CN114529146A - Power grid operation and inspection command management method, device, medium and equipment - Google Patents

Abstract

The application discloses a power grid operation inspection command management method, a device, a medium and equipment, which comprise the following steps: detecting the working state of personnel and the using state of materials, and acquiring bearing capacity information; the bearing capacity information comprises the workload of people or materials which are born at present and the workload which can be born; acquiring a transport inspection work plan; and allocating the personnel and the materials based on the bearing capacity information and the operation and inspection work plan. The application can comprehensively allocate production elements, analyze bearing capacity, manage and control personnel and materials, and realize panoramic, multi-professional and instant multi-element command management.

Description

Power grid operation and inspection command management method, device, medium and equipment

Technical Field

The application relates to the technical field of operation and inspection, in particular to a power grid operation and inspection command management method, device, medium and equipment.

Background

Along with the development and the perfection of the national electric power utilities, the structure of the power grid is changed by turning over the sky and covering the ground, the whole scale of the power grid is continuously enlarged, the power transformation operation and maintenance is used as the core of the power system and needs to be maintained and overhauled, but the informatization overall allocation of operation and inspection force is needed in the maintenance and overhaul process, personnel, equipment, operation, risks, emergencies, states and the like are comprehensively controlled, and the problems of unbalanced technical force, non-uniform management standards and repeated resource allocation exist in the existing operation and inspection command management method.

Disclosure of Invention

The present application is proposed to solve the above-mentioned technical problems. The embodiment of the application provides a power grid operation and inspection command management method, device, medium and equipment, which are used for allocating production elements comprehensively, analyzing bearing capacity, managing and controlling personnel and materials and realizing panoramic, multi-professional and instant multi-element command management.

According to one aspect of the application, a power grid operation inspection command management method is provided, and comprises the steps of detecting the working state of personnel and the using state of materials, and acquiring bearing capacity information; the bearing capacity information comprises the workload of people or materials which are born at present and the workload which can be born; acquiring a transport inspection work plan; and allocating the personnel and the materials based on the bearing capacity information and the operation and inspection work plan.

According to the power grid operation inspection command management method, the field real-time state is mastered, production factors are allocated comprehensively, and resource sharing and force complementation are achieved; the high-efficiency execution of measures is ensured through the real-time information transmission; the multi-element command management of panoramas, multiple specialties and instantaneity is realized. Know personnel's operating condition and goods and materials user state, acquire personnel's bearing capacity information and acquire fortune and examine the work plan, based on personnel and goods and materials's bearing capacity information, allocate personnel and goods and materials according to the plan, make personnel and goods and materials can not exceed self bearing capacity and carry out work, the power grid fortune of this application is examined command management method and can be promoted and is examined work efficiency to goods and materials state management and control ability and professional management, can improve the power grid fortune, reduces the power off time, promotes the power supply reliability.

In one embodiment, said allocating said personnel and said supplies based on said load bearing capacity information and said inspection work plan comprises: when the personnel and the materials needed by the operation and inspection work plan are insufficient, submitting a plan calling application; and allocating the personnel and the materials according to the bearing capacity information and the plan calling application.

According to a weekly and monthly production plan, arrangement work of different teams and groups is done in advance, and for the problems that the number of workers on a plan overhaul field is insufficient and the like, an application needs to be provided to a unit in advance, a plan calling application is submitted, the number of the calling personnel, the specialties and the like are explained, then according to bearing capacity information, when temporary personnel need to be used in an emergency situation, the temporary calling application can also be provided, the application is audited based on the bearing capacity information, and then the personnel are allocated.

In an embodiment, after the allocating the personnel and the materials based on the bearing capacity information and the operation and maintenance work plan, the method for commanding and managing the operation and maintenance of the power grid further includes: and counting the allocated personnel and the materials, and updating the working state of the personnel and the using state of the materials.

The personnel and the materials of allotment are counted, the management and the control of the personnel and the materials can be realized, the repeated allocation and omission are avoided, the working state of the personnel and the using state of the materials are updated according to the information of the personnel and the materials after the statistics, the working state of the personnel and the using state of the materials are observed in real time, and the following work distribution is facilitated.

In an embodiment, after the obtaining the operation and maintenance work plan, the method for managing the grid operation and maintenance command further includes: detecting the state of the operation and detection environment to obtain operation and detection environment information; wherein the shipping environment status comprises a weather status; and when the operation and inspection environment information is in a bad weather state, issuing a risk early warning.

The operation and inspection environment has many influence factors and may cause certain influence on the operation and inspection safety, so the operation and inspection environment needs to be analyzed, a maintenance scheme is formed in advance, the operation and inspection environment information and the maintenance scheme are analyzed by professionals, and risk early warning is issued so as to prevent the environment factors from influencing the equipment safety and reduce the possibility of influence of the environment factors such as disastrous weather on the operation and inspection.

In an embodiment, after the allocating the personnel and the materials based on the bearing capacity information and the operation and maintenance work plan, the method for commanding and managing the operation and maintenance of the power grid further includes: detecting the running state of the power grid equipment, and acquiring running and detecting data information; and when the operation detection data information shows that the operation state of the power grid equipment is abnormal, sending a prompt signal.

