CN113515268A

CN113515268A - Python-based automatic mapping system for transformer substation connection relation diagram

Info

Publication number: CN113515268A
Application number: CN202110817794.0A
Authority: CN
Inventors: 张建永; 姜现凯; 王亮; 陶佳鹏; 周现召
Original assignee: Beijing Tianfang Hengrui Technology Co ltd
Current assignee: Beijing Tianfang Hengrui Technology Co ltd
Priority date: 2021-07-20
Filing date: 2021-07-20
Publication date: 2021-10-19
Anticipated expiration: 2041-07-20
Also published as: CN113515268B

Abstract

The invention discloses a python-based automatic mapping system for a transformer substation connection relation diagram, which comprises a python man-machine interaction terminal, an automatic mapping system, a server and a transformer substation information database, can automatically and quickly extend the transformer substation according to transformer substation and wiring relation data, can automatically calculate the position coordinate, the outgoing line coordinate and the connecting line inflection point coordinate of the transformer substation in a plane diagram, provides a python algorithm model for foreground visual display, effectively solves the problems that the transformer substation extension manual drawing workload is large, lines are easy to intersect, and the transformer substation can not be released in new commissioning and retirement in real time, has high and medium automatic mapping speed, does not exceed 0.5 second in cities and below, does not exceed 1 second in large cities, does not exceed 2 seconds in extra-large cities and cities, can be self-adaptive to different resolutions, adopts a standard json format for input and output model files, the readability is strong, cross-platform support is achieved, and the deployment environment is not limited.

Description

Python-based automatic mapping system for transformer substation connection relation diagram

Technical Field

The invention relates to the technical field of image software, in particular to a python-based automatic mapping system for a transformer substation connection relation diagram.

Background

The transformer substation wiring diagram is an engineering diagram for showing the circuit layout of the transformer substation, and the requirements on the drawing efficiency and the drawing quality of the transformer substation wiring diagram are higher and higher as the intelligent power grid enters a comprehensive construction stage, but most of the existing transformer substation wiring diagrams are drawn manually, and the manual drawing of the transformer substation wiring diagram is time-consuming and labor-consuming, large in workload, low in updating frequency and often inconsistent with the diagram of the transformer substation.

Disclosure of Invention

The invention aims to provide a python-based automatic substation connection relation graph mapping system to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a transformer substation connection relation diagram automatic mapping system based on python comprises a python man-machine interaction terminal, an automatic mapping system, a server and a transformer substation information database, wherein the python man-machine interaction terminal is internally provided with the automatic mapping system, the automatic mapping system comprises a code subsystem, a drawing subsystem, a data receiving module, a data processing module, a coordinate storage module, a power management module, a display module and a main control module, the main control module is arranged in the automatic mapping system, one side of the main control module is connected with the code subsystem in a data mode, the code subsystem comprises a python code library, a coordinate calling module, a code inserting module, a code editing module, a code checking module, a code executing module and a code storage module, one side of the main control module is connected with the code editing module in a data mode, one side of the code editing module is connected with the code inserting module in a data mode, one side of the code inserting module is connected with a code calling module, and one side of the code calling module is connected with a python code base.

Preferably, one side of the code editing module is in data connection with a coordinate calling module, one side of the code editing module is in data connection with a code checking module, one side of the code checking module is in data connection with a code storage module, one side of the code storage module is in data connection with a code execution module, and the code execution module is in data connection with the main control module.

Preferably, one side data connection of host system has the drawing subsystem, the drawing subsystem includes resolution ratio acquisition module, the drawing module, the map source storehouse, layout optimization module and figure storage module, one side data connection of host system has the resolution ratio acquisition module, one side data connection of resolution ratio acquisition module has the drawing module, one side data connection of drawing module has the map source storehouse, one side data connection of drawing module has the layout optimization module, one side data connection of layout optimization module has the figure storage module, and figure storage module and host system establish data connection.

Preferably, the drawing module comprises a line drawing module and a corner drawing module.

Preferably, the layout optimization module includes an array configuration module and a line optimization module.

Preferably, a signal line on one side of the main control module is connected with a power management module, a signal line on one side of the main control module is connected with a display module, a data processing module is connected with one side of the main control module, a data receiving module is connected with one side of the data processing module, and a coordinate storage module is connected with one side of the main control module.

Preferably, a server is arranged on one side of the python human-computer interaction terminal, data connection is established between the server and the data receiving module, and a transformer substation information database is arranged inside the server.

Compared with the prior art, the invention has the beneficial effects that: the system designed by the invention has the advantages that the automatic drawing speed is high, medium and lower cities do not exceed 0.5 second, large cities do not exceed 1 second, extra-large cities and extra-large cities do not exceed 2 seconds, the system can be self-adapted to different resolutions, input and output model files adopt a standard json format, the readability is strong, the system supports cross-platform and the deployment environment is not limited.

Drawings

FIG. 1 is a schematic diagram of a system framework of the present invention;

FIG. 2 is a block flow diagram of the present invention;

in the figure: 1. a python human-computer interaction terminal; 2. an automatic charting system; 3. a server; 4. a substation information database; 21. a code subsystem; 22. a drawing subsystem; 23. a data receiving module; 24. a data processing module; 25. a coordinate storage module; 26. a power management module; 27. a display module; 28. a main control module; 211. a python code base; 212. a coordinate calling module; 213. a code calling module; 214. a code insertion module; 215. a code editing module; 216. a code inspection module; 217. a code execution module; 218. a code storage module; 221. a resolution acquisition module; 222. a drawing module; 223. a graph source library; 224. a layout optimization module; 225. a graphics storage module; 2221. a line drawing module; 2222. an inflection point drawing module; 2241. an array configuration module; 2242. and a line optimization module.

Detailed Description

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

Referring to fig. 1-2, an embodiment of the present invention is shown: