CN111460239A - Electric power communication optical cable identification device and method - Google Patents

Abstract

The invention discloses a power communication optical cable identification device and a method, relating to the technical field of power equipment management; the system comprises a server, a mobile terminal, an information acquisition module and an information proofreading module, wherein the information acquisition module is used for identifying the two-dimensional code on the power optical cable through the first mobile terminal, generating a power optical cable record and storing the power optical cable record in a library to be checked, the information proofreading module is used for verifying, confirming the power optical cable record and moving the power optical cable record from the library to be checked of the server to the power optical cable library through the second mobile terminal, and the method comprises the steps of S1 information acquisition and S2 information proofreading based on the server and the mobile terminal; the working efficiency of managing the electric power optical cable signboard is improved through the server, the mobile terminal, the information acquisition module, the information proofreading module and the like.

Description

Electric power communication optical cable identification device and method

Technical Field

The invention relates to the technical field of power equipment management, in particular to a power communication optical cable identification device and a power communication optical cable identification method.

Background

Currently, the prior art is to print a signboard of an electric power optical cable using a printer and then fix it on the surface of the optical cable for distinguishing each optical cable.

There are problems in that:

the recording, integration or updating of the related account data of the operation and maintenance of the optical cable of the power line is time-consuming and labor-consuming, and the operation and maintenance efficiency is low.

Problems with the prior art and considerations:

how to solve the technical problem of the inefficiency of management electric power optical cable signboard.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a power communication optical cable identification device and a method, which improve the working efficiency of managing a power optical cable signboard through a server, a mobile terminal, an information acquisition module, an information correction module and the like.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: an electric power communication optical cable identification device comprises a server and a mobile terminal which are mutually interconnected and a module,

the information acquisition module is used for identifying a two-dimensional code used for identifying the power optical cable on the power optical cable through the first mobile terminal, obtaining an identity code of the power optical cable corresponding to the two-dimensional code, inputting information of the power optical cable, generating a power optical cable record of the identity code and storing the power optical cable record in a to-be-checked library of the server;

and the information checking module is used for obtaining the identity code of the power optical cable through the second mobile terminal and informing the server, the server feeds the power optical cable record of the identity code back to the second mobile terminal, and an operator checks and confirms the power optical cable record through the second mobile terminal and moves the power optical cable record from a to-be-checked library of the server to the power optical cable library.

The further technical scheme is as follows: the information acquisition module is further used for informing the server of the identity code through the first mobile terminal, the server traverses a library to be checked and an electric power optical cable library of the server by taking the identity code as a keyword, and when the identity code is newly established, the server informs the first mobile terminal to input information of the electric power optical cable by using the identity code and generate an electric power optical cable record;

the information checking module is also used for the server to traverse the database to be checked of the server by taking the identity code as a keyword and feed back the found power cable record of the identity code through the second mobile terminal.

The further technical scheme is as follows: the device also comprises a module which is used for controlling the operation of the device,

and the information query module is used for identifying the two-dimensional code used for identifying the power optical cable on the power optical cable through the mobile terminal, obtaining the identity code of the power optical cable corresponding to the two-dimensional code and informing the server, and the server traverses a to-be-verified library and a power optical cable library of the server by taking the identity code as a keyword and feeds back the found power optical cable record of the identity code through the mobile terminal.

The further technical scheme is as follows: the server is in wireless connection with the mobile terminal through the wireless communication module.

The further technical scheme is as follows: the mobile terminal is a smart phone.

An electric power communication optical cable identification method is based on a server and a mobile terminal which are interconnected and execute the following steps,

s1 information Collection

Identifying a two-dimensional code used for identifying the power optical cable on the power optical cable through a first mobile terminal, obtaining an identity code of the power optical cable corresponding to the two-dimensional code, inputting information of the power optical cable, generating a power optical cable record of the identity code and storing the power optical cable record in a to-be-checked library of a server;

s2 information proofreading

And obtaining the identity code of the power optical cable through the second mobile terminal and informing the server, feeding back the power optical cable record of the identity code to the second mobile terminal by the server, verifying and confirming the power optical cable record through the second mobile terminal by an operator, and moving the power optical cable record from a to-be-verified library of the server to the power optical cable library.