The method comprises the steps of monitoring the running state of each item of power grid equipment in the operation and detection process in real time, obtaining operation and detection data information, such as GIS partial discharge data, transformer oil chromatographic data, transformer iron core grounding current and the like, and if abnormal data are found in the monitoring process, carrying out early warning and feedback in time to ensure the safety of operation and detection.

In one embodiment, the bearing capacity information is divided into three levels of red information, yellow information and blue information; the red information represents that the workload of the personnel and the materials is in a full load state, the yellow information represents that the workload of the personnel and the materials is in a heavy load state, and the blue information represents that the workload of the personnel and the materials is in a normal state; wherein the allocating the personnel and the materials based on the bearing capacity information and the operation and maintenance work plan comprises: and allocating the personnel and the materials based on the grade information.

The bearing capacity information is visually displayed in a color display mode, so that people and materials can be conveniently and rapidly known and allocated, and the working efficiency is improved.

In one embodiment, said allocating said personnel and said supplies based on said rating information comprises: and allocating the corresponding personnel and the corresponding materials according to the sequence of the blue information, the yellow information and the red information.

Adopt the color show, can be more audio-visual show personnel and the bearing capacity state of goods and materials, carry out rational distribution to personnel and goods and materials according to color information during follow-up allotment, promote work efficiency.

According to another aspect of the application, a power grid operation and inspection command management device is provided, which comprises a detection module, a detection module and a control module, wherein the detection module is used for detecting the working state of personnel and the using state of materials and acquiring bearing capacity information; the bearing capacity information comprises the workload of people or materials which are born at present and the workload which can be born; the planning module is used for acquiring a transportation and inspection work plan; and the allocation module is used for allocating the personnel and the materials based on the bearing capacity information and the operation and inspection work plan.

According to the power grid operation inspection command management device, the field real-time state is mastered, production factors are allocated comprehensively, and resource sharing and force complementation are achieved; the high-efficiency execution of measures is ensured through the real-time transmission of information; the multi-element command management of panoramas, multiple specialties and instantaneity is realized. Know personnel's operating condition and goods and materials user state, acquire personnel's bearing capacity information and acquire the fortune and examine work plan, based on personnel and goods and materials ' bearing capacity information, allocate personnel and goods and materials according to the plan, make personnel and goods and materials can not exceed self bearing capacity and carry out work, can promote to goods and materials state management and control power and professional management penetrating power, can improve the electric wire netting fortune and examine work efficiency, reduce the power off time, promote the power supply reliability.

According to another aspect of the present application, a computer-readable storage medium is provided, where the storage medium stores a computer program for executing the power grid operation and inspection command and management method according to any of the above embodiments.

According to another aspect of the present application, there is provided an electronic apparatus including: a processor; a memory for storing the processor-executable instructions; the processor is configured to execute the power grid operation inspection command management method according to any of the above embodiments.

According to the power grid operation inspection command management method, the device, the medium and the equipment, the field real-time state is mastered, production factors are allocated comprehensively, and resource sharing and force complementation are achieved; the high-efficiency execution of measures is ensured through the real-time transmission of information; the multi-element command management of panoramas, multiple specialties and instantaneity is realized. Know personnel's operating condition and goods and materials user state, acquire personnel's bearing capacity information and acquire the fortune and examine the work plan, based on personnel and goods and materials's bearing capacity information, allocate personnel and goods and materials according to the plan, make personnel and goods and materials can not exceed self bearing capacity and carry out work, can promote to goods and materials state management and control power and professional management penetrating power, can improve the electric wire netting fortune and examine work efficiency, reduce the power off time, promote the power supply reliability.

Drawings

The above and other objects, features and advantages of the present application will become more apparent by describing in more detail embodiments of the present application with reference to the attached drawings. The accompanying drawings are included to provide a further understanding of the embodiments of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the principles of the application. In the drawings, like reference numbers generally represent like parts or steps.

Fig. 1 is a schematic structural diagram of a power grid operation inspection command and management system according to an exemplary embodiment of the present application.

Fig. 2 is a schematic structural diagram of a power grid operation inspection command management platform according to an exemplary embodiment of the present application.

Fig. 3 is a schematic flow chart of a power grid operation inspection command management method according to an exemplary embodiment of the present application.

Fig. 4 is a schematic flow chart of a power grid operation inspection command management method according to another exemplary embodiment of the present application.

Fig. 5 is a schematic flow chart of a power grid operation inspection command management method according to another exemplary embodiment of the present application.

Fig. 6 is a schematic flow chart of a power grid operation inspection command management method according to another exemplary embodiment of the present application.

Fig. 7 is a flowchart illustrating a power grid operation inspection command management method according to another exemplary embodiment of the present application.

Fig. 8 is a schematic flow chart of a power grid operation inspection command management method according to another exemplary embodiment of the present application.

Fig. 9 is a schematic flow chart of a power grid operation inspection command management method according to another exemplary embodiment of the present application.

Fig. 10 is a schematic structural diagram of a power grid operation inspection command management device according to an exemplary embodiment of the present application.

Fig. 11 is a schematic structural diagram of a power grid operation inspection command management device according to another exemplary embodiment of the present application.

Fig. 12 is a block diagram of an electronic device provided in an exemplary embodiment of the present application.

