CN115586364A - Intelligent testing system and method for distribution network automation equipment - Google Patents

Abstract

The invention discloses an intelligent test system for distribution network automation equipment. The system comprises the following steps: the system comprises a mobile terminal, a mobile application platform, a distribution network automation master station module and at least one distribution network automation device; the automation equipment comprises a terminal communication module, a terminal display module, a terminal signal acquisition module and a terminal controller; the automation master station module comprises a master server; the terminal controller outputs the test signal of the automation equipment output by the signal acquisition module to the main server and sends the test signal to the terminal display module; the main server preprocesses the test signal and sends the preprocessed test signal to the mobile terminal through the mobile application platform; the mobile terminal outputs a test result instruction according to the received test signal and a confirmation instruction of a user; sending the test result instruction to a main server through a mobile application translation platform; the determining instruction of the user is determined according to the test signal displayed by the terminal display module and the test signal received by the mobile terminal.

Description

Intelligent testing system and method for distribution network automation equipment

Technical Field

The embodiment of the invention relates to the power grid technology, in particular to an intelligent test system and method for distribution network automation equipment.

Background

With the rapid development of national economy and the continuous promotion of the construction of the distribution network automation system, the distribution network automation terminal equipment is widely applied, and the monitoring and management of the distribution network are effectively realized.

After the distribution network automation terminal is installed on site, the distribution network automation terminal needs to be tested with a distribution network automation master station system to ensure that the distribution network automation terminal can be put into operation formally after uploading data is correct. At present, the debugging and acceptance work of the distribution network automatic terminal signals is realized by mutually matching main station automation personnel and field operation and maintenance personnel, the field personnel apply signal quantity or analog quantity to monitored measuring points one by one, and the main station automation personnel monitor and confirm according to data acquired by a distribution network automatic system and fill an acceptance record sheet. However, because the number of the distribution network automation terminals to be tested is large every day, a plurality of master station personnel are needed to cooperate with monitoring and confirmation, and the master station automation personnel and the field operation and maintenance personnel are needed to perform communication confirmation for a great number of times, so that the testing operation process is complex and the testing efficiency is low.

Disclosure of Invention

The invention provides an intelligent test system and method for distribution network automation equipment, which can intelligently and efficiently complete distribution network automation terminal test and has the advantages of novel design, high intelligence degree and high test efficiency.

In a first aspect, an embodiment of the present invention provides an intelligent test system for distribution network automation devices, where the system includes: the system comprises a mobile terminal distribution platform, a mobile application platform, a power grid automation master station module and at least one power distribution network automation device;

the distribution network automation equipment comprises a terminal communication module, a terminal display module, a terminal signal acquisition module and a terminal controller; the terminal communication module, the terminal display module and the terminal signal acquisition module are all electrically connected with the terminal controller;

the distribution network automation master station module comprises a master server; the main server is provided with a main station communication module;

the main server is electrically connected with the mobile application platform; the mobile terminal is in communication connection with the mobile application platform; the terminal communication module is also in communication connection with the master station communication module;

the terminal controller is used for outputting the test signal of the automation equipment output by the terminal signal acquisition module to the main server; sending the test signal to the terminal display module;

the main server is used for preprocessing the test signal and sending the preprocessed test signal to the mobile terminal through the mobile application platform;

the mobile terminal is used for outputting a test result instruction according to the received test signal and a confirmation instruction of a user; sending the test result instruction to the main server through the mobile application translation stage; and the determining instruction of the user is determined according to the test signal displayed by the terminal display module and the test signal received by the mobile terminal.

Optionally, the terminal signal acquisition module includes a current acquisition module, a voltage acquisition module and an electric energy acquisition module.

Optionally, the mobile application platform includes a front-end server, a back-end server, and an intranet and intranet data security exchange platform; the front server, the internal and external network data safety exchange platform and the rear server are electrically connected in sequence;

the front server is used for decrypting the test signal output by the main server and sending the decrypted test signal to the rear server through the intranet and extranet data security exchange platform;

and the post server is used for verifying and processing the test signal after decryption.

Optionally, the mobile terminal includes a smart phone or a tablet computer.

Optionally, the master station communication module and the terminal communication module include a 5G communication module.