The further technical scheme is as follows: in the step of collecting the S1 information, the first mobile terminal informs the server of the identity code, the server traverses the library to be verified and the power cable library of the server with the identity code as a keyword, and when the identity code is newly created, the server informs the first mobile terminal to enter the information of the power cable with the identity code, and generate a power cable record; in the step of checking the S2 information, the server traverses the library to be checked of the server with the identity code as a keyword and feeds back the found power cable record of the identity code through the second mobile terminal.

The further technical scheme is as follows: the method also comprises the following steps of,

s3 information query

The method comprises the steps that a two-dimensional code used for identifying the power optical cable on the power optical cable is recognized through a mobile terminal, an identity code of the power optical cable corresponding to the two-dimensional code is obtained and is informed to a server, the server traverses a to-be-checked library and a power optical cable library of the server by taking the identity code as a keyword, and found power optical cable records of the identity code are fed back through the mobile terminal.

The further technical scheme is as follows: the power cable records are displayed through a display connected with the server.

The further technical scheme is as follows: the power cable record is printed by a printer connected to the server.

Adopt the produced beneficial effect of above-mentioned technical scheme to lie in:

the system comprises a server, a mobile terminal and an information acquisition module, wherein the server, the mobile terminal and the information acquisition module are mutually communicated and interconnected, and the information acquisition module is used for identifying a two-dimensional code used for identifying an electric power optical cable on the electric power optical cable through the first mobile terminal, obtaining an identity code of the electric power optical cable corresponding to the two-dimensional code, inputting information of the electric power optical cable, generating an electric power optical cable record of the identity code and storing the electric power optical cable record in a library to be verified of the server; and the information checking module is used for obtaining the identity code of the power optical cable through the second mobile terminal and informing the server, the server feeds the power optical cable record of the identity code back to the second mobile terminal, and an operator checks and confirms the power optical cable record through the second mobile terminal and moves the power optical cable record from a to-be-checked library of the server to the power optical cable library. According to the technical scheme, the working efficiency of managing the electric power optical cable signboard is improved through the server, the mobile terminal, the information acquisition module, the information correction module and the like.

Secondly, the information acquisition module is further used for informing the server of the identity code through the first mobile terminal, the server traverses a library to be checked and an electric power optical cable library of the server by taking the identity code as a keyword, and when the identity code is newly established, the server informs the first mobile terminal of inputting the information of the electric power optical cable by using the identity code and generating an electric power optical cable record; the information checking module is also used for the server to traverse the database to be checked of the server by taking the identity code as a keyword and feed back the found power cable record of the identity code through the second mobile terminal. The technical scheme effectively avoids repeated and redundant data, and the system has better reliability.

And thirdly, the system also comprises an information query module which is used for identifying the two-dimensional code used for identifying the power optical cable on the power optical cable through the mobile terminal, obtaining the identity code of the power optical cable corresponding to the two-dimensional code and informing the identity code to the server, and traversing the to-be-checked library and the power optical cable library of the server by taking the identity code as a keyword and feeding back the found power optical cable record of the identity code through the mobile terminal. This technical scheme, convenient inquiry, the structure is more reasonable.

Fourthly, the server is in wireless connection with the mobile terminal through a wireless communication module. This technical scheme, it is more convenient to use, and the structure is more reasonable.

And fifthly, the mobile terminal is a smart phone. According to the technical scheme, the operation of each person through the respective smart phone can be realized, the configuration of equipment by the other person can be avoided, and the resource waste can be avoided.

