CN109710696B - System and method for power equipment checking and transaction moving operation - Google Patents

Abstract

The present disclosure provides a system and method for power equipment checking and transaction moving operation, including: the system comprises a handheld mobile terminal, a web master station terminal, a PASS service platform, a GIS1.6 system and a PMS2.0 system; a palm operation inspection mobile operation platform based on the unified push of the national network operation inspection part creates a set of APP operation platform based on the operation and distribution data inspection and transaction of a mobile terminal, and the operation and distribution work order is initiated, received and implemented in the inspection tour of medium-voltage (transformers, towers, station houses, lines and the like) daily equipment, so that the timeliness and the accuracy of operation and distribution information transaction are improved, and daily operation and distribution business are realized.

Description

System and method for power equipment checking and transaction moving operation

Technical Field

The present disclosure relates to the field of power system mobile operation technologies, and in particular, to a system and method for power equipment checking and transaction mobile operation.

Background

The PMS2.0 system is also called an asset (equipment) operation and maintenance lean management system, deepens and combines a scheduling system, a marketing system and an EPR system, takes state maintenance work as a core, promotes optimization of a business process, and ensures standard management of assets (equipment). The power grid GIS1.6 system is a geographic information system which is specially marked for geographic information of power equipment in a power system.

In the face of the daily and monthly transaction requirements of field equipment, the problem that the ledger and graphic data of the system are inconsistent with the field is increasingly prominent, and the requirements of business application and lean management cannot be met. The traditional data verification is mainly based on a system, and is not really combined with the actual situation of the field, so that the field data verification and the transaction work are required to be carried out in order to keep the system data consistent with the situation of the field equipment.

At present, system data and field data are difficult to check, the method is old, the traditional data check mostly takes the professional experience as the main part, and the one-to-one check of a graph of a system along a step graph and field equipment cannot be realized. When equipment is abnormal, professionals need to adjust graphic information in a PMS2.0 system or a power grid GIS1.6 system in an abnormal flow process, and the data quality of an input system is poor due to the fact that field data cannot be visually compared. And because the PMS2.0 system and the power grid GIS1.6 system are intranet systems, the mobile application end connected with the extranet is generally not easy to access data of the PMS2.0 system and the power grid GIS1.6 system, and data in the power grid GIS1.6 system is marked for geographic information of power system equipment, so that when a worker performs practical application, the worker cannot directly utilize the data in the power grid GIS1.6 system to perform operations such as map navigation, and the like, and is inconvenient in practical application.

Disclosure of Invention

In order to solve the defects of the prior art, the system and the method for the power equipment checking and transaction mobile operation are provided, data can be synchronously updated to the system while field equipment is checked and transaction work is carried out, data in a power grid GIS1.6 system and actual map data can be fused and used by a handheld mobile terminal, and convenience and rapidness are achieved.

A system for electrical equipment verification and transaction movement activities, comprising: the system comprises a handheld mobile terminal, a web master station terminal, a PASS service platform, a power grid GIS1.6 system and a PMS2.0 system;

the web master station end and the handheld mobile end transmit data through the PASS service platform;

the power grid GIS1.6 system and the PMS2.0 system both transmit data with the PASS service platform;

the web master station end is used for generating a checking task, auditing and issuing the checking task, supervising a task execution process, auditing a transaction result and synchronizing transaction data to the PASS service platform;

the handheld mobile terminal is used for downloading and checking a checking task from the PASS service platform, recording data of the checking and transaction electric power equipment on site, checking and uploading the data of the checking and transaction electric power equipment;

and the PASS service platform is used for synchronizing transaction data to the power grid GIS1.6 system and the PMS2.0 system.

Further, the PASS service platform acquires station accounts of in-station equipment, station accounts of out-station equipment, station accounts of public equipment, number of nameplates and outline data in the PMS2.0 system;

the station internal equipment account, the station external equipment account, the public equipment account, the number of nameplates and the outline data can be displayed through the handheld mobile terminal;

the PASS service platform acquires primitives, topological relations and equipment coordinate data of in-station equipment graphs, out-station equipment graphs and public equipment graphs of a power grid GIS1.6 system;

the graphics of the in-station equipment, the graphics of the out-station equipment, the graphic primitives of the public equipment, the topological relation and the equipment coordinate data can be displayed through the handheld mobile terminal.

Further, the PMS2.0 system encrypts equipment standing book data to generate a data file with a specified format, and the data file is sent to the handheld mobile terminal through the PASS service platform;

the power grid GIS1.6 system encrypts the equipment graphic data, performs nonlinear encryption processing on all equipment coordinate data to generate a data file with a specified format, and sends the data file to the handheld mobile terminal through the PASS service platform.

