CN106651653B - Intelligent power distribution network engineering auxiliary management system - Google Patents

Intelligent power distribution network engineering auxiliary management system Download PDF

Info

Publication number
CN106651653B
CN106651653B CN201611179400.9A CN201611179400A CN106651653B CN 106651653 B CN106651653 B CN 106651653B CN 201611179400 A CN201611179400 A CN 201611179400A CN 106651653 B CN106651653 B CN 106651653B
Authority
CN
China
Prior art keywords
equipment
plan
management
project
test
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201611179400.9A
Other languages
Chinese (zh)
Other versions
CN106651653A (en
Inventor
徐雄军
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
State Grid Corp of China SGCC
Xiaogan Power Supply Co of State Grid Hubei Electric Power Co Ltd
Original Assignee
State Grid Corp of China SGCC
Xiaogan Power Supply Co of State Grid Hubei Electric Power Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by State Grid Corp of China SGCC, Xiaogan Power Supply Co of State Grid Hubei Electric Power Co Ltd filed Critical State Grid Corp of China SGCC
Priority to CN201611179400.9A priority Critical patent/CN106651653B/en
Publication of CN106651653A publication Critical patent/CN106651653A/en
Application granted granted Critical
Publication of CN106651653B publication Critical patent/CN106651653B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Classifications

    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q50/00Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
    • G06Q50/06Energy or water supply
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q10/00Administration; Management
    • G06Q10/06Resources, workflows, human or project management; Enterprise or organisation planning; Enterprise or organisation modelling
    • G06Q10/063Operations research, analysis or management
    • G06Q10/0631Resource planning, allocation, distributing or scheduling for enterprises or organisations
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y04INFORMATION OR COMMUNICATION TECHNOLOGIES HAVING AN IMPACT ON OTHER TECHNOLOGY AREAS
    • Y04SSYSTEMS INTEGRATING TECHNOLOGIES RELATED TO POWER NETWORK OPERATION, COMMUNICATION OR INFORMATION TECHNOLOGIES FOR IMPROVING THE ELECTRICAL POWER GENERATION, TRANSMISSION, DISTRIBUTION, MANAGEMENT OR USAGE, i.e. SMART GRIDS
    • Y04S10/00Systems supporting electrical power generation, transmission or distribution
    • Y04S10/50Systems or methods supporting the power network operation or management, involving a certain degree of interaction with the load-side end user applications

Landscapes

  • Business, Economics & Management (AREA)
  • Human Resources & Organizations (AREA)
  • Engineering & Computer Science (AREA)
  • Economics (AREA)
  • Strategic Management (AREA)
  • Theoretical Computer Science (AREA)
  • Entrepreneurship & Innovation (AREA)
  • Health & Medical Sciences (AREA)
  • Marketing (AREA)
  • General Physics & Mathematics (AREA)
  • General Business, Economics & Management (AREA)
  • Tourism & Hospitality (AREA)
  • Physics & Mathematics (AREA)
  • Public Health (AREA)
  • Primary Health Care (AREA)
  • Water Supply & Treatment (AREA)
  • Development Economics (AREA)
  • Educational Administration (AREA)
  • General Health & Medical Sciences (AREA)
  • Game Theory and Decision Science (AREA)
  • Operations Research (AREA)
  • Quality & Reliability (AREA)
  • Management, Administration, Business Operations System, And Electronic Commerce (AREA)

Abstract

An engineering auxiliary management system for an intelligent power distribution network comprises: and the plan management module is used for dividing the intelligent power distribution network project total plan into a plurality of subsection projects according to regions and lines, and then subdividing the subsection projects into the subsection projects. And the material module is used for realizing material management by taking the double names of the equipment installation place and the equipment as a root directory. The test module is used for realizing warehouse test plan management and test report management; the relay protection constant value management module is used for setting fixed value network-hanging release, execution, acceptance and filing processes, and related personnel have respective authority; the automatic point table management module is used for formulating point table formulation, point table audit, on-site check, acceptance check and filing processes, and related personnel have respective authority; and the field operation module is used for field investigation and field investigation recording. The invention can automatically coordinate various links such as planning, material, setting value, automatic point table, warehouse debugging, test, data management and the like.

