CN113392491A - Data quality verification system and method for transmission, transformation and distribution splicing - Google Patents

Abstract

The invention relates to the technical field of power grid dispatching data systems, in particular to a data quality verification system and method for transmission, transformation and distribution splicing. The data quality verification system for transmission and transformation and distribution splicing comprises a transmission and transformation splicing verification component, a transformer substation splicing verification component and a data processing component, wherein the transmission and transformation splicing verification component is used for verifying whether splicing of a power transmission line and a transformer substation is completed or not and verifying whether a primary wiring diagram of the power transmission line and the transformer substation is correct or not; the transformer substation checking assembly is used for checking whether the transformer substation primary wiring diagram generated after the drawing module is led in is correct or not; the transformer substation splicing checking assembly is used for checking whether the splicing of the transformer substation and the distribution line is completed and correct; the voltage grade checking assembly is used for checking whether the voltage grades of the transformer substation and the power transmission line connected with the transformer substation are reasonable or not and whether the voltage grades of the topological connection equipment in the primary wiring diagram of the transformer substation are the same or not; and the checking result output component is used for archiving the checking result and forming a checking report. The invention provides a system and a method for verifying data spliced by transmission and distribution.

Description

Data quality verification system and method for transmission, transformation and distribution splicing

Technical Field

The invention relates to the technical field of power grid dispatching data systems, in particular to a data quality verification system and method for transmission, transformation and distribution splicing.

Background

The power dispatching is an effective management means which is adopted for ensuring safe and stable operation of a power grid, reliable external power supply and orderly operation of various power production works. The power dispatching and management in the prior art mainly comprises a main network dispatching system and a GIS platform, wherein the GIS platform guides a transformer substation pattern of the main network dispatching system into the GIS platform, and then completes power transmission and distribution splicing to form a power transmission and distribution network pattern. For example, patent publication No. CN111191332A discloses an inventory data initialization system for scheduling a master station transformation diagram model to a GIS platform, which implements network splicing with power transmission and distribution lines, supports service integration application based on a network, but does not perform quality verification on data of power transmission and distribution splicing, and cannot ensure quality of a network of power transmission and distribution. Therefore, it is desirable to provide a system and method for verifying data spliced by transmission and distribution.

Disclosure of Invention

The invention aims to provide a data quality verification system for transmission, transformation and distribution splicing, which can perform quality verification on data for transmission, transformation and distribution splicing and ensure the quality of one picture of a transmission and distribution network.

The invention aims to solve another technical problem of providing a data quality verification method for transmission, transformation and distribution splicing, which is convenient for operating the data quality verification system for transmission, transformation and distribution splicing and ensures the quality of one picture of a transmission and distribution network.

The data quality checking system for the transmission and transformation distribution splicing comprises

The power transmission and transformation splicing checking assembly checks whether splicing of the power transmission line and the transformer substation is completed or not and checks whether a primary wiring diagram of the power transmission line and the transformer substation is correct or not;

the transformer substation checking assembly is used for checking whether the transformer substation primary wiring diagram generated after the drawing module is led in is correct or not;

the transformer substation splicing checking assembly is used for checking whether the splicing of the transformer substation and the distribution line is completed and correct;

the voltage grade checking assembly is used for checking whether the voltage grades of the transformer substation and the power transmission line connected with the transformer substation are reasonable or not and whether the voltage grades of the topological connection equipment in the primary wiring diagram of the transformer substation are the same or not;

and the checking result output component is used for archiving the checking result and forming a checking report.

The system is provided with a checking assembly, and can be used for carrying out transmission and transformation splicing checking, transformer substation checking, transformation and distribution splicing checking and voltage grade checking; the checking result output assembly is arranged, the checking result can be filed and a checking report can be formed, whether the power transmission distribution splicing data pass the checking can be judged through the checking report, and the power transmission distribution splicing data which do not pass the checking can be conveniently processed in the follow-up process.

Furthermore, the data quality verification system for transmission and transformation and distribution splicing further comprises a problem data positioning component which is used for positioning problem data in the verification report on the geographical map and the primary wiring diagram of the transformer substation respectively, so that the reason for generating the problem data can be conveniently analyzed subsequently.

Furthermore, the data quality verification system for transmission, transformation and distribution splicing also comprises a problem data analysis component which analyzes the reason of the problem data.

Furthermore, the data quality verification system for transmission and distribution splicing also comprises a problem data auxiliary rectification component which provides a repair scheme or suggestion for the problem data and assists field operators in rectifying and rectifying the problem data, so that the quality of a picture of a transmission and distribution network is ensured.

