CN111740863A

CN111740863A - Configuration method and system for intelligent distribution transformer terminal

Info

Publication number: CN111740863A
Application number: CN202010565171.4A
Authority: CN
Inventors: 张晓惠; 吴栋萁; 张喆; 刘柱; 李温静
Original assignee: State Grid Information and Telecommunication Co Ltd; Electric Power Research Institute of State Grid Zhejiang Electric Power Co Ltd
Current assignee: State Grid Information and Telecommunication Co Ltd; Electric Power Research Institute of State Grid Zhejiang Electric Power Co Ltd
Priority date: 2020-06-19
Filing date: 2020-06-19
Publication date: 2020-10-02

Abstract

The invention provides a configuration method and a configuration system for an intelligent distribution transformer terminal, which comprise the steps of determining the user authority of a user who successfully logs in at present; displaying a user operation interface corresponding to the user authority; acquiring an instruction corresponding to the execution of the configuration item based on the user operation interface; if the installation operation instruction is configured, generating installation files corresponding to a plurality of TTUs to be delivered from the factory in the same batch based on TTU requirement information, and storing the installation files; if the installation instruction is the installation instruction, acquiring an installation configuration file, and matching the installation configuration file with the MD5 code in the pre-stored installation file; and if so, executing the installation configuration file according to the installation operation instruction, and executing one-key installation and configuration operation on the TTUs to be delivered from the factory in the same batch. In the scheme, the configuration items do not need to be manually installed one by one, and when the one-key installation instruction is obtained, whether the imported installation configuration file is matched with the MD5 code in the pre-saved installation file is verified, so that the version of the micro application APP is determined to be installed, and the installation configuration efficiency can be improved.

Description

Configuration method and system for intelligent distribution transformer terminal

Technical Field

The invention relates to the technical field of communication, in particular to a configuration method and a configuration system for an intelligent distribution transformer terminal.

Background

For Intelligent distribution Transformer Terminals (TTUs) to be sold to various national grid provinces companies, software installation and configuration are required when the TTUs leaves a factory according to factory requirements, wherein the software installation and configuration include a system CC package, a container, a micro application APP and a micro application APP required for installation, and security agent files, terminal intrinsic parameters, APNs, 4G modules and the like required for configuration of the TTUs.

At present, technicians mainly perform software installation and configuration on intelligent distribution transformer terminals to be delivered from factories one by one through own experience. On one hand, as more intelligent distribution transformer terminals need to leave the factory in the same batch and more projects are required to leave the factory, the software installation and configuration efficiency is low due to the mode of one-by-one configuration by technicians. On the other hand, due to the fact that different national power grid provinces and different regions of the same national power grid province, the version requirements of the micro application APP to be installed on the intelligent distribution transformer terminal are different, and the version of the micro application APP installed through experience of technicians is inaccurate.

According to the method, when the existing intelligent distribution transformer terminal to be delivered from the factory is installed and configured with software according to delivery requirements, the problems that installation and configuration efficiency is low and the version of the micro application APP cannot be accurately installed exist.

Disclosure of Invention

In view of this, embodiments of the present invention provide a configuration method and system for an intelligent distribution transformer terminal, so as to solve the problems that in the prior art, an installation configuration efficiency of an intelligent distribution transformer terminal to be shipped is low, and an APP version of a micro application cannot be accurately installed.

In order to achieve the above purpose, the embodiments of the present invention provide the following technical solutions:

the embodiment of the invention discloses a configuration method for an intelligent distribution and transformation terminal on one hand, which is suitable for a configuration system for the intelligent distribution and transformation terminal, wherein the configuration system for the intelligent distribution and transformation terminal is connected with a plurality of intelligent distribution and transformation terminals TTU through a serial server and/or a switch, and the method comprises the following steps:

determining user authority of a user who successfully logs in at present, wherein the user authority is pre-distributed according to different operation authorities executed on the TTU;

displaying a user operation interface corresponding to the user authority, wherein the user operation interface comprises a basic information sub-interface and a terminal configuration operation sub-interface, the basic information sub-interface is used for displaying basic information and connection state information of all TTUs connected with the configuration system for the intelligent distribution transformer terminal, and the terminal configuration operation sub-interface is used for displaying configuration items and configuration interfaces corresponding to the configuration items;

acquiring an instruction corresponding to the user executing the configuration item based on the user operation interface;

if the installation operation instruction is configured, generating installation files corresponding to a plurality of TTUs to be shipped from a factory in the same batch based on TTU requirement information, and storing the installation files, wherein the installation files comprise information summary MD5 codes and installation operation instructions, and the MD5 codes are used for identifying versions;

if the installation instruction is the installation instruction, acquiring an installation configuration file, and matching the installation configuration file with the MD5 code in the installation file stored in advance;

and if so, executing the installation configuration file according to the installation operation instruction, and executing one-key installation and configuration operation on the TTUs to be delivered from the factory in the same batch.