Sixthly, based on the server and the mobile terminal which are interconnected, S1 information acquisition is carried out, the first mobile terminal identifies the two-dimensional code used for identifying the power optical cable on the power optical cable, obtains the identity code of the power optical cable corresponding to the two-dimensional code, inputs the information of the power optical cable, generates the power optical cable record of the identity code and stores the power optical cable record in a library to be checked of the server; and S2, information is collated, the identity code of the power optical cable is obtained through the second mobile terminal and is informed to the server, the server feeds back the power optical cable record of the identity code to the second mobile terminal, and the operator verifies and confirms the power optical cable record through the second mobile terminal and moves the power optical cable record from the to-be-verified library of the server to the power optical cable library. According to the technical scheme, the working efficiency of managing the electric power optical cable signboard is improved through the server, the mobile terminal, the information acquisition and information proofreading steps and the like.

Seventhly, in the step of collecting the information in S1, the first mobile terminal informs the server of the identity code, the server traverses the library to be verified and the power cable library of the server by using the identity code as a keyword, and when the identity code is newly created, the server informs the first mobile terminal of inputting the information of the power cable by using the identity code and generating a power cable record; in the step of checking the S2 information, the server traverses the library to be checked of the server with the identity code as a keyword and feeds back the found power cable record of the identity code through the second mobile terminal. The technical scheme effectively avoids repeated and redundant data, and the system has better reliability.

And step eight, step S3, information inquiry, namely identifying the two-dimensional code used for identifying the power optical cable on the power optical cable through the mobile terminal, obtaining the identity code of the power optical cable corresponding to the two-dimensional code and informing the server, traversing the library to be verified and the power optical cable library of the server by using the identity code as a keyword, and feeding back the found power optical cable record of the identity code through the mobile terminal. This technical scheme, convenient inquiry, the structure is more reasonable.

Ninth, the power cable record is displayed through a display connected to a server. This technical scheme, convenient inquiry, the structure is more reasonable.

Tenth, the power cable record is printed by a printer connected to the server. The technical scheme has the advantages of convenient reporting and more reasonable structure.

See detailed description of the preferred embodiments.

Drawings

FIG. 1 is a functional block diagram of the present invention;

fig. 2 is a flow chart of the present invention.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the application, its application, or uses. 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 application.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, but the present application may be practiced in other ways than those described herein, and it will be apparent to those of ordinary skill in the art that the present application is not limited to the specific embodiments disclosed below.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

The relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present application unless specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

In the description of the present application, it is to be understood that the orientation or positional relationship indicated by the directional terms such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal" and "top, bottom", etc., are generally based on the orientation or positional relationship shown in the drawings, and are used for convenience of description and simplicity of description only, and in the case of not making a reverse description, these directional terms do not indicate and imply that the device or element being referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore, should not be considered as limiting the scope of the present application; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.

Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

It should be noted that the terms "first", "second", and the like are used to define the components, and are only used for convenience of distinguishing the corresponding components, and the terms have no special meanings unless otherwise stated, and therefore, the scope of protection of the present application is not to be construed as being limited.

Example 1:

the invention discloses a power communication optical cable identification device, which comprises a server, a mobile terminal and the following modules which are mutually communicated and interconnected,

the information acquisition module is used for identifying the two-dimensional code used for identifying the power optical cable on the power optical cable through the first mobile terminal, obtaining the identity code of the power optical cable corresponding to the two-dimensional code, inputting the information of the power optical cable, generating the power optical cable record of the identity code and storing the power optical cable record in a to-be-checked library of the server.

And the information checking module is used for obtaining the identity code of the power optical cable through the second mobile terminal and informing the server, the server feeds the power optical cable record of the identity code back to the second mobile terminal, and an operator checks and confirms the power optical cable record through the second mobile terminal and moves the power optical cable record from a to-be-checked library of the server to the power optical cable library.

Example 2:

the invention discloses a power communication optical cable identification device, which comprises a server, a mobile terminal and the following modules which are mutually communicated and interconnected,

the information acquisition module is used for identifying the two-dimensional code used for identifying the power optical cable on the power optical cable through the first mobile terminal, obtaining the identity code of the power optical cable corresponding to the two-dimensional code and informing the server, the server traverses the library to be verified and the power optical cable library of the server by taking the identity code as a keyword, and when the identity code is newly established, the server informs the first mobile terminal to input the information of the power optical cable through the identity code, generate a power optical cable record and store the power optical cable record in the library to be verified of the server.