Furthermore, the handheld mobile terminal modifies the in-station equipment ledger and synchronizes to the web master station terminal, and the web master station terminal synchronizes and updates data of the related equipment attribute related to modification to the PMS2.0 system through the PASS service platform;

and the handheld mobile terminal modifies the graphic data of the equipment in the station and then synchronizes the graphic data to the web master station terminal, and the web master station terminal synchronously updates data of the related equipment attribute related to modification to the power grid GIS1.6 system through the PASS service platform.

Further, a mobile terminal geographic GIS of the handheld mobile terminal loads vector data of a power grid GIS1.6 derived device layer, so that the device layer can accurately display a device address and inquire a positioning device address at the handheld mobile terminal;

the handheld mobile terminal can control and select the equipment layer, so that the information of the equipment type is hidden or displayed;

the handheld mobile terminal can load image data and vector data on the geographic GIS of the mobile terminal and can perform operations of checking, scaling up, reducing, clicking and selecting a frame on a map;

the handheld mobile terminal can also utilize the mobile terminal geographic GIS to perform GPS positioning, photographing, road searching, navigation and map off-line downloading operations.

Further, the handheld mobile terminal performs GPS positioning through the mobile terminal geographic GIS, compares relevant information of equipment in the power grid GIS1.6 system and the PMS2.0 system with relevant information of field physical equipment, checks whether errors occur or not, and modifies the errors according to actual field conditions;

the handheld mobile terminal can directly perform the operations of adding, modifying and deleting the equipment information, the operations of adding, modifying and deleting the equipment information can be performed on the main equipment for the accessory equipment, and meanwhile, the operation result and the recorded information of the field equipment are transmitted back to the main station for confirmation and are synchronized to a PMS2.0 system and a power grid GIS1.6 system.

Further, user authentication or CA authentication is required when login operation is performed between the web master station end and the handheld mobile end; the whole process of data processing can be traced, and each piece of data can be uploaded, modified and deleted correspondingly to each web master station end and each handheld mobile end.

The use method of the system for the electric equipment checking and transaction movement work comprises the following steps:

inquiring an equipment list needing on-site inspection through a PMS2.0 system, and generating an inspection task on a web master station end;

the web master station end audits and issues a checking task;

the handheld mobile terminal receives and checks the checking task;

the handheld mobile terminal carries out data recording on the processing process and the processing result of the checking and transaction power equipment in the patrol and overhaul working process;

the web master station monitors a task execution process;

the handheld mobile terminal audits and uploads the data record of the processing process and the processing result of the checking task to the web master station terminal;

the web master station side audits the processing process of the checking task and the data record of the processing result, and if the task is not completed or the audit by the web master station side is not passed, the task is issued again;

after the checking task audited by the web master station end passes, the data of the transaction equipment in the task is synchronized to a PMS2.0 system or a power grid GIS1.6 system through the PASS service platform.

Further, the method also comprises the following steps:

loading power grid GIS1.6 export vector data of an equipment layer on a mobile terminal geographic GIS of a handheld mobile terminal, so that the equipment layer can accurately display an equipment address and inquire a positioning equipment address at the handheld mobile terminal;

the device layer can be controlled and selected through the handheld mobile terminal, so that the information of the device type is hidden or displayed.

Further, the method also comprises the following steps:

when the web master station terminal and the handheld mobile terminal log in, user authentication or CA authentication is required, so that the whole process of data processing can be traced, and each piece of data can be uploaded, modified and deleted correspondingly to each web master station terminal and the handheld mobile terminal.

Compared with the prior art, the beneficial effect of this disclosure is:

1. the method and the system can realize the real-time uploading of the abnormal result to the system on site, thereby achieving the one-to-one correspondence effect of the graph of the system and the field equipment along the step diagram.

2. The method adopts a user authentication mechanism, does not allow anonymous access and call of related functions and services, realizes the whole process management of data, and ensures that each piece of data can be put in storage, modified and deleted corresponding to each machine, IP address and user. The behavior of malicious deletion and modification of data and the leakage of functions and data are effectively prevented.

3. The mobile terminal geographic GIS of the handheld mobile terminal loads the power grid GIS1.6 system export device data, so that the device layer can accurately display the device address and inquire the positioning device address at the handheld mobile terminal, and perform navigation and other operations, so that a worker can quickly and conveniently find the device position in a checking task, and update accurate device geographic position information into the power grid GIS1.6 system, and the method is simple and efficient.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure and are not to limit the disclosure.