Description

Intelligent power distribution network engineering auxiliary management system
Technical Field
The invention relates to an intelligent management system for a power distribution network, in particular to an auxiliary management system for intelligent power distribution network engineering.
Background
The intelligent power distribution network is an important means for improving the power supply reliability of the city distribution network and is a necessary trend of the modernization development of the power system. In recent years, the construction of national intelligent power distribution networks presents a rapid development trend, the intelligent power distribution networks have large demonstration project scale and long period, the modification of the intelligent power distribution networks in urban areas of a city is usually as long as 1-2 years, related departments, equipment, materials and manufacturers far exceed the number of the prior distribution network projects, the workload is increased by multiple times, the engineering plan formulation difficulty is large, and the scale and complexity which are incomparable with other conventional engineering projects are achieved.
By taking the project scale of the intelligent power distribution network in the urban area of the Xiaogan city in Hubei province as an example, the project period is estimated to be 1 year and half, the project dynamic investment is 12581.69 ten thousand yuan, the project reconstruction area is 85 square kilometers, the project implementation equipment and the supporting material quantity are large, only the primary and secondary reconstruction parts of power distribution are involved, 605 newly added column switches, 8 ring network boxes, 986 newly added secondary terminals and 2035 new distribution line fault positioning devices are arranged, the number of the supporting iron parts of the main equipment is large, and the material models are different. The equipment models and manufacturers are different, the number of the on-pole circuit breaker manufacturers is up to 6, the number of the terminal manufacturers is 4, and the total number of the matched material manufacturers is 20. The bidding dates are not uniform, the equipment arrival dates are not uniform, part of materials arrive at different goods, the supply period is long, and the whole construction process of the smart power grid can be penetrated through. The goods and materials storage places are distributed and are respectively positioned in a strict bridge power distribution transportation and inspection room warehouse, a northern city leasing warehouse and a northern city 9 # warehouse. The storage location is not easy to find. Due to the fact that the arrival date is difficult to determine, the power failure plan is affected by the arrival of the equipment, and the planning control difficulty is increased.
The intelligent power distribution network project has the characteristics of long period, large scale and the like, and new equipment data, test reports and acceptance data are difficult to arrange. For historical reasons, distribution network fixed value management is relatively random compared with a main network, the flow and the standardization cannot reach the level of the main network, and the intelligent distribution network has higher requirements on fault positioning, self-healing and the like, so that the secondary terminal fixed value requirements are aligned according to the level of the main network fixed value management, and the flow of setting, executing and filing of the fixed value needs to be standardized urgently during the implementation of the intelligent distribution network engineering. Similar to constant-value management, automated point table management faces the same problems. Therefore, by adopting a conventional project management method, the smooth implementation of the project of the intelligent power distribution network cannot be guaranteed, and even the phenomena of break-up, repeated power failure, delayed power transmission, equipment installation and debugging quality, incomplete project data and the like can occur. In order to ensure that the demonstration project of the intelligent power distribution network is smoothly and efficiently promoted according to a plan, meanwhile, for summarizing a set of engineering management experience of the intelligent power distribution network, the problem in the demonstration engineering management of the intelligent power distribution network is taken as a guide, a management method is innovated, manual management to intelligent management is gradually realized, and a set of engineering management system is built around the demonstration project of the intelligent power distribution network.
Disclosure of Invention
The invention provides an intelligent power distribution network engineering auxiliary management system which can automatically coordinate various links such as planning, material, setting value, automatic point table, warehouse debugging, testing, data management and the like.
The technical scheme adopted by the invention is as follows:
an engineering auxiliary management system for an intelligent power distribution network comprises:
the plan management module is used for dividing the intelligent power distribution network project total plan into a plurality of sub projects according to regions and lines, then refining the sub projects into sub projects, wherein the sub projects are divided according to power failure at the same time in principle, and finally are embodied to a single executable installation site;
the material module is used for realizing material management by taking the equipment installation site and the double names of the equipment as root directories, establishing a material in-out management flow, having a material complete set combination function and a warehouse material positioning function;
the test module is used for realizing the test plan management and the test report management of the warehouse material equipment;
the relay protection constant value management module is used for setting fixed value network-hanging release, execution, acceptance and filing processes, and related personnel have respective authority;
the automatic point table management module is used for formulating point table formulation, point table audit, on-site check, acceptance check and filing processes, and related personnel have respective authority;
and the field operation module is used for field investigation, uploading of field investigation records, power failure, field operation, uploading of standardized operation process cards, field acceptance, uploading of field acceptance records and field completion.
The plan management module comprises a plan basic interface, plan attributes, a plan flow and an intelligent alarm;
the plan basic interface comprises a graphic interface and a menu interface, and the graphic takes a geographic map as a base map to display progress and plan; the plan attributes include:
a. and (3) overall planning: completing progress display, completing installation site plan, completing project plan of subsection, and making plan display; importing a geographical location map; correspondingly displaying; the visual management of project plan and progress is realized;
