CN111062501A - Underground cable operation and maintenance control method, system, server and terminal - Google Patents

Abstract

The invention discloses an operation and maintenance control method, system, server and terminal for underground cables, which can reduce the complexity of underground cable maintenance and improve the maintenance efficiency. The method comprises the steps of collecting field data of the underground cable, uploading the field data to a server, and obtaining an underground cable three-dimensional electronic design drawing fed back by the server; and acquiring a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system incidence relation, and correcting and displaying the cable operation and maintenance geographic map according to the coordinate system incidence relation and the corrected underground cable three-dimensional electronic design map. The maintenance personnel can upload field data and check the latest cable operation and maintenance geographic map through the terminal, and carry out field maintenance according to the cable operation and maintenance geographic map, thereby reducing the maintenance complexity and improving the maintenance efficiency.

Description

Underground cable operation and maintenance control method, system, server and terminal

Technical Field

The invention belongs to the field of electric power, and particularly relates to an operation and maintenance control method, system, server and terminal for underground cables.

Background

In the current underground cable management and maintenance, maintainer maintains the underground cable environment through on-the-spot investigation cooperation paper design drawing, when on-the-spot and paper design drawing inconsistent, can't effectively accurately feed back to managers, if maintainer also appears in the direct change of paper design drawing and scribbles the circumstances of changing unclear easily, the maintenance work is complicated, the degree of difficulty is high, so need design an underground cable fortune dimension management and control system, reduce the complexity and the work degree of difficulty that underground cable management maintained.

Disclosure of Invention

The invention aims to solve one of the problems in the prior art, and provides an underground cable operation and maintenance control method, a system, a server and a terminal, which can reduce the complexity of underground cable maintenance and improve the maintenance efficiency.

In order to achieve the object, in one aspect of the present disclosure, an underground cable operation and maintenance management and control method is implemented at a terminal, and includes:

collecting field data of an underground cable, and uploading the field data to a server;

acquiring a three-dimensional electronic design drawing of the underground cable which is fed back by the server and corrected according to the field data;

acquiring a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system incidence relation, wherein the cable operation and maintenance geographic map comprises map information and underground cable three-dimensional electronic design information, and the coordinate system incidence relation is the incidence relation between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the underground cable three-dimensional electronic design map;

converting underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographical diagram according to the incidence relation of the coordinate system;

correcting the cable operation and maintenance geographical map based on underground cable design information for the circuit operation and maintenance geographical map;

and displaying the corrected cable operation and maintenance geographic map.

Optionally, the method further comprises: and acquiring a corrected underground cable three-dimensional electronic design drawing sent by the server, and updating a pre-stored cable operation and maintenance geographic drawing.

In order to achieve the object, in another aspect of the present disclosure, an underground cable operation and maintenance management and control method, for being executed at a server, includes:

receiving field data uploaded by a terminal;

responding to the field data, acquiring a preset underground cable three-dimensional electronic design drawing, and correcting the underground cable design drawing according to the field data;

and transmitting the corrected underground cable design drawing to a terminal.

Optionally, the method further comprises:

responding to the field data, and acquiring a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system association relation; the coordinate system incidence relation is the incidence relation between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the underground cable three-dimensional electronic design map;

converting underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographical diagram according to the incidence relation of the coordinate system;

correcting the cable operation and maintenance geographical map based on underground cable design information for the circuit operation and maintenance geographical map;

and sending the corrected cable operation and maintenance geographic map to a terminal.