The data quality verification method aiming at the transmission, transformation and distribution splicing comprises the following steps:

s1: acquiring transmission and transformation distribution splicing data after completing splicing of one power transmission and transformation distribution diagram;

s2: carrying out transmission and transformation distribution splicing quality verification, and archiving a verification result to form a verification report;

s3: judging whether all the transmission power distribution splicing data pass the verification, if so, ending the process; and if not, processing the data which fails.

Quality verification is carried out on the data spliced by the power transmission distribution system, and the verification result is filed so as to facilitate subsequent reference and tracing of problem data; and judging whether the power transmission distribution splicing data is reasonable or not according to the verification report, and if not, subsequently processing the problem data in the verification report.

Further, the data quality verification method for transmission, transformation and distribution splicing also comprises

S4: and checking the verification report, and positioning the verified problem data. The reason for the problem data generation is convenient to analyze subsequently through positioning.

Further, the data quality verification method for transmission, transformation and distribution splicing also comprises

S5: and starting an auxiliary tool in the problem data analysis sub-tool for positioning, and searching the reason of the problem data.

Further, the data quality verification method for transmission, transformation and distribution splicing also comprises

S6: and according to the reason of the problem data, rectifying the problems and recording the rectifying scheme of the problems into a problem rectifying library. Problem data is rectified, and the quality of one picture of a power transmission and distribution network can be guaranteed; a problem rectification library is formed, and the problem rectification library can be referred to when similar problems occur subsequently, so that the problems can be solved quickly.

Further, the step S1 of obtaining the transmission and transformation and distribution splicing data includes obtaining a transmission line, obtaining a substation wiring diagram of a lead-in diagram model, and obtaining distribution line data.

Further, the specific step of performing transmission, transformation and distribution splicing quality verification in step S2 includes

S2.1: the transmission and transformation splicing verification is carried out through the transmission and transformation splicing verification component;

s2.2: carrying out substation verification through a substation verification component;

s2.3: performing the transformation and distribution splicing verification through the transformation and distribution splicing verification component;

s2.4: and voltage grade verification is carried out through the voltage grade verification component.

The step ensures that the data spliced by power transmission and distribution are comprehensively checked, so that the quality of one network of the power transmission and distribution network is ensured.

Has the advantages that: the data quality verification system for transmission and distribution splicing is provided with a verification assembly, and can perform transmission and distribution splicing verification, transformer substation verification, distribution splicing verification and voltage grade verification; the checking result output assembly is further arranged, the checking result can be filed to form a checking report, whether the transmission distribution splicing data pass the checking can be judged through the checking report, and the transmission distribution splicing data which do not pass the checking can be conveniently processed in the follow-up process; the problem data is positioned and analyzed through the problem data positioning component, the problem data analyzing component and the problem data auxiliary component, and an adjustment and modification scheme is provided, so that field operators are assisted to adjust and modify the problem data, correct splicing of transmission and distribution is guaranteed, the quality of one picture of a power transmission and distribution network is guaranteed, and service integration application based on one network is met.

Drawings

The invention is described in further detail below with reference to the figures and specific embodiments.

Fig. 1 is a functional structure block diagram of a data quality verification system for transmission, transformation and distribution splicing according to an embodiment.

Fig. 2 is a flowchart of a data quality verification method of a second transmission/distribution splice according to an embodiment.

Detailed Description

The embodiments of the present invention will be described in detail with reference to the accompanying drawings, and it is to be understood that the described embodiments are merely a part of the embodiments of the invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", "first", "second", etc. indicate orientations or positional or sequential relationships based on those shown in the drawings, and are only for convenience in describing and simplifying the present invention, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Example one

The transmission and transformation and distribution spliced data quality verification system shown in fig. 1 sequentially comprises a transmission and transformation splicing verification component, a transformer substation verification component, a transformation and distribution splicing inspection component, a voltage class verification component, an inspection result output component, a problem data positioning component, a problem data analysis component and a problem data auxiliary rectification component according to an execution sequence.

In the embodiment, the transmission and transformation splicing checking component checks whether splicing of the transmission line and the transformer substation is completed or not, and checks whether a primary wiring diagram of the transmission line and the transformer substation is correct or not;

the transformer substation checking assembly is used for checking whether the transformer substation primary wiring diagram generated after the drawing module is led in is correct or not;

the transformer substation splicing checking assembly is used for checking whether the splicing of the transformer substation and the distribution line is completed and correct;

the voltage grade checking assembly is used for checking whether the voltage grades of the transformer substation and the power transmission line connected with the transformer substation are reasonable or not and whether the voltage grades of the topological connection equipment in the primary wiring diagram of the transformer substation are the same or not;

the checking result output component is used for archiving the checking result and forming a checking report;

the problem data positioning component is used for positioning the problem data in the verification report on the geographical map and the transformer substation primary wiring map respectively;

a problem data analysis component that analyzes a cause of problem data generation;

the issue data assists the rectification component, which provides a fix up solution or suggestion for the issue data.

