CN107864454B - Smart power grid maintenance method and system based on mobile smart terminal - Google Patents

Abstract

The invention discloses a smart grid maintenance method and a system based on a mobile smart terminal, wherein a main server and the mobile smart terminal establish network connection and store user information; then, the main server divides blocks according to the geographic coverage range of the smart grid and configures corresponding sub-servers; then the main server sets a wireless network for each sub-server and configures a password; then the main server acquires the position information of the mobile intelligent terminal and pushes the corresponding sub-server wireless network password to the mobile intelligent terminal, and the mobile intelligent terminal is connected with the sub-server according to the wireless network password and verifies the user information; finally, the main server sends real-time fault information of the smart grid to the sub-servers, and the sub-servers push the fault information configuration to the smart mobile terminal; the system comprises a main server, a server wireless module, a block division module, a position information acquisition module and an intelligent terminal module.

Description

Smart power grid maintenance method and system based on mobile smart terminal

Technical Field

The invention relates to the technical field of mobile intelligent terminal application, in particular to a method and a system for maintaining an intelligent power grid based on a mobile intelligent terminal.

Background

The intelligent power distribution and utilization system is an important component of construction and maintenance of an intelligent power grid, and can generate far and decisive influences on power utilization reliability, power utilization electric energy quality, power utilization comfort level and the like of power consumers. Moreover, the power grid fault can be timely discovered according to the power grid fault reflected by the abnormal power utilization condition. However, the power grid maintenance personnel often cannot obtain the fault information of the smart power grid in the first time, so that timely and effective processing cannot be performed, the work efficiency of maintaining the safe operation of the smart power grid cannot meet the use requirements of people, and the user experience cannot be effectively improved all the time.

Disclosure of Invention

The invention aims to overcome the defects that power grid maintenance personnel cannot obtain fault information of a smart power grid in the first time and can perform timely and effective processing, and provides a smart power grid maintenance method and system based on a mobile smart terminal.

In order to realize the purpose, the technical scheme is as follows:

a smart grid maintenance method based on mobile smart terminal apps comprises the following steps:

s1: the method comprises the steps that network connection is established between a main server and a mobile intelligent terminal, and then registration information of an app user operation interface of the mobile intelligent terminal is obtained in real time through an app database in the main server and stored;

s2: pre-storing block data subjected to block division according to the geographic coverage range of the smart grid into a block division module of a master server, respectively configuring corresponding sub-servers according to the block data, and correspondingly setting an independent wifi coverage network and configuring a corresponding wifi password for the sub-servers arranged in one block;

s3: the position information acquisition module of the main server acquires the position information of a GPS positioning module of the mobile intelligent terminal in real time, compares the position information with the block data to acquire a block where the mobile intelligent terminal is located, and sends a wifi password of the sub-server corresponding to the block to the mobile intelligent terminal in a message pushing mode through the communication server;

s4: the mobile intelligent terminal establishes wifi connection with the sub server through a wifi password received in real time;

s5: the main server sends the intelligent power grid fault information acquired in real time to the corresponding sub-servers according to the block data, the sub-servers receive the intelligent power grid fault information in real time and configure a random query password for each piece of intelligent power grid fault information according to the time sequence, and then the random query passwords are sent to the mobile intelligent terminal in a message pushing mode through the communication server;

s6: the sub-server inquires whether a user logs in an app user operation interface in real time and correctly inputs a registration ID and a registration password in the registration information, and if yes, the sub-server performs local caching of background smart grid fault information through a wifi network; if not, continue to step S5;

s7: the mobile intelligent terminal receives the random query password in real time, and the user reads the fault information of the intelligent power grid in the query module of the app user operation interface through the random query password received in real time.

Wherein the registration information of step S1 includes user identity information, phone number and user job information in the smart grid maintenance system.

Step S2 further includes that the sub-server starts timing when performing local cache of the background smart grid fault information through the wifi network, and the effective duration of the random inquiry password corresponding to the smart grid fault information is 5-15 min.

The processing of the random query password comprises the steps that if the sub-server does not receive the random query password input in the query module of the app user operation interface within the effective duration of the random query password, an input box of the query module is closed; and if the sub-server does not receive the random query password input in the query module of the app user operation interface within the effective duration of the random query password, destroying the local cache of the background intelligent power grid fault information by the sub-server through the wifi network.

Preferably, the inquiry password of step S5 is a random password.

Preferably, the validity duration of the inquiry password is 5-15 min.

