team, material, vehicle resource requirements and convergence requirements are put forward according to the actual situation.

Response adjustment and end: according to the situation, the emergency response is adjusted or finished, information reporting channels, response suggestion contents and the like are determined, and the work of response information summarization, consultation research and judgment, audit approval, information release, external report and the like is carried out.

Summary evaluation: after the emergency response is finished, the organization calls for a summary analysis meeting to evaluate the emergency treatment process to form an evaluation report.

The invention provides a multi-level multi-department linkage disposal method for power grid emergencies, which aims at solving the problem that a multi-level multi-department linkage mechanism in the existing power grid disaster accident disposal scheme is incomplete, and provides a power grid risk fault identification method under four types of emergencies, such as natural disasters, accident disasters, social security and public health; constructing a power system monitoring, early warning and coordinated scheduling mechanism under various disaster accident scenes; and establishing a multi-level and multi-department emergency cooperative disposal flow of the power grid disaster accident.

In order to implement the foregoing embodiment, as shown in fig. 4, a multi-level multi-department linkage deduction apparatus 10 for grid emergency is further provided in this embodiment, where the apparatus 10 includes: the system comprises an information acquisition module 100, an information matching module 200, an early warning response module 300 and a feedback evaluation module 400.

An information obtaining module 100, configured to obtain emergency early warning information;

the information matching module 200 is used for matching the emergency early warning information with the power grid disaster accident emergency plan and establishing an early warning template according to a matching result;

the early warning response module 300 is configured to obtain an early warning response instruction according to the early warning template, determine an action task plan according to the early warning response instruction, obtain an emergency response instruction according to adjustment of the early warning template, and execute a corresponding action task plan according to the emergency response instruction to obtain an instruction execution result;

and the feedback evaluation module 400 is configured to obtain a feedback result of the emergency response instruction according to the instruction execution result, and perform emergency disposal evaluation according to the feedback result to obtain an evaluation result.

Further, the early warning response instruction includes output power transformation, transmission of electricity and distribution specialty early warning response instruction, and above-mentioned early warning response module 300 includes: a power transformation module, a power transmission module and a power distribution module,

the power transformation module is used for responding to the power transformation professional early warning response instruction, issuing a first emergency on-duty instruction and executing the first emergency on-duty instruction to obtain a first instruction execution result;

the power transmission module is used for responding to the power transmission professional early warning response instruction, issuing a second emergency on-duty instruction, and executing the second emergency on-duty instruction to obtain a second instruction execution result;

and the power distribution module is used for responding to the power distribution professional early warning response instruction, issuing a third emergency on-duty instruction and executing the third emergency on-duty instruction to obtain a third instruction execution result.

Further, the early warning response instruction further includes a customer service early warning response instruction, and the early warning response module 300 further includes: a power consumption detection module, a safety module and a service management module,

the power utilization detection module is used for responding to the customer service early warning response instruction, issuing a first preparation early warning response instruction, and executing the first preparation early warning response instruction to obtain a fourth instruction execution result;

the safety module is used for responding to the customer service early warning response instruction, issuing an emergency on-duty instruction, and executing the emergency on-duty instruction to obtain a fifth instruction execution result;

and the service management module is used for responding to the customer service early warning response instruction, issuing a second preparation early warning response instruction, and executing the second preparation early warning response instruction to obtain a sixth instruction execution result.

Further, the early warning response instruction further includes a logistics early warning response instruction, and the early warning response module 300 further includes: a house property management module, a logistics service management module, a vehicle management module and a project management module,

the house property management module is used for responding to the logistics early warning response instruction, issuing a house property hidden danger troubleshooting instruction, and executing the house property hidden danger troubleshooting instruction to obtain a seventh instruction execution result;

the logistics service management module is used for responding to the logistics early warning response instruction, issuing a logistics service instruction, and executing the logistics service instruction to obtain an eighth instruction execution result;

the vehicle management module is used for responding to the logistics early warning response instruction, issuing a vehicle safety check instruction, and executing the vehicle safety check instruction to obtain a ninth instruction execution result;

and the project management module is used for responding to the logistics early warning response instruction, issuing a project construction instruction, and executing the project construction instruction to obtain a tenth instruction execution result.