In order to achieve the object, in another aspect of the present disclosure, a terminal for underground cable operation and maintenance management and control includes:

the acquisition uploading module is used for acquiring the field data of the underground cable and uploading the field data to the server;

the system comprises a first acquisition module, a second acquisition module and a third acquisition module, wherein the first acquisition module is used for acquiring an underground cable three-dimensional electronic design drawing which is fed back by a server and corrected according to field data;

the second acquisition module is used for acquiring a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system incidence relation, wherein the cable operation and maintenance geographic map comprises map information and underground cable three-dimensional electronic design information, and the coordinate system incidence relation is the incidence relation between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the underground cable three-dimensional electronic design map;

the information conversion module is used for converting the underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographic drawing according to the incidence relation of the coordinate system;

the correction module is used for correcting the cable operation and maintenance geographic map based on underground cable design information for the circuit operation and maintenance geographic map;

and the display module is used for displaying the corrected cable operation and maintenance geographic map.

Optionally, the terminal further includes a third obtaining module, configured to obtain the corrected underground cable three-dimensional electronic design drawing sent by the server, so that the corrected underground cable three-dimensional electronic design drawing is displayed by the display module.

In order to achieve the object, in another aspect of the present disclosure, a server for underground cable operation and maintenance management includes:

the receiving module is used for receiving the field data uploaded by the terminal;

the response module is used for responding to the field data, acquiring a preset underground cable three-dimensional electronic design drawing and correcting the underground cable design drawing according to the field data;

and the sending module is used for sending the corrected underground cable design drawing to the terminal.

Optionally, the response module is further configured to:

responding to the field data, and acquiring a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system association relation; the coordinate system incidence relation is the incidence relation between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the underground cable three-dimensional electronic design map;

converting underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographical diagram according to the incidence relation of the coordinate system;

correcting the cable operation and maintenance geographical map based on underground cable design information for the circuit operation and maintenance geographical map;

and sending the corrected cable operation and maintenance geographic map to a terminal.

In order to achieve the purpose, in another aspect of the disclosure, an underground cable operation and maintenance management and control system includes a server and a terminal;

the terminal includes:

the acquisition uploading module is used for acquiring the field data of the underground cable and uploading the field data to the server;

the system comprises a first acquisition module, a second acquisition module and a third acquisition module, wherein the first acquisition module is used for acquiring an underground cable three-dimensional electronic design drawing which is fed back by a server and corrected according to field data;

the second acquisition module is used for acquiring a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system incidence relation, wherein the cable operation and maintenance geographic map comprises map information and underground cable three-dimensional electronic design information, and the coordinate system incidence relation is the incidence relation between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the underground cable three-dimensional electronic design map;

the information conversion module is used for converting the underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographic drawing according to the incidence relation of the coordinate system;

the correction module is used for correcting the cable operation and maintenance geographic map based on underground cable design information for the circuit operation and maintenance geographic map;

the display module is used for displaying the corrected cable operation and maintenance geographic map;

the server includes:

the receiving module is used for receiving the field data uploaded by the terminal;

the response module is used for responding to the field data, acquiring a preset underground cable three-dimensional electronic design drawing and correcting the underground cable design drawing according to the field data;

and the sending module is used for sending the corrected underground cable design drawing to the terminal.

Optionally, the terminal further includes: the third acquisition module is used for acquiring the corrected underground cable three-dimensional electronic design drawing sent by the server side for display by the display module;

the response module is further to:

responding to the field data, and acquiring a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system association relation; the coordinate system incidence relation is the incidence relation between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the underground cable three-dimensional electronic design map;

converting underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographical diagram according to the incidence relation of the coordinate system;

correcting the cable operation and maintenance geographical map based on underground cable design information for the circuit operation and maintenance geographical map;

and sending the corrected cable operation and maintenance geographic map to a terminal.

The technical scheme of the present disclosure can be implemented to obtain the following beneficial technical effects: terminal users can upload field data and check the latest cable operation and maintenance geographic map, field maintenance is carried out according to the cable operation and maintenance geographic map, maintenance complexity is reduced, and maintenance efficiency is improved.

Drawings

FIG. 1 is a flow chart of a method in one embodiment of the present disclosure;

FIG. 2 is a flow chart of another method in an embodiment of the present disclosure;

FIG. 3 is a schematic diagram of a system connection in one embodiment of the present disclosure;

FIG. 4 is a schematic diagram of a terminal connection according to an embodiment of the present disclosure;

fig. 5 is a schematic diagram of a server connection according to an embodiment of the present disclosure.