Description of reference numerals: the system comprises an electronic device 10, a processor 11, a memory 12, an input device 13, an output device 14, a power grid operation inspection command management system 1, a display module 15, a business processing module 16, a data storage module 17, a power grid operation inspection command management platform 2, a present work module 21, a bearing capacity analysis module 22, a personnel management module 23, an equipment management module 24, an operation management module 25, a risk management module 26, an emergency management module 27, a state management module 28, a record management module 29, an index management module 30, a project management module 31, a business system module 32, a power grid operation inspection command management device 9, a detection module 91, a planning module 92, a deployment module 93, a submission unit 931, a first deployment unit 932, a partitioning unit 933, a second deployment unit 934, an updating module 94, an environment detection module 95, a release module 96, a data acquisition module 97, a second deployment unit 934, an updating module 94, an environment detection module 95, a distribution module 96, a data acquisition module 97, a data acquisition module, A prompt module 98.

Detailed Description

Hereinafter, example embodiments according to the present application will be described in detail with reference to the accompanying drawings. It should be understood that the described embodiments are only some embodiments of the present application and not all embodiments of the present application, and that the present application is not limited by the example embodiments described herein.

Exemplary System

Fig. 1 is a schematic structural diagram of a power grid operation inspection command and management system according to an exemplary embodiment of the present application, and as shown in fig. 1, a power grid operation inspection command and management system 1 includes: a display module 15, the display module 15 being configured to implement user interface functions to convey and feed back user needs; the service processing module 16, the service processing module 16 is in communication connection with the display module 15, and the service processing module 16 is configured to perform logic processing on the received data; and a data storage module 17, the data storage module 17 being communicatively connected to the service processing module 16, the data storage module 17 being configured to implement operations on data.

The power grid operation inspection command management system 1 provided by the application has the advantages that the display module 15, the service processing module 16 and the data storage module 17 sequentially form three levels, developers can only pay attention to one module in the whole structure, the original module can be easily replaced by a new implementation, the dependence between the modules can be reduced, the standardization is facilitated, the multiplexing of the logic of each module is facilitated, the structure is more definite, the maintenance cost and the maintenance time are greatly reduced in later maintenance, the display module 15 is prevented from directly accessing the data storage module 17, the display module 15 is only connected with the service processing module 16, the data safety is improved, the system is facilitated to be dispersedly developed, each module can be developed by different personnel, as long as the interface standard is followed, and the same object model entity class is utilized, therefore, the development speed of the system can be greatly improved, the system can be conveniently transplanted, and if a C/S system is changed into a B/S system, only the display module 15 with a three-layer structure needs to be modified. The service processing module 16 and the data storage module 17 can be easily transplanted to the network with little modification.

Fig. 2 is a schematic structural diagram of a power grid operation inspection command management platform according to an exemplary embodiment of the present application, and as shown in fig. 2, a power grid operation inspection command management platform 2 is established based on a power grid operation inspection command management system, where the power grid operation inspection command management platform 2 includes:

the present working module 21 grasps the real-time status of the site through the present production work function, and realizes the function of managing and controlling the development condition of the present production work, and the system marks the present production work based on the power grid GIS, displays the maintenance working state of each transformer substation, and grasps the task, personnel, vehicle and progress condition of the present maintenance work of each transformer substation.

The bearing capacity analysis module 22 displays the working states of the operation and inspection subsections, the groups and each employee and the number of occupied vehicles and materials in real time through a graphical interface, masters the dynamics of the personnel, the vehicles and the materials in real time, and provides decision basis for optimizing the configuration and management processes of the personnel, the vehicles and the materials, reducing the burden of the groups and the like. The method applies a color management mode, adopts three colors of red, yellow and blue to carry out quantitative grading on the state of the bearing capacity of the personnel and implement state early warning, and visually reflects the contradiction relationship between the existing personnel and the working requirement. And directly displaying the total bearing capacity condition of each professional room and each branch of the operation and examination department by clicking the bearing capacity and the performance, and then clicking a specific professional room to display the specific bearing capacity condition of the professional room.

The personnel management and control module 23, the personnel management and control module 23 may display the tasks to be handled of the planned call flow and the temporary call flow applied by each unit in real time. According to the week work plan and the temporary work, the using conditions of personnel of each professional today are automatically counted, the idle conditions of each professional team are displayed in real time in a form of a histogram according to the professional, the idle conditions are blue under a normal state, yellow under a heavy load state and red under a full load state, when the work to be done exists, a user drags the column from the called team to the team applying for calling, the column of the applied team is called to display the color of the called team, the fact that the team has already entered the personnel is shown, and the user can visually display the calling conditions of each professional.

The equipment management and control module 24 is used for displaying the current vehicle use conditions, including the use number and the total number of various vehicle types, and the right list is used for displaying detailed vehicle use conditions (vehicle number, start-stop time, work place, work content) and other specific conditions. The equipment use condition is shown, including equipment use condition today, equipment rate of utilization rank, and the right side shows goods and materials classification, total quantity, use quantity, unused quantity with the form of list, ranks the rate of utilization of all kinds of goods and materials simultaneously, carries out the normal sequence and arranges, makes the real-time rate of utilization of knowing goods and materials of maintenance department's goods and materials managers, makes the reference for the not enough goods and materials are purchased. The vehicle management system and the storehouse management system are both brought into on-duty monitoring, and production command operators on duty can know the service condition of the vehicle through the power grid operation inspection command management platform 2. Each vehicle-using unit submits vehicles in the power grid operation and maintenance command management platform 2 according to a specified production plan, information such as personnel number, vehicle quantity, vehicle type and the like is noted in application, an operation and maintenance head office is responsible for overall planning and allocation of the vehicles, submits a vehicle-using plan to the operation and maintenance head office, and the vehicle-using plan is specifically published in the power grid operation and maintenance command management platform 2 after being cleared, and executes specific work according to the plan. If an emergency vehicle needs to be temporarily added under a sudden condition, the operation and maintenance division needs to submit a temporary vehicle application in the power grid operation inspection command management platform 2 and then an operator on duty organizes and allocates according to the remaining conditions of the vehicle. If no vehicle exists in the plan, the attendant needs to inform the comprehensive room in time to allocate the vehicle.