In a second aspect, an embodiment of the present invention further provides an intelligent test method for distribution network automation equipment, where the test method is applied to the intelligent test system for distribution network automation equipment in the first aspect, and the intelligent test method for distribution network automation equipment includes:

the terminal controller outputs the test signal of the automation equipment output by the terminal signal acquisition module to the main server; sending the test signal to the terminal display module;

the main server preprocesses the test signal and sends the preprocessed test signal to the mobile terminal through the mobile application platform;

the mobile terminal outputs a test result instruction according to the received confirmation instruction of the user; sending the test result instruction to the main server through the mobile application translation stage; and the determining instruction of the user is determined according to the test signal displayed by the terminal display module and the test signal received by the mobile terminal.

Optionally, the determining instruction of the user is determined according to the test signal displayed by the terminal display module and the test signal received by the mobile terminal, and the determining instruction includes:

when the test signal displayed by the terminal display module is consistent with the test signal received by the mobile terminal, the mobile terminal receives a confirmation instruction of a user;

and when the test signal displayed by the terminal display module is inconsistent with the test signal received by the mobile terminal, the mobile terminal cannot receive a confirmation instruction of the user.

Optionally, the mobile application platform includes a front-end server, a back-end server, and an intranet and intranet data security exchange platform; the main server sends the preprocessed test signal to the mobile terminal through the mobile application platform, and the method comprises the following steps:

the main server sends the preprocessed test signal to a front-end server;

the front-end server decrypts the test signal output by the main server and sends the decrypted test signal to the rear-end server through the intranet and extranet data security exchange platform;

and the post server checks the test signal after decryption and sends the test signal after checking to the mobile terminal.

Optionally, the test signal includes a current test signal, a voltage test signal, and an electric energy test signal.

Optionally, the mobile terminal includes a smart phone or a tablet computer.

In the embodiment of the invention, the test signal of the automation equipment output by the signal acquisition module is output to the main server through the terminal controller, and the test signal is sent to the terminal display module; the main server preprocesses the test signal and sends the preprocessed test signal to the mobile terminal through the mobile application platform; the mobile terminal outputs a test result instruction according to the received test signal and a confirmation instruction of a user; sending the test result instruction to a main server through a mobile application translation platform; the user's definite instruction is confirmed according to the test signal that terminal display module shows and the test signal that mobile terminal received, has so realized that intelligence and high-efficient accomplishes distribution network automation terminal test, possesses the advantage that novel in design, intelligent degree are high, efficiency of software testing is high simultaneously.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent test system for distribution network automation equipment according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of an intelligent testing method for distribution network automation devices according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not to be construed as limiting the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Fig. 1 is a schematic structural diagram of an intelligent test system for distribution network automation equipment according to an embodiment of the present invention; as shown in fig. 1, the system includes: the system comprises a mobile terminal 10, a mobile application platform 20, a distribution network automation master station module 30 and at least one distribution network automation device 40 to be tested; the at least one distribution network automation device to be tested 40 comprises a terminal communication module 41, a terminal display module 42, a terminal signal acquisition module 43 and a terminal controller 44; the terminal communication module 41, the terminal display module 42 and the terminal signal acquisition module 43 are all electrically connected with the terminal controller 44; the distribution network automation master station module 30 includes a master server 31; the main server configures 31 a main station communication module; the main server 31 is electrically connected with the mobile application platform 20; the mobile terminal 10 is in communication connection with the mobile application platform 20; the terminal communication module 41 is also in communication connection with the master station communication module;

a terminal controller 44 for outputting the test signal of the automation device output by the terminal signal acquisition module 43 to the main server 31; and sends the test signal to the terminal display module 42;

the main server 31 is configured to preprocess the test signal and send the preprocessed test signal to the mobile terminal 10 through the mobile application platform 20;

the mobile terminal 10 is used for outputting a test result instruction according to the received test signal and a confirmation instruction of a user; and sends the test result instruction to the main server 31 through the mobile application translation stage 20; the determination instruction of the user is determined according to the test signal displayed by the terminal display module 42 and the test signal received by the mobile terminal 10.