Optionally, if the installation operation instruction is configured, the installation files corresponding to multiple TTUs to be shipped from the factory in the same batch are generated based on the TTU requirement information, and the saving process includes:

if the installation operation instruction is configured, obtaining TTU requirement information to be delivered from a factory in the same batch input by a user;

setting configuration information of the TTU according to the TTU requirement information, and generating an installation operation instruction corresponding to the TTU based on the configuration information;

and generating an installation file corresponding to the TTU to be shipped from the factory in the same batch by using the information abstract MD5 code and the installation operation instruction, and storing the installation file.

Optionally, after generating the installation file corresponding to the TTU to be shipped from the factory in the same batch by using the information digest MD5 code and the installation operation instruction, and before saving, the method further includes:

if the obtained instruction corresponding to the user executing the configuration item based on the user operation interface is a one-key installation test instruction, generating installation files corresponding to the TTUs to be shipped from the factory in the same batch and the selected installation configuration file based on the information abstract MD5 code and the installation operation instruction, and performing one-key installation test;

and if the one-key installation test is passed, storing the installation files corresponding to the TTUs to be shipped from the factory in the same batch.

Optionally, the method further includes:

if the obtained instruction corresponding to the user executing the configuration item based on the user operation interface is a detection instruction, after the one-key installation and configuration operation is performed on the TTUs to be shipped from the factory in the same batch, the correctness of the installation and configuration contents of the TTUs to be shipped from the factory in the same batch is detected according to TTU requirement information.

Optionally, the method further includes:

if the obtained instruction corresponding to the user for executing the configuration item based on the user operation interface is an installation instruction, when an installation configuration file is not matched with the MD5 code in the pre-stored installation file, outputting an installation error prompt, and stopping executing one-key installation and configuration operation on the TTUs to be shipped from the factory in the same batch.

The embodiment of the invention also discloses a configuration system for the intelligent distribution transformer terminal, which is connected with a plurality of intelligent distribution transformer terminal TTUs through a serial server and/or a switch, and comprises:

the display is used for displaying a user operation interface corresponding to the user authority, the user operation interface comprises a basic information sub-interface and a terminal configuration operation sub-interface, the basic information sub-interface is used for displaying basic information and connection state information of all TTUs connected with the configuration system for the intelligent distribution transformer terminal, and the terminal configuration operation sub-interface is used for displaying configuration items and configuration interfaces corresponding to the configuration items;

the processor is used for determining the user authority of the user who successfully logs in at present, and the user authority is pre-distributed according to different operation authorities executed on the TTU; acquiring an instruction corresponding to the user executing the configuration item based on the user operation interface; if the installation operation instruction is configured, generating installation files corresponding to a plurality of TTUs to be shipped from a factory in the same batch based on TTU requirement information, and storing the installation files, wherein the installation files comprise information summary MD5 codes and installation operation instructions, the MD5 codes are used for identifying versions, and if the installation files are installation instructions, executing a one-key installation module;

the one-key installation module is configured to acquire an installation configuration file, match the installation configuration file with MD5 code in the installation file stored in advance, execute the installation configuration file according to the installation operation instruction if the installation configuration file is matched with the MD5 code in the installation file, and execute one-key installation and configuration operations on the TTUs to be shipped from the factory in the same batch.

Optionally, the processor is specifically configured to: if the installation operation instruction is configured, obtaining TTU requirement information to be delivered from a factory in the same batch input by a user; setting configuration information of the TTU according to the TTU requirement information, and generating an installation operation instruction corresponding to the TTU based on the configuration information; and generating an installation file corresponding to the TTU to be shipped from the factory in the same batch by using the information abstract MD5 code and the installation operation instruction, and storing the installation file.

Optionally, if the obtained instruction corresponding to the user executing the configuration item based on the user operation interface is a one-key installation test instruction, the processor is further configured to execute a test module;

the test module is used for generating an installation file corresponding to the TTU to be shipped from the factory in the same batch and a selected installation configuration file to perform one-key installation test based on the information abstract MD5 code and the installation operation instruction; and if the one-key installation test is passed, storing the installation files corresponding to the TTUs to be shipped from the factory in the same batch.

Optionally, if the obtained instruction corresponding to the user executing the configuration item based on the user operation interface is a detection instruction, the processor is further configured to execute a detection module;

the detection module is configured to detect correctness of installation and configuration contents of the TTUs to be shipped from the factory in the same batch according to TTU requirement information after the one-key installation and configuration operation is performed on the TTUs to be shipped from the factory in the same batch.

Optionally, the installation module is further configured to output an installation error prompt when the installation configuration file is not matched with the MD5 code in the installation file saved in advance, and stop performing one-key installation and configuration operations on the TTUs to be shipped from the factory in the same batch.