The system verifies the data quality of transmission, transformation and distribution splicing through the four verification assemblies, a verification report is formed and output through the inspection result output assembly, verified problem data are positioned through the problem data positioning assembly, the problem data analysis assembly analyzes the verified problem data according to the positioning, the reason for generating the problem data is obtained, the problem data auxiliary rectification assembly provides a repair scheme or suggestion according to the reason for generating the problem data, and assists field operators to rectify and rectify the problem data, so that correct transmission, transformation and distribution splicing is guaranteed, and the quality of one power transmission distribution network diagram is guaranteed.

Example two

The data quality verification method for transmission and transformation distribution splicing shown in fig. 2 comprises the following steps,

s1: acquiring transmission and transformation distribution splicing data after completing the splicing of one power transmission and transformation distribution diagram of the power grid, wherein the transmission and transformation distribution splicing data comprises the steps of acquiring a power transmission line, acquiring a transformer substation wiring diagram led into a diagram model and acquiring distribution line data;

s2: verifying the transmission and distribution splicing quality, sequentially comprising transmission and distribution splicing verification, transformer substation verification, distribution splicing verification and voltage grade verification, and archiving a verification result to form a verification report;

s3: judging whether all the transmission power distribution splicing data pass the verification, if so, ending the process; if not, processing the data which fails;

s4: checking the check report, and positioning checked problem data;

s5: and starting an auxiliary tool in the problem data analysis sub-tool for positioning, and searching the reason of the problem data.

S6: and the field operator refers to a modification scheme or suggestion given by the problem data auxiliary rectification component according to the found reasons of the problem data, rectifies the occurred problems, and inputs the rectification scheme of the problems into a problem rectification library, so that the comparison between the problems and the problem rectification measures can be formed, and the similar problems can be quickly solved when the problems occur.

Claims (10)

1. A data quality verification system for transmission, transformation and distribution splicing is characterized by comprising

The power transmission and transformation splicing checking assembly checks whether splicing of the power transmission line and the transformer substation is completed or not and checks whether a primary wiring diagram of the power transmission line and the transformer substation is correct or not;

the transformer substation checking assembly is used for checking whether the transformer substation primary wiring diagram generated after the drawing module is led in is correct or not;

the transformer substation splicing checking assembly is used for checking whether the splicing of the transformer substation and the distribution line is completed and correct;

the voltage grade checking assembly is used for checking whether the voltage grades of the transformer substation and the power transmission line connected with the transformer substation are reasonable or not and whether the voltage grades of the topological connection equipment in the primary wiring diagram of the transformer substation are the same or not;

and the checking result output component is used for archiving the checking result and forming a checking report.

2. The transmission and transformation and distribution spliced data quality verification system according to claim 1, further comprising a problem data positioning component that positions problem data in the verification report on the geographical map and the substation primary wiring map, respectively.

3. The transmission and distribution spliced data quality verification system of claim 2 further comprising a problem data analysis component that analyzes causes of problem data generation.

4. The transmission and distribution spliced data quality verification system of claim 3 further comprising a problem data assisted rectification component that provides a repair solution or recommendation for problem data.

5. A data quality verification method for transmission and transformation and distribution splicing is characterized by comprising the following steps:

s1: acquiring transmission and transformation distribution splicing data after completing splicing of one power transmission and transformation distribution diagram;

s2: carrying out transmission and transformation distribution splicing quality verification, and archiving a verification result to form a verification report;

s3: judging whether all the transmission power distribution splicing data pass the verification, if so, ending the process; and if not, processing the data which fails.

6. The transmission and distribution spliced data quality verification method according to claim 5, further comprising

S4: and checking the verification report, and positioning the verified problem data.

7. The data quality verification method for transmission and distribution splicing according to claim 6,

s5: and starting an auxiliary tool in the problem data analysis sub-tool for positioning, and searching the reason of the problem data.

8. The data quality verification method for transmission and distribution splicing according to claim 7,

s6: and according to the reason of the problem data, rectifying the problems and recording the rectifying scheme of the problems into a problem rectifying library.

9. The data quality verification method for transmission and distribution splicing according to claim 5, wherein the step S1 of acquiring the transmission and distribution splicing data comprises acquiring a transmission line, acquiring a substation wiring diagram of a lead-in diagram module, and acquiring distribution line data.

10. The transmission and transformation distribution spliced data quality verification method according to claim 5, wherein the specific step of performing transmission and transformation distribution splicing quality verification in the step S2 comprises

S2.1: the transmission and transformation splicing verification is carried out through the transmission and transformation splicing verification component;

s2.2: carrying out substation verification through a substation verification component;

s2.3: performing the transformation and distribution splicing verification through the transformation and distribution splicing verification component;

s2.4: and voltage grade verification is carried out through the voltage grade verification component.

Images