For the allocation of materials, the use conditions of instruments, meters, spare parts and the like need to be known, if the residual quantity of the materials is small, the power grid operation inspection command management platform 2 can automatically send out early warning information, and the operators on duty inform relevant departments of supplementing the materials. Aiming at the phenomenon of insufficient materials, an application unit needs to submit a material calling application in the power grid operation inspection command management platform 2, the name and quantity related information of the called materials is marked, and operation and maintenance responsible personnel are subjected to approval and then are uniformly allocated by an on-duty personnel.

The operation management and control module 25, the operation and maintenance department, through the power grid operation inspection command management platform 2, issues a weekly power outage inspection site time node management and control statistical analysis report, and sends the report to feedback conditions of each corresponding professional room, operation inspection department and county company in the form of a task list. And visually displaying the feedback department and the actual feedback department in a list form, wherein the fed back department is black, the unrefed back department is yellow, the overdue department is red, and the risk is displayed by double clicking, so that the on-duty personnel can know the implementation situation of the node management and control statistical analysis report in the professional room in real time.

The risk management and control module 26 is mainly used for managing and controlling and analyzing various risks influencing production work and counting feedback conditions of power grid risk management and control. The operation and maintenance department issues management and control notices such as power grid risks, equipment risks and meteorological risks and operation and maintenance guarantee requirements through the power grid operation and maintenance command management platform 2, and sends the management and control notices to corresponding feedback conditions of professional rooms, operation and maintenance departments and county companies in the form of task sheets. And visually displaying the feedback department and the actual feedback department in a list form, wherein the fed back department is black, the unrefed back department is yellow, the overdue department is red, and the specific content of management and control is displayed by double clicking, so that the on-duty personnel can know the implementation situation of the professional room on the power grid risk, the equipment risk and the meteorological risk in real time. And displaying early warning of power grid risk, equipment risk and weather risk which are not fed back until the current time in real time, marking the name of the early warning, the release time, the feedback condition, checking and summarizing, and arranging according to the reverse order of the release time.

After risk grades are divided by operation and maintenance departments, the power grid risk early warning risk is sent to each department through the power grid operation inspection command management platform 2. After receiving the risk early warning risk notice form, each department needs to fill in a staff table according to requirements, and the staff table is embodied in the power grid operation, inspection, command and management platform 2. Each department integrates the feedback content and the overhaul guarantee regulation into a cloud maintenance scheme, and publishes the cloud maintenance scheme in the power grid operation and inspection command management platform 2, and the inspection is organized on the premise of the risk early warning condition of professionals and operation and inspection subsections. The surrounding environment of the power transmission channel is detected, and the risk influence factors of the equipment safety operation environment are published in the power grid operation inspection command management platform 2 on the basis of the final channel environment state analysis result and the regional weather early warning information, so that the influence of disastrous weather on the power grid equipment safety is avoided.

The emergency management and control module 27 is mainly used for carrying out emergency response on the three-level, two-level and one-level emergencies of the emergent power grid, recording all the operations of the emergency response in detail, ensuring, recording and executing the emergency treatment, and finally quickly recovering the production work. The user can start any level of emergency response in the module according to the actual situation, record the starting time, unit and content, arrange in reverse order according to the starting time, click a specific early warning, display the log of the emergency response in the form of a list, including the sequence number, the recorded time (accurate to the minute), the event, and arrange in forward order according to the time sequence.

The state control module 28 is mainly used for issuing and displaying state evaluation information, evaluation monthly reports and evaluation decisions. The method comprises state evaluation information, evaluation monthly report and evaluation decision. The status evaluation monthly newspaper displays the status evaluation monthly newspaper published each month in a list mode, and a user can view the attachment by clicking. The evaluation information displays an equipment defect analysis report, an equipment fault analysis report, an equipment counter measure implementation standing book and an equipment production acceptance report in the form of icon buttons, and a detailed information list can be viewed by clicking each icon button. And the evaluation decision displays an early warning list, a maintenance strategy, a storage strategy, an acceptance strategy and suspected family defects in the form of icon buttons. Clicking on each icon button can view a detailed information list.

The record management module 29 is used for counting various recorded meetings, displaying the summary content of various meetings in real time and checking the detailed information of the meeting summary in a list form mainly for the summary of professional meetings, the summary of regular meetings, the summary of early meetings in production, the on-site inspection record of week, the review record of two tickets on week, other records and the like.