Based on the configuration method and the configuration system for the intelligent distribution transformer terminal provided by the embodiment of the invention, the method is suitable for the configuration system for the intelligent distribution transformer terminal, the configuration system for the intelligent distribution transformer terminal is connected with a plurality of intelligent distribution transformer terminal TTUs through a serial server and/or a switch, and the method comprises the following steps: determining the user authority of the user who successfully logs in at present; displaying a user operation interface corresponding to the user authority; acquiring an instruction corresponding to the execution of the configuration item based on the user operation interface; if the installation operation instruction is configured, generating installation files corresponding to a plurality of TTUs to be delivered from the factory in the same batch based on TTU requirement information, and storing the installation files; if the installation instruction is the installation instruction, acquiring an installation configuration file, and matching the installation configuration file with the MD5 code in the pre-stored installation file; and if so, executing the installation configuration file according to the installation operation instruction, and executing one-key installation and configuration operation on the TTUs to be delivered from the factory in the same batch. According to the scheme, the configuration items do not need to be manually installed one by one, and when the configuration installation operation instruction triggered by a user is obtained, the installation file containing the version identification is determined and stored according to the TTU requirement information. When a one-key installation instruction triggered by a user is acquired, whether the imported installation configuration file is matched with the MD5 code in the pre-stored installation file or not is verified, so that the version of the micro application APP can be determined, the configuration items do not need to be manually installed one by one, and the installation configuration efficiency can be improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic connection diagram of an upper computer and multiple TTUs according to an embodiment of the present invention;

fig. 2 is a schematic diagram illustrating a connection between an upper computer and a plurality of TTUs according to an embodiment of the present invention;

fig. 3 is a schematic flowchart of a configuration method for an intelligent distribution terminal according to an embodiment of the present invention;

fig. 4 is a schematic flowchart of generating an installation file according to an embodiment of the present invention;

FIG. 5 is a diagram illustrating a rights management login interface according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a basic information sub-interface provided by an embodiment of the present invention;

FIG. 7 is a diagram illustrating an installation file export interface according to an embodiment of the present invention;

FIG. 8 is a schematic diagram of an installation operation sub-interface provided by an embodiment of the present invention;

fig. 9 is a schematic flowchart of another configuration method for an intelligent distribution terminal according to an embodiment of the present invention;

fig. 10 is a block diagram of a configuration system for an intelligent distribution terminal according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In this application, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

In the embodiment of the invention, the configuration items do not need to be manually installed one by one, and when the configuration installation operation instruction triggered by a user is obtained, the installation file containing the version identification is determined and stored according to the TTU requirement information. When a one-key installation instruction triggered by a user is acquired, whether the imported installation configuration file is matched with the MD5 code in the pre-stored installation file or not is verified, so that the version of the micro application APP can be determined, the configuration items do not need to be manually installed one by one, and the installation configuration efficiency can be improved.

Referring to fig. 1, a schematic connection diagram of an upper computer and a plurality of TTUs according to an embodiment of the present invention is disclosed.

The plurality of TTUs includes at least TTU1, TTU2, TTU3, and TTU 4.

Note that TTU1, TTU2, TTU3, and TTU4 are TTUs to be shipped from the factory in the same batch.

The upper computer 10, that is, the configuration system for the intelligent distribution transformer terminal is connected with the ports of the TTU1, the TTU2, the TTU3 and the TTU4 through the 232 serial port of the serial server and the network cable of the switch.

In addition to the connection diagram between the host computer and the plurality of TTUs shown in fig. 1, the host computer 10 provides a plurality of connection methods with the TTUs, and the following description is given.

In a specific implementation, when the upper computer 10 does not need to perform file transmission with multiple TTUs, the upper computer 10 may be connected to the TTU1, the TTU2, the TTU3, and the TTU4 through the 232 serial port of the serial server, so that the upper computer 10 can directly access the TTUs.

In another specific implementation, when the upper computer 10 needs to perform file transmission with multiple TTUs, the upper computer 10 may be connected to the ports of the TTU1, the TTU2, the TTU3, and the TTU through a switch by using network cables, as shown in fig. 2.

Specifically, the upper computer 10 may be connected to the ports of the TTU1, the TTU2, the TTU3, and the TTU4 through the SSH port of the switch by using a network cable, so that the upper computer 10 can remotely access the TTU.

It should be noted that, the upper computer 10 can perform network interface connection through a switch, and can also perform network interface connection through equipment such as a multiport repeater HUB.

In the embodiment of the present invention, based on the connection diagram between the upper computer and the multiple TTUs shown in the present invention, the upper computer implements a process of configuring and processing the TTUs, as shown in fig. 3, including the following steps:

step S301: and determining the user authority of the user who successfully logs in at present.