b. the branch project plan, the limiting factor: warehousing materials, testing and debugging, testing reports, setting values and counting tables;
c. project planning, restriction factors: warehousing materials, testing and debugging, testing reports, setting values and counting tables;
d. installation site planning, limiting factors: whether power is off or not, power off numbering, material warehousing, test debugging, test report, value setting and table counting;
the intelligent warning comprises:
a. distinguishing colors;
b. the same power failure numbering equipment of the same project is scheduled at the same time, if the power failure numbering equipment is scheduled respectively, the power failure is regarded as repeated power failure, and automatic statistics is carried out;
c. in the same project, when only 1/3 plans to be impossible, the system should automatically perform a pop-up window early warning and find out the reason for the impossibility.
The material module includes:
1) establishing a menu:
the method comprises the following steps of sequentially improving the subsequent processes after warehousing, namely, a serial number, a material name, an installation place, an equipment double name, a unique serial number, a subsection project, a material model, a unit, a manufacturer, a use quantity, a goods quantity and remarks, wherein the basic machine account is formed by the serial number, the material name, the installation place, the equipment double name, the unique serial number and the remarks;
2) inputting all equipment data:
inputting all materials according to the menu content to form a basic library;
3) and equipment flow:
setting the process as no storage and distinguishing colors; warehousing: color distinction, increased equipment storage places and import accessories; testing and debugging: distinguishing colors; and (3) completing test debugging: the color is distinguished and the storage place of the equipment is increased, and accessories can be introduced; and (4) a delivery area: color distinguishing, equipment storage places, test reports, factory information and factory equipment numbers are added, and accessories can be imported; shipment and field installation power transmission;
4) and (4) intelligent warning:
a. after equipment is put in storage at the same installation place or only 1 piece of equipment is not in stock, the system can remind through a popup window or remind after a button is pressed. Reminding the user to schedule or urge a good;
b, when equipment in the same installation site is debugged or only 1 piece of equipment is not debugged, the system can remind through a popup window or remind after a button, and can schedule or urge goods;
and C, after the same project equipment is put in storage or only 1 installation site equipment is not in stock, the system can remind through a popup window or remind through a button. Reminding the user to schedule or urge a good;
d, when the same project equipment is debugged or only 1 piece of equipment is not debugged, the system can remind through a popup window or after a button is pressed. Reminding the user to schedule or urge a good;
e, after the same subsection engineering equipment is put in storage or only 1 subsection engineering equipment is not in stock, the system can remind through a popup window or remind after a button is pressed. Reminding the user to schedule or urge a good;
f, when the same subsection engineering equipment is debugged or only 1 subsection engineering equipment is not debugged, the system can remind through a popup window or after a button is pressed. Reminding the user to schedule or urge a good;
g, color discrimination: warehousing, testing, planning, ex-warehouse and data;
h, automatically subtracting the using quantity from the inventory quantity of a certain installation site after scheduling;
i, reserving a two-dimension code menu;
j adds the purchasing date and purchasing basis of material purchasing (yes and no);
k replacement of materials, and replacement of the materials with other types of equipment when the materials are not delivered.
The test module comprises:
1) establishing a menu:
the method comprises the following steps of (1) equipment installation place, subsection project, equipment model, manufacturer, fixed value, test report and point table;
2) test week planning and week completion;
3) reporting an auditing process, editing, uploading, sending to an auditor, passing or returning the signature of the auditor, and sending to an installation department;
test report flow:
Figure BDA0001184781090000041
the test plan flow comprises the following steps:
Figure BDA0001184781090000042
the relay protection constant value management module comprises:
1) catalog: the installation place of the equipment, the model number of the secondary equipment, the version number and the fixed value list;
2) the process comprises the following steps: fixed value screening and publishing, fixed value execution, fixed value acceptance and verification and fixed value filing;
Figure BDA0001184781090000043
the automatic point list management module comprises:
1) catalog: the installation place of the equipment, the model number of the secondary equipment, the version number and the point table;
2) the process comprises the following steps: point table formulation, point table audit, point table check, point table acceptance check and point table filing;
Figure BDA0001184781090000044
the invention discloses an auxiliary management system for intelligent power distribution network engineering, which has the advantages that:
1: the invention decomposes the whole construction plan of the intelligent power distribution network project into partial projects and project projects for management, the implementation scheme is regionalized and modularized, and the power failure plan is formulated for regionalized management, thereby realizing scientific plan formulation and rigid plan implementation. The labor cost and the management cost are reduced.
2: according to the intelligent power distribution network engineering material management system, the intelligent power distribution network engineering material management is innovatively managed by using a material complete set method, all equipment and matched materials needing to be installed in the site are uniformly numbered and managed by taking the equipment installation site as a unit according to the characteristics of multiple distribution network equipment, multiple models, multiple manufacturers, inconsistent arrival periods and the like, the equipment is subjected to ordering, warehousing, testing, debugging and ex-warehouse standard management, intelligent urging for goods is realized, and the conditions of equipment disordering, material mismatching and the like are avoided. Standardize material management level, reduced artifical labour cost and administrative cost.
3: the intelligent power distribution network engineering is innovatively used for warehouse tests, the system is used for standardizing test plans, test flows, test report archiving and the like, the test flows are standardized, and the manual labor cost and the management cost are reduced.