Detailed Description

To facilitate understanding of those skilled in the art, the present invention will be further described with reference to specific examples:

example 1:

as shown in fig. 1, the underground cable operation and maintenance management and control method is implemented at a terminal, and includes:

step S1: collecting field data of an underground cable, and uploading the field data to a server;

step S2: acquiring a three-dimensional electronic design drawing of the underground cable which is fed back by the server and corrected according to the field data;

step S3: acquiring a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system incidence relation, wherein the cable operation and maintenance geographic map comprises map information and underground cable three-dimensional electronic design information, and the coordinate system incidence relation is the incidence relation between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the underground cable three-dimensional electronic design map;

step S4: converting underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographical diagram according to the incidence relation of the coordinate system;

step S5: correcting the cable operation and maintenance geographical map based on underground cable design information for the circuit operation and maintenance geographical map;

step S6: and displaying the corrected cable operation and maintenance geographic map.

In the disclosure, the cable operation and maintenance geographic map may be an integration of a map and an underground cable three-dimensional model (which may be understood as an electronic design map of the underground cable three-dimensional model after scaling), and the underground cable three-dimensional model is located at an actual location in the map. The underground cable three-dimensional electronic design drawing can comprise a cable three-dimensional electronic design drawing, a cable well lid three-dimensional electronic design drawing, a cable channel three-dimensional electronic design drawing and a cable duct three-dimensional electronic design drawing.

The incidence relation between the coordinate system of the cable operation and maintenance geographic map and the coordinate system of the underground cable three-dimensional electronic design map in the disclosure includes the proportional relation and the position relation of the coordinates between the underground cable three-dimensional electronic design map and the underground cable related structure in the cable operation and maintenance geographic map. Therefore, the underground cable design information contained in the underground cable three-dimensional electronic design drawing can be converted into the underground cable design information used for the circuit operation and maintenance geographic drawing according to the coordinate system incidence relation.

A worker holds a terminal by hand to maintain the underground cable, and when the site condition is found to be inconsistent with the underground cable three-dimensional electronic design drawing or the cable operation and maintenance geographic drawing; inputting relevant field data; the terminal field data are sent to the server so that the server can correct the underground cable three-dimensional electronic design drawing, and the terminal corrects the cable operation and maintenance geographic drawing based on the corrected underground cable three-dimensional electronic design drawing; therefore, terminal users can check the latest cable operation and maintenance geographic map and perform field maintenance according to the cable operation and maintenance geographic map, the maintenance complexity is reduced, and the maintenance efficiency is improved. Meanwhile, management personnel can conveniently obtain the latest field data at the server side. Meanwhile, the terminal can provide parameters such as distribution, trend and coordinates of the underground power cable for municipal construction and outsourcing construction units, so that the overall planning construction of the urban underground pipelines is assisted, and external force damage is avoided.

In the present disclosure, the field data may be pictures, numbers, words, videos, etc.; the length, width and depth of the cable and the type of the cable well cover, such as a round cover plate and a square cover plate, can be included. The diameter, thickness and material of the round well cover; the length, width, thickness and material of the square cover plate. The channel can be the position of the cable channel on each vertical surface of the cable well, the depth, the section size (width and depth) of the channel, the distance between the top of the channel and the ground, and the position of the size change of the channel. The calandria can be the position and depth of the calandria on each vertical surface of the cable well, the arrangement mode and number of the calandria, the size and material of the pore diameter of the calandria, and the distance between the top of the calandria and the ground.

Optionally, the terminal displays a three-dimensional electronic design drawing of the underground cable.

As an alternative to the above embodiment, the method further comprises:

and acquiring a corrected underground cable three-dimensional electronic design drawing sent by the server, and updating a pre-stored cable operation and maintenance geographic drawing.