In step S301, the user authority is pre-assigned according to the operation authority performed on the TTU.

In the process of implementing step S301 specifically, when a login instruction triggered by a user is detected, right user information and a password input by the user based on a right management login interface are acquired, and it is determined whether the right user information and the password are consistent with right user information and a password stored in a database in advance, and if not, a prompt interface indicating that the login is failed is displayed. If the user information is consistent with the authority user information, the current user is successfully logged in, and the user authority of the user is obtained according to the authority user information.

It should be noted that, the process of allocating the user right in advance according to the difference of the operation rights executed by the TTU includes:

step S11: the users are divided into four levels of users.

It should be noted that the users include four types of users for research, development, management, production, and engineering.

In a specific implementation, the classification is performed according to the preset requirement of TTU production debugging. Specifically, four types of user grades of research, development, management, production and engineering are divided in a mode from large to small.

Step S12: and distributing the user authority according to different operation authorities executed by the TTU.

In step S12, the operation authority includes, from the large to the small, the full-authority operation authority, the operation authority for executable item configuration, the operation authority for executable one-key installation, and the remaining operation authorities except for the execution of item configuration and one-key installation.

Wherein, the full-right operation authority refers to the authority capable of executing all the operations.

In specific implementation, different operation authorities are allocated to different types of users according to user types to serve as user authorities of respective users.

Wherein, the operation authority allocated by the research and development user is full-authority operation authority.

And managing the operation authority distributed by the user to the operation authority configured for the executable item.

The operation authority allocated by the production user is the operation authority capable of executing one-key installation.

The operation authority allocated by the engineering user is the rest operation authority except the execution project configuration and the one-key installation.

It should be noted that the larger the grade of the user type, the larger the corresponding user authority.

That is, the full-right operation right is assigned to the user right corresponding to the user of the research and development type, that is, the research and development user right. And distributing the operation authority configured by the executable item to the user authority corresponding to the user of the management type, namely, the management user authority. And distributing the operation authority capable of executing one-key installation to a user authority corresponding to the user of the production type, namely a production authority user. And distributing the other operation authorities except the execution project configuration and the one-key installation to the user authority corresponding to the user of the project type, namely the project authority user.

Step S302: and displaying a user operation interface corresponding to the user authority.

In step S302, the user operation interface includes a basic information sub-interface and a terminal configuration operation sub-interface.

The basic information sub-interface is used for displaying basic information and connection state information of all TTUs connected with an upper computer, namely a configuration system for the intelligent distribution transformer terminal, and the terminal configuration operation sub-interface is used for displaying configuration items and configuration interfaces corresponding to the configuration items.

The user operation interface includes, in addition to the basic information sub-interface and the terminal configuration operation sub-interface described above, other interfaces such as an installation operation sub-interface and an installation file export interface.

Further, the installation operation sub-interface is used for displaying specific parameters of the configuration file, and executing multiple machines, that is, one-key installation keys of multiple TTUs and local machine execution, and one-key installation key of a single TTU.

In the specific implementation step S302, if the user right is the management user right, a basic information sub-interface and a terminal configuration operation sub-interface corresponding to the management user right may be displayed. And if the user authority is the production user authority, displaying an installation operation sub-interface.

Optionally, if the user right is a research and development user right, all user operation interfaces such as a basic information sub-interface, a terminal configuration operation sub-interface, and an installation operation sub-interface corresponding to the research and development user right may be displayed. If the user right is the engineering user right, the user can display all the interfaces except the basic information sub-interface, the terminal configuration operation sub-interface and the installation operation sub-interface corresponding to the research and development user right.

Step S303: and acquiring an instruction corresponding to the user executing the configuration item based on the user operation interface.

In step S303, the instructions corresponding to the user executing the configuration items based on the user operation interface include a configuration installation operation instruction, an installation instruction, a detection instruction, a one-key installation test instruction, and the like.

In the process of implementing step S303 specifically, a configuration installation operation instruction, an installation instruction, a detection instruction, a one-key installation test instruction, and the like corresponding to the user executing the configuration item based on the operation interface corresponding to the user authority may be obtained.

Further, if the user right corresponding to the user is the management user right, a configuration installation operation instruction, a detection instruction, a one-key installation test instruction and the like corresponding to the configuration item executed by the user based on the operation interface corresponding to the management user right can be acquired. If the user authority corresponding to the user is the production authority user, the installation instruction corresponding to the operation interface execution configuration item corresponding to the production user authority of the user can be obtained.

Step S304: and if the installation operation instruction is configured, generating installation files corresponding to a plurality of TTUs to be delivered from the factory in the same batch based on the TTU requirement information, and storing the installation files.

In step S304, the installation file contains a message digest MD5 code and an installation operation command, and the MD5 code is a hash function for identifying the version of the terminal.