And the information checking module is used for obtaining the identity code of the power optical cable through the second mobile terminal and informing the server, the server traverses a library to be checked of the server by taking the identity code as a keyword and feeds back the found power optical cable record of the identity code through the second mobile terminal, an operator checks and confirms the power optical cable record through the second mobile terminal, and the second mobile terminal moves the power optical cable record from the library to be checked of the server to the power optical cable library.

Example 3:

the invention discloses a power communication optical cable identification device, which comprises a server, a mobile terminal and the following modules which are mutually communicated and interconnected,

the information acquisition module is used for identifying the two-dimensional code used for identifying the power optical cable on the power optical cable through the first mobile terminal, obtaining the identity code of the power optical cable corresponding to the two-dimensional code and informing the server, the server traverses the library to be verified and the power optical cable library of the server by taking the identity code as a keyword, and when the identity code is newly established, the server informs the first mobile terminal to input the information of the power optical cable through the identity code, generate a power optical cable record and store the power optical cable record in the library to be verified of the server.

And the information checking module is used for obtaining the identity code of the power optical cable through the second mobile terminal and informing the server, the server traverses a library to be checked of the server by taking the identity code as a keyword and feeds back the found power optical cable record of the identity code through the second mobile terminal, an operator checks and confirms the power optical cable record through the second mobile terminal, and the second mobile terminal moves the power optical cable record from the library to be checked of the server to the power optical cable library.

And the information query module is used for identifying the two-dimensional code used for identifying the power optical cable on the power optical cable through the mobile terminal, obtaining the identity code of the power optical cable corresponding to the two-dimensional code and informing the server, and the server traverses a to-be-verified library and a power optical cable library of the server by taking the identity code as a keyword and feeds back the found power optical cable record of the identity code through the mobile terminal.

Example 4:

as shown in fig. 1, the invention discloses an electric power communication optical cable identification device, comprising a server and a mobile terminal which are interconnected with each other and a module,

the information acquisition module is used for identifying the two-dimensional code used for identifying the power optical cable on the power optical cable through the first mobile terminal, obtaining the identity code of the power optical cable corresponding to the two-dimensional code and informing the server, the server traverses the library to be verified and the power optical cable library of the server by taking the identity code as a keyword, and when the identity code is newly established, the server informs the first mobile terminal to input the information of the power optical cable through the identity code, generate a power optical cable record and store the power optical cable record in the library to be verified of the server.

And the information checking module is used for obtaining the identity code of the power optical cable through the second mobile terminal and informing the server, the server traverses a library to be checked of the server by taking the identity code as a keyword and feeds back the found power optical cable record of the identity code through the second mobile terminal, an operator checks and confirms the power optical cable record through the second mobile terminal, and the second mobile terminal moves the power optical cable record from the library to be checked of the server to the power optical cable library.

And the information query module is used for identifying the two-dimensional code used for identifying the power optical cable on the power optical cable through the third mobile terminal, obtaining the identity code of the power optical cable corresponding to the two-dimensional code and informing the server, and the server traverses a library to be verified and a power optical cable library of the server by taking the identity code as a keyword and feeds back the found power optical cable record of the identity code through the third mobile terminal.

The server is in wireless connection with the mobile terminal through the wireless communication module.

Example 5:

the invention discloses a power communication optical cable identification device, which comprises a server, a mobile terminal and the following modules which are mutually communicated and interconnected,

the information acquisition module is used for identifying the two-dimensional code used for identifying the power optical cable on the power optical cable through the first mobile terminal, obtaining the identity code of the power optical cable corresponding to the two-dimensional code and informing the server, the server traverses the library to be verified and the power optical cable library of the server by taking the identity code as a keyword, and when the identity code is newly established, the server informs the first mobile terminal to input the information of the power optical cable through the identity code, generate a power optical cable record and store the power optical cable record in the library to be verified of the server.