The judgment basis for judging the successful login of the user in the step S6 is to query whether the user logs in the user operation interface of the mobile intelligent terminal in real time and correctly input the registration ID and the registration password in the registration information for the sub-server.

Wherein the step S7 includes the steps of:

s7.1: if the random query password is invalid, the fault information of the smart grid corresponding to the random query password shares the random query password A of the fault information of the smart grid at the next moment adjacent to the fault information of the smart grid, and the random query password A is sent to the mobile intelligent terminal in a message pushing mode through the general server again;

s7.2: if the sub-server does not receive the random inquiry password A input in the inquiry module of the user operation interface of the mobile intelligent terminal within the effective duration of the random inquiry password, repeating the step S7.1;

s7.3: and if the sub-server receives the random query password A input in the query module of the app user operation interface within the effective duration of the random query password, sequentially displaying all the smart grid fault information on the user operation interface of the query module.

S7.4: if the random query password fails for more than 3 times in a certain time t1, the sub-server randomly generates a query password B at intervals of time t2 and sends the query password B to the mobile intelligent terminal in a message pushing mode through the communication server until the sub-server receives the random query password B input in a query module of an app user operation interface within the effective time t2 of the random query password, and all the fault information of the smart power grids accumulated and stored in the sub-server within a certain time t1 share the random query password B; t1 is more than t2, t1 is more than or equal to 20min and less than or equal to 60min, and t2 is less than 10 min.

A smart power grid maintenance system based on a mobile smart terminal comprises a main server, a server wireless module, a block division module, a position information acquisition module and a smart terminal module; the server wireless module is used for the wireless connection between the intelligent terminal module and the main server; the block dividing module is used for carrying out block division on the geographic range maintained by the smart grid of the main server and carrying out block numbering, wherein the block numbering is a password of a wireless network correspondingly arranged in each block of the sub-servers; and the position information acquisition module is used for acquiring the position information of the mobile intelligent terminal in real time, comparing the position information with the block data to acquire a block where the mobile intelligent terminal is located, and then sending the wireless password of the sub-server corresponding to the block to the mobile intelligent terminal in a message pushing mode through the main server.

The intelligent terminal module comprises a terminal wireless module, an application module, a GPS positioning module, an inquiry module and a history viewing module; the GPS positioning module is used for positioning the mobile intelligent terminal and is connected with the position information acquisition module; the query module receives intelligent power grid fault information which is transmitted to the mobile intelligent terminal by the sub-server in real time through a wireless network, and carries out queuing display according to a time sequence; the history viewing module is used for viewing the history information.

Compared with the prior art, the invention has the beneficial effects that: a smart power grid maintenance method and system based on a mobile smart terminal are convenient for power grid fault maintenance personnel to directly and effectively obtain fault information and conduct efficient power grid maintenance operation, and user experience is improved.

Drawings

FIG. 1 is a flow chart of the present invention.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the patent;

the invention is further illustrated below with reference to the figures and examples.

Example 1

The invention provides a smart grid maintenance method based on a mobile smart terminal, which comprises the following steps as shown in figure 1:

s1: the method comprises the steps that network connection is established between a main server and a mobile intelligent terminal, and then registration information of an app user operation interface of the mobile intelligent terminal is obtained in real time through an app database in the main server and stored; the network connection may be a GPRS or WIFI network;

s2: pre-storing block data subjected to block division according to the geographic coverage range of the smart grid into a block division module of a master server, respectively configuring corresponding sub-servers according to the block data, and correspondingly setting an independent wifi coverage network and configuring a corresponding wifi password for the sub-servers arranged in one block; different updating information is conveniently sent to workers in different blocks according to different blocks, on one hand, the workers can be guaranteed to quickly and effectively maintain the power grid in real time, the operation condition of the smart power grid in the block can be known through reading of various updating data of the smart power grid, and the situation is prevented from happening in the future, on the other hand, local cache data of the mobile intelligent terminal can be effectively reduced, and the operation effect of the mobile intelligent terminal is guaranteed; because total server and sub-server only fix a position and carry out message push and smart power grids information update to the user who holds mobile intelligent terminal app, can effectively guarantee smart power grids data transmission's security to independent wifi covers network and communication server and still does certain encryption processing to the data of transmission, for example: symmetric encryption or asymmetric encryption processing is carried out, so that the data transmission safety is guaranteed; the key can be transmitted to the mobile intelligent terminal app by the main server through the network for storage for later use when the user of the mobile intelligent terminal registers the ID;