4: the invention standardizes the constant value management and the point table management of the intelligent power distribution network, standardizes the flow, improves the data management level and reduces the labor cost and the management cost.
5: the invention has the function of basic database management. Data can be imported and exported in batches according to a fixed template, documents such as EXCEL, WORD, PDF, pictures and the like can be imported, machine accounts such as relay protection fixed values, automatic point table management machine accounts, subsection project area diagrams and the like are established, and meanwhile systematic management of project data is achieved.
Drawings
FIG. 1 is a plan base interface menu diagram of the present invention.
FIG. 2 is a schematic plan flow diagram of the present invention.
Detailed Description
The utility model provides a supplementary management system of intelligent power distribution network engineering, explains with the intelligent power distribution network engineering in the fulminant urban district of xiao nationality as an example:
1. a plan management module: the method is characterized in that the demonstration engineering characteristics of the intelligent power distribution network are combined, a power distribution network engineering general plan is divided into 40 sub-projects according to regions and lines, the sub-projects are refined into sub-projects, the sub-projects are divided according to simultaneous power failure in principle, and finally the sub-projects are specifically arranged in a single executable installation place. The combined part of the engineering work is too large, and the part of unimportant users have power failure for 2 times.
1) The plan basis interface, the sub-graphical interface and the menu interface, the menu is shown in fig. 1.
2) The attributes are as follows:
a. and (4) overall planning. The regional overall project is firstly decomposed, the project is divided into a plurality of sub projects according to lines and geographical regions, and then the sub projects are decomposed into sub projects according to the conditions of power failure and uninterrupted power supply. And all the branch projects and the project projects are used as basic data input systems.
And the project plan and progress visualization are realized. Firstly, the geographical map is taken as a base map, then installation places in the branch projects and the project are associated with the geographical map, and the unplanned projects, the generated projects and the completed projects are marked by different colors respectively, so that the progress and plan display is realized, and the effect of visualizing the project progress is achieved.
b. And (5) branch engineering planning. The negative link of the generation and formulation of the project plan of the subsection mainly comprises that all materials of the project of the subsection are not put in storage and are not delivered, a warehouse debugging test is not carried out after the materials are delivered, the debugging is unqualified or no test report is given after the debugging, a terminal equipment fixed value list issued by scheduling is not available, an automatic point table which is checked is not available, and the site survey or the site survey before the equipment is installed is not in accordance with the design.
c. And (5) project planning. The negative link of the generation and formulation of the project plan mainly comprises that all materials of the project are not put in storage and are not delivered, after the materials are delivered, warehouse debugging tests are not carried out, after debugging, debugging is unqualified or no test report is provided, terminal equipment fixed value lists issued by scheduling are not provided, an automatic point list is not checked, and field investigation or field investigation and design are not met before equipment installation is not carried out.
d. And planning an installation site. The negative link of plan generation and formulation of the installation site mainly comprises that all materials in the installation site are not put in storage or are not delivered, a warehouse debugging test is not carried out after the materials are delivered, unqualified debugging or no test report is carried out after debugging, a terminal equipment fixed value list issued by scheduling is not available, an automatic point table which is checked is not available, and field investigation or field investigation and design are not met before equipment installation is not carried out.
3) Planning the flow, as shown in fig. 2.
A plan generation flow:
a. and all the branch projects and the project projects are used as basic data input systems.
b. And when all the generation plan conditions of a certain installation site are met, namely no generation plan rejection condition exists, the plan of the installation site meets the generation conditions. And when the plan of the installation site is implemented, the plan is automatically closed and the installation site is filed completely.
c. And when all installation sites in a certain project meet the generation plan condition, the project plan meets the generation condition. And when the project plan is finished, the project plan is automatically closed and the project plan is filed completely.
d. And when all the project items in a certain project item meet the generation plan condition, the project item plan meets the generation condition. And when the project plan is finished, the project plan is automatically closed and the project plan is filed completely.
Planning a negative link:
a. when any rejection link exists in a certain installation place, the plan of the installation place does not meet the generation condition. The negative link mainly comprises that all materials in the installation site are not put in storage and are not delivered, a warehouse debugging test is not carried out after the materials are delivered, a unqualified debugging or no test report is carried out after the debugging, a terminal equipment fixed value list issued by scheduling is not available, an automatic point table which is checked is not available, and field investigation or field investigation and design before the equipment is installed are not met.
b. And when any installation site in a certain project does not meet the plan generation condition, the project does not meet the plan generation condition.
c. And when any project in a certain subsection does not meet the plan generation condition, the subsection does not meet the plan generation condition.
4) And (4) intelligent warning:
a. and (5) color discrimination. The method is used for distinguishing plans in all installation places, project divisions and project divisions from plans in which the generation conditions are met, the generation conditions are not met, the plans are in execution and the finished plans are in different colors, and has a retrieval function.