And the information checking module is used for obtaining the identity code of the power optical cable through the second mobile terminal and informing the server, the server traverses a library to be checked of the server by taking the identity code as a keyword and feeds back the found power optical cable record of the identity code through the second mobile terminal, an operator checks and confirms the power optical cable record through the second mobile terminal, and the second mobile terminal moves the power optical cable record from the library to be checked of the server to the power optical cable library.

And the information query module is used for identifying the two-dimensional code used for identifying the power optical cable on the power optical cable through the third mobile terminal, obtaining the identity code of the power optical cable corresponding to the two-dimensional code and informing the server, and the server traverses a library to be verified and a power optical cable library of the server by taking the identity code as a keyword and feeds back the found power optical cable record of the identity code through the third mobile terminal.

The mobile terminal is a smart phone, and the smart phone is in wireless connection with the mobile terminal through a 5G communication module.

Wherein, the smart phone, the 5G communication module, the server and the wireless communication technology connection thereof are not described herein again for the prior art.

Example 6:

the invention discloses a power communication optical cable identification method, which is based on a server and a mobile terminal which are interconnected and execute the following steps,

s1 information Collection

The method comprises the steps of identifying a two-dimensional code used for identifying the power optical cable on the power optical cable through a first mobile terminal, obtaining an identity code of the power optical cable corresponding to the two-dimensional code, inputting information of the power optical cable, generating a power optical cable record of the identity code and storing the power optical cable record in a to-be-verified library of a server.

S2 information proofreading

And obtaining the identity code of the power optical cable through the second mobile terminal and informing the server, feeding back the power optical cable record of the identity code to the second mobile terminal by the server, verifying and confirming the power optical cable record through the second mobile terminal by an operator, and moving the power optical cable record from a to-be-verified library of the server to the power optical cable library.

Example 7:

the invention discloses a power communication optical cable identification method, which is based on a server and a mobile terminal which are interconnected and execute the following steps,

s1 information Collection

The method comprises the steps that a two-dimensional code used for identifying the power optical cable on the power optical cable is recognized through a first mobile terminal, an identity code of the power optical cable corresponding to the two-dimensional code is obtained and is informed to a server, the server traverses a library to be verified and a power optical cable library of the server by taking the identity code as a keyword, and when the identity code is newly established, the server informs the first mobile terminal to enter information of the power optical cable through the identity code, generate a power optical cable record and store the power optical cable record in the library to be verified of the server.

S2 information proofreading

The identity code of the power optical cable is obtained through the second mobile terminal and is informed to the server, the server traverses a database to be verified of the server by taking the identity code as a keyword and feeds back the found power optical cable record of the identity code through the second mobile terminal, an operator verifies and confirms the power optical cable record through the second mobile terminal, and the second mobile terminal moves the power optical cable record from the database to be verified of the server to the power optical cable database.

Example 8:

as shown in fig. 2, the present invention discloses a method for identifying an optical cable for power communication, which is based on an interworking server and a mobile terminal and performs the following steps,

s1 information Collection

The method comprises the steps that a two-dimensional code used for identifying the power optical cable on the power optical cable is recognized through a first mobile terminal, an identity code of the power optical cable corresponding to the two-dimensional code is obtained and is informed to a server, the server traverses a library to be verified and a power optical cable library of the server by taking the identity code as a keyword, and when the identity code is newly established, the server informs the first mobile terminal to enter information of the power optical cable through the identity code, generate a power optical cable record and store the power optical cable record in the library to be verified of the server.

S2 information proofreading

The identity code of the power optical cable is obtained through the second mobile terminal and is informed to the server, the server traverses a database to be verified of the server by taking the identity code as a keyword and feeds back the found power optical cable record of the identity code through the second mobile terminal, an operator verifies and confirms the power optical cable record through the second mobile terminal, and the second mobile terminal moves the power optical cable record from the database to be verified of the server to the power optical cable database.