Further, the early warning response instruction further includes a large-scale first-aid repair early warning instruction, and the early warning response module 300 further includes: an equipment scheduling module, a security inspection module, a transportation inspection module and a comprehensive service module,

the equipment scheduling module is used for responding to the large-scale first-aid repair early warning instruction, issuing first-aid repair demand instructions of different early warning levels, and executing the first-aid repair demand instructions of different early warning levels to obtain an eleventh instruction execution result;

the safety inspection module is used for responding to the large-scale first-aid repair early warning instruction, issuing a safety supervision instruction, and executing the safety supervision instruction to obtain a twelfth instruction execution result;

the operation and inspection module is used for responding to the large-scale first-aid repair early warning instruction, issuing a logistics early warning response instruction, and executing the logistics early warning response instruction to obtain a thirteenth instruction execution result;

and the comprehensive service module is used for responding to the large-scale first-aid repair early warning instruction, issuing a logistics support instruction, and executing the logistics support instruction to obtain a fourteenth instruction execution result.

Specifically, the information obtaining module 100 obtains the emergency early warning information issued or forwarded by the relevant department of report and the national network headquarters; and reporting the early warning and influence information reported by the basic level unit. And issuing emergency prompt information, wherein the content mainly comprises disaster accident dynamic and emergency work requirements.

Early warning response: starting a command center: audio and video debugging of a video teleconference system; debugging an emergency command system; and compiling a duty table during the early warning response period. Stage I early warning response: the provincial company manages the safe production leaders to arrive at the emergency command center within 1 hour for watching. 1 person in charge is respectively arranged in emergency handling of provincial companies and special emergency handling of emergency events to an emergency command center for attending in 1 hour. The provincial company marketing part, the material part, the propaganda part, the logistics part and the regulation and control center respectively arrange 1 place to the emergency command center for participating value conservation within 1 hour. And II-stage early warning response: the provincial company emergency office and the special emergency office for the emergency are respectively arranged to enter an emergency command center for participating value keeping within 1 hour from 1 place. The provincial company marketing part, the material part, the propaganda part, the logistics part and the regulation and control center respectively designate 1 contact person, keep smooth communication, and make preparations for information research and judgment and consultation. Grade III early warning response: 1 person in charge is arranged for emergency handling of provincial companies and special emergency handling of emergency events respectively. Stage IV early warning response: 1 appointed contact persons in the provincial company emergency handling and the emergency incident emergency handling keep smooth communication, and preparation for attending emergency guard is made at any time.

The specific tasks are as follows: the daily newspaper on duty during early warning response period is respectively compiled in the morning and at night every day, and the main contents comprise: the method comprises the following steps of (1) dynamically setting emergency, the power grid equipment power failure and recovery condition, the relevant work requirements of superior and company leaders and the early warning response condition of each unit; respectively reporting information once, wherein the main contents comprise: the early warning response arrangement and the event influence the power grid equipment power failure and restoration condition and the development trend information. Meanwhile, the information is reported to departments once respectively, and the main contents comprise: disaster accident situation, power grid equipment power failure and recovery situation, relevant work requirements of superior and company leaders and emergency work development situation. And (4) receiving the early warning response daily reports by contacts of departments such as an emergency command center attendant, a worker-letter hall, a supervision department and the like of the national network company, summarizing and recording.

And issuing an instruction for starting the early warning response emergency meeting, and compiling an early warning response emergency meeting notice. The early warning response emergency meeting negotiation course is as follows: the dynamic state of disaster accidents is reported in emergency, the development condition of defense work is reported by units in possibly-damaged areas, the defense work is distributed according to the specialties by each department, and the safe production leaders of the branch management of provincial companies are distributed.

Task division: emergency department: preparing data such as emergency plans, maps, disaster accident information, power failure and restoration information, emergency basis teams and the like. An equipment part: and preparing ledger data of the power grid equipment, emergency repair team, emergency power generation equipment, large-scale repair equipment and the like. A campsite part: user distribution, important users, list of users related to the residents, list of large and medium-sized cells and other account data preparation. A material part: preparing material warehouse and stock ledger data. A propaganda part: preparing the propaganda and public sentiment data. Logistics department: preparing the machine account data such as logistics materials, vehicles and the like. A regulation center: and preparing data such as power grid wiring, operation modes, emergency communication station accounts and the like.