The test signal process of this embodiment is: the terminal controller 44 outputs the test signal of the automation device output by the terminal signal acquisition module 43 to the main server 31; and sends the test signal to the terminal display module 42; the test signals can comprise current signals, voltage signals and electric energy signals in the power grid line; the terminal signal acquisition module 42 includes a current acquisition module, a voltage acquisition module and an electric energy acquisition module. The main server 31 preprocesses the test signal and sends the preprocessed test signal to the mobile terminal 10 through the mobile application platform 20; the mobile terminal 10 is a mobile handheld terminal of an on-site operation and maintenance worker, and can be a smart phone or a tablet computer; the mobile terminal 10 outputs a test result instruction according to the received test signal and the confirmation instruction of the user; wherein, the confirmation instruction of the user is determined by the test signal displayed by the terminal display module 42 and the test signal received by the mobile terminal 10; in a specific test process, the field operation and maintenance personnel check whether the information displayed by the mobile handheld terminal is consistent with the test signal displayed by the terminal signal display module 42, and if so, output a confirmation instruction to the mobile terminal 10; if the information displayed by the mobile handheld terminal is not consistent with the test signal displayed by the terminal signal display module 42, no confirmation instruction is output to the mobile terminal 10; thus, if the mobile terminal 10 receives the test signal and the confirmation instruction of the user, the test result is output to be consistent; then the mobile terminal 10 sends a test result consistency instruction to the main server 31 through the mobile application translation stage 20, and the main server 31 notes and confirms that the power distribution network automatic terminal is qualified in testing; or if the mobile terminal 10 receives the test signal and does not receive the confirmation instruction of the user, outputting a result inconsistency instruction; the mobile terminal 10 then sends the test result inconsistency instruction to the main server 31 through the mobile application platform 20, and the main server 31 notes and confirms that the power distribution network automation terminal is unqualified in test. So realized intelligence and accomplish distribution network automation terminal test high-efficiently, had the advantage that modern design, intelligent degree are high, efficiency of software testing are high simultaneously.

Optionally, as shown in fig. 1, the mobile application platform 20 includes a front server 21, an intranet and intranet data security exchange platform 22, and a back server 23; the front server 21, the intranet and extranet data security exchange platform 22 and the rear server 23 are electrically connected in sequence; the front-end server 21 is configured to decrypt the test signal output by the main server 31, where the decryption includes, for example, performing data structure conversion and data content audit and monitoring on the test signal, and send the decrypted test signal to the back-end server 23 through the intranet and extranet data security exchange platform 22; the post-server 23 is configured to check the test signal after the decryption, for example, the check includes data extraction, data format check, data content filtering, and the like on the test signal, so that the security of mobile communication can be effectively ensured by using the mobile application platform 20 in this embodiment.

Optionally, as shown in fig. 1, the master station communication module and the terminal communication module include a 5G communication module.

The embodiment of the invention also provides an intelligent test method for the distribution network automation equipment, which is applied to the intelligent test system for the distribution network automation equipment in the embodiment, and fig. 2 is a schematic flow chart of the intelligent test method for the distribution network automation equipment provided by the embodiment of the invention; as shown in fig. 1 and 2, the test method includes:

s110, the terminal controller outputs a test signal of the automation equipment output by the terminal signal acquisition module to a main server; and sending the test signal to the terminal display module.

And S120, the main server preprocesses the test signal and sends the preprocessed test signal to the mobile terminal through the mobile application platform.

S130, the mobile terminal outputs a test result instruction according to the received confirmation instruction of the user; sending the test result instruction to a main server through a mobile application translation platform; the determining instruction of the user is determined according to the test signal displayed by the terminal display module and the test signal received by the mobile terminal.

In the embodiment, the test signal of the automation equipment output by the signal acquisition module is output to the main server through the terminal controller, and the test signal is sent to the terminal display module; the main server preprocesses the test signal and sends the preprocessed test signal to the mobile terminal through the mobile application platform; the mobile terminal outputs a test result instruction according to the received test signal and a confirmation instruction of a user; specifically, when the test signal displayed by the terminal display module is consistent with the test signal received by the mobile terminal, the mobile terminal receives a confirmation instruction of the user; when the test signal displayed by the terminal display module is inconsistent with the test signal received by the mobile terminal, the mobile terminal cannot receive the confirmation instruction of the user. The mobile terminal then sends the test result instruction to the main server through the mobile application translation platform; so realized intelligence and accomplish distribution network automation terminal test high-efficiently, possessed modern design, intelligent degree height, the high advantage of efficiency of software testing simultaneously.