b. The same power failure numbering equipment in the same project is scheduled at the same time, if the power failure numbering equipment is scheduled respectively, the power failure is regarded as repeated power failure, and automatic statistics is carried out.
c. In the same project, when only 1/3 plans to be impossible, the system should automatically perform a pop-up window early warning and find out the reason for the impossibility.
2. The material module: the system realizes material management by taking the double names of equipment installation places and equipment as root directories, establishes a material warehousing and ex-warehouse management process, has a complete material combination function, and has a warehouse material positioning function.
1) Establishing a menu:
the system comprises a serial number, a material name, an installation place, an equipment double name, a unique number, a subsection project, a material model, a unit (platform, individual type), a manufacturer, a use quantity, a goods quantity and remarks, wherein the serial number, the material name, the installation place, the equipment double name, the unique number, the subsection project, the material model, the unit (platform, individual type), the manufacturer, the. And other subsequent processes after warehousing are successively improved.
2) Input all device data:
and inputting all materials according to the menu content to form a basic library.
3) The equipment flow comprises the following steps:
the process is set as non-warehousing (color differentiation), warehousing (color differentiation, equipment storage places increase and accessories can be introduced), test debugging (color differentiation), test debugging completion (color differentiation increases and accessories can be introduced), a delivery area (color differentiation, equipment storage places increase, test reports, delivery data, equipment delivery serial numbers can be introduced, accessories can be introduced), delivery and field installation power transmission.
Figure BDA0001184781090000071
4) And (4) intelligent warning:
and a, after equipment is put in storage at the same installation place or only 1 piece of equipment is not in stock, the system can remind through a popup window or remind after a button is pressed. The reminder may schedule or urge the shipment.
b, when the equipment in the same installation place is debugged or only 1 piece of equipment is not debugged, the system can remind through a popup window or after a button is pressed. The reminder may schedule or urge the shipment.
And C, after the same project equipment is put in storage or only 1 installation site equipment is not in stock, the system can remind through a popup window or remind through a button. The reminder may schedule or urge the shipment.
d, when the same project equipment is debugged or only 1 piece of equipment is not debugged, the system can remind through a popup window or after a button is pressed. The reminder may schedule or urge the shipment.
e, after the same subsection engineering equipment is put in storage or only 1 subsection engineering equipment is not in stock, the system can remind through a popup window or remind after a button is pressed. The reminder may schedule or urge the shipment.
f, when the same subsection engineering equipment is debugged or only 1 subsection engineering equipment is not debugged, the system can remind through a popup window or after a button is pressed. The reminder may schedule or urge the shipment.
g color differentiation (warehousing, testing, scheduling, ex-warehouse, data).
h the stock quantity of a certain installation site is automatically subtracted by the use quantity after scheduling.
And i, reserving a two-dimension code menu.
j adds the purchasing date and purchasing basis of material purchasing (yes and no).
k replacement of materials, and replacement of the materials with other types of equipment when the materials are not delivered.
3. Test module
1) Establishing a menu:
firstly, the equipment and materials which are put in storage are taken as basic data, then the equipment which is put in storage is classified into the equipment which needs to be tested and the equipment which does not need to be tested, and the equipment or materials which need to be tested automatically generate a test standing book. The test ledger also needs to set catalogs such as test equipment model, equipment manufacturer, test date, equipment number, whether qualified, test report uploading and the like.
2) Test procedure
And selecting automatically generated equipment or materials with a formulated test plan according to the general primary plan of the monthly project to generate a test week plan. And debugging test work is carried out by the test group according to the test plan, after the test is qualified, a test report is compiled, after the qualified process is passed, the test is completed, and the equipment is brought into tested equipment. This type of equipment is tested within the engineering planning process to overrule condition exclusions.
The test plan flow comprises the following steps:
Figure BDA0001184781090000081
3) and reporting the audit process, wherein after the test report editor edits the test report, the test report is uploaded to the system, enters the test report process and is sent to the test report auditor, and after the audit is qualified, the signature passes and is sent to the equipment installation department to form data archiving.
Test report flow:
Figure BDA0001184781090000082
4. the relay protection constant value management module:
1) establishing a menu:
and formulating a relay protection fixed value management module menu according to all equipment installation sites in the general project, wherein the menu comprises equipment double names, equipment installation sites, terminal models, terminal versions, fixed value single numbers, setting dates, execution dates and the like.
2) A fixed value planning process: and the fixed value setting personnel perform fixed value setting on all equipment in the schedule by the relay protection fixed value setting personnel according to the general primary schedule of the monthly project, and after the setting is uploaded, the equipment which has finished the fixed value setting is excluded from the set negative condition in the project schedule flow.
3) A fixed value process:
after the relay protection constant value setting personnel complete setting, the relay protection constant value setting personnel uploads the set value to the system, enters a constant value process, sends the set value to a constant value auditor, passes the signature after the audit is qualified, sends the signature to a constant value executive personnel, and jointly checks and accepts with operating personnel after the execution is completed to form data filing.
Figure BDA0001184781090000091
5. The automatic point table management module:
1) establishing a menu:
and formulating an automatic point table management module menu according to all equipment installation places in the general project, wherein the menu comprises equipment double names, equipment installation places, terminal models, terminal versions, point table numbers, formulated dates, checked dates and the like.