Fig. 1 is a schematic flow diagram of the present disclosure.

Detailed Description

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

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present disclosure. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

As introduced by the background technology, the data and field data of a PMS2.0 system and a power grid GIS1.6 system are difficult to check in the prior art, and the method is old; the mobile application end connected with the external network is not easy to perform data access on a PMS2.0 system and a power grid GIS1.6 system of the internal network system; the data in the power grid GIS1.6 system is marked for the geographic information of the power system equipment, and when the data in the power grid GIS1.6 system is used for practical application, the data in the power grid GIS1.6 system cannot be directly used for map navigation and other operations, so that the data in the power grid GIS1.6 system is inconvenient and the like in practical application.

The method develops a set of mobile internet-based field check and transaction APP micro-application tools for a mobile operation platform based on the national network 'palm operation inspection', realizes the principles of APP development language unification, release updating unification and operation maintenance unification, practically solves the problem that the machine account and graphic data of the PMS2.0 system equipment are inconsistent with the field actual condition, and improves the quality of distribution network data to meet the actual application requirements of services. The on-site checking and on-site transaction are realized through the mobile APP, the data visual verification is carried out through the system main station end, finally, the checked accurate data are updated to a PMS2.0 system and a GIS1.6 system through a data service interface, the initiating, receiving and implementation of the operation and distribution work orders in the patrol checking of medium-voltage (transformers, towers, station houses, lines and the like) daily equipment are realized, the timeliness and the accuracy of operation and distribution information acquisition and recording are improved, and the daily normality of operation and distribution business work is realized.

In order to make the technical solutions of the present disclosure more clearly understood by those skilled in the art, the technical solutions of the present disclosure will be described in detail below with reference to specific examples and comparative examples.

Example 1

In one exemplary embodiment of the present disclosure, as shown in fig. 1.

A system for electrical equipment verification and transaction movement activities, comprising: the system comprises a handheld mobile terminal, a web master station terminal, a PASS service platform, a power grid GIS1.6 system and a PMS2.0 system.

The PASS service platform in this embodiment is a cloud server, and a plurality of interfaces are arranged in the cloud server, so as to realize interaction with data of the power grid GIS1.6 system and the PMS2.0 system, and transmit data of the web master station to the handheld mobile terminal through the interfaces.

The web master station end and the handheld mobile end transmit data through the PASS service platform;

the power grid GIS1.6 system and the PMS2.0 system both transmit data with the PASS service platform;

the web master station end is used for generating a checking task, auditing and issuing the checking task, supervising the task execution process, auditing the transaction result and synchronizing the transaction data to the PASS service platform;

the handheld mobile terminal is used for downloading and checking the checking task from the PASS service platform, recording data of the checking and transaction electric equipment on site, checking and uploading the data of the checking and transaction electric equipment;

and the PASS service platform is used for synchronizing transaction data to the power grid GIS1.6 system and the PMS2.0 system.

Fig. 1 is a schematic flow chart of the present disclosure. The use method of the system for the electric equipment checking and transaction movement work comprises the following steps:

inquiring an equipment list needing on-site inspection through a PMS2.0 system, and generating an inspection task on a web master station end;

the web master station end audits and issues a checking task;

the handheld mobile terminal receives and checks the checking task;

the handheld mobile terminal carries out data recording on the processing process and the processing result of the checking and transaction power equipment in the patrol and overhaul working process;

the web master station monitors a task execution process;

the handheld mobile terminal audits and uploads the data record of the processing process and the processing result of the checking task to the web master station terminal;

the web master station side audits the processing process of the checking task and the data record of the processing result, and if the task is not completed or the audit by the web master station side is not passed, the task is issued again;

after the checking task audited by the web master station end passes, the data of the transaction equipment in the task is synchronized to a PMS2.0 system or a power grid GIS1.6 system through the PASS service platform.

The method also comprises the following steps:

loading power grid GIS1.6 export vector data of an equipment layer on a mobile terminal geographic GIS of a handheld mobile terminal, so that the equipment layer can accurately display an equipment address and inquire a positioning equipment address at the handheld mobile terminal;

the device layer can be controlled and selected through the handheld mobile terminal, so that the information of the device type is hidden or displayed.

The method also comprises the following steps:

when the web master station terminal and the handheld mobile terminal log in, user authentication or CA authentication is required, so that the whole process of data processing can be traced, and each piece of data can be uploaded, modified and deleted correspondingly to each web master station terminal and the handheld mobile terminal.