s3: the position information acquisition module of the main server acquires the position information of a GPS positioning module of the mobile intelligent terminal in real time, compares the position information with the block data to acquire a block where the mobile intelligent terminal is located, and sends a wifi password of the sub-server corresponding to the block to the mobile intelligent terminal in a message pushing mode through the communication server; the data communication network of the communication server is GPRS, GSM, CDMA, 2G, 3G or 4G; after dividing the smart grid into a plurality of blocks according to geographical positions, arranging at least one smart grid maintenance group in each block, wherein the general block division principle is to ensure that the at least one smart grid maintenance group can reach a nearly circular maximum area starting from the midpoint of the block within 20min, and mark and store the range of the block by latitude and longitude so as to position and push messages of a mobile intelligent terminal moving in the block;

s4: the mobile intelligent terminal establishes wifi connection with the sub server through a wifi password received in real time;

s5: the main server sends the intelligent power grid fault information acquired in real time to the corresponding sub-servers according to the block data, the sub-servers receive the intelligent power grid fault information in real time and configure a random query password for each piece of intelligent power grid fault information according to the time sequence, and then the random query passwords are sent to the mobile intelligent terminal in a message pushing mode through the communication server; the power grid fault information is from the intelligent power distribution and utilization information acquisition and control terminal, and in addition, the main server is also used for receiving data related to the power grid operation state so as to be checked by working personnel on the mobile intelligent terminal app; the data are acquired by adopting an active pushing mode of the main server side, a timer is arranged on an information pushing module of the main server, the database data are monitored in real time, data are required to the main server at regular intervals, and if the fault information of the smart grid is updated, the fault information of the smart grid is required to be processed by the information pushing module. In order to ensure the real-time performance of data, the time interval is not easy to be overlong. Therefore, information of the intelligent power grid information receiving module can not be accumulated, and the synchronism of the intelligent power grid information receiving module acquired by each mobile terminal is guaranteed.

S6: the sub-server inquires whether a user logs in an app user operation interface in real time and correctly inputs a registration ID and a registration password in the registration information, and if yes, the sub-server performs local caching of background smart grid fault information through a wifi network; if not, continuing the step five; after the sub-server receives the registration ID and the registration password input by the user and applies for logging in the app, the sub-server verifies the registration ID and the registration password in the application, and if the registration ID and the registration password are correct, the fault information of the smart grid is transmitted to the mobile terminal through the wifi network so as to be checked by the user;

s7: the mobile intelligent terminal receives the random query password in real time, and the user reads the fault information of the intelligent power grid in the query module of the app user operation interface through the random query password received in real time. And the identity of the user is verified again by configuring a random query password so as to ensure that the fault information of the smart grid is not acquired by others.

In the smart grid maintenance method based on the mobile smart terminal app, the registration information further includes user identity information, a telephone number and user job information in the smart grid maintenance system. And transmitting the readable smart grid information to the user according to the user job information.

In the smart grid maintenance method based on the mobile smart terminal app, timing is started when the sub-server performs local caching of background smart grid fault information through a wifi network, and the effective duration of the random inquiry password corresponding to the smart grid fault information is 5-15 min. According to actual needs, the effective time of the random inquiry password can be 5min, 10min or 15 min.

In the smart grid maintenance method based on the mobile smart terminal app, if the sub-server does not receive a random query password input in a query module of an app user operation interface within the effective duration of the random query password, closing an input box of the query module;

or if the sub-server does not receive the random query password input in the query module of the app user operation interface within the valid duration of the random query password, destroying the local cache of the background smart grid fault information by the sub-server through the wifi network.

The smart grid maintenance method based on the mobile smart terminal app further comprises the following steps:

s1, if the random inquiry password is invalid, the fault information of the smart grid corresponding to the random inquiry password shares the random inquiry password A of the fault information of the smart grid adjacent to the fault information of the smart grid at the next moment, and the random inquiry password A is sent to the mobile intelligent terminal through the communication server in a message pushing mode again;

s2, if the sub-server does not receive the random query password A input in the query module of the app user operation interface within the effective duration of the random query password, repeating the step S1;