2) And (3) dot table planning flow: and the automatic point table customizing personnel performs point table customizing on all equipment in the plan according to the general primary plan of the monthly project, and after the point table customizing is uploaded, the rejection of the point table rejection conditions of the equipment which finishes the point table customizing in the project plan flow is performed.
3) And (4) point list flow:
after the automatic order list customizing personnel formulate an order list, the order list is uploaded to a system and enters an order list process and is sent to an order list auditor, after the audit is qualified, the signature passes and is sent to an automatic order list checking personnel, and after the execution is finished, the automatic order list customizing personnel check and accept with operating personnel together to form data filing.
Figure BDA0001184781090000092
6. A field operation module:
1) establishing a menu:
and formulating a field installation menu according to all equipment installation sites in the general project, wherein the menu comprises equipment double names, equipment installation sites, field survey plan uploading, field standardized operation instruction card uploading, field start time, acceptance check, field completion time and filing.
2) And (3) field installation planning process: the on-site survey plan is carried out according to the general primary plan of the lunar project, on-site survey personnel carry out on-site survey on all equipment in the plan, and after on-site survey records or pictures are uploaded, the on-site survey is finished and qualified equipment is rejected in the on-site survey in the project plan flow.
3) And (3) field flow:
after the on-site investigation is finished, uploading the data to a system, after a concrete project plan is made, starting the work on the site, uploading a standardized operation guide card, after the on-site implementation is finished, after the acceptance is qualified, finishing the on-site completion and filing, and simultaneously finishing the project plan.
Figure BDA0001184781090000093
The intelligent power distribution network engineering auxiliary management system realizes intelligent management of project division of the intelligent power distribution network, complete management of materials and materials, test flow management and data systematization management. The management level is improved, and the labor cost and the management cost are reduced. It has the following characteristics:
(1) the system is not limited to material management, plan management, project management or operation and maintenance management, and is guided to solve the problem in the implementation process of the intelligent power distribution network project, and the system spans distribution network material, plan, project and operation and maintenance management.
(2) The project progress display system is clear by taking the plan management module as a core. The system takes a plan management module as a core, and a material module, a test module, a fixed value module, a point table module and a field installation module are built around the plan management module, so that the implementation of a plan is restricted, and the independence of the modules is not lost.
(3) According to the particularity of power distribution network engineering, the problems of more materials, more types, more manufacturers, long supply period and the like, a material complete management method is initiatively adopted, all equipment and materials in the site are uniquely numbered by taking an equipment installation site as a unit, and unique numbering management is started from equipment warehouse-out. Avoid the situations of incomplete equipment and materials, disorder, fire protection and the like.
(4) According to the general plan of the regional project, the project is divided into a plurality of sub projects, the sub projects are divided according to the principle of the transmission line and the region, the sub projects are divided into sub projects according to the power failure time and the power failure range, and the sub projects comprise a plurality of equipment installation places. And the project plan, progress visualization and graphic display are realized.
(5) The full-data engineering equipment material module overcomes the long-term offline manual recording defect, and is convenient for real-time data sharing and warehouse entry and exit process management.
(6) All module functions are expressed in a list form, related contents can be searched and counted according to specified fields, and the searching is convenient and visual.
(7) The personalized warning function design has a material reminding function, the complete set of materials is automatically combined, color reminding and window reminding are carried out, the rationality and the performability of plan making are ensured, and the equipment of a manufacturer can be purposefully promoted to arrive according to a reminding window.
(8) Historical records of the data editing process can be checked, and responsibility tracing is achieved. Most data are filled in by adopting a pull-down menu with a limited range, so that the data can be conveniently input, and meanwhile, the data normalization can be ensured.
(9) Possesses basic database management function. Data can be imported and exported in batches according to a fixed template, documents such as EXCEL, WORD, PDF, pictures and the like can be imported, machine accounts such as relay protection fixed values, automatic point table management machine accounts, subsection project area diagrams and the like are established, and meanwhile systematic management of project data is achieved.
Taking the data management of the installation place of the breaker on one column of the intelligent power distribution network project as an example to calculate:
1. the total time consumption of work is shortened:
taking the filial sensation intelligent power distribution network engineering as an example, according to measurement and calculation, the installation site of a pole-mounted circuit breaker has about 15 types of equipment and materials, the cleaning of the complete equipment and material delivery data needs 3 hours for sorting and printing, the matching of test data needs 3 hours, and the matching of fixed value and point table and other data (the matching of fixed value fixed member and point table maker) needs 3 hours and 9 hours. After the system is used, the data is managed systematically and uniformly, and the total time of arranging the data, printing the data, collecting the data and packaging the data is 3 hours. Greatly shortening the data sorting time.
2. Labor cost expenditure is saved:
the data sorting work generally needs 2 data workers, 1 debugger, 1 constant value setter and 1 automatic point table maker. After the method is implemented, only 1 data worker is needed, the calculation is carried out according to the labor cost of 100 yuan per 3-hour working day, and after the method is implemented, the labor cost is saved by about 400 yuan due to the arrangement of the data of the installation place of the on-pole circuit breaker.