The method and the device can realize electronic dispatching of the work orders. In the routing inspection work of daily equipment, the real-time initiation, receiving and implementation of a medium-voltage power grid data newly-increased and abnormal data management work order are required to be realized.

The method and the device can realize automatic stream transfer of the collected and recorded data. The real-time uploading and pushing of medium-voltage power grid abnormal-operation acquisition and recording data are required to be realized through the APP operation terminal, and daily operation of operation and distribution business work is realized.

This disclosure can realize the control to the construction progress. The real-time monitoring of the mining and recording implementation progress can be achieved through the management platform, the project progress can be known at any time, and the actual progress of the project can be controlled.

The method and the system can standardize the field construction management process. The data management engineering is required to receive from task distribution and implement business carding of each link, and to perform flow management on the implementation of mining and recording work, so that the construction operation process is standardized.

The present disclosure enables system integration requirements. The automatic upgrading service of the existing PMS2.0 power grid resource management system is combined, the version management functions of a main station side, a mobile side and an interface service side are provided, and the close coupling integration of the operation and distribution run-through transaction operation micro application platform and the PMS2.0 power grid resource management system is realized. One set of system, one set of deployment, unified management, use province entirely really realize, greatly reduce on-the-spot implementation personnel's operating pressure. The integration of the operation and distribution through transaction operation micro application platform, a handheld operation and inspection mobile operation platform, a PMS2.0 system and a GIS1.6 graphic system interface service is realized.

The mobile operation platform integration of the handheld operation inspection can be realized. The palm shipping inspection mobile operation platform based on the systematic pushing of the national network shipping inspection department is required to develop tools, and the tools can be developed, tested, implemented and operated on the palm shipping inspection mobile operation platform.

The present disclosure enables PMS2.0 interface service integration. The platform tool is required to provide a data interface to realize the synchronization of the ledger information of the PMS2.0 equipment to the tablet personal computer, so that the field checking of working personnel is facilitated. A data return interface is required to be provided to enable the return of the field modified device information to the PMS2.0 system.

The utility model discloses can realize that electric wire netting GIS1.6 interface service is integrated. The graphic information and the geographic information of the GIS1.6 equipment are required to be synchronized to a tablet personal computer by providing a data interface through a platform tool, so that the field checking of workers is facilitated. It is desirable to provide a data return interface that can return the field modified device information to the GIS1.6 system.

Remove APP end function:

and (5) login authentication. And calling a unified authority management service interface, reading user, department and authority data, and realizing login demonstration of the mobile terminal APP tool.

And (5) performing map basic operation. And loading image data and vector data of the geographic layer, and supporting the functions of map viewing, scale amplification, reduction, click, frame selection and the like. And calling functions of the mobile tablet, such as functions of GPS positioning, photographing, road searching, navigation, off-line map downloading and the like, so as to ensure the realization of the APP service function.

And loading the device layer. And loading the vector data of the power grid GIS1.6 derived device layers on the mobile GIS, realizing accurate display, query and positioning of the device layers on the mobile GIS, and simultaneously realizing device layer control selection according to the use scene of a user to hide or display the device types.

And managing the tasks. And a field verifier logs in the handheld mobile terminal to check the distributed verification task, the verification work of the equipment is completed according to the verification task, the problem equipment is directly modified according to the field condition in the field verification process, and the verified equipment needs to be photographed and confirmed and is marked correspondingly.

And retrieving the equipment. The searching and inquiring can be carried out according to the type and the equipment name, and the specific equipment which is selected and inquired can be quickly positioned and presented in the map. The actual conditions of field workers and field equipment are convenient to compare.

And (6) equipment checking. The synchronized equipment information is displayed on the tablet personal computer, and a worker can check the coordinate position of the equipment and the basic ledger information by comparing the GPS positioning with the field physical equipment, so that the problems such as position errors, equipment loss, ledger errors and the like can be modified according to the field actual conditions.

The equipment is abnormal. In the checking process, for the additional or newly added equipment, the operations of equipment addition, modification, deletion and the like can be directly carried out on the handheld mobile terminal, the auxiliary equipment can be added and maintained on the main equipment, meanwhile, the result information after the photographing function of the field equipment is altered is transmitted back to the main station for confirmation, and the result information is synchronized to a PMS2.0 system and a GIS1.6 system through an interface.

web master station side functions:

and the authority control management calls a unified authority management platform, reads user, department and authority data, and realizes login demonstration of a checking tool.