The index management and control module 30 displays the index data in a list form, and displays the numerical values, the ranks, and the segment positions of the indexes in months, quarters, and years. The monthly index and the key performance index of the operation and inspection mainly show the month value and the score. The upper right corner may also be clicked to select a year query. Clicking a single index name to enter an index detail page, and dividing the index detail page into two parts: index decomposition and index measures. Index decomposition default shows the latest decomposition, and the decomposition contents mainly comprise: defining and calculating methods, counting periods, department of operation and inspection accountability, secondary indexes, secondary index weights, department of secondary index accountability, work contacts and data sources.

The project management module 31 displays project management data in a list form, including four types of project information including production improvement, production overhaul, urban network infrastructure and rural network infrastructure, and displays detailed information of various types of project information including detailed information (project name, state, responsible person, implementation unit, professional category, professional subdivision, total investment and voltage level) on the right-side list.

The service system module 32, the service system module 32 is mainly used for visually displaying the data of the service system related to the production scheduling command, and mainly relates to information systems such as PMS2.0, D5000, GIS, weather monitoring, vehicle management and the like, and the condition of each system can be visually displayed in the area by the person on duty, so that the person on duty can quickly check the service data and monitoring information.

The power grid operation inspection command management system 1 is used for managing and controlling the condition of a transformer substation maintenance working site based on a GIS map. The production work of today is marked on the map, the maintenance working state of each transformer substation is displayed, the task, personnel, vehicles and the progress condition of the maintenance work of each transformer substation on the day can be fully mastered, the maintenance plan issued according to each operation and inspection command subsection is formulated based on the overall planning and allocation of the bearing capacity analysts, and the personnel of the plan work are implemented. To the professional team that overhauls the strength not enough, the transport inspection command headquarters accessible electric wire netting transport inspection command management platform 2 carries out the overall planning allotment according to the bearing capacity condition of each transport inspection command subsection. The risk management and control system is perfected, aiming at the operation risks such as weak power grid mode, heavy (full) load of equipment, severe weather and the like, the operation inspection command headquarters realizes the timely issuing of early warning information and operation and maintenance guarantee requirements through the power grid operation inspection command management platform 2, issues instructions and important process information when in emergency starting, and commands the on-site fault disposal.

Exemplary method

Fig. 3 is a schematic flow chart of a power grid operation inspection command management method according to an exemplary embodiment of the present application, where the power grid operation inspection command management method may be applied to the power grid operation inspection command management system, or may be applied to the power grid operation inspection command management platform, and as shown in fig. 3, the power grid operation inspection command management method includes:

step 100: and detecting the working state of personnel and the using state of materials to obtain bearing capacity information.

The bearing capacity information includes the workload that the personnel or the materials currently undertake and the workload that can be undertaken. The current working state of the personnel and the materials such as the vehicles used are known, the bearing capacity information of the personnel and the materials is obtained, the bearing capacity information of the personnel and the materials can be graded, and the efficiency of allocating the personnel is improved conveniently.

Step 200: and acquiring a work plan of the operation and the inspection.

And acquiring a plan which is preset by the operation and inspection work and comprises the required personnel number and the material number, the risks possibly generated in the plan and a risk coping method.

Step 300: and allocating personnel and materials based on the bearing capacity information and the operation and maintenance work plan.

Based on bearing capacity information, allocating personnel and materials can avoid the risk of overload work, reasonably allocate personnel and materials, improve the efficiency of transportation and inspection, and simultaneously can ensure the quality of transportation and inspection.

According to the power grid operation inspection command management method, the field real-time state is mastered, production factors are allocated comprehensively, and resource sharing and force complementation are achieved; the high-efficiency execution of measures is ensured through the real-time transmission of information; the multi-element command management of panoramas, multiple specialties and instantaneity is realized. The power grid operation inspection command management method can improve the management and control force of the material state and the professional management penetrating power, can improve the power grid operation inspection working efficiency, reduces the power failure time, and improves the power supply reliability.

Fig. 4 is a schematic flowchart of a power grid operation inspection command management method according to another exemplary embodiment of the present application, and as shown in fig. 4, the step 300 may include:

step 310: and when the personnel and materials required by the operation and inspection work plan are insufficient, submitting a plan calling application.

According to the weekly and monthly production plans, arrangement work of different groups is made in advance, and for the problems that the number of workers on the planned overhaul site is insufficient and the like, an application needs to be made to a unit in advance, a plan call application is submitted, the number of the call workers and the professions are explained, and the like.

Step 320: and calling application, allocating personnel and materials according to the bearing capacity information and plan.

And calling application allocating personnel and materials according to the bearing capacity information and calculation, when people need to be temporarily used in case of emergency, the temporary application can also be proposed, the application is audited based on the bearing capacity information, and then the allocating personnel are allocated.

Fig. 5 is a schematic flowchart of a power grid operation inspection command management method according to another exemplary embodiment of the present application, and as shown in fig. 5, after step 300, the power grid operation inspection command management method may include:

step 400: and (4) counting allocated personnel and materials, and updating the working state of the personnel and the using state of the materials.

The personnel and the materials of allotment are counted, the management and the control of the personnel and the materials can be realized, the repeated allocation and omission are avoided, the working state of the personnel and the using state of the materials are updated according to the information of the personnel and the materials after the statistics, the working state of the personnel and the using state of the materials are observed in real time, and the following work distribution is facilitated.

Fig. 6 is a schematic flow chart of a power grid operation inspection command management method according to another exemplary embodiment of the present application, and as shown in fig. 6, the power grid operation inspection command management method may further include:

step 510: and detecting the state of the operation and detection environment to obtain the operation and detection environment information.