Claims (1)

1. The utility model provides a supplementary management system of intelligent power distribution network engineering which characterized in that includes:
the plan management module is used for dividing the intelligent power distribution network project total plan into a plurality of sub projects according to regions and lines, then refining the sub projects into sub projects, wherein the sub projects are divided according to power failure at the same time, and finally, the sub projects are embodied to a single executable installation site;
the material module is used for realizing material management by taking the equipment installation site and the double names of the equipment as root directories, establishing a material in-out management flow, having a material complete set combination function and a warehouse material positioning function;
the test module is used for realizing warehouse test plan management and test report management;
the relay protection constant value management module is used for setting fixed value network-hanging release, execution, acceptance and filing processes, and related personnel have respective authority;
the automatic point table management module is used for point table formulation, point table audit, field check, acceptance check and filing processes, and related personnel have respective authority;
the field operation module is used for field investigation, uploading field investigation records, power failure, field operation, uploading standardized operation process cards, field acceptance, uploading field acceptance records and completing the field;
the plan management module comprises a plan basic interface, plan attributes, a plan flow and an intelligent alarm;
the plan basic interface comprises a graphic interface and a menu interface, and the graphic takes a geographic map as a base map to display progress and plan;
the plan attributes include:
a. and (3) overall planning: completing progress display, completing installation site plan, completing project plan of subsection, and making plan display; importing a geographical location map; correspondingly displaying; the visual management of project plan and progress is realized;
b. the branch project plan, the limiting factor: warehousing materials, testing and debugging, testing reports, setting values and counting tables;
c. project planning, restriction factors: warehousing materials, testing and debugging, testing reports, setting values and counting tables;
d. installation site planning, limiting factors: whether power is off or not, power off numbering, material warehousing, test debugging, test report, value setting and table counting;
the intelligent warning comprises:
a. distinguishing colors;
b. the same power failure numbering equipment of the same project is scheduled at the same time, if the power failure numbering equipment is scheduled respectively, the power failure is regarded as repeated power failure, and automatic statistics is carried out;
c. in the same project, when only 1/3 plans to be excluded, automatic pop-up window early warning is required, and the reason for the exclusion is found out;
the material module includes:
1) establishing a menu:
the system comprises a serial number, material names, installation places, equipment double names, unique numbers, subsection projects, project projects, material models, units, manufacturers, use numbers, arrival quantity and remarks;
2) inputting all equipment data:
inputting all materials according to the menu content to form a basic library;
3) and equipment flow:
setting the process as no storage and distinguishing colors; warehousing: color distinction, increased equipment storage places and import accessories; testing and debugging: distinguishing colors; and (3) completing test debugging: color distinction, increased equipment storage places and import accessories; and (4) a delivery area: color distinguishing, equipment storage places, test reports, factory information and factory equipment numbers are added, and accessories can be imported; shipment and field installation power transmission;
4) and (4) intelligent warning:
a. after equipment is put in storage at the same installation site or only 1 piece of equipment is not in stock, the system can remind through a popup window or remind after a button is pressed;
reminding the user to schedule or urge a good;
b, when equipment in the same installation site is debugged or only 1 piece of equipment is not debugged, the system can remind through a popup window or remind after a button, and can schedule or urge goods;
c, after warehousing of the same project equipment is finished or only 1 installation site equipment is not in stock, the system can remind through a popup window or after a button is pressed;
reminding the user to schedule or urge a good;
d, when the same project equipment is debugged or only 1 piece of equipment is not debugged, the system can remind by popping up a window or reminding after pressing a button;
reminding the user to schedule or urge a good;
e, after the same subsection engineering equipment is put in storage or only 1 subsection engineering equipment is not in stock, the system can remind through a popup window or remind after a button is pressed;
reminding the user to schedule or urge a good;
f, when the same subsection engineering equipment is debugged or only 1 subsection engineering equipment is not debugged, the system can remind through a popup window or after a button is pressed;
reminding the user to schedule or urge a good;
g, color discrimination: warehousing, testing, planning, ex-warehouse and data;
h, automatically subtracting the using quantity from the inventory quantity of a certain installation site after scheduling;
i, reserving a two-dimension code menu;
j, adding material purchasing, purchasing date and purchasing basis;
k, replacing materials, namely replacing the materials with other types of equipment when the materials are not delivered;
the test module comprises:
1) establishing a menu:
the method comprises the following steps of (1) equipment installation place, subsection project, equipment model, manufacturer, fixed value, test report and point table;
2) test week planning and week completion;
3) reporting an auditing process, editing, uploading, sending to an auditor, passing or returning the signature of the auditor, and sending to an installation department;
the relay protection constant value management module comprises:
1) catalog: the installation place of the equipment, the model number of the secondary equipment, the version number and the fixed value list;
2) the process comprises the following steps: fixed value screening and publishing, fixed value execution, fixed value acceptance and verification and fixed value filing;
the automatic point list management module comprises:
1) catalog: the installation place of the equipment, the model number of the secondary equipment, the version number and the point table;
2) the process comprises the following steps: point table formulation, point table audit, point table field check, point table acceptance check and point table filing.
CN201611179400.9A 2016-12-19 2016-12-19 Intelligent power distribution network engineering auxiliary management system Active CN106651653B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201611179400.9A CN106651653B (en) 2016-12-19 2016-12-19 Intelligent power distribution network engineering auxiliary management system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201611179400.9A CN106651653B (en) 2016-12-19 2016-12-19 Intelligent power distribution network engineering auxiliary management system