And (4) checking task management, wherein a master station end manager selects checking equipment to create a checking task according to a transformer substation, a line and a transformer area as a unit, limits a checking range and issues the task to specific workers. And providing query, modification and deletion functions of the tasks.

And the task progress is tracked, and managers can track and check the completion conditions of the tasks of the field workers, including the completion progress, the pictures of the field equipment and the equipment change conditions, monitor the working quality in real time and master the working progress.

Historical task inquiry can look over checked task information through historical inquiry, makes things convenient for managers to know the historical information of equipment, and the work is conveniently arranged in a coordinated manner to the condition of completing the collection and recording of all equipment.

Verification results are verified, after the equipment is verified through a tablet personal computer on site, verification information is directly synchronized to the master station end, the master station end provides a comparison function, and workers compare and confirm the on-site verification information and the GIS1.6 system. The final acknowledgement is done at the master site.

And checking data synchronization, finishing final confirmation of a result after on-site checking at the master station end, and updating equipment ledger information of the PMS2.0 information and equipment graphic information of the GIS1.6 system in real time after the result is confirmed to be correct.

System integration function:

the palm transport inspection mobile operation platform is integrated. A development framework of a Mobile terminal APP is integrated on a development platform integrated with a palm operation inspection Mobile operation platform, and UAP Mobile IDE is used for carrying out research and development work such as development, compiling, testing and the like of functions of the Mobile terminal.

The services of all mobile terminals are uniformly integrated and deployed on a PASS service platform of a development platform integrated by a palm operation inspection mobile operation platform, so that uniform optimization management of equipment transaction service interfaces is realized.

The APP is integrated on the APP management client integrated with the palm operation inspection mobile operation platform, and the technical requirements of unification, modularization, personalized configuration, safety management and the like of the APP are met.

PMS2.0 data services interface. And the standing equipment ledger of the PMS is extracted through the interface and can be displayed on the tablet personal computer. The staff can conveniently check and compare on site.

And after the station account of the equipment in the station is modified on site, synchronizing the equipment to the master station end for confirmation, and after the master station end confirms that no error exists, calling a data synchronization interface to synchronize the equipment to the PMS.

And extracting the standing equipment ledger of the PMS through the interface, and displaying the standing equipment ledger on the tablet personal computer. The staff can conveniently check and compare on site.

And after the station account of the equipment outside the station is modified on site, synchronizing the equipment to the master station end for confirmation, and after the master station end confirms that no error exists, calling a data synchronization interface to synchronize the equipment to the PMS.

And the public equipment ledger of the PMS is extracted through the interface and can be displayed on the tablet personal computer. The staff can conveniently check and compare on site.

And after the site modification of the common equipment ledger, synchronizing the common equipment ledger to a master station end for confirmation, and after the master station end confirms that no errors exist, calling a data synchronization interface to synchronize the common equipment ledger to a PMS.

Data of a name plate of the PMS is extracted through the interface and can be displayed on the tablet personal computer. The staff can conveniently check and compare on site.

And after the data of the nameplate of the field repair equipment is confirmed by the master station, the data synchronization interface is called to synchronize the data to the PMS after the data of the nameplate of the field repair equipment is confirmed by the master station.

And extracting the outline data of the PMS through the interface, and displaying the outline data on the tablet personal computer. The staff can conveniently check and compare on site.

And after the master station confirms that the data are correct, a data synchronization interface is called to synchronize the data to the PMS.

After the equipment ledger is modified on site, key attributes of related associated equipment, such as associated attributes of a station room, a line and a tower, are required to be updated synchronously, the key attributes are synchronized to the master station end for confirmation, and after the master station end confirms that no errors exist, a data synchronization interface is called to synchronize the data synchronization interface to the PMS.

In order to ensure the security of the device data, the device ledger data needs to be encrypted to generate a data file with a specified format, so that the task is issued to the mobile terminal.

Data service interface function:

in order to ensure the security of the device data, the device graphic data needs to be encrypted to generate a data file with a specified format, so that the task is issued to the mobile terminal. Data such as graphic elements, topological relations, coordinate positions and the like of the GIS1.6 in-station equipment graphics are extracted through the interface, and the data can be loaded on the GIS and displayed on a tablet personal computer. The staff can conveniently check and compare on site. And after the graphic data of the equipment in the station are modified on site, synchronizing the graphic data to the master station end for confirmation, and after the master station end confirms that the graphic data are correct, calling a data synchronization interface to synchronize the graphic data to the GIS1.6 system.