S3 information query

And identifying the two-dimensional code used for identifying the power optical cable on the power optical cable through the third mobile terminal, obtaining the identity code of the power optical cable corresponding to the two-dimensional code and informing the server, traversing a library to be checked and a power optical cable library of the server by using the identity code as a keyword and feeding back the found power optical cable record of the identity code through the third mobile terminal.

Example 9:

the invention discloses a power communication optical cable identification method, which is based on a server and a mobile terminal which are interconnected and execute the following steps,

s1 information Collection

The method comprises the steps that a two-dimensional code used for identifying the power optical cable on the power optical cable is recognized through a first mobile terminal, an identity code of the power optical cable corresponding to the two-dimensional code is obtained and is informed to a server, the server traverses a library to be verified and a power optical cable library of the server by taking the identity code as a keyword, and when the identity code is newly established, the server informs the first mobile terminal to enter information of the power optical cable through the identity code, generate a power optical cable record and store the power optical cable record in the library to be verified of the server. The power cable records are displayed through a display connected with the server.

S2 information proofreading

The identity code of the power optical cable is obtained through the second mobile terminal and is informed to the server, the server traverses a database to be verified of the server by taking the identity code as a keyword and feeds back the found power optical cable record of the identity code through the second mobile terminal, an operator verifies and confirms the power optical cable record through the second mobile terminal, and the second mobile terminal moves the power optical cable record from the database to be verified of the server to the power optical cable database. The power cable records are displayed through a display connected with the server.

S3 information query

And identifying the two-dimensional code used for identifying the power optical cable on the power optical cable through the third mobile terminal, obtaining the identity code of the power optical cable corresponding to the two-dimensional code and informing the server, traversing a library to be checked and a power optical cable library of the server by using the identity code as a keyword and feeding back the found power optical cable record of the identity code through the third mobile terminal.

Example 10:

the invention discloses a power communication optical cable identification method, which is based on a server and a mobile terminal which are interconnected and execute the following steps,

s1 information Collection

The method comprises the steps that a two-dimensional code used for identifying the power optical cable on the power optical cable is recognized through a first mobile terminal, an identity code of the power optical cable corresponding to the two-dimensional code is obtained and is informed to a server, the server traverses a library to be verified and a power optical cable library of the server by taking the identity code as a keyword, and when the identity code is newly established, the server informs the first mobile terminal to enter information of the power optical cable through the identity code, generate a power optical cable record and store the power optical cable record in the library to be verified of the server. The power cable record is printed by a printer connected to the server.

S2 information proofreading

The identity code of the power optical cable is obtained through the second mobile terminal and is informed to the server, the server traverses a database to be verified of the server by taking the identity code as a keyword and feeds back the found power optical cable record of the identity code through the second mobile terminal, an operator verifies and confirms the power optical cable record through the second mobile terminal, and the second mobile terminal moves the power optical cable record from the database to be verified of the server to the power optical cable database. The power cable record is printed by a printer connected to the server.

S3 information query

And identifying the two-dimensional code used for identifying the power optical cable on the power optical cable through the third mobile terminal, obtaining the identity code of the power optical cable corresponding to the two-dimensional code and informing the server, traversing a library to be checked and a power optical cable library of the server by using the identity code as a keyword and feeding back the found power optical cable record of the identity code through the third mobile terminal.

Product description:

the information collection module is used for identifying the two-dimensional code on the power optical cable through the first mobile terminal, generating a power optical cable record and storing the power optical cable record in the library to be checked, and the information checking module is used for checking, confirming the power optical cable record through the second mobile terminal and moving the power optical cable record from the library to be checked of the server to the power optical cable library.

