CN114137348B - Intelligent joint debugging acceptance method and acceptance equipment for power distribution terminal - Google Patents

Abstract

The application discloses an intelligent joint debugging and acceptance method and acceptance equipment for a power distribution terminal, which are applied to an acceptance field, wherein the acceptance method comprises the following steps: step 1, receiving an acceptance request sent by a tester, and extracting theoretical setting data of power distribution terminal equipment; step 2, acquiring actual data of the power distribution terminal equipment from an actual operation master station in real time through a master station interface; and step 3, joint debugging acceptance is carried out on the power distribution terminal equipment by simulating the actual operation main station, namely theoretical setting data of the power distribution terminal equipment are compared with actual data, and an acceptance report is generated according to a comparison result. According to the application, the primary station acceptance work is extended on site, and the functions of intelligent acceptance of abundant signals and auxiliary diagnosis of acceptance problems are added, so that operation and maintenance personnel can independently perform the acceptance work on site, thereby improving the one-time passing rate of joint debugging.

Description

Intelligent joint debugging acceptance method and acceptance equipment for power distribution terminal

Technical Field

The application relates to the technical field of power distribution terminal acceptance, in particular to an intelligent joint debugging acceptance method and acceptance equipment for a power distribution terminal.

Background

The quantity of terminals related to the power distribution automation master station system is very huge, the joint debugging work of a large number of terminals connected to the master station system needs the master station to cooperate with the site, site debugging personnel trigger actions one by one or input the analog quantity and the analog quantity according to signal definition, then the master station personnel observe the master station system reaction and compare and analyze whether the signal change is qualified or not, and the overall efficiency of the debugging mode is required to be low. In addition, the debugging result depends on manual checking, is easy to be leaked, and has larger potential safety hazard.

On one hand, because field device debugging personnel lack a background signal change visualization tool, the equipment commissioning progress is affected; on the other hand, in the whole joint debugging process, the master station personnel are required to cooperate in the whole process, and a large amount of working time of the distribution master station automation personnel is occupied.

Disclosure of Invention

In order to solve the defects in the prior art, the application aims to provide the intelligent joint debugging and acceptance method and the acceptance equipment for the power distribution terminal, which extend the primary station acceptance work on site, add rich signal intelligent acceptance and acceptance problem auxiliary diagnosis functions, and enable operation and maintenance personnel to independently perform the pre-acceptance work on site, thereby improving the one-time passing rate of the joint debugging.

In order to achieve the technical purpose, the application adopts the following technical scheme:

an intelligent joint debugging and acceptance method for a power distribution terminal is applied to an acceptance site and comprises the following steps:

step 1, receiving an acceptance request sent by a tester, and extracting theoretical setting data of power distribution terminal equipment;

step 2, acquiring actual data of the power distribution terminal equipment from an actual operation master station in real time through a master station interface;

and step 3, joint debugging acceptance is carried out on the power distribution terminal equipment by simulating the actual operation main station, namely theoretical setting data of the power distribution terminal equipment are compared with actual data, and an acceptance report is generated according to a comparison result.

Further, the acceptance request includes a telemetry information acceptance request, and the joint debugging acceptance data includes an operation state of the power distribution terminal device.

Further, the acceptance request includes a remote signaling information acceptance request, and the data of the joint debugging acceptance includes SOE event information of the power distribution terminal equipment, including but not limited to the type, the number and the state of the SOE event.

Further, the acceptance report includes acceptance signal records, acceptance task records, and acceptance statistics.

Further, the acceptance signal record includes task name, signal value, signal type, acceptance person, acceptance result, error information, acceptance time.

Further, the acceptance task record comprises a task name, an acceptance person, a task state, a creation time, an acceptance time and an acceptance record.

Further, the acceptance statistics include historical task statistics line graphs, acceptance equipment line graphs, acceptance signal line graphs, and acceptance success rates.

Further, the generation method of the acceptance report comprises the following steps: and taking the joint debugging acceptance result as source data and calling an acceptance report template to generate an acceptance report of the current acceptance request.

Furthermore, the intelligent joint debugging and acceptance method of the power distribution terminal further comprises the step of compressing and storing the received theoretical setting data and actual data of the power distribution terminal equipment, and the specific compression method comprises the following steps:

dividing the data into data blocks with the same size on average, and encoding each data block;

counting the number of times of occurrence of each adjacent two data in the data block in the whole data block;

selecting the data combination with the largest occurrence number, and compressing each data combination into 1 data; if there are adjacent combinations among the data combinations most frequently, compressing all of the adjacent data combinations into 1 data; and the data before and after compression are marked in a one-to-one correspondence.