Data such as graphic elements, topological relations, coordinate positions and the like of the graph of the GIS1.6 external equipment are extracted through the interface, and the data can be loaded on the GIS and displayed on a tablet personal computer. The staff can conveniently check and compare on site.

And after the graphic data of the off-site equipment is modified on site, synchronizing the graphic data to the master station end for confirmation, and after the master station end confirms that the graphic data are correct, calling a data synchronization interface to synchronize the graphic data to the GIS1.6 system.

The public equipment graph extracts data such as primitives, topological relations, coordinate positions and the like of the public equipment graph of the GIS1.6 through the interface, and can be loaded on the GIS and displayed on the tablet personal computer. The staff can conveniently check and compare on site.

And after the graphic data of the public equipment are modified on site, synchronizing the graphic data to a master station end for confirmation, and after the master station end confirms that the graphic data are correct, calling a data synchronization interface to synchronize the graphic data to a power grid GIS1.6 system.

And after the equipment information is modified on site, the updated account data is associated with the graph data, so that the consistency of the graph number is ensured.

And after the equipment is modified on site, the associated attributes of the station room, the line and the tower of the graphic data are synchronously updated, and after the master station end confirms that no error exists, a data synchronization interface is called to synchronize the graphic data to the GIS1.6 system.

In order to ensure the security of the device data, the device graphic data needs to be encrypted to generate a data file with a specified format, so that the task is issued to the mobile terminal.

The concrete operation process of prefecture and county companies is as follows:

the department of operation and inspection of local and county companies specially undertakes to inquire an equipment list needing on-site inspection in a PMS2.0 system according to the ranges of transformer substations, lines, transformer districts, management units and the like, wherein the equipment list contains machine accounts and graphic information of equipment, and an inspection task is generated on a web master station end;

the team personnel of local and county companies arrive at the site to perform equipment checking and transaction operations in the process of patrol and overhaul according to the checking task received on the handheld mobile terminal, and the checked equipment needs to be confirmed by on-site photographing;

after the team personnel of local and county companies complete all the check and transaction of the equipment related to the check task on the handheld mobile terminal, uploading the task;

the department of operation and inspection of prefectures and counties companies specializes in monitoring tasks and checking the final transaction result through the web master station segment, and the tasks can be issued again if the tasks are not completed or the quality is not high;

after the department of operation and inspection of prefecture and county companies specializes in auditing the tasks, the data of the transaction equipment in the tasks are synchronized into a PMS2.0 system and a power grid GIS1.6 system, including ledger and graphic information, and finally corresponding synchronization of the field transaction data and the system data is realized.

The present disclosure also has non-functional requirements, including: normative, business continuity, integrity principles, process controllable principles, and security.

Standardization: the data standardization principle is strictly followed, the data modeling work is strictly promoted according to the standard specification of the national power grid company, the data model and the data modeling strategy are unified, the data checking and transaction operation is standardized, and the data checking and transaction work is orderly promoted at the mobile APP terminal.

Service continuity: by reasonably compiling a system modeling strategy and adopting a corresponding technology, the continuity of business and application integration of modeling data is ensured.

Integrity principle: the integrity of the data after modeling is ensured, the integrity of the data after modeling, the connectivity of the topological relation and the accuracy of the key field are ensured, and missing is avoided.

The principle of controllable process: the adoption and recording implementation progress can be monitored in real time through the management platform, the project progress can be known at any time, and the actual progress of the project can be controlled.

Safety: (1) the data security, PMS2.0 contains detailed business application data, power grid asset data, basic geographic data and power grid thematic data, and part of basic geographic information belongs to national confidential or secret data; the power grid data needs to be maintained through long-term data acquisition, the expression content of the power grid data is power grid infrastructure, and the data is also national confidentiality. When project construction is carried out, the data safety needs to be fully considered, and various data potential safety hazards are eliminated. All coordinate data are encrypted in a nonlinear encryption mode, and data transmission is carried out in an intranet USB flash disk mode. (2) The application security, various application functions and services provided by the data modeling tool all need to be authenticated by users or CA, so that the security of the services can be ensured, and the related functions and services are not allowed to be accessed and called anonymously. The whole process management of the data is realized, and the condition that each piece of data can be put in storage, modified and deleted correspondingly to each machine, an IP address and a user is ensured. The behavior of malicious deletion and modification of data and the leakage of functions and data are effectively prevented.

The above description is only a preferred embodiment of the present disclosure and is not intended to limit the present disclosure, and various modifications and changes may be made to the present disclosure by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present disclosure should be included in the protection scope of the present disclosure.

