CN111464617B - Production standardization mobile monitoring system - Google Patents

Abstract

The invention discloses a production standardization mobile monitoring system, which comprises a server and a mobile client which are mutually communicated through the Internet; the server adopts an application framework taking a springboot as a center and adopts a mybatis persistent layer framework; the mobile client adopts a nodejs+weback+Vue+Hbuilder technical framework, and the file browsing adopts tbs browsing service; and the APP installation file is embedded in the mobile client. The data layer and the service layer are deployed in the local area network, the client accesses through the Internet, requests data through the Internet interaction platform, and provides important guarantee for information security; by means of the quasi-real-time data synchronization strategy, time and space limitations are eliminated, a mobile monitoring method is provided for users, working efficiency is greatly improved, and production standardization monitoring level is improved.

Description

Production standardization mobile monitoring system

Technical Field

The invention relates to the technical field of power system monitoring, in particular to a mobile terminal-based production standardization monitoring system.

Background

With the application of the new technology of the intelligent power grid and the standardized and integrated promotion of power grid equipment management, the operation level of the power grid equipment is greatly improved, and a perfect electric secondary system is established for assisting the operation of primary equipment of an electric system for domestic and foreign electric enterprises. However, in the operation of power production, the reliability of the operation of the secondary system equipment is inevitably reduced due to the occurrence of factors such as equipment quality, human misoperation, natural disasters and the like, so that the safe and stable operation of the primary power equipment is threatened. Therefore, the method is an essential information obtaining means for monitoring the running state of the power equipment and the operation normalization of personnel in the power production process in real time. Because of the information security problem, most of monitoring systems used in the current power industry are PC end application systems deployed in a local area network, and monitoring based on mobile terminals is lacking.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the production standardization mobile monitoring system applying the power system, which can be used for improving the working efficiency on the basis of ensuring the information safety.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows.

The production standardization mobile monitoring system comprises a server and a mobile client which are communicated with each other through the Internet; the server adopts an application framework taking a springboot as a center and adopts a mybatis persistent layer framework; the mobile client adopts a nodejs+weback+Vue+Hbuilder technical framework, and the file browsing adopts tbs browsing service; and the APP installation file is embedded in the mobile client.

The production standardization mobile monitoring system comprises the following steps of: firstly, writing vue pages, after writing, generating vue files into operable js files by using vue weback build commands, embedding the generated js files into a frame of hbuilder offline packaging for configuration, and then packaging by using an android system/xcode tool to generate a mobile terminal installation file.

According to the production standardization mobile monitoring system, the mobile client uses the HTML5+API technology as a bridge to realize that the APP installation file and the mobile client communicate with each other, js language of the APP installation file is converted into a language which can be identified by the mobile client through the HTML5+API bridge, and then a new WebView is established to display a view.

The communication method between the mobile client and the server of the production standardization mobile monitoring system comprises the following steps: the mobile client logs in an account password through the installed APP; after the login is completed, the server returns an encrypted secret key to the mobile client, and the mobile client carries the secret key to send to the server for identity authentication after each operation, and then executes the operation of the user after the authentication is passed; compiling the sql statement in a database by the mobile client to execute data query, analyzing and processing the data after the server acquires the data, formatting the data into json format after the processing is completed, and returning the json format to the client; the mobile client receives the data and then performs specific processing to process the data into a format conforming to the specifications of the echarts.

By adopting the technical scheme, the invention has the following technical progress.

The data layer and the service layer are deployed in the local area network, the client accesses through the Internet, requests data through the Internet interaction platform, and provides important guarantee for information security; through a quasi-real-time data synchronization strategy, the data of the mobile terminal and the data of the Pc terminal can be consistent in real time based on the cross-user operation of Oracle, so that the time and space limitation is eliminated, a mobile monitoring method is provided for a user, the working efficiency is greatly improved, and the production standardization monitoring level is improved.

Detailed Description

The present invention will be described in further detail with reference to specific embodiments.

A production standardization mobile monitoring system comprises a server and a mobile client which are communicated with each other through the Internet, wherein a hybrid App hybrid mode mobile application is built in the mobile client, and information acquisition, processing and display are achieved. The whole system is designed based on a JAVAEE framework and a C/S architecture.

The server adopts an application framework taking a springboot as a center and adopts a mybatis persistent layer framework. The Spring boot application framework can create an independent Spring application program, can also create executable JARs and WARs based on a Maven or Gradle plugin thereof, and is embedded with a Tomcat container, so that the configuration is concise; compared with the original Hibernatite framework, the mybatis persistent layer framework has smaller development difficulty, is convenient to maintain and manage in the later period, and can achieve finer sql optimization. The data layer and the service layer are arranged in the service end, the client accesses through the Internet, requests data through the Internet interaction platform, and provides important guarantee for information security.