As shown in fig. 2, the underground cable operation and maintenance management and control method, which is executed at a server and is matched with a method executed at a terminal, includes:

step Y1: receiving field data uploaded by a terminal;

step Y2: responding to the field data, acquiring a preset underground cable three-dimensional electronic design drawing, and correcting the underground cable design drawing according to the field data;

step Y3: and transmitting the corrected underground cable design drawing to a terminal.

And correcting the underground cable design drawing according to the field data uploaded by the diagnosis, and sending the corrected underground cable design drawing to the terminal so that the terminal can correct the cable operation and maintenance geographical drawing according to the latest underground cable design drawing. It is known that the underground cable plan transmitted here is the underground cable plan corresponding to the field data, i.e. the underground cable plan modified according to the field data, so that the data transmission amount and the data processing amount of the terminal can be reduced.

As an alternative to the above embodiment, the method further comprises:

responding to the field data, and acquiring a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system association relation; the coordinate system association relationship is the association relationship between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the underground cable three-dimensional electronic design map;

converting underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographical diagram according to the incidence relation of the coordinate system;

correcting the cable operation and maintenance geographical map based on underground cable design information for the circuit operation and maintenance geographical map;

and sending the corrected cable operation and maintenance geographic map to a terminal.

And the server side corrects the cable operation and maintenance geographic map and sends the cable operation and maintenance geographic map to the terminals so as to ensure that the cable operation and maintenance geographic map of each terminal is up to date and reduce the maintenance work of the cable operation and maintenance geographic map of the terminals.

Example 2:

as shown in fig. 3 and 4, a terminal 1 for underground cable operation and maintenance management and control includes:

the acquisition uploading module 11 is used for acquiring field data of the underground cable and uploading the field data to the server;

the first acquisition module 12 is used for acquiring the underground cable three-dimensional electronic design drawing which is fed back by the server and corrected according to the field data;

the second obtaining module 13 is configured to obtain a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system association relationship, where the cable operation and maintenance geographic map includes map information and three-dimensional electronic design information of an underground cable, and the coordinate system association relationship is an association relationship between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the three-dimensional electronic design map of the underground cable;

the information conversion module 14 is used for converting the underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographic drawing according to the incidence relation of the coordinate system;

the correcting module 15 is used for correcting the cable operation and maintenance geographical map based on underground cable design information for the circuit operation and maintenance geographical map;

and the display module 16 is used for displaying the corrected cable operation and maintenance geographic map.

As an alternative to the above embodiment, a third obtaining module 17 is further included, configured to obtain the corrected underground cable three-dimensional electronic design drawing sent by the server, so as to be displayed by the display module.

The principles and effects of the present embodiments may be referenced to principles and effects of an underground cable operation and maintenance management method for implementation at a terminal.

As shown in fig. 3 and 5, the server 2 for underground cable operation and maintenance management includes:

the receiving module 21 is used for receiving the field data uploaded by the terminal;

the response module 22 is used for responding to the field data, acquiring a preset underground cable three-dimensional electronic design drawing and correcting the underground cable design drawing according to the field data;

and a sending module 23, configured to send the corrected underground cable plan to the terminal.

As an alternative to the above embodiment, the response module 23 is further configured to:

responding to the field data, and acquiring a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system association relation; the coordinate system association relationship is the association relationship between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the underground cable three-dimensional electronic design map;

converting underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographical diagram according to the incidence relation of the coordinate system;

correcting the cable operation and maintenance geographical map based on underground cable design information for the circuit operation and maintenance geographical map;

and sending the corrected cable operation and maintenance geographic map to a terminal.

The principles and effects of the present embodiment may be referred to in the context of a method for underground cable operation and maintenance management performed at a server.