Wherein the shipping environment condition comprises a weather condition.

Step 520: and when the operation and inspection environment information is in a bad weather state, issuing a risk early warning.

The operation and inspection environment has many influence factors and may cause certain influence on the operation and inspection safety, so the operation and inspection environment needs to be analyzed, a maintenance scheme is formed in advance, the operation and inspection environment information and the maintenance scheme are analyzed by professionals, and risk early warning is issued so as to prevent the environment factors from influencing the equipment safety and reduce the possibility of influence of the environment factors such as disastrous weather on the operation and inspection.

Fig. 7 is a schematic flowchart of a power grid operation inspection command management method according to another exemplary embodiment of the present application, and as shown in fig. 7, after step 300, the power grid operation inspection command management method further includes:

step 610: and detecting the running state of the power grid equipment and acquiring running inspection data information.

The method comprises the steps of monitoring the running state of each item of power grid equipment in the operation and detection process in real time, and acquiring operation and detection data information, such as GIS partial discharge data, transformer oil chromatographic data, transformer iron core grounding current and the like.

Step 620: and when the operation detection data information shows that the operation state of the power grid equipment is abnormal, sending a prompt signal.

If abnormal data are found in the monitoring process, early warning and feedback are needed to be carried out in time so as to ensure the safety of operation and inspection.

In one embodiment, the bearing capacity information is divided into three levels of red information, yellow information and blue information; the red information shows that the workload of the personnel and the materials is in a full load state, the yellow information shows that the workload of the personnel and the materials is in a heavy load state, and the blue information shows that the workload of the personnel and the materials is in a normal state.

The personnel bearing capacity state is quantitatively graded, and the contradiction relationship between the existing personnel and the working requirement is visually reflected.

Fig. 8 is a schematic flowchart of a power grid operation inspection command management method according to another exemplary embodiment of the present application, and as shown in fig. 8, the step 300 may be adjusted to:

step 330: based on the grade information, personnel and materials are allocated.

The bearing capacity information is visually displayed in a color display mode, so that people and materials can be conveniently and rapidly known and allocated, and the working efficiency is improved.

Fig. 9 is a schematic flowchart of a power grid operation and inspection command management method according to another exemplary embodiment of the present application, and as shown in fig. 9, step 330 may further include:

step 331: and allocating corresponding personnel and materials according to the sequence of the blue information, the yellow information and the red information.

Adopt the color show, can be more audio-visual show personnel and the bearing capacity state of goods and materials, carry out rational distribution to personnel and goods and materials according to color information during follow-up allotment, promote work efficiency.

By adopting the power grid operation inspection command management method, the visual management of the states of production elements such as personnel, vehicles and equipment is realized by analyzing and managing information data such as maintainers, production equipment and vehicles and the like, and overall management and control. At present, the cross-regional personnel allocation cooperative operation is finished for 121 times, and the comprehensive maintenance power failure time is reduced by 30 percent on the same scale.

Through the analysis and integration of the large-batch risk early warning data, the whole process closed-loop control of risk prevention and control measures is realized. After the system is built, intensive management is achieved, the personnel efficiency is greatly improved, the power transmission operation and maintenance efficiency is improved by 102.3%, the power transformation operation and maintenance efficiency is improved by 59%, and the power transformation maintenance efficiency is improved by 26.7%.

By analyzing the vehicle data and the overhaul route data, the restriction of the former teams and departments on overall vehicle discharge is broken, and the vehicles for power failure overhaul and important production work are given for the work of emergency and daily patrol and maintenance. 231 production service vehicles of the operation and inspection business are compressed to 148 vehicles, the vehicle using cost is greatly reduced, the intensive allocation effect of the vehicles is remarkable, the vehicle outgoing cost is greatly reduced, the vehicle outgoing cost is reduced statistically to 533 ten thousand yuan, and the driving mileage is reduced to ten thousand kilometers.

The power grid operation inspection command management method is based on GIS map transformer substation maintenance work site condition management and control. The production work of today is marked on the map, the maintenance working state of each transformer substation is displayed, the task, personnel, vehicles and the progress condition of the maintenance work of each transformer substation on the day can be fully mastered, the maintenance plan issued according to each operation and inspection command subsection is formulated based on the overall planning and allocation of the bearing capacity analysts, and the personnel of the plan work are implemented. To the professional team that overhauls the strength not enough, the transportation is examined and is commanded headquarters accessible platform and is carried out the overall arrangement according to the bearing capacity condition of each transportation and inspection command subsection. The risk management and control system is perfected, aiming at the operation risks such as weak power grid mode, heavy (full) load of equipment, severe weather and the like, the operation inspection command headquarters realizes timely issuing of early warning information and operation and maintenance guarantee requirements through the platform, issues instructions and important process information when the emergency starts, and commands field fault disposal.

Exemplary devices

Fig. 10 is a schematic structural diagram of the power grid operation and inspection command management device 9 according to an exemplary embodiment of the present application, and as shown in fig. 10, the power grid operation and inspection command management device 9 includes: the detection module 91 is used for detecting the working state of personnel and the using state of materials and acquiring bearing capacity information; the bearing capacity information comprises the workload of the personnel or the materials which are born at present and the workload which can be born; the planning module 92 is used for acquiring a transportation and inspection work plan; and the allocating module 93 is used for allocating personnel and materials based on the bearing capacity information and the operation and inspection work plan.