Claims (2)

1. A system for electrical equipment verification and transaction movement operations, comprising: the system comprises a handheld mobile terminal, a web master station terminal, a PASS service platform, a power grid GIS1.6 system and a PMS2.0 system;

the web master station end and the handheld mobile end transmit data through the PASS service platform;

the power grid GIS1.6 system and the PMS2.0 system both transmit data with the PASS service platform;

the web master station end is used for generating a checking task, auditing and issuing the checking task, supervising a task execution process, auditing a transaction result and synchronizing transaction data to the PASS service platform;

the handheld mobile terminal is used for downloading and checking a checking task from the PASS service platform, recording data of the checking and transaction electric power equipment on site, checking and uploading the data of the checking and transaction electric power equipment;

the PASS service platform is used for synchronizing transaction data to the power grid GIS1.6 system and the PMS2.0 system;

the PMS2.0 system encrypts equipment standing book data to generate a data file with a specified format, and the data file is sent to a handheld mobile terminal through the PASS service platform;

the power grid GIS1.6 system encrypts equipment graphic data, performs nonlinear encryption on all equipment coordinate data to generate a data file with a specified format, and sends the data file to a handheld mobile terminal through the PASS service platform;

user authentication or CA authentication is needed when the web master station end and the handheld mobile end perform login operation; the whole process of data processing can be traced, and each piece of data can be uploaded, modified and deleted correspondingly to each web master station end and each handheld mobile end;

the handheld mobile terminal modifies the in-station equipment ledger and synchronizes to the web master station terminal, and the web master station terminal synchronizes and updates data of the related equipment attribute related to modification to the PMS2.0 system through the PASS service platform;

the handheld mobile terminal modifies the graphic data of the equipment in the station and then synchronizes the graphic data to the web master station terminal, and the web master station terminal synchronously updates the data of the related equipment attribute related to modification to the power grid GIS1.6 system through the PASS service platform;

the PASS service platform acquires station accounts of in-station equipment, station accounts of out-station equipment, public equipment accounts, nameplate numbers and outline data in the PMS2.0 system;

the station internal equipment account, the station external equipment account, the public equipment account, the number of nameplates and the outline data can be displayed through the handheld mobile terminal;

the PASS service platform acquires primitives, topological relations and equipment coordinate data of in-station equipment graphs, out-station equipment graphs and public equipment graphs of a power grid GIS1.6 system;

the primitives, topological relations and equipment coordinate data of the in-station equipment graph, the out-station equipment graph and the public equipment graph can be displayed through the handheld mobile terminal;

loading vector data of a power grid GIS1.6 derived device layer on a mobile terminal geographic GIS of the handheld mobile terminal, so that the device layer can accurately display a device address and inquire a positioning device address at the handheld mobile terminal;

the handheld mobile terminal can control and select the equipment layer, so that the information of the equipment type is hidden or displayed;

the handheld mobile terminal can load image data and vector data on the geographic GIS of the mobile terminal and can perform operations of checking, scaling up, reducing, clicking and selecting a frame on a map;

the handheld mobile terminal can also utilize the mobile terminal geographic GIS to perform GPS positioning, photographing, road searching, navigation and map off-line downloading operations;

the handheld mobile terminal carries out GPS positioning through the mobile terminal geographic GIS, compares relevant information of equipment in the power grid GIS1.6 system and the PMS2.0 system with relevant information of field physical equipment, checks whether errors occur or not, and modifies the errors according to actual field conditions;

the handheld mobile terminal can directly perform the operations of adding, modifying and deleting the equipment information, the operations of adding, modifying and deleting the equipment information can be performed on the main equipment for the accessory equipment, and meanwhile, the operation result and the record information of the field equipment are transmitted back to the main station for confirmation and are synchronized to a PMS2.0 system and a power grid GIS1.6 system;

web master station side functions:

the authority control management calls a unified authority management platform, reads user, department and authority data, and realizes login and demonstration of a checking tool;

checking task management, wherein a master station end manager selects checking equipment to establish a new checking task according to a transformer substation, a line and a transformer area as a unit, limits a checking range and issues the task to specific workers;

the task progress tracking is realized, and managers can track and check the completion conditions of tasks of field workers, including the completion progress, field equipment pictures and equipment change conditions, monitor the working quality in real time and master the working progress;

historical task query, namely checking the checked task information through the historical query, so that managers can conveniently know the historical information of the equipment, the acquisition and recording completion conditions of all the equipment are facilitated, and overall arrangement work is facilitated;