Further, as shown in fig. 6, an emergency on duty instruction is issued, and the on duty information of the power transformation operation and maintenance center is collected; issuing a special patrol and special care instruction; and issuing an emergency material preparation instruction. Compiling an emergency duty plan for a power transformation operation and maintenance center manager, and organizing and compiling duty plans of operation and maintenance stations; compiling a special patrol and special care plan, eliminating the risk hidden danger of equipment facilities and taking precautionary measures which cannot be immediately rectified; arranging and combing emergency equipment, materials, production spare parts and emergency repair team and equipment, ensuring the orderly development of emergency work, developing safety education and issuing safety risk prompts.

Further, as shown in fig. 7, the customer service specific tasks: and (4) preparing a power utilization inspection team, issuing a power utilization inspection team early warning response instruction, and compiling a campwork part and a team emergency duty list. Safety education before disaster relief and emergency rescue is carried out, and safety risk prompts are issued. And performing emergency guard according to the duty plan. And collecting the electricity utilization inspection team members, and reminding and guiding the customers to do emergency preparation work aiming at the self-management facilities of the customers. And (4) checking the hidden danger of electricity utilization, and informing and asking the customer to sign in writing. And preparing a comprehensive service team and vehicles, issuing a service team early warning response instruction, and executing emergency attendance according to an on-duty plan. And assembling service class components. According to a user list of a lifeline engineering user, important and important guarantee users and large and medium-sized cells, a user priority first-aid repair strategy and a customer pacifying strategy are formulated. And (4) making a typhoon disaster prompt, visiting clients, making work order treatment and return visit preparation. The system can be used for well reminding waterlogging prevention and safety prevention of high-rise buildings, large and medium-sized districts and low-lying districts of power distribution station houses. Aiming at high-risk important customers and relating to civilian users, the communication guidance is enhanced. The power utilization safety protection is well performed for users in public places.

Further, as shown in fig. 8, the logistics are specific: the checking work of the logistics emergency inventory materials is organized, and the preparation of logistics service guarantees such as catering, vehicles, medical services and the like of emergency personnel of the unit is checked. Preparing logistics materials, emergency repair tools and special vehicles, organizing and guiding property to issue safety prompts. The organization can urgently ensure that the vehicle carries out safety inspection, and the good vehicle condition is ensured and can be used at any time; and all drivers are informed of standby for 24 hours, and information such as road traffic, weather conditions, driving safety reminding and the like is dynamically issued to all drivers. And (4) implementing technical improvement, major repair and scattered repair projects of all places such as office dispatching buildings, power supply stations and the like, and stopping construction.

Further, as shown in fig. 9, risk analysis and accident prediction are performed, and a list of devices such as a substation and a power transmission line which need to be specially patrolled and specially maintained is notified to relevant professionals according to an analysis result. And the maintenance arrangement of the main network equipment is further optimized and adjusted, the maintenance plan of the equipment which is not started is delayed, the maintenance which is started strives to complete in advance or stop work to recover the normal mode, and the maintenance which cannot be recovered is well controlled in advance. And re-dividing the dispatching on-duty personnel, starting an emergency on-duty scheme, and informing the emergency dispatcher of standby. At least adding 1 to 2 values of regulating personnel to the post, and regulating background personnel of the department to the foreground for support. And starting the main and standby modulation synchronous watch. And backing up the distribution network electronic wiring diagram and confirming and adjusting the distribution network power failure plan with a transportation and inspection department. Filling out a scheduling right transfer notice, and transferring a single public transformer and 10kV special transformer user (except double multi-power supply and small power supply users) boundary equipment with independent boundary to schedule the jurisdiction to the power distribution operation and maintenance unit. And arranging a dispatching dispatcher to a regional contact station to perform regional contact station organization work. And arranging the power distribution operation and maintenance personnel qualified by the regional contact station dispatcher to serve as the regional contact station dispatcher.