As shown in fig. 3 to 5, the underground cable operation and maintenance management and control system includes a terminal 1 and a server 2;

the terminal 1 includes:

the acquisition uploading module 11 is used for acquiring field data of the underground cable and uploading the field data to the server;

the first acquisition module 12 is used for acquiring the underground cable three-dimensional electronic design drawing which is fed back by the server and corrected according to the field data;

the second obtaining module 13 is configured to obtain a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system association relationship, where the cable operation and maintenance geographic map includes map information and three-dimensional electronic design information of an underground cable, and the coordinate system association relationship is an association relationship between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the three-dimensional electronic design map of the underground cable;

the information conversion module 14 is used for converting the underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographic drawing according to the incidence relation of the coordinate system;

the correcting module 15 is used for correcting the cable operation and maintenance geographical map based on underground cable design information for the circuit operation and maintenance geographical map;

the display module 16 is used for displaying the corrected cable operation and maintenance geographic map;

the server 2 includes:

the receiving module 21 is used for receiving the field data uploaded by the terminal;

the response module 22 is used for responding to the field data, acquiring a preset underground cable three-dimensional electronic design drawing and correcting the underground cable design drawing according to the field data;

and a sending module 23, configured to send the corrected underground cable plan to the terminal.

As an alternative to the above embodiment, the terminal further includes: the third acquisition module is used for acquiring the corrected underground cable three-dimensional electronic design drawing sent by the server side for display by the display module;

the response module is further to:

responding to the field data, and acquiring a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system association relation; the coordinate system association relationship is the association relationship between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the underground cable three-dimensional electronic design map;

converting underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographical diagram according to the incidence relation of the coordinate system;

correcting the cable operation and maintenance geographical map based on underground cable design information for the circuit operation and maintenance geographical map;

and sending the corrected cable operation and maintenance geographic map to a terminal.

The system of the present disclosure is a combination of a terminal and a server, and the principle and effect thereof can be referred to the principle and effect of the method, the terminal and the server, and will not be described repeatedly herein.

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

The above description is only an embodiment of the present invention, but the technical features of the present invention are not limited thereto, and any changes or modifications within the technical field of the present invention by those skilled in the art are covered by the claims of the present invention.

Claims (10)

1. The underground cable operation and maintenance management and control method is executed at a terminal and is characterized by comprising the following steps:

collecting field data of an underground cable, and uploading the field data to a server;

acquiring a three-dimensional electronic design drawing of the underground cable which is fed back by the server and corrected according to the field data;

acquiring a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system incidence relation, wherein the cable operation and maintenance geographic map comprises map information and underground cable three-dimensional electronic design information, and the coordinate system incidence relation is the incidence relation between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the underground cable three-dimensional electronic design map;

converting underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographical diagram according to the incidence relation of the coordinate system;

correcting the cable operation and maintenance geographical map based on underground cable design information for the circuit operation and maintenance geographical map;

and displaying the corrected cable operation and maintenance geographic map.

2. The method of claim 1, wherein the method further comprises: and acquiring a corrected underground cable three-dimensional electronic design drawing sent by the server, and updating a pre-stored cable operation and maintenance geographic drawing.

3. The underground cable operation and maintenance management and control method is executed at a server and is characterized by comprising the following steps:

receiving field data uploaded by a terminal;

responding to the field data, acquiring a preset underground cable three-dimensional electronic design drawing, and correcting the underground cable design drawing according to the field data;

and transmitting the corrected underground cable design drawing to a terminal.

4. The method of claim 3, wherein the method further comprises:

responding to the field data, and acquiring a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system association relation; the coordinate system incidence relation is the incidence relation between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the underground cable three-dimensional electronic design map;

converting underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographical diagram according to the incidence relation of the coordinate system;

correcting the cable operation and maintenance geographical map based on underground cable design information for the circuit operation and maintenance geographical map;

and sending the corrected cable operation and maintenance geographic map to a terminal.