Optionally, the sending, by the main server, the preprocessed test signal to the mobile terminal through the mobile application platform includes: the main server sends the preprocessed test signal to a front-end server; the front-end server decrypts the test signal output by the main server and sends the decrypted test signal to the rear-end server through the internal and external network data security exchange platform; and the post server carries out verification processing on the decrypted test signal and sends the test signal after the verification processing to the mobile terminal. Therefore, on the basis of the embodiment, the safety of mobile communication is realized through the main server, the internal and external network data safety exchange platform and the post server.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. The utility model provides a distribution network automation equipment intelligent test system which characterized in that includes: the system comprises a mobile terminal, a mobile application platform, a distribution network automation master station module and at least one distribution network automation device;

the distribution network automation equipment comprises a terminal communication module, a terminal display module, a terminal signal acquisition module and a terminal controller; the terminal communication module, the terminal display module and the terminal signal acquisition module are all electrically connected with the terminal controller;

the distribution network automation master station module comprises a master server; the main server is provided with a main station communication module; the main server is electrically connected with the mobile application platform; the mobile terminal is in communication connection with the mobile application platform; the terminal communication module is also in communication connection with the master station communication module;

the terminal controller is used for outputting the test signal of the automation equipment output by the terminal signal acquisition module to the main server; sending the test signal to the terminal display module;

the main server is used for preprocessing the test signal and sending the preprocessed test signal to the mobile terminal through the mobile application platform;

the mobile terminal is used for outputting a test result instruction according to the received test signal and a confirmation instruction of a user and sending the test result instruction to the main server through the mobile application translation platform; and the determining instruction of the user is determined according to the test signal displayed by the terminal display module and the test signal received by the mobile terminal.

2. The intelligent test system for distribution network automation equipment of claim 1, wherein the terminal signal collection module comprises a current collection module, a voltage collection module, and a power collection module.

3. The intelligent test system for distribution network automation equipment of claim 1, wherein the mobile application platform comprises a front-end server, a back-end server and an intranet and extranet data security exchange platform; the front server, the internal and external network data safety exchange platform and the rear server are electrically connected in sequence;

the front server is used for decrypting the test signal output by the main server and sending the decrypted test signal to the rear server through the intranet and extranet data security exchange platform;

and the post server is used for verifying and processing the test signal after decryption.

4. The power distribution network automation device intelligent test system of claim 1 wherein the mobile terminal comprises a smartphone or a tablet computer.

5. The intelligent test system for distribution network automation equipment of claim 1, wherein the master station communication module and the terminal communication module comprise 5G communication modules.

6. An intelligent testing method for distribution network automation equipment, which is applied to the intelligent testing system for distribution network automation equipment of any one of claims 1 to 5, and comprises the following steps:

the terminal controller outputs the test signal of the automation equipment output by the terminal signal acquisition module to the main server; sending the test signal to the terminal display module;

the main server preprocesses the test signal and sends the preprocessed test signal to the mobile terminal through the mobile application platform;

the mobile terminal outputs a test result instruction according to the received confirmation instruction of the user and sends the test result instruction to the main server through the mobile application translation platform; and the determining instruction of the user is determined according to the test signal displayed by the terminal display module and the test signal received by the mobile terminal.

7. The intelligent test method for the distribution network automation equipment according to claim 6, wherein the determining instruction of the user is determined according to the test signal displayed by the terminal display module and the test signal received by the mobile terminal, and comprises the following steps:

when the test signal displayed by the terminal display module is consistent with the test signal received by the mobile terminal, the mobile terminal receives a confirmation instruction of a user;

and when the test signal displayed by the terminal display module is inconsistent with the test signal received by the mobile terminal, the mobile terminal cannot receive a confirmation instruction of the user.

8. The intelligent test method for the distribution network automation equipment according to claim 6, wherein the mobile application platform comprises a front server, a back server and an internal and external network data security exchange platform;

the main server sends the preprocessed test signal to the mobile terminal through the mobile application platform, and the method comprises the following steps:

the main server sends the preprocessed test signal to a front-end server;

the front-end server decrypts the test signal output by the main server and sends the decrypted test signal to the rear-end server through the intranet and extranet data security exchange platform;

and the post server checks the test signal after decryption and sends the test signal after checking to the mobile terminal.

9. The intelligent test method for distribution network automation equipment of claim 6, wherein the test signals comprise current test signals, voltage test signals and power test signals.

10. The intelligent test method for the distribution network automation equipment according to claim 6, wherein the mobile terminal comprises a smart phone or a tablet computer.

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