Publications (2)

Publication Number Publication Date
CN106651653A CN106651653A (en) 2017-05-10
CN106651653B true CN106651653B (en) 2021-05-04

Family

ID=58834913

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201611179400.9A Active CN106651653B (en) 2016-12-19 2016-12-19 Intelligent power distribution network engineering auxiliary management system

Country Status (1)

Country Link
CN (1) CN106651653B (en)

Families Citing this family (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109740835A (en) * 2018-11-14 2019-05-10 遵义华正电缆桥架有限公司 A kind of power construction command system
CN109977388B (en) * 2019-03-29 2023-04-18 云南电网有限责任公司普洱供电局 Remote signaling point table automatic generation method and tool based on electric main wiring diagram identification
CN110838004A (en) * 2019-11-08 2020-02-25 广西电网有限责任公司贵港供电局 Intelligent switch debugging system of power distribution network
CN112101815A (en) * 2020-09-25 2020-12-18 贵州电网有限责任公司 Construction management visualization system for capital construction distribution network project
CN113110263A (en) * 2021-05-24 2021-07-13 国网湖北省电力有限公司直流运检公司 Intelligent management and control system for operation and inspection operation of converter station
CN113960174A (en) * 2021-08-30 2022-01-21 国网浙江省电力有限公司台州供电公司 Power transmission and transformation project foundation construction quality monitoring system

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104537452A (en) * 2014-11-04 2015-04-22 无锡鹰智科技有限公司 Electric power project computer management system
CN108320127A (en) * 2017-12-20 2018-07-24 国网山东省电力公司聊城供电公司 A kind of power engineering term computer management system

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB0117784D0 (en) * 2001-07-20 2001-09-12 Start Global Ltd Improvements relating to process control
CN104008442A (en) * 2014-05-07 2014-08-27 南京工程学院 Power distribution network visual platform construction method based on SG-CIM
CN104700192A (en) * 2014-11-03 2015-06-10 国网浙江省电力公司嘉兴供电公司 Aided intelligent management and control system for power transmission and transformation project and management and control method thereof
CN105373875A (en) * 2015-08-26 2016-03-02 吕曼 Intelligent engineering construction project management system

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104537452A (en) * 2014-11-04 2015-04-22 无锡鹰智科技有限公司 Electric power project computer management system
CN108320127A (en) * 2017-12-20 2018-07-24 国网山东省电力公司聊城供电公司 A kind of power engineering term computer management system

Also Published As

Publication number Publication date
CN106651653A (en) 2017-05-10

Similar Documents

Publication Publication Date Title
CN106651653B (en) Intelligent power distribution network engineering auxiliary management system
CN112508417A (en) Civil aviation professional engineering general contract project management system based on BIM technology
CN108229782B (en) Cloud-based visual production management platform
CN109118123B (en) BIM management method for evaluating construction quality of water conservancy and hydropower engineering
CN110659822A (en) Intelligent information monitoring and management system for transformer substation
CN102117444A (en) System for comprehensive arrangement and execution management of production equipment maintenance plan
CN109359900A (en) A kind of inspection management platform
KR20100048449A (en) Method of standardizing management of planned outages in classified type of nuclear power plant
CN103942726A (en) Intelligent inspection method for condition evaluation work of power grid equipment
CN113870047A (en) Power engineering management and control system
CN112446608A (en) OEE and Andon safety lamp management system and working method thereof
CN115097376B (en) Processing method and device for check data of metering equipment and computer equipment
CN115330404A (en) System and method for electric power marketing inspection
CN114186955A (en) Standardized management system for safety production
CN113919801A (en) Matrix type task management model-based EPC project management platform and method
CN201974848U (en) Management system for comprehensively arranging and executing maintenance plan of production equipment
Skoogh et al. Time-consumption analysis of input data activities in discrete event simulation projects
CN116050693A (en) Nuclear power building construction management system
CN115204832A (en) Full-flow electrical construction process monitoring method and system
Kletti et al. Application Concept–Horizontal and Vertical Integration
Hwang et al. The development of a quality cost model in a telecommunications company
Takatsu et al. Key Points for Utilizing Digital Technologies at Manufacturing and Maintenance Sites
CN114819219B (en) Maintenance plan generation method, maintenance plan generation device, and nonvolatile storage medium
Drożdż et al. The use of IT systems in the power industry on the example of the Polish Electricity Distribution System Operator
Yung et al. A mechanism for the integration of TQM and MRPII

Legal Events

Date Code Title Description
PB01 Publication
PB01 Publication
SE01 Entry into force of request for substantive examination
SE01 Entry into force of request for substantive examination
GR01 Patent grant
GR01 Patent grant