5. A terminal for underground cable operation and maintenance management and control, its characterized in that includes:

the acquisition uploading module is used for acquiring the field data of the underground cable and uploading the field data to the server;

the system comprises a first acquisition module, a second acquisition module and a third acquisition module, wherein the first acquisition module is used for acquiring an underground cable three-dimensional electronic design drawing which is fed back by a server and corrected according to field data;

the second acquisition module is used for acquiring a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system incidence relation, wherein the cable operation and maintenance geographic map comprises map information and underground cable three-dimensional electronic design information, and the coordinate system incidence relation is the incidence relation between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the underground cable three-dimensional electronic design map;

the information conversion module is used for converting the underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographic drawing according to the incidence relation of the coordinate system;

the correction module is used for correcting the cable operation and maintenance geographic map based on underground cable design information for the circuit operation and maintenance geographic map;

and the display module is used for displaying the corrected cable operation and maintenance geographic map.

6. The terminal of claim 5, wherein the terminal further comprises a third obtaining module for obtaining the corrected underground cable three-dimensional electronic design drawing transmitted by the server for display by the display module.

7. A server for underground cable operation and maintenance management and control, characterized by comprising:

the receiving module is used for receiving the field data uploaded by the terminal;

the response module is used for responding to the field data, acquiring a preset underground cable three-dimensional electronic design drawing and correcting the underground cable design drawing according to the field data;

and the sending module is used for sending the corrected underground cable design drawing to the terminal.

8. The server of claim 7, wherein the response module is further to:

responding to the field data, and acquiring a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system association relation; the coordinate system incidence relation is the incidence relation between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the underground cable three-dimensional electronic design map;

converting underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographical diagram according to the incidence relation of the coordinate system;

correcting the cable operation and maintenance geographical map based on underground cable design information for the circuit operation and maintenance geographical map;

and sending the corrected cable operation and maintenance geographic map to a terminal.

9. The underground cable operation and maintenance management and control system is characterized by comprising a server and a terminal;

the terminal includes:

the acquisition uploading module is used for acquiring the field data of the underground cable and uploading the field data to the server;

the system comprises a first acquisition module, a second acquisition module and a third acquisition module, wherein the first acquisition module is used for acquiring an underground cable three-dimensional electronic design drawing which is fed back by a server and corrected according to field data;

the second acquisition module is used for acquiring a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system incidence relation, wherein the cable operation and maintenance geographic map comprises map information and underground cable three-dimensional electronic design information, and the coordinate system incidence relation is the incidence relation between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the underground cable three-dimensional electronic design map;

the information conversion module is used for converting the underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographic drawing according to the incidence relation of the coordinate system;

the correction module is used for correcting the cable operation and maintenance geographic map based on underground cable design information for the circuit operation and maintenance geographic map;

the display module is used for displaying the corrected cable operation and maintenance geographic map;

the server includes:

the receiving module is used for receiving the field data uploaded by the terminal;

the response module is used for responding to the field data, acquiring a preset underground cable three-dimensional electronic design drawing and correcting the underground cable design drawing according to the field data;

and the sending module is used for sending the corrected underground cable design drawing to the terminal.

10. The system of claim 9, wherein the terminal further comprises: the third acquisition module is used for acquiring the corrected underground cable three-dimensional electronic design drawing sent by the server side for display by the display module;

the response module is further to:

responding to the field data, and acquiring a pre-stored cable operation and maintenance geographic map and a pre-stored coordinate system association relation; the coordinate system incidence relation is the incidence relation between a coordinate system of the cable operation and maintenance geographic map and a coordinate system of the underground cable three-dimensional electronic design map;

converting underground cable design information contained in the corrected underground cable three-dimensional electronic design drawing into underground cable design information for a circuit operation and maintenance geographical diagram according to the incidence relation of the coordinate system;

correcting the cable operation and maintenance geographical map based on underground cable design information for the circuit operation and maintenance geographical map;

and sending the corrected cable operation and maintenance geographic map to a terminal.

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