and S3, if the sub-server receives the random query password A input in the query module of the app user operation interface within the effective duration of the random query password, sequentially displaying all the smart grid fault information on the user operation interface of the query module. According to the process, on one hand, effective reminding of the mobile intelligent terminal user is achieved, on the other hand, any piece of intelligent power grid fault information cannot be lost, meanwhile, local excessive cache is avoided, and rapid operation of the mobile intelligent terminal is guaranteed. In the smart grid maintenance method based on the mobile smart terminal app, if the random query password fails for more than 3 times in a certain time t1, a sub-server randomly generates a query password B at intervals of time t2 and sends the query password B to the mobile smart terminal in a message pushing mode through a communication server until the sub-server receives the random query password B input in a query module of an app user operation interface in the effective time t2 of the random query password, and all smart grid fault information stored in the sub-server in a certain time t1 in an accumulated mode shares the random query password B; t1 > t2, t2 < 10 min.

In the smart grid maintenance method based on the mobile smart terminal app, t1 is more than or equal to 20min and less than or equal to 60 min.

A smart power grid maintenance system based on a mobile smart terminal comprises a main server, a server wireless module, a block division module, a position information acquisition module and a smart terminal module; the main server comprises an app database and is used for acquiring and storing power grid information from the power distribution information acquisition and control terminal of the intelligent power grid and acquiring and storing registration information of an app user operation interface of the mobile intelligent terminal in real time; a server wireless module; the block dividing module is used for carrying out block division on the geographic range maintained by the smart grid of the main server and carrying out block numbering, wherein the block numbering is a wifi password of an independent wifi overlay network correspondingly arranged on the sub-servers in each block; the system comprises a position information acquisition module, a communication server and a mobile intelligent terminal, wherein the position information acquisition module is used for acquiring the position information of the mobile intelligent terminal in real time, comparing the position information with the block data to acquire a block where the mobile intelligent terminal is located, and then sending a wifi password of the sub-server corresponding to the block to the mobile intelligent terminal in a message push mode through the communication server;

the mobile intelligent terminal comprises a terminal wireless module; the application module is respectively connected with the main server and the sub-servers through a terminal wireless module in a network manner, and is used for receiving fault data of the smart grid and displaying the fault data in a chart manner; the GPS positioning module is used for positioning the mobile intelligent terminal;

after the mobile intelligent terminal enters a certain block, wifi network connection is established between the wifi password of the received short message and the corresponding sub-server, then the main server sends the intelligent power grid fault information acquired in real time to the corresponding sub-server according to the block data, and the sub-server updates the intelligent power grid fault information received in real time to the mobile intelligent terminal app through the wifi network.

In the smart grid maintenance system based on the mobile smart terminal app, the registration information further comprises user identity information, a telephone number and user position information in the smart grid maintenance system.

The smart grid maintenance system based on the mobile smart terminal app further comprises: the query module is used for receiving the smart grid fault information transmitted to the mobile smart terminal app by the sub-server through the wifi network in real time and carrying out queuing display according to a time sequence; the inquiry module further comprises an inquiry password input box, wherein the inquiry password input box is used for inputting a random inquiry password configured for each piece of intelligent power grid fault information by the sub-server according to the time sequence; and the history viewing module and the query module are arranged on the same user display interface of the mobile intelligent terminal app and are used for viewing history information. The mobile intelligent terminal app comprises a history viewing module and a query module, wherein the history viewing module and the query module are arranged in the mobile intelligent terminal app and are used for distinguishing history information and update information, and when the update information is correctly acquired and opened, the mobile intelligent terminal app moves the update information to the viewing module to be displayed in an icon mode, so that a user of the mobile intelligent terminal app can conveniently view history data without other viewing passwords.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (9)

1. A smart grid maintenance method based on mobile smart terminal apps is characterized by comprising the following steps:

s1: the method comprises the steps that network connection is established between a main server and a mobile intelligent terminal, and then registration information of an app user operation interface of the mobile intelligent terminal is obtained in real time through an app database in the main server and stored;

s2: pre-storing block data subjected to block division according to the geographic coverage range of the smart grid into a block division module of a master server, respectively configuring corresponding sub-servers according to the block data, and correspondingly setting an independent wifi coverage network and configuring a corresponding wifi password for the sub-servers arranged in one block;

s3: the position information acquisition module of the main server acquires the position information of a GPS positioning module of the mobile intelligent terminal in real time, compares the position information with the block data to acquire a block where the mobile intelligent terminal is located, and sends a wifi password of the sub-server corresponding to the block to the mobile intelligent terminal in a message pushing mode through the communication server;