And informing each unit to build and hold up the emergency repair team in advance, and ensuring that the emergency repair team can start within 1 hour after receiving the emergency repair instruction. The major and the quantity of the emergency repair teams dispatched in the cross-region are determined, the emergency repair teams are organized to make an assembly, and the emergency repair teams go to the designated region according to requirements. And informing the team leader of the emergency maintenance team to make the team assembly ready, putting down personnel, materials and equipment, updating team information in the emergency management system in time, and switching the team to a ready state. And (5) appointing security personnel on the team, and making emergency repair safety education. Arranging data such as drawing paper, equipment lists, material lists and the like, and butting the drawing paper, the equipment lists, the material lists and the like with the emergency maintenance team of the command department to arrive at the post and develop emergency guard.

Further, as shown in fig. 10, the work planning and deployment of company news publicity and risk release propagation are done, and the external publicity caliber is initially specified. The user can contact with the main media in advance to know the motion of the demand and make a good match. News feeds are published to news media once a day. The organization does 24-hour special public opinion monitoring and public opinion guiding work. The method is characterized by well doing sensitive public opinion monitoring related to power failure, potential safety hazards, electric shock casualty events and the like of the civil users. The organization makes a daily public opinion zero report and compiles a public opinion special report. And (5) butting against propaganda competent departments. Public opinion propaganda personnel of national network companies and provincial companies report possible power grid disaster damage, prepare working conditions and request guidance and support in public opinion management and control, propaganda guidance, information release and other aspects. And issuing public opinion propaganda emergency response instructions to city companies and county companies. And (5) butting against propaganda competent departments. Reporting the possibility of power grid disaster damage, preparing working conditions, and requesting guidance and support in the aspects of public opinion management and control, propaganda guidance, information release and the like. And (6) butting propaganda competent departments. Reporting possible disaster damage of the power grid, preparing working conditions, and requesting guidance and support in the aspects of public opinion management and control, propaganda guidance, information release and the like.

Relevant departments and the national network headquarters issue an emergency response starting instruction; and reporting power failure information of the power grid equipment and the user.

And (4) compiling an emergency response instruction, and submitting the emergency management position leader, the emergency office supervisor and the province company branch management leader for examination and approval of the company.

The leader organization is provided with a master command, an auxiliary master command, a command master and an auxiliary command master. The commander is responsible for overall planning organization and management of emergency disposal of the power emergency, executes the work deployment of the real master commander and the auxiliary master commander, leads and commands each work group of the headquarters, and guides the coordination affair-issuing unit to carry out emergency disposal work; the organization department performs the work of emergency duty, information collection and gathering, reporting and the like; coordinating related departments to carry out the work of resource allocation, emergency support and the like. Organizing a affair issue unit to formulate a corresponding scheme, implementing team compatibility, equipment and materials, well performing field treatment and controlling the development of affairs; the video conference acts as a lead person, inquires about disposal conditions to the general command of the event issue unit, transmits leader instructions, deploys disposal work and coordinates problem solving; reporting event information and disposition progress conditions to the main leaders and chief commanders of the company; continuously keeping communication with the incident units and the incident sites and tracking incident information. The assistant conductor assists the conductor organization to do emergency disposal work of the event, and carries out the duties of the conductor when the conductor is not in the era.

Further, for emergency treatment of the power transformation profession: a dispatcher orders to perform fault equipment isolation operation and reasonably arranges a power grid operation mode before stopping the substation equipment; remote monitoring of the power transformation equipment is carried out, and equipment inspection and emergency treatment are organized on the premise of ensuring personal safety; carrying out operation monitoring on the power transformation equipment and issuing an important emergency power supply instruction of the transformer substation; carrying out on-site investigation on the tissue, and making an equipment first-aid repair scheme; according to the actual need of emergency maintenance, applying for emergency maintenance team, equipment and material dispatching support to a person in charge of a transportation and inspection department; arranging personnel in place, and organizing related personnel to monitor on site and guide the safety of emergency repair operation; carrying out remote special patrol on the transformer substation through a video auxiliary monitoring system, and timely reporting when hidden dangers or problems are found; enhancing the operation monitoring of the power transformation equipment, closely tracking the background signal prompt and timely reporting the abnormal operation condition of the equipment; temporarily recovering the power supply of an important transformer substation by using the mobile transformer substation; filling in an emergency repair operation ticket, handling a work permission procedure, arranging field safety measures and organizing field emergency repair; reporting the emergency repair condition of the site, including the left defects, the next stage suggestions and the like.