In the specific implementation step S304, if a configuration installation operation instruction corresponding to the configuration item executed by the user based on the terminal configuration operation sub-interface corresponding to the authority of the management user is received, TTU requirement information input by the user is obtained, and the TTU requirement information is analyzed, so as to generate MD5 codes and installation operation instructions corresponding to multiple TTUs to be shipped from the factory in the same batch.

Wherein, in order to realize version control, the installation file is converted into a file in an MD5 format.

It should be noted that the installation operation instruction is used to instruct the installation operations to be performed in a preset order, including a specific execution order of the configuration items in the TTU and/or an order of performing the installation operations on a plurality of TTUs.

It should be further noted that the order of executing the installation operations on the multiple TTUs includes executing the installation operations on each TTU in turn, or executing the installation operations on the multiple TTUs simultaneously.

Step S305: and if the installation instruction is the installation instruction, acquiring an installation configuration file.

In the process of implementing step S305 specifically, if the instruction corresponding to the user executing the configuration item based on the operation interface corresponding to the user authority is received as the installation instruction, it indicates that the user authority is the production user authority. And selecting an installation configuration file corresponding to the TTU to be delivered from the factory through an installation operation sub-interface, and acquiring an installation file saved by a user with the authority of the management user.

Step S306: and judging that the installation configuration file is matched with the MD5 code in the pre-saved installation file, if so, executing step S307, and if not, executing step S308.

In the process of implementing step S306 specifically, it is determined whether the MD5 codes in the installation configuration file and the installation file match, if so, step S307 is executed, and if not, step S308 is executed.

Optionally, the installation configuration file is also exported to a preset storage location by a user who has the authority of managing the user in advance.

Step S307: and executing the installation configuration file according to the installation operation instruction, and executing one-key installation and configuration operation on the TTUs to be delivered from the factory in the same batch.

In the embodiment of the invention, the one-key installation and configuration comprises TTU system update installation, APP installation, management setting of a container and the like.

Wherein, the management setting of the container refers to the mirror installation of the container and the mapping of the container.

In the process of implementing step S307 specifically, if the installation instruction triggered by the user with the production user authority is executed by multiple machines, the installation configuration file is executed according to the installation operation instruction, that is, the one-key installation and configuration operation is sequentially executed for each TTU in the same batch to be shipped from the factory. And if the installation instruction triggered by the user corresponding to the production user authority is executed by a single machine, executing the installation configuration file according to the installation operation instruction, and executing one-key installation and configuration operation on the TTU to be delivered from the factory.

If the installation instruction triggered by the user corresponding to the production user authority is executed by multiple machines, there is another embodiment based on the specific implementation process of step S307.

Specifically, the installation configuration file is executed according to the installation operation instruction, that is, a one-key installation and configuration operation is simultaneously executed for each TTU in the same batch to be shipped.

Step S308: and outputting an installation error prompt, and stopping executing one-key installation and configuration operation on the TTUs to be shipped from the factory in the same batch.

It should be noted that outputting the installation error prompt is a prompt message of the graphic type.

In the process of implementing step S308 specifically, the prompt information of the image-text type is output to prompt that the installation of the TTU of the user having the production user authority and the management user authority is incorrect, and an installation interruption instruction is executed to stop executing one-key installation and configuration operations on the TTUs to be shipped from the factory in the same batch.

Based on the configuration method for the intelligent distribution transformer terminal shown in the embodiment of the present invention, in an implementation manner of the embodiment of the present invention, if the step S304 is executed to configure an installation operation instruction, based on TTU requirement information, a specific implementation process is generated and saved for a plurality of TTUs corresponding to the same batch to be shipped from a factory, as shown in fig. 4, the method includes the following steps:

step S401: and if the installation operation instruction is configured, obtaining TTU requirement information of the same batch to be delivered from the factory, which is input by a user.

In the process of specifically implementing step S401, if the installation operation instruction is configured, TTU requirement information of the same batch to be shipped from the factory, which is input by the user having the management authority, is obtained.

It should be noted that the TTU requirement information to be shipped from the factory in the same batch is set by a technician according to the requirements of the national grid province company.

Step S402: and setting configuration information of the TTU according to the TTU requirement information, and generating an installation operation instruction corresponding to the TTU based on the configuration information.

In the process of specifically implementing the step S402, the TTU requirement information is analyzed, the configuration information of the TTU is set according to the analysis result, and the installation operation instruction corresponding to the TTU is generated based on the configuration information.

Step S403: and generating installation files corresponding to TTUs to be shipped from the factory in the same batch by using the information abstract MD5 code and the installation operation instruction, and storing the installation files.

In the process of implementing step S403 specifically, the installation operation instruction that needs to be installed is converted into an installation operation instruction in a format corresponding to the information digest MD5 code, so as to obtain installation files corresponding to the TTUs to be shipped from the factory in the same batch, and the installation files are exported and stored to a preset storage location.