verification results are verified, after the equipment is verified through a tablet personal computer on site, verification information is directly synchronized to the master station end, the master station end provides a comparison function, and workers compare and confirm the on-site verification information with the GIS1.6 system; finishing final confirmation at the master station end;

checking data synchronization, finishing final confirmation of a result after on-site checking at a master station end, and updating equipment ledger information of PMS2.0 information and equipment graphic information of a GIS1.6 system in real time after the result is confirmed to be correct;

after the equipment ledger is modified on site, key attributes of related associated equipment such as associated attributes of a station room, an associated line and an associated tower are required to be updated synchronously and confirmed to a master station side, and after the master station side confirms that no errors exist, a data synchronization interface is called to synchronize the master station side to a PMS.

2. The use method of the system for checking and abnormal moving operation of the electrical equipment is characterized by comprising the following steps:

inquiring an equipment list needing on-site inspection through a PMS2.0 system, and generating an inspection task on a web master station end;

the web master station end audits and issues a checking task;

the handheld mobile terminal receives and checks the checking task;

the handheld mobile terminal carries out data recording on the processing process and the processing result of the checking and transaction power equipment in the patrol and overhaul working process;

the web master station monitors a task execution process;

the handheld mobile terminal audits and uploads the data record of the processing process and the processing result of the checking task to the web master station terminal;

the web master station side audits the processing process of the checking task and the data record of the processing result, and if the task is not completed or the audit by the web master station side is not passed, the task is issued again;

after the checking task audited by the web master station end passes, synchronizing the transaction equipment data in the task to a PMS2.0 system or a power grid GIS1.6 system through a PASS service platform;

the method also comprises the following steps:

the PMS2.0 system encrypts equipment standing book data to generate a data file with a specified format, and the data file is sent to a handheld mobile terminal through the PASS service platform;

the power grid GIS1.6 system encrypts equipment graphic data, performs nonlinear encryption on all equipment coordinate data to generate a data file with a specified format, and sends the data file to a handheld mobile terminal through the PASS service platform;

when the web master station terminal and the handheld mobile terminal log in, user authentication or CA authentication is required, so that the whole process of data processing can be traced, and each piece of data can be uploaded, modified and deleted correspondingly to each web master station terminal and the handheld mobile terminal;

the handheld mobile terminal modifies the in-station equipment ledger and synchronizes to the web master station terminal, and the web master station terminal synchronizes and updates data of the related equipment attribute related to modification to the PMS2.0 system through the PASS service platform;

the handheld mobile terminal modifies the graphic data of the equipment in the station and then synchronizes the graphic data to the web master station terminal, and the web master station terminal synchronously updates the data of the related equipment attribute related to modification to the power grid GIS1.6 system through the PASS service platform;

the method also comprises the following steps:

loading power grid GIS1.6 export vector data of an equipment layer on a mobile terminal geographic GIS of a handheld mobile terminal, so that the equipment layer can accurately display an equipment address and inquire a positioning equipment address at the handheld mobile terminal;

the mobile terminal can control and select the equipment layer by holding, so that the information of the equipment type is hidden or displayed;

web master station side functions:

the authority control management calls a unified authority management platform, reads user, department and authority data, and realizes login and demonstration of a checking tool;

checking task management, wherein a master station end manager selects checking equipment to establish a new checking task according to a transformer substation, a line and a transformer area as a unit, limits a checking range and issues the task to specific workers;

the task progress tracking is realized, and managers can track and check the completion conditions of tasks of field workers, including the completion progress, field equipment pictures and equipment change conditions, monitor the working quality in real time and master the working progress;

historical task query, namely checking the checked task information through the historical query, so that managers can conveniently know the historical information of the equipment, the acquisition and recording completion conditions of all the equipment are facilitated, and overall arrangement work is facilitated;

verification results are verified, after the equipment is verified through a tablet personal computer on site, verification information is directly synchronized to the master station end, the master station end provides a comparison function, and workers compare and confirm the on-site verification information with the GIS1.6 system; finishing final confirmation at the master station end;

checking data synchronization, finishing final confirmation of a result after on-site checking at a master station end, and updating equipment ledger information of PMS2.0 information and equipment graphic information of a GIS1.6 system in real time after the result is confirmed to be correct;

after the equipment ledger is modified on site, key attributes of related associated equipment such as associated attributes of a station room, an associated line and an associated tower are required to be updated synchronously and confirmed to a master station side, and after the master station side confirms that no errors exist, a data synchronization interface is called to synchronize the master station side to a PMS.

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