According to the power grid operation inspection command management device 9, the field real-time state is mastered, production elements are comprehensively allocated, and resource sharing and force complementation are achieved; the high-efficiency execution of measures is ensured through the real-time transmission of information; the multi-element command management of panoramas, multiple specialties and instantaneity is realized. Know personnel's operating condition and goods and materials user state through detection module 91, acquire personnel's bearing capacity information and acquire the fortune through plan module 92 and examine the work plan, based on personnel and goods and materials ' bearing capacity information, allocate personnel and goods and materials according to the plan through allotment module 93, make personnel and goods and materials can not exceed self bearing capacity and carry out work, can promote to goods and materials state management and control power and professional management penetrating power, can improve the electric wire netting fortune and examine work efficiency, reduce the power off time, promote the power supply reliability.

Fig. 11 is a schematic structural diagram of the power grid operation inspection command and management apparatus 9 according to another exemplary embodiment of the present application, and as shown in fig. 11, the deployment module 93 may include: a submitting unit 931 and a first allocating unit 932, wherein the submitting unit 931 is used for submitting a plan calling application when the personnel and materials required by the operation plan are insufficient, and the first allocating unit 932 is used for calling the application, allocating the personnel and the materials according to the bearing capacity information and the plan.

In an embodiment, as shown in fig. 11, the power grid operation and inspection command management apparatus 9 may further include: and the updating module 94 is used for counting allocated personnel and materials and updating the working state of the personnel and the using state of the materials.

In an embodiment, as shown in fig. 11, the power grid operation and inspection command management apparatus 9 may further include: the environment detection module 95 is used for detecting the environment state of the operation and detection to obtain the environment information of the operation and detection, and the release module 96 is used for releasing the risk early warning when the environment information of the operation and detection is bad weather.

In an embodiment, as shown in fig. 11, the power grid operation and inspection command management apparatus 9 may further include: the data acquisition module 97 is used for detecting the operation state of the power grid equipment and acquiring the operation and detection data information, and the prompt module 98 is used for sending a prompt signal when the operation and detection data information indicates that the operation state of the power grid equipment is abnormal.

In one embodiment, as shown in fig. 11, the blending module 93 may further include: the bearing capacity information is divided into three levels of red information, yellow information and blue information by the dividing unit 933 and the second allocating unit 934, and the second allocating unit 934 is used for allocating personnel and materials based on the three levels of the red information, the yellow information and the blue information.

In an embodiment, the second blending unit 934 may be further configured to: and allocating corresponding personnel and materials according to the sequence of the blue information, the yellow information and the red information.

Exemplary electronic device

Next, an electronic apparatus according to an embodiment of the present application is described with reference to fig. 12. The electronic device may be either or both of the first device and the second device, or a stand-alone device separate from them, which stand-alone device may communicate with the first device and the second device to receive the acquired input signals therefrom.

FIG. 12 illustrates a block diagram of an electronic device in accordance with an embodiment of the present application.

As shown in fig. 12, the electronic device 10 includes one or more processors 11 and a memory 12.

The processor 11 may be a Central Processing Unit (CPU) or other form of processing unit having data processing capabilities and/or instruction execution capabilities, and may control other components in the electronic device 10 to perform desired functions.

Memory 12 may include one or more computer program products that may include various forms of computer-readable storage media, such as volatile memory and/or non-volatile memory. The volatile memory may include, for example, Random Access Memory (RAM), cache memory (cache), and/or the like. The non-volatile memory may include, for example, Read Only Memory (ROM), hard disk, flash memory, etc. One or more computer program instructions may be stored on the computer readable storage medium and executed by the processor 11 to implement the grid health management method of the various embodiments of the present application described above and/or other desired functions. Various contents such as an input signal, a signal component, a noise component, etc. may also be stored in the computer-readable storage medium.

In one example, the electronic device 10 may further include: an input device 13 and an output device 14, which are interconnected by a bus system and/or other form of connection mechanism (not shown).

When the electronic device is a stand-alone device, the input means 13 may be a communication network connector for receiving the acquired input signals from the first device and the second device.

The input device 13 may also include, for example, a keyboard, a mouse, and the like.

The output device 14 may output various information including the determined distance information, direction information, and the like to the outside. The output devices 14 may include, for example, a display, speakers, a printer, and a communication network and its connected remote output devices, among others.

Of course, for simplicity, only some of the components of the electronic device 10 relevant to the present application are shown in fig. 12, and components such as buses, input/output interfaces, and the like are omitted. In addition, the electronic device 10 may include any other suitable components depending on the particular application.

Exemplary computer program product and computer-readable storage Medium

In addition to the above-described methods and apparatus, embodiments of the present application may also be a computer program product comprising computer program instructions that, when executed by a processor, cause the processor to perform the steps in the power grid operation inspection command management method according to various embodiments of the present application described in the above-mentioned "exemplary methods" section of this specification.

The computer program product may be written with program code for performing the operations of embodiments of the present application in any combination of one or more programming languages, including an object oriented programming language such as Java, C + + or the like and conventional procedural programming languages, such as the "C" programming language or similar programming languages. The program code may execute entirely on the user's computing device, partly on the user's device, as a stand-alone software package, partly on the user's computing device and partly on a remote computing device, or entirely on the remote computing device or server.