The intelligent joint debugging and acceptance device for the power distribution terminal comprises a memory and a processor, wherein a computer program is stored in the memory, and the intelligent joint debugging and acceptance device is characterized in that when the computer program is executed by the processor, the processor realizes the intelligent joint debugging and acceptance method for the power distribution terminal.

Compared with the prior art, the intelligent joint debugging and acceptance method has the advantages that intelligent joint debugging and acceptance can be accurately and efficiently carried out on the power distribution terminal equipment, the acceptance efficiency is improved, and the acceptance flow is standardized; the signal acceptance work can be automatically completed, the acceptance progress is automatically displayed, the acceptance report is automatically generated, the acceptance record is automatically counted, and the acceptance result analysis efficiency is improved. And a new data storage method is provided, the received mass data is compressed and stored, and the data before compression can be recovered according to marks before and after compression.

Drawings

FIG. 1 is a functional schematic diagram corresponding to a method according to an embodiment of the present application;

FIG. 2 is a flow chart of telemetry single point acceptance functionality in a method according to an embodiment of the application;

FIG. 3 is a flow chart of a remote signaling single point acceptance function in a method according to an embodiment of the application;

FIG. 4 is a schematic diagram of an acceptance signal recording interface of the method according to the embodiment of the application;

FIG. 5 is a schematic diagram of an acceptance task recording interface of the method according to the embodiment of the application;

FIG. 6 is a schematic diagram of an acceptance statistics interface of the method according to the embodiment of the application.

Detailed Description

The following describes in detail the embodiments of the present application, which are developed based on the technical solution of the present application, and provide detailed embodiments and specific operation procedures, and further explain the technical solution of the present application.

The embodiment provides an intelligent joint debugging acceptance method for a power distribution terminal, which is applied to an acceptance field, as shown in fig. 1, and comprises the following steps: step 1, receiving an acceptance request sent by a tester, and extracting theoretical setting data of power distribution terminal equipment; step 2, acquiring actual data of the power distribution terminal equipment from an actual operation master station in real time through a master station interface; and step 3, joint debugging acceptance is carried out on the power distribution terminal equipment by simulating the actual operation main station, namely theoretical setting data of the power distribution terminal equipment are compared with actual data, and an acceptance report is generated according to a comparison result.

The tester is used for adding quantity (theoretical voltage, current, switching value and other data) to the power distribution terminal, sending an acceptance request, wherein the sent acceptance request can be a telemetry information acceptance request and/or a remote signaling information acceptance request.

If a telemetry information acceptance request is received from the tester, the data of the joint debugging acceptance includes an operating state of the power distribution terminal equipment. At this time, telemetry acceptance is performed on the power distribution terminal equipment, and referring to fig. 2, the main implementation steps are as follows:

step A1, a signal self-service acceptance module receives a telemetry single-point acceptance request sent by a tester, decrypts the message content and obtains various theoretically set running states of power distribution terminal equipment;

step A2, a signal self-service acceptance module acquires the actual running state of the power distribution terminal equipment from a main station interface in real time, analyzes the actual running state, and acquires information such as a channel number, an IP address, a network port, a commissioning state and the like through calculation;

step A3, matching the running state of the power distribution terminal equipment obtained from the main station interface with the physical running state of the power distribution terminal equipment in the request message;

and step A4, if the theoretical running state is consistent with the synchronous information of the actual running state, the signal self-service acceptance module returns confirmation information, and if the theoretical running state is inconsistent with the synchronous information of the actual running state, the signal self-service acceptance module feeds back to a worker.

If a remote signaling information acceptance request is received from the tester, the data of the joint debugging acceptance comprises SOE events occurring in the distribution terminal equipment. At this time, the power distribution terminal equipment is subjected to remote signaling acceptance, and referring to fig. 3, the main implementation steps are as follows:

step B1, receiving a remote signaling single point acceptance request sent by a tester, decrypting message content, and obtaining SOE events which occur in theory of power distribution equipment;

step B2, the signal self-service acceptance module acquires SOE events sent to an actual operation main station on the power distribution terminal equipment from a real-time library according to the corresponding point numbers, and analyzes the SOE events to acquire information such as event types, number and states;

step B3, matching SOE event information acquired from an actual operation main station in real time with SOE event information theoretically set by power distribution equipment;

step B4, if the SOE event set by the power distribution terminal equipment is consistent with the SOE event synchronous information of the actual operation master station, the signal self-service acceptance module returns confirmation information; if SOE event set by the power distribution terminal equipment is inconsistent with SOE event synchronous information of the actual operation master station, the signal self-service acceptance module feeds back to staff.