Description of the method:

as shown in fig. 2, the server and the mobile terminal based on interworking interconnection perform the following steps,

s1 information Collection

The method comprises the steps that a constructor holds a first mobile terminal in a hand mode to scan and identify a two-dimensional code used for identifying the power optical cable on the power optical cable, the first mobile terminal obtains an identity code of the power optical cable corresponding to the two-dimensional code and informs a server, the server traverses a to-be-verified library and a power optical cable library of the server by taking the identity code as a keyword, when no power optical cable record taking the identity code as the keyword exists in the to-be-verified library and the power optical cable library, the server informs the first mobile terminal to prompt the constructor to enter information of the power optical cable, after the constructor finishes entering through the first mobile terminal, the first mobile terminal generates a power optical cable record by the identity code and sends the power optical cable record to the server, and the server stores the received power optical cable record.

S2 information proofreading

The quality testing personnel scan and recognize the two-dimensional code used for identifying the power optical cable on the power optical cable through the second mobile terminal, the second mobile terminal obtains the identity code of the power optical cable and informs the server, the server traverses a to-be-verified library of the server by taking the identity code as a keyword and displays the found power optical cable record of the identity code to the quality testing personnel through the second mobile terminal, the quality testing personnel verify and confirm the power optical cable record through the second mobile terminal, the second mobile terminal informs the server of confirmation information, and the server moves the power optical cable record from the to-be-verified library of the server to the power optical cable library.

S3 information query

And the operation and maintenance personnel identify the two-dimensional code used for identifying the power optical cable on the power optical cable through the third mobile terminal, obtain the identity code of the power optical cable corresponding to the two-dimensional code and inform the server, and the server traverses the to-be-checked library and the power optical cable library of the server by taking the identity code as a keyword and displays the found power optical cable record of the identity code to the operation and maintenance personnel through the third mobile terminal for checking.

Description of the effects:

through the information of two-dimensional code record power optical cable signboard, remove the electron printing process from. The related ledger data of the operation and maintenance of the power line optical cable are integrated and updated regularly at the background to form a complete, independent and comprehensive coverage power optical cable identification system. On-site operation and maintenance rush-repair personnel can acquire the required detailed data information of current optical cable line through two-dimensional code scanning, greatly promote operation and maintenance rush-repair personnel's work efficiency.

The method comprises the steps of identifying a two-dimensional code used for identifying the power optical cable on the power optical cable through a first mobile terminal, obtaining an identity code of the power optical cable corresponding to the two-dimensional code, inputting information of the power optical cable, generating a power optical cable record of the identity code and storing the power optical cable record in a to-be-verified library of a server. The technical means improves the working efficiency.

And obtaining the identity code of the power optical cable through the second mobile terminal and informing the server, feeding back the power optical cable record of the identity code to the second mobile terminal by the server, verifying and confirming the power optical cable record through the second mobile terminal by an operator, and moving the power optical cable record from a to-be-verified library of the server to the power optical cable library. The technical means improves the accuracy of work.

The method comprises the steps that a two-dimensional code used for identifying the power optical cable on the power optical cable is recognized through a first mobile terminal, an identity code of the power optical cable corresponding to the two-dimensional code is obtained and is informed to a server, the server traverses a library to be verified and a power optical cable library of the server by taking the identity code as a keyword, and when the identity code is newly established, the server informs the first mobile terminal to enter information of the power optical cable through the identity code, generate a power optical cable record and store the power optical cable record in the library to be verified of the server. According to the technical means, due to the fact that the query is conducted in the to-be-verified library and the power cable library, under the condition that the working efficiency is high, the data correctness is good, and the occurrence of redundant data is effectively avoided.

And the information checking module is used for obtaining the identity code of the power optical cable through the second mobile terminal and informing the server, the server traverses a library to be checked of the server by taking the identity code as a keyword and feeds back the found power optical cable record of the identity code through the second mobile terminal, an operator checks and confirms the power optical cable record through the second mobile terminal, and the second mobile terminal moves the power optical cable record from the library to be checked of the server to the power optical cable library. According to the technical means, the query is only carried out in the library to be verified, the query time is short, and therefore the working efficiency is high under the condition that the working accuracy is high.

The invention concept of the application is as follows:

through the server, the mobile terminal, the information acquisition module and the information proofreading module, the working efficiency of managing the power optical cable signboard is improved.