In the embodiment of the invention, the configuration items do not need to be manually installed one by one, when the configuration installation operation instruction triggered by a user is obtained, TTU requirement information is obtained, the TTU requirement information is analyzed, the configuration information of the TTU is set according to the analysis result, and the installation operation instruction corresponding to the TTU is generated based on the configuration information, so that the installation file containing the version identification and the installation operation instruction is determined and stored. Whether the imported installation configuration file is matched with the MD5 code in the pre-stored installation file or not is verified when a one-key installation instruction triggered by a user is acquired subsequently, so that the version of installing the micro application APP can be determined, the configuration items are not required to be installed manually one by one, and the installation configuration efficiency can be improved.

Based on the configuration method for the intelligent distribution transformer terminal shown in the embodiment of the present invention, in another implementation manner of the embodiment of the present invention, if the step S304 is executed to configure an installation operation instruction, based on TTU requirement information, a specific implementation process is generated and saved for a plurality of TTUs corresponding to the same batch to be shipped from a factory, as shown in fig. 4, the method includes the following steps:

step S21: and if the installation operation instruction is configured, obtaining TTU requirement information of the same batch to be delivered from the factory, which is input by a user.

Step S22: and setting configuration information of the TTU according to the TTU requirement information, and generating an installation operation instruction corresponding to the TTU based on the configuration information.

Step S23: and generating installation files corresponding to TTUs to be shipped from the factory in the same batch by using the information abstract MD5 code and the installation operation instruction.

It should be noted that the specific implementation process of step S21 to step S23 is the same as the specific implementation process of step S401 to step S403 shown in the above embodiment of the present invention, and reference may be made to each other.

Step S24: and if the obtained instruction corresponding to the user for executing the configuration item based on the user operation interface is a one-key installation test instruction, performing one-key installation test based on the installation file and the selected installation configuration file, if the one-key installation test passes, executing the step S25, and if the one-key installation test does not pass, returning to execute the step S22.

In the process of implementing the step S24 specifically, if the instruction corresponding to the user with the administrative user authority executing the configuration item based on the user operation interface is obtained as a one-key installation test instruction, the user with the administrative user authority selects an installation configuration file corresponding to the TTU to be shipped from the factory based on the terminal configuration operation sub-interface; and testing whether the MD5 code in the installation file is matched with the selected installation configuration file, if so, indicating that the one-key installation test is passed, executing the step S25, otherwise, indicating that the one-key installation test is failed, and continuing to set the configuration information of the TTU according to the TTU requirement information of the same batch to be delivered, namely, returning to execute the step S22.

Step S25: and storing the installation files corresponding to the TTUs to be shipped from the factory in the same batch.

In the embodiment of the invention, the configuration items do not need to be manually installed one by one, when the configuration installation operation instruction triggered by a user is obtained, TTU requirement information is obtained, the TTU requirement information is analyzed, the configuration information of the TTU is set according to the analysis result, the installation operation instruction corresponding to the TTU is generated based on the configuration information, so that the installation file containing the version identification and the installation operation instruction is determined, and after the one-key installation test instruction is obtained, the installation file is tested. Thereby saving the installation files that pass the test. Whether the imported installation configuration file is matched with the MD5 code in the pre-stored installation file or not is verified when a one-key installation instruction triggered by a user is acquired subsequently, so that the version of installing the micro application APP can be determined, the configuration items are not required to be installed manually one by one, and the installation configuration efficiency can be improved.

In order to better understand the configuration method for the intelligent distribution terminal shown in the above embodiment of the present invention, the details are illustrated by the contents shown in fig. 5 to fig. 8, and the details are described in the following process.

For example, there are 5 terminals connected, such as TTU1, TTU2, TTU3, TTU4, and TTU 5; when the authority user information pre-stored in the database is management, the corresponding password is 1235; when the authorized user information pre-stored in the database is produced, the corresponding password is 5210. The preset storage position is an ftp _ server folder of the C disk, and the configuration system for the intelligent distribution transformer terminal is an upper computer G.

The user A is a user with management authority. The user B is a user having a production right.

The user inputs the authority user information and the password corresponding to the user through the authority management login interface of the upper computer G as shown in FIG. 5.

If the upper computer G detects a login instruction triggered by a user, acquiring right user information input by the user based on a right management login interface as management and password 1235, and when the right user information and the password are determined to be consistent with the right user information management and password 1235 stored in a database in advance, acquiring the user right of the user as management user right according to the right user information, so that the user is determined to be a user A.

A basic information sub-interface corresponding to the authority of the management user is displayed as shown in fig. 6.