Further, for professional emergency treatment of power transmission: and (4) organizing and developing fault analysis, determining a fault finding range and making a fault finding plan. According to the fault finding plan, when the fault finding personnel of the department cannot complete the power failure line fault finding within 24 hours, the dispatching helicopter and the unmanned aerial vehicle team support line finding application is provided, and task distribution is well done. Reporting the site disaster condition including the equipment damage quantity and degree, and site first-aid repair condition, and providing the first-aid repair proposal and support application. According to the sequence of the other lines which cause a motor train, a railway, a high-speed shutdown line, a primary load (railway traction transformer) power supply, a no-voltage transformer substation incoming line power supply, a single transformer substation secondary power supply and a reinforced power grid, the emergency repair organization scheme is determined. The emergency repair team, equipment and material support requirements are provided for the emergency command department when the existing emergency repair team and equipment cannot complete emergency repair according to the time required by the command department and the existing materials cannot meet the emergency repair requirements. And arranging personnel in place, and organizing related personnel to monitor on site and guide the safety of emergency repair operation. And informing the transmission operation and maintenance class to carry out fault finding according to the sequence of other lines which cause motor trains, railways, high-speed shutdown lines, primary load (railway traction transformer) power supplies, no-voltage transformer substation incoming line power supplies, single transformer substation secondary power supplies and reinforcing power grids. And (4) making a safety treatment, and organizing the fault finding of the operation and maintenance personnel by taking the pole (tower) reversing and line breaking as key contents. And recording the field disaster damage conditions including the equipment damage quantity and degree, the field emergency repair conditions and the like, and feeding back the field line damage condition through the emergency command system APP.

Further, for power distribution professional emergency treatment: starting up a breakdown patrol by an emergency maintenance team in an emergency state, and taking charge of the operation of other switches and disconnecting links except a transformer substation side switch; a branch line, double multi-power supply and small power supply dispatching right are put down to a regional contact station; and issuing a distribution network scheduling authority adjustment instruction to a power supply command center of a disaster-stricken unit. Firstly, high pressure and then low pressure are adopted; important users and urban area lines are firstly carried out, and then common users and suburban area lines are carried out; firstly, the number of users is multiple lines, and then the number of users is less; firstly, a public transformer user and then a private transformer user; the method comprises the steps of firstly establishing a district, a low-voltage line, a meter box and a service line, comprehensively considering the influence degree of power failure equipment on the safety of a power grid, the importance of a power supply object, the number of power supply users, the power failure time sequence, social public opinion, the complaint condition of the users and the like, determining the emergency repair priority of the power failure equipment, and making an emergency repair work plan. The proposal of priority power restoration is provided for equipment related to users of residents, important and important guarantee users, large and medium-sized cells and other users and power supply equipment in a region where the customers concentrate complaints. A suggestion of priority power restoration is provided for power supply equipment related to public opinion outbreak areas.