Further, when intelligent joint debugging is performed on the power distribution terminal equipment, a large amount of data is received and stored locally. In order to save the storage capacity, in a more preferred embodiment, the received data is compressed and stored, and the specific compression method is as follows: (1) Dividing the data into data blocks with the same size on average, and encoding each data block; (2) Counting the number of times of occurrence of each adjacent two data in the data block in the whole data block; (3) Selecting the data combination with the largest occurrence number, and compressing each data combination into 1 data; if there are adjacent combinations among the data combinations most frequently, compressing all of the adjacent data combinations into 1 data; and the data before and after compression are marked in a one-to-one correspondence manner so as to recover the compressed data according to the marks.

As shown in fig. 4, in this embodiment, after the line outage event, the data analysis function analyzes specific outage equipment and outage reasons, and performs relevant data display through the power distribution automation interface.

Further, the acceptance report generation module generates an acceptance report after the task acceptance is completed, so that a worker can check an acceptance result through the acceptance report, including: acceptance signal record, acceptance task record and acceptance statistics.

As shown in fig. 4, in this embodiment, the acceptance signal record includes a task name, a signal value, a signal type, an acceptance person, an acceptance result, error information, and an acceptance time, so that the operator can clearly see the acceptance record and grasp the real-time progress of the acceptance task.

In this embodiment, as shown in fig. 5, the acceptance task record includes a task name, an acceptance person, a task state, a creation time, an acceptance time, and an acceptance record, so that a worker can conveniently check the start and end time of each acceptance task and the state information of the acceptance task, and can conveniently generate and download an acceptance report.

As shown in fig. 6, in this embodiment, the acceptance statistics include a historical task statistics line graph, an acceptance equipment line graph, an acceptance signal line graph and an acceptance success rate, and task information is intuitively displayed in the form of icons, so that the workers can conveniently check the task information.

In addition, the generation of the acceptance report described in this embodiment requires configuration of source data and templates for report generation, and then generation of the acceptance report according to the configured source data and templates for analysis report. The source data of the acceptance report refers to basic source data required by generating the acceptance report; the acceptance report template comprises report template types and contents, and after the analysis report template, the data source and the data generation frequency are configured, the user can automatically generate an acceptance report according to the configuration.

The above embodiments are preferred embodiments of the present application, and various changes or modifications may be made thereto by those skilled in the art, which should be construed as falling within the scope of the present application as claimed herein, without departing from the general inventive concept.

Claims (9)

1. The intelligent joint debugging acceptance method for the power distribution terminal is characterized by being applied to an acceptance site and comprising the following steps of:

step 1, receiving an acceptance request sent by a tester, and extracting theoretical setting data of power distribution terminal equipment;

step 2, acquiring actual data of the power distribution terminal equipment from an actual operation master station in real time through a master station interface;

step 3, joint debugging acceptance is carried out on the power distribution terminal equipment by simulating an actual operation main station, namely theoretical setting data of the power distribution terminal equipment are compared with actual data, and an acceptance report is generated according to a comparison result;

the method also comprises the steps of compressing and storing the received theoretical setting data and actual data of the power distribution terminal equipment, and comprises the following steps:

dividing the data into data blocks with the same size on average, and encoding each data block;

counting the number of times of occurrence of each adjacent two data in the data block in the whole data block;

selecting the data combination with the largest occurrence number, and compressing each data combination into 1 data; if there are adjacent combinations among the data combinations most frequently, compressing all of the adjacent data combinations into 1 data; and the data before and after compression are marked in a one-to-one correspondence.

2. The method of claim 1, wherein the acceptance request comprises a telemetry acceptance request and the data of the acceptance of the joint debugging comprises an operating state of the power distribution terminal device.

3. The method of claim 1, wherein the acceptance request comprises a remote signaling information acceptance request, and the data of the acceptance of the joint debugging comprises SOE event information of the power distribution terminal equipment, including but not limited to the type, the number and the state of SOE events.

4. The method of claim 1, wherein the acceptance report includes acceptance signal records, acceptance task records, and acceptance statistics.

5. The method of claim 4, wherein the acceptance signal record comprises a task name, a signal value, a signal type, an acceptance person, an acceptance result, error information, and an acceptance time.

6. The method of claim 4, wherein the acceptance task record comprises a task name, an acceptance person, a task status, a creation time, an acceptance time, and an acceptance record.

7. The intelligent joint debugging method of power distribution terminal of claim 4, wherein the acceptance statistics comprise historical task statistics line graphs, acceptance equipment line graphs, acceptance signal line graphs and acceptance success rates.

8. The intelligent joint debugging acceptance method of a power distribution terminal according to claim 1, wherein the acceptance report generation method is as follows: and taking the joint debugging acceptance result as source data and calling an acceptance report template to generate an acceptance report of the current acceptance request.

9. An intelligent joint debugging and acceptance device for a power distribution terminal, comprising a memory and a processor, wherein a computer program is stored in the memory, and the computer program, when executed by the processor, causes the processor to implement the method as claimed in any one of claims 1 to 8.