The basic information sub-interface comprises a terminal manager module for displaying the connection state information of the TTU1, the TTU2, the TTU3, the TTU4 and the TTU5 connected with the upper computer G, and a main control module for displaying the basic information of the TTU1, the TTU2, the TTU3, the TTU4 and the TTU 5.

Fig. 6 also shows the name TTU1 of the first TTU, and the protocol information is SERIAL and the user name is admin.

The user A triggers a configuration installation operation instruction based on a terminal configuration operation sub-interface, the upper computer G obtains TTU requirement information corresponding to TTU1, TTU2, TTU3, TTU4 and TTU5 input by a user with the authority of managing the user, analyzes the TTU requirement information, sets TTU configuration information according to an analysis result, and generates an installation operation instruction corresponding to the TTU based on the configuration information.

And converting the installation operation instruction required to be installed into an installation operation instruction in a format corresponding to the information summary MD5 code to obtain installation files corresponding to the TTU1, the TTU2, the TTU3, the TTU4 and the TTU 5.

The method comprises the steps that a user A triggers a one-key installation test instruction based on a terminal configuration operation sub-interface, and an installation configuration file which is selected by the user A based on the terminal configuration operation sub-interface and corresponds to a TTU to be delivered from a factory is obtained; and testing, and when the MD5 code in the installation file is determined to be matched with the selected installation configuration file, the one-key installation test corresponding to the TTU1, the TTU2, the TTU3, the TTU4 and the TTU5 is passed.

The installation files corresponding to the TTUs 1, 2, 3, 4 and 5 are exported from the export configuration module, as shown in fig. 7, and the exported installation files are saved in the ftp _ server folder of the C disk.

If the upper computer G detects a login instruction triggered by a user, acquiring right user information inputted by the user based on a right management login interface as management and password 5210, and when the right user information and the password are determined to be consistent with the right user information management and password 5210 stored in the database in advance, acquiring the user right of the user as a production user right according to the right user information, and determining the user as a user B.

The user B triggers an installation instruction of "multi-machine execution" based on the installation operation sub-interface, as shown in fig. 8, selects an installation configuration file corresponding to the TTU to be shipped from the "import configuration" module through the installation operation sub-interface, and obtains the installation file saved by the user a from the "import configuration" module. Upon determining that the installation configuration file matches the MD5 code in the installation file, one-key installation and configuration operations are performed simultaneously for the TTU1, TTU2, TTU3, TTU4, and TTU5 terminals.

Based on the configuration method for the intelligent distribution transformer terminal shown in fig. 3 in the embodiment of the present invention, after the step S306 is executed to execute the installation configuration file according to the installation operation instruction, and perform one-key installation and configuration operations on TTUs to be shipped from the factory in the same batch, referring to fig. 9 in combination with fig. 3, the configuration method for the intelligent distribution transformer terminal includes:

step S309: and if the obtained instruction corresponding to the user executing the configuration item based on the user operation interface is a detection instruction, detecting the correctness of the installation and configuration contents of the TTUs to be delivered from the factory in the same batch according to the TTU requirement information.

In the process of specifically implementing step S309, if the instruction corresponding to the user who acquires the management authority to execute the configuration item based on the user operation interface is a detection instruction, according to the analysis result of the TTU, the correctness of system installation, that is, CC package installation, container installation, APP installation, container mapping, and the like of the TTUs to be shipped from the factory in the same batch is detected.

In the embodiment of the invention, after one-key installation and configuration of TTUs to be shipped from a factory in the same batch are finished, the correctness of the installation and configuration contents of the TTUs to be shipped from the factory in the same batch is detected, so that the qualification of detection of a power grid province company is ensured, and the time for returning to the factory and reloading is reduced.

Corresponding to the configuration method for the intelligent distribution transformer terminal disclosed in the embodiment of the present invention, the embodiment of the present invention also discloses a configuration system for the intelligent distribution transformer terminal, as shown in fig. 10, which is a block diagram of a configuration system for the intelligent distribution transformer terminal provided in the embodiment of the present invention, and the configuration system includes: a display 1001 and a processor 1002.

A display 1001 is used to display a user operation interface corresponding to the user authority.

It should be noted that the user operation interface includes a basic information sub-interface and a terminal configuration operation sub-interface, where the basic information sub-interface is used to display basic information and connection state information of all TTUs connected to the configuration system for the intelligent distribution transformer terminal, and the terminal configuration operation sub-interface is used to display configuration items and configuration interfaces corresponding to the configuration items.

A processor 1002, configured to determine user permissions of users who successfully log in currently; acquiring an instruction corresponding to a user executing a configuration item based on a user operation interface; and if the installation operation instruction is configured, generating installation files corresponding to a plurality of TTUs to be delivered from the factory in the same batch based on the TTU requirement information, storing the installation files, and if the installation files are the installation instruction, executing the one-key installation module.