Further, for a first-aid emergency response: and (4) butting the supporting unit leaders, and performing team aggregation work. And (4) customizing a customer pacifying strategy, compiling a telephone traffic script for responding to the power failure appeal externally, and optimizing a fault repair work order unified reply template. And sending an emergency repair progress short message to the client with long-time power failure, and performing service remediation on the client with power failure recovery at night to calm the emotion of the client. Guiding important users, and relating to civil user equipment emergency repair and emergency power supply access. And (4) visiting users, collecting information such as the periodic progress of first-aid repair, elevator shutdown and sensitive customer complaints of users such as large and medium-sized communities and the like, and making service remediation work such as the peaceful work of the users of the power failure communities. And summarizing material requirements and logistics requirements of emergency maintenance teams. The emergency repair team reports the material requirements through an emergency command system APP according to the on-site investigation result; the number of rush-repair personnel at each rush-repair point is collected, and logistics support requirements are provided. Collecting emergency repair work plan arrangement, compiling to form a supervision and inspection safety chart, and organizing and developing field supervision. And aiming at the emergency repair safety risk, compiling and sending safety prompt information and safety work requirements. And (5) supervising and checking the emergency repair site of the emergency repair area in charge of the institute, and checking and correcting the violation of regulations in time. The safety regulation conditions of the site of each patch area for emergency repair are collected, the safety management risks are analyzed and identified in time, typical violation reports are compiled and issued, and the safety work requirements are deployed in a targeted manner. According to the distribution condition of personnel at each emergency repair point, the emergency repair team is orderly arranged to eat and lodge and vehicles, and necessary medical and epidemic prevention services are provided. Establishing temporary storage points in a disaster area, arranging material managers to watch for 24 hours, coordinating the arrival receiving and issuing of emergency materials, and establishing temporary storage ledgers. And reporting the inventory condition of the temporary storage point to an emergency command department at regular time, and allocating materials in time. On the material system, collect emergent material supply demand, formulate emergent supply scheme of material, organize, coordinate emergent material transportation and delivery. And when the provincial material reserves can not meet the requirements, providing a cross-provincial allocation application to a supply chain operation center of a national network company. And approving the cross-provincial allocation application and organizing the cross-provincial material allocation support. The disaster relief and emergency repair requirements are quickly met by means of physical stock allocation, engineering material allocation, protocol provider stock allocation, on-the-way purchase order allocation, emergency purchase and the like; and executing allocation and purchase according to the principle of 'first near and then far, first profit of the warehouse and then purchase' and the reserve material calling sequence of 'first material object, second agreement and second order'. And according to the material allocation instruction, the materials are distributed to each first-aid repair site point-to-point. According to the material demand, the method coordinates the inventory allocation of protocol suppliers, the allocation of in-transit purchase orders, the emergency purchase and the like to quickly meet the requirements of disaster relief and emergency repair, and quickly delivers on site.

Further, for public opinion guidance emergency response: and issuing an emergency news propaganda instruction and issuing an emergency public opinion disposal instruction. Actively contacting with a stationer, a provincial level mainstream media and a broadcasting station, organizing media to deeply rush-repair and restore power supply site shooting, mining and writing disaster-resistant and power-protection news and striving for continuous report of the mainstream media. The news through draft is published externally through media, the emergency repair power restoration condition is published in time, and continuous reports are strived for in a television station and a radio station. The method is characterized in that the effort of displaying the first-aid repair and restoration of the power grid company is widely spread through a national network system, and new media platforms, media official accounts and community opinion new media accounts owned by companies in various cities and counties. Analyzing the power-related public opinion of the network media and comment information which is posted by the netizen through big data, combing out hot topics relevant to the netizen in time, and organizing and developing public opinion guidance; and (4) making explanation and questioning subject WeChat and microblog aiming at the public focus problem.

Further, for emergency response adjustment and termination: and reporting the change conditions of typhoon grade, influence range and damage degree by an operator on duty in the emergency command center according to disaster monitoring data, early warning information of the gas-saving weather station, reporting information of each basic unit and the like. And (4) compiling an adjustment/termination emergency response command, and carrying out approval by the company in charge of leaders. And completing the approval process of adjusting/terminating the emergency response command.

Further, for post-treatment and summary evaluation: and organizing to carry out later-stage treatment, and continuing to make first-aid repair ending work. And the work of troubleshooting and treating the hidden danger of the post-disaster equipment is developed. And (5) arranging the damaged power grid facilities and equipment data, and well updating related equipment records and drawings. The organization develops a good post-treatment to properly deal with the disclosure of subsequent information to the media. Event investigation: and carrying out event investigation and analysis by a disaster-specific emergency organization. Investigation and analysis need to collect detailed disaster situation data, research causes of disaster accidents, analyze power grid disaster accident development processes, draw teaching, provide specific countermeasures and measures for disaster resistance and reduction and restoration and reconstruction, and work suggestions for enhancing power grid operation and maintenance, and report to company safety emergency.

Further, for emergency disposition assessment: the company safety emergency organization carries out evaluation investigation on the processes of prevention preparation, monitoring pre-alarming, disposal and rescue, post recovery and the like of disaster events to form an emergency disposal evaluation investigation report. The event-giving unit should make the data collection and storage work in the whole process of emergency disposal, actively cooperate with the assessment survey, and carry out closed-loop correction on the relevant suggestions and problems of the emergency disposal assessment survey report.