The mobile client adopts a nodejs+weback+Vue+Hbuilder technical framework, and compared with the original development, the mobile client has the advantages of higher development efficiency, convenient updating and deployment, convenient code maintenance, low cost and higher portability.

And the mobile client is embedded with an APP installation file. The method for creating the APP installation file comprises the following steps: firstly, writing vue pages, after writing, generating vue files into operable js files by using vue weback build commands, embedding the generated js files into a frame of hbuilder offline packaging for configuration, and then packaging by using an android system/xcode tool to generate a mobile terminal installation file.

In the view display process, the mobile client uses the HTML5+API technology as a bridge to communicate the app with the mobile client, converts js language of the app into a language which can be identified by the mobile client through the HTML5+API bridge, and then establishes a new WebView for displaying the view.

The communication method between the mobile client and the server comprises the following steps: the mobile client logs in an account password through the installed APP; after the login is completed, the server returns an encrypted secret key to the mobile client, and the mobile client carries the secret key to send to the server for identity authentication after each operation, and then executes the operation of the user after the authentication is passed; compiling the sql statement in a database by the mobile client to execute data query, analyzing and processing the data after the server acquires the data, formatting the data into json format after the processing is completed, and returning the json format to the client; the mobile client receives the data and then performs specific processing to process the data into a format conforming to the specifications of the echarts. For example, in the case of a histogram, the data will be divided into two sets of corresponding xy axes.

The file browsing adopts tbs browsing service, and the specific steps are that the user selects the file to be browsed, firstly, the client downloads the file stored in the local side service to the local, and then the client loads the vacation tbs plug-in to analyze the local file. Compared with the novel solution of the traditional scheme, the novel solution has the advantages of being fast in speed, saving in flow, good in compatibility, complete in function and the like, solves the problem that a mobile terminal cannot directly open pdf, txt, xcel and other documents, accelerates loading speed, enables user experience to be better, reduces flow problems of loading use at the same time, and strengthens model compatibility problems caused by fragmentation of the mobile client.

The message pushing of the mobile client adopts aurora pushing service, and the aurora pushing service is characterized by portability, flexible screening, stability, high efficiency and professional support.

When the data volume returned by the request background is too large, the app end display speed and efficiency are too slow, and if the data flow is huge, the whole app can be blocked. According to the invention, the data is displayed in a paging-like manner, when the data volume is too large, the app interface of the mobile client only displays 10 pieces of data, when ten pieces of data are browsed, the data are pulled down, the data are requested to the background once again, and 10 pieces of data are added after the original 10 pieces of data again. Only ten data are acquired and displayed at a time, so that the rendering speed is greatly improved, and the phenomenon that the app is blocked is avoided.

When switching the main distribution network, the background needs to be continuously updated to tell whether the main network data or the distribution network data is needed at present, and the current state needs to be continuously updated every time the request is made. The invention adopts the vuex, which can save an array, an object or a nested structure, carries out bidirectional binding, automatically updates all referenced places after a state is modified by using a commit, can customize a data filtering method, a value method, logic judgment and the like without re-value, can package ajax in the vuex, and only takes charge of calling data outside, thereby solving the sharing problem of the same state among components.

Claims (4)

1. Production standardization mobile monitoring system, its characterized in that: the system comprises a service end and a mobile client which are communicated with each other through the Internet; the server adopts an application framework taking a springboot as a center and a mybatis persistent layer framework, and a data layer and a service layer which are deployed in a local area network are arranged in the server; the mobile client requests data from the server through an internal and external network interaction platform, the mobile client adopts a nodejs+weback+Vue+Hbuilder technical framework, and file browsing adopts tbs browsing service; and the APP installation file is embedded in the mobile client.

2. The production standardized mobile monitoring system of claim 1 wherein the method for creating the APP installation file is: firstly, writing vue pages, after writing, generating vue files into operable js files by using vue webackbuild commands, embedding the generated js files into an hbuilder offline packaging framework for configuration, and packaging by using an android system/xcode tool to generate a mobile terminal installation file.

3. The production-standardized mobile monitoring system of claim 2 wherein: the mobile client uses an HTML5+API technology as a bridge to realize that the APP and the mobile client communicate with each other, js language of the APP is converted into a language which can be identified by the mobile client through the HTML5+API bridge, and then a new WebView is established for view display.

4. The production standardization mobile monitoring system of claim 1 wherein the communication method between the mobile client and the server is: the mobile client logs in an account password through the installed APP; after the login is completed, the server returns an encrypted secret key to the mobile client, and the mobile client carries the secret key to send to the server for identity authentication after each operation, and then executes the operation of the user after the authentication is passed; compiling the sql statement in a database by the mobile client to execute data query, analyzing and processing the data after the server acquires the data, formatting the data into json format after the processing is completed, and returning the json format to the client; the mobile client receives the data and then performs specific processing to process the data into a format conforming to the specifications of the echarts.