Claims (10)

1. The utility model provides a power communication optical cable identification means which characterized in that: comprising a server and a mobile terminal which are interconnected mutually and a module,

the information acquisition module is used for identifying a two-dimensional code used for identifying the power optical cable on the power optical cable through the first mobile terminal, obtaining an identity code of the power optical cable corresponding to the two-dimensional code, inputting information of the power optical cable, generating a power optical cable record of the identity code and storing the power optical cable record in a to-be-checked library of the server;

and the information checking module is used for obtaining the identity code of the power optical cable through the second mobile terminal and informing the server, the server feeds the power optical cable record of the identity code back to the second mobile terminal, and an operator checks and confirms the power optical cable record through the second mobile terminal and moves the power optical cable record from a to-be-checked library of the server to the power optical cable library.

2. An electrical power communication cable identification device according to claim 1, wherein:

the information acquisition module is further used for informing the server of the identity code through the first mobile terminal, the server traverses a library to be checked and an electric power optical cable library of the server by taking the identity code as a keyword, and when the identity code is newly established, the server informs the first mobile terminal to input information of the electric power optical cable by using the identity code and generate an electric power optical cable record;

the information checking module is also used for the server to traverse the database to be checked of the server by taking the identity code as a keyword and feed back the found power cable record of the identity code through the second mobile terminal.

3. An electrical power communication cable identification device according to claim 1, wherein: the device also comprises a module which is used for controlling the operation of the device,

and the information query module is used for identifying the two-dimensional code used for identifying the power optical cable on the power optical cable through the mobile terminal, obtaining the identity code of the power optical cable corresponding to the two-dimensional code and informing the server, and the server traverses a to-be-verified library and a power optical cable library of the server by taking the identity code as a keyword and feeds back the found power optical cable record of the identity code through the mobile terminal.

4. An electrical power communication cable identification device according to claim 1, wherein: the server is in wireless connection with the mobile terminal through the wireless communication module.

5. An electrical power communication cable identification device according to claim 1, wherein: the mobile terminal is a smart phone.

6. A power communication optical cable identification method according to any one of the systems of claims 1 to 5, characterized in that: based on the server and the mobile terminal of the intercommunication interconnection and executing the following steps,

s1 information Collection

Identifying a two-dimensional code used for identifying the power optical cable on the power optical cable through a first mobile terminal, obtaining an identity code of the power optical cable corresponding to the two-dimensional code, inputting information of the power optical cable, generating a power optical cable record of the identity code and storing the power optical cable record in a to-be-checked library of a server;

s2 information proofreading

And obtaining the identity code of the power optical cable through the second mobile terminal and informing the server, feeding back the power optical cable record of the identity code to the second mobile terminal by the server, verifying and confirming the power optical cable record through the second mobile terminal by an operator, and moving the power optical cable record from a to-be-verified library of the server to the power optical cable library.

7. The power communication optical cable identification method according to claim 6, wherein: in the step of collecting the S1 information, the first mobile terminal informs the server of the identity code, the server traverses the library to be verified and the power cable library of the server with the identity code as a keyword, and when the identity code is newly created, the server informs the first mobile terminal to enter the information of the power cable with the identity code, and generate a power cable record; in the step of checking the S2 information, the server traverses the library to be checked of the server with the identity code as a keyword and feeds back the found power cable record of the identity code through the second mobile terminal.

8. The power communication optical cable identification method according to claim 6, wherein: the method also comprises the following steps of,

s3 information query

The method comprises the steps that a two-dimensional code used for identifying the power optical cable on the power optical cable is recognized through a mobile terminal, an identity code of the power optical cable corresponding to the two-dimensional code is obtained and is informed to a server, the server traverses a to-be-checked library and a power optical cable library of the server by taking the identity code as a keyword, and found power optical cable records of the identity code are fed back through the mobile terminal.

9. The power communication optical cable identification method according to claim 6, wherein: the power cable records are displayed through a display connected with the server.

10. The power communication optical cable identification method according to claim 6, wherein: the power cable record is printed by a printer connected to the server.

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