Further, for summary and improvement: the disaster-specific emergency handling is carried out according to the safety emergency handling and disposal evaluation survey report, and the comprehensive summary and evaluation are carried out on the plan and the emergency rescue handling process by time organization, so that the defects are found out, the improvement direction is determined, and the modification is carried out in time.

The multi-level and multi-department linkage deduction device for the power grid emergency in the embodiment of the invention provides a power grid risk fault identification method under four types of emergency events, namely natural disasters, accident disasters, social security and public health, aiming at the problem that a multi-level and multi-department linkage mechanism in the conventional power grid disaster accident handling scheme is incomplete; constructing a power system monitoring, early warning and coordinated scheduling mechanism under various disaster accident scenes; and establishing a multi-level and multi-department emergency cooperative disposal flow of the power grid disaster accident.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Moreover, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (10)

1. A multi-level and multi-department linkage handling method for a power grid emergency is characterized by comprising the following steps:

acquiring emergency early warning information, matching the emergency early warning information with a power grid disaster accident emergency plan, and establishing an early warning template according to a matching result;

obtaining an early warning response instruction according to the early warning template, and determining an action task plan according to the early warning response instruction;

acquiring an emergency response instruction according to the adjustment of the early warning template, and executing a corresponding action task plan according to the emergency response instruction to obtain an instruction execution result;

and obtaining a feedback result of the emergency response instruction according to the instruction execution result, and performing emergency disposal evaluation according to the feedback result to obtain an evaluation result.

2. The method of claim 1, wherein the early warning response instructions comprise output substation, transmission and distribution specialty early warning response instructions, the method further comprising:

issuing a first emergency on-duty instruction according to the power transformation professional early warning response instruction, and obtaining a first instruction execution result according to the first emergency on-duty instruction;

issuing a second emergency on duty instruction according to the power transmission professional early warning response instruction, and obtaining a second instruction execution result according to the second emergency on duty instruction;

and issuing a third emergency on duty instruction according to the power distribution professional early warning response instruction, and obtaining a third instruction execution result according to the third emergency on duty instruction.

3. The method of claim 1, wherein the alert response instructions further comprise customer service alert response instructions, the method further comprising:

obtaining a first preparation early warning response instruction according to the customer service early warning response instruction, and obtaining a fourth instruction execution result according to the first preparation early warning response instruction;

obtaining an emergency on-duty instruction according to the customer service early warning response instruction, and obtaining a fifth instruction execution result according to the emergency on-duty instruction;

and obtaining a second preparation early warning response instruction according to the customer service early warning response instruction, and obtaining a sixth instruction execution result according to the second preparation early warning response instruction.

4. The method of claim 1, wherein the pre-warning response instructions further comprise logistical pre-warning response instructions, the method further comprising:

acquiring a house hidden danger checking instruction according to the logistics early warning response instruction, and acquiring a seventh instruction execution result according to the house hidden danger checking instruction;

obtaining a logistics service instruction according to the logistics early warning response instruction, and obtaining an eighth instruction execution result according to the logistics service instruction;

obtaining a vehicle safety inspection instruction according to the logistics early warning response instruction, and obtaining a ninth instruction execution result according to the vehicle safety inspection instruction;

and obtaining an issued project construction instruction according to the logistics early warning response instruction, and obtaining a tenth instruction execution result according to the project construction instruction.

5. The method of claim 1, wherein the early warning response instructions further comprise first-aid repair early warning instructions, the method further comprising:

acquiring emergency repair demand instructions of different early warning levels according to the large-scale emergency repair early warning instruction, and acquiring an eleventh instruction execution result according to the emergency repair demand instructions of different early warning levels;

obtaining a safety supervision instruction according to the large-scale first-aid repair early warning instruction, and obtaining a twelfth instruction execution result according to the safety supervision instruction;

obtaining a logistics early warning response instruction according to the large-scale first-aid repair early warning instruction, and obtaining a thirteenth instruction execution result according to the logistics early warning response instruction;

and obtaining a logistics support instruction according to the large-scale first-aid repair early warning instruction, and obtaining a fourteenth instruction execution result according to the logistics support instruction.