s4: the mobile intelligent terminal establishes wifi connection with the sub server through a wifi password received in real time;

s5: the main server sends the intelligent power grid fault information acquired in real time to the corresponding sub-servers according to the block data, the sub-servers receive the intelligent power grid fault information in real time and configure a random query password for each piece of intelligent power grid fault information according to the time sequence, and then the random query passwords are sent to the mobile intelligent terminal in a message pushing mode through the communication server;

s6: the sub-server inquires whether a user logs in an app user operation interface in real time and correctly inputs a registration ID and a registration password in the registration information, and if yes, the sub-server performs local caching of background smart grid fault information through a wifi network; if not, continue to step S5;

s7: the mobile intelligent terminal receives the random query password in real time, and the user reads the fault information of the intelligent power grid in the query module of the app user operation interface through the random query password received in real time.

2. The app-based smart grid maintenance method according to claim 1, wherein the registration information of step S1 includes user identity information, phone numbers and user job information in the smart grid maintenance system.

3. The smart grid maintenance method based on the mobile smart terminal app as claimed in claim 1, wherein step S2 further includes starting timing when the sub-server performs local caching of background smart grid fault information via a wifi network, and the effective duration of the random inquiry password corresponding to the smart grid fault information is 5-15 min.

4. The app-based smart grid maintenance method for the mobile smart terminal according to claim 3, wherein the processing of the random query password comprises closing an input box of a query module if the sub-server does not receive the random query password input into the query module of the app user interface within the valid duration of the random query password; and if the sub-server does not receive the random query password input in the query module of the app user operation interface within the effective duration of the random query password, destroying the local cache of the background intelligent power grid fault information by the sub-server through the wifi network.

5. The app-based smart grid maintenance method according to claim 1, wherein the query password in step S5 is a random password.

6. The mobile smart terminal app-based smart grid maintenance method according to claim 5, wherein the validity duration of the query password is 5-15 min.

7. The mobile smart terminal app-based smart grid maintenance method according to claim 1, wherein the step S7 includes the steps of:

s7.1: if the random query password is invalid, the fault information of the smart grid corresponding to the random query password shares the random query password A of the fault information of the smart grid at the next moment adjacent to the fault information of the smart grid, and the random query password A is sent to the mobile intelligent terminal in a message pushing mode through the general server again;

s7.2: if the sub-server does not receive the random inquiry password A input in the inquiry module of the user operation interface of the mobile intelligent terminal within the effective duration of the random inquiry password, repeating the step S7.1;

s7.3: if the sub-server receives the random query password A input in the query module of the app user operation interface within the effective duration of the random query password, sequentially displaying all the smart grid fault information on the user operation interface of the query module;

s7.4: if the random query password fails for more than 3 times in a certain time t1, the sub-server randomly generates a query password B at intervals of time t2 and sends the query password B to the mobile intelligent terminal in a message pushing mode through the communication server until the sub-server receives the random query password B input in a query module of an app user operation interface within the effective time t2 of the random query password, and all the fault information of the smart power grids accumulated and stored in the sub-server within a certain time t1 share the random query password B; t1 is more than t2, t1 is more than or equal to 20min and less than or equal to 60min, and t2 is less than 10 min.

8. The system for using the mobile intelligent terminal app-based smart grid maintenance method as claimed in any one of claims 1 to 7, is characterized by comprising a general server, a server wireless module, a block division module, a position information acquisition module and an intelligent terminal module; the server wireless module is used for the wireless connection between the intelligent terminal module and the main server; the block dividing module is used for carrying out block division on the geographic range maintained by the smart grid of the main server and carrying out block numbering, wherein the block numbering is a password of a wireless network correspondingly arranged in each block of the sub-servers; and the position information acquisition module is used for acquiring the position information of the mobile intelligent terminal in real time, comparing the position information with the block data to acquire a block where the mobile intelligent terminal is located, and then sending the wireless password of the sub-server corresponding to the block to the mobile intelligent terminal in a message pushing mode through the main server.

9. The system of claim 8, wherein the intelligent terminal module comprises a terminal wireless module, an application module, a GPS location module, a query module, and a history viewing module; the GPS positioning module is used for positioning the mobile intelligent terminal and is connected with the position information acquisition module; the query module receives intelligent power grid fault information which is transmitted to the mobile intelligent terminal by the sub-server in real time through a wireless network, and carries out queuing display according to a time sequence; the history viewing module is used for viewing the history information.

Images