Furthermore, embodiments of the present application may also be a computer-readable storage medium having stored thereon computer program instructions, which, when executed by a processor, cause the processor to perform the steps in the power grid operation inspection command management method according to various embodiments of the present application, described in the "exemplary methods" section above in this specification.

The computer-readable storage medium may take any combination of one or more readable media. The readable medium may be a readable signal medium or a readable storage medium. A readable storage medium may include, for example, but not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or a combination of any of the foregoing. More specific examples (a non-exhaustive list) of the readable storage medium include: an electrical connection having one or more wires, a portable disk, a hard disk, a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or flash memory), an optical fiber, a portable compact disc read-only memory (CD-ROM), an optical storage device, a magnetic storage device, or any suitable combination of the foregoing.

The foregoing describes the general principles of the present application in conjunction with specific embodiments, however, it is noted that the advantages, effects, etc. mentioned in the present application are merely examples and are not limiting, and they should not be considered essential to the various embodiments of the present application. Furthermore, the foregoing disclosure of specific details is for the purpose of illustration and description and is not intended to be limiting, since the foregoing disclosure is not intended to be exhaustive or to limit the disclosure to the precise details disclosed.

The block diagrams of devices, apparatuses, systems referred to in this application are only given as illustrative examples and are not intended to require or imply that the connections, arrangements, configurations, etc. must be made in the manner shown in the block diagrams. These devices, apparatuses, devices, systems may be connected, arranged, configured in any manner, as will be appreciated by those skilled in the art. Words such as "including," "comprising," "having," and the like are open-ended words that mean "including, but not limited to," and are used interchangeably therewith. The words "or" and "as used herein mean, and are used interchangeably with, the word" and/or, "unless the context clearly dictates otherwise. The word "such as" is used herein to mean, and is used interchangeably with, the phrase "such as but not limited to".

It should also be noted that in the devices, apparatuses, and methods of the present application, the components or steps may be decomposed and/or recombined. These decompositions and/or recombinations should be considered as equivalents of the present application.

The previous description of the disclosed aspects is provided to enable any person skilled in the art to make or use the present application. Various modifications to these aspects will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other aspects without departing from the scope of the application. Thus, the present application is not intended to be limited to the aspects shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

The foregoing description has been presented for purposes of illustration and description. Furthermore, the description is not intended to limit embodiments of the application to the form disclosed herein. While a number of example aspects and embodiments have been discussed above, those of skill in the art will recognize certain variations, modifications, alterations, additions and sub-combinations thereof.

Claims (10)

1. A power grid operation inspection command management method is characterized by comprising the following steps:

detecting the working state of personnel and the using state of materials, and acquiring bearing capacity information; the bearing capacity information comprises the workload of people or materials which are born at present and the workload which can be born;

acquiring a transport inspection work plan; and

and allocating the personnel and the materials based on the bearing capacity information and the operation and inspection work plan.

2. The method of claim 1, wherein deploying the personnel and the supplies based on the load bearing information and the inspection work plan comprises:

when the personnel and the materials needed by the operation and inspection work plan are insufficient, submitting a plan calling application; and

and allocating the personnel and the materials according to the bearing capacity information and the plan calling application.

3. The method of claim 1, further comprising, after said deploying said personnel and said supplies based on said load bearing information and said inspection work plan:

and counting the allocated personnel and the materials, and updating the working state of the personnel and the using state of the materials.

4. The method of claim 1, further comprising, after the obtaining a shipping work plan:

detecting the state of the operation and detection environment to obtain operation and detection environment information; wherein the shipping environment status comprises a weather status;

and when the operation and inspection environment information is in a bad weather state, issuing a risk early warning.

5. The method of claim 1, further comprising, after said deploying said personnel and said supplies based on said load bearing information and said inspection work plan:

detecting the running state of the power grid equipment, and acquiring running and detecting data information;

and when the operation detection data information shows that the operation state of the power grid equipment is abnormal, sending a prompt signal.

6. The method according to claim 1, wherein the bearing capacity information is divided into three levels of information, namely red information, yellow information and blue information; the red information represents that the workload of the personnel and the materials is in a full load state, the yellow information represents that the workload of the personnel and the materials is in a heavy load state, and the blue information represents that the workload of the personnel and the materials is in a normal state;

wherein the allocating the personnel and the materials based on the bearing capacity information and the operation and maintenance work plan comprises:

and allocating the personnel and the materials based on the grade information.

7. The method of claim 6, wherein said deploying said personnel and said supplies based on said rating information comprises:

and allocating the corresponding personnel and the materials according to the sequence of the blue information, the yellow information and the red information.

8. A power grid operation and inspection command management device comprises:

the detection module is used for detecting the working state of personnel and the using state of materials and acquiring bearing capacity information; the bearing capacity information comprises the workload of people or materials which are born at present and the workload which can be born;

the planning module is used for acquiring a transportation and inspection work plan;

and the allocation module is used for allocating the personnel and the materials based on the bearing capacity information and the operation and inspection work plan.

9. A computer-readable storage medium, storing a computer program for executing the grid operation and inspection command and management method according to any one of claims 1 to 7.

10. An electronic device, the electronic device comprising:

a processor;

a memory for storing the processor-executable instructions;

the processor is used for executing the power grid operation and inspection command management method of any one of the claims 1 to 7.

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