6. A multi-level multi-department linkage deduction device for power grid emergency events is characterized in that,

the information acquisition module is used for acquiring the early warning information of the emergency;

the information matching module is used for matching the emergency early warning information with the power grid disaster accident emergency plan and establishing an early warning template according to a matching result;

the early warning response module is used for obtaining an early warning response instruction according to the early warning template, determining an action task plan according to the early warning response instruction, obtaining an emergency response instruction according to the adjustment of the early warning template, and executing a corresponding action task plan according to the emergency response instruction to obtain an instruction execution result;

and the feedback evaluation module is used for obtaining a feedback result of the emergency response instruction according to the instruction execution result and carrying out emergency treatment evaluation according to the feedback result to obtain an evaluation result.

7. The apparatus of claim 6, wherein the early warning response instructions comprise output power transformation, transmission and distribution specialty early warning response instructions, and the early warning response module comprises: a power transformation module, a power transmission module and a power distribution module,

the power transformation module is used for responding to the power transformation professional early warning response instruction, issuing a first emergency on-duty instruction, and executing the first emergency on-duty instruction to obtain a first instruction execution result;

the power transmission module is used for responding to the power transmission professional early warning response instruction, issuing a second emergency on-duty instruction, and executing the second emergency on-duty instruction to obtain a second instruction execution result;

and the power distribution module is used for responding to the power distribution professional early warning response instruction, issuing a third emergency on-duty instruction, and executing the third emergency on-duty instruction to obtain a third instruction execution result.

8. The apparatus of claim 6, wherein the alert response instructions further comprise customer service alert response instructions, and wherein the alert response module further comprises: a power consumption detection module, a safety module and a service management module,

the power consumption detection module is used for responding to the customer service early warning response instruction, issuing a first preparation early warning response instruction, and executing the first preparation early warning response instruction to obtain a fourth instruction execution result;

the safety module is used for responding to the customer service early warning response instruction, issuing an emergency on-duty instruction, and executing the emergency on-duty instruction to obtain a fifth instruction execution result;

and the service management module is used for responding to the customer service early warning response instruction, issuing a second preparation early warning response instruction, and executing the second preparation early warning response instruction to obtain a sixth instruction execution result.

9. The apparatus of claim 6, wherein the pre-warning response instructions further comprise logistical pre-warning response instructions, and wherein the pre-warning response module further comprises: a house property management module, a logistics service management module, a vehicle management module and a project management module,

the real estate management module is used for responding to the logistics early warning response instruction, issuing a real estate hidden danger troubleshooting instruction, and executing the real estate hidden danger troubleshooting instruction to obtain a seventh instruction execution result;

the logistics service management module is used for responding to the logistics early warning response instruction, issuing a logistics service instruction, and executing the logistics service instruction to obtain an eighth instruction execution result;

the vehicle management module is used for responding to the logistics early warning response instruction, issuing a vehicle safety check instruction, and executing the vehicle safety check instruction to obtain a ninth instruction execution result;

and the project management module is used for responding to the logistics early warning response instruction, issuing a project construction instruction, and executing the project construction instruction to obtain a tenth instruction execution result.

10. The apparatus of claim 6, wherein the pre-warning response instructions further comprise large-scale first-aid repair pre-warning instructions, and the pre-warning response module further comprises: an equipment scheduling module, a security inspection module, a transportation inspection module and a comprehensive service module,

the equipment scheduling module is used for responding to the large-scale first-aid repair early warning instruction, issuing first-aid repair demand instructions of different early warning levels, and executing the first-aid repair demand instructions of different early warning levels to obtain an eleventh instruction execution result;

the safety inspection module is used for responding to the large-scale first-aid repair early warning instruction, issuing a safety supervision instruction, and executing the safety supervision instruction to obtain a twelfth instruction execution result;

the operation and inspection module is used for responding to the large-scale first-aid repair early warning instruction, issuing a logistics early warning response instruction, and executing the logistics early warning response instruction to obtain a thirteenth instruction execution result;

and the comprehensive service module is used for responding to the large-scale first-aid repair early warning instruction, issuing a logistics support instruction, and executing the logistics support instruction to obtain a fourteenth instruction execution result.

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