It should be noted that the user rights are pre-assigned according to different operation rights executed by the TTU, the installation file includes an information digest MD5 code and an installation operation instruction, and the MD5 code is used to identify the version.

And the one-key installation module is used for acquiring the installation configuration file, matching the installation configuration file with the MD5 code in the pre-stored installation file, executing the installation configuration file according to the installation operation instruction if the installation configuration file is matched with the MD5 code in the pre-stored installation file, and executing one-key installation and configuration operation on the TTUs to be delivered from the factory in the same batch.

Optionally, the one-key installation module is further configured to output an installation error prompt when the installation configuration file does not match the MD5 code in the pre-saved installation file, and stop performing one-key installation and configuration operations on the TTUs to be shipped from the factory in the same batch.

It should be noted that, the specific principle and the implementation process of each unit in the configuration system for the intelligent distribution terminal disclosed in the embodiment of the present invention are the same as the configuration method for the intelligent distribution terminal shown in the implementation of the present invention, and reference may be made to corresponding parts in the configuration method for the intelligent distribution terminal disclosed in the embodiment of the present invention, which are not described herein again.

Based on the configuration system for the intelligent distribution terminal shown in the embodiment of the present invention, the processor 1002 is specifically configured to: if the installation operation instruction is configured, obtaining TTU requirement information to be delivered from a factory in the same batch input by a user; setting configuration information of the TTU according to the TTU requirement information, and generating an installation operation instruction corresponding to the TTU based on the configuration information; and generating installation files corresponding to TTUs to be shipped from the factory in the same batch by using the information abstract MD5 code and the installation operation instruction, and storing the installation files.

Based on the configuration system for the intelligent distribution terminal shown in the embodiment of the present invention, if the obtained instruction corresponding to the user executing the configuration item based on the user operation interface is a one-key installation test instruction, the processor 1002 is further configured to execute the test module.

The testing module is used for generating installation files corresponding to TTUs to be shipped from a factory in the same batch and selected installation configuration files to perform one-key installation testing based on the information abstract MD5 codes and the installation operation instructions; and if the one-key installation test is passed, storing the installation files corresponding to the TTUs to be shipped from the factory in the same batch.

Based on the configuration system for the intelligent distribution transformer terminal, which is shown in the embodiment of the present invention, if the instruction corresponding to the user executing the configuration item based on the user operation interface is obtained as the detection instruction, the processor 1002 is further configured to execute the detection module.

And the detection module is used for detecting the correctness of the installation and configuration contents of the TTUs to be shipped in the same batch according to the TTU requirement information after one-key installation and configuration operations are performed on the TTUs to be shipped in the same batch.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, the system or system embodiments are substantially similar to the method embodiments and therefore are described in a relatively simple manner, and reference may be made to some of the descriptions of the method embodiments for related points. The above-described system and system embodiments are only illustrative, wherein the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A configuration method for an intelligent distribution transformer terminal is suitable for a configuration system for the intelligent distribution transformer terminal, the configuration system for the intelligent distribution transformer terminal is connected with a plurality of intelligent distribution transformer terminal TTUs through a serial server and/or a switch, and the method comprises the following steps:

2. The method according to claim 1, wherein if the installation operation instruction is configured, generating installation files corresponding to a plurality of TTUs to be shipped from a factory in the same batch based on TTU requirement information, and storing the installation files comprises:

3. The method according to claim 2, further comprising, after generating the installation file corresponding to the TTU to be shipped from the factory in the same batch by using the message digest MD5 code and the installation operation instruction, and before saving the installation file, the method further comprising:

4. The method of claim 1, further comprising:

5. The method of claim 1, further comprising:

6. A configuration system for an intelligent distribution and transformation terminal is characterized in that the configuration system for the intelligent distribution and transformation terminal is connected with a plurality of intelligent distribution and transformation terminals TTU through a serial server and/or a switch, and the system comprises:

7. The system of claim 6, wherein the processor is specifically configured to: if the installation operation instruction is configured, obtaining TTU requirement information to be delivered from a factory in the same batch input by a user; setting configuration information of the TTU according to the TTU requirement information, and generating an installation operation instruction corresponding to the TTU based on the configuration information; and generating an installation file corresponding to the TTU to be shipped from the factory in the same batch by using the information abstract MD5 code and the installation operation instruction, and storing the installation file.

8. The system according to claim 7, wherein if the instruction obtained by the user to execute the configuration item based on the ui is a one-key installation test instruction, the processor is further configured to execute a test module;

9. The system according to claim 6, wherein if the instruction obtained by the user to execute the configuration item based on the ui is a detection instruction, the processor is further configured to execute a detection module;

10. The system according to claim 6, wherein the installation module is further configured to output an installation error prompt and stop performing one-key installation and configuration operations on the TTUs to be shipped from the factory in the same batch when an installation configuration file does not match MD5 code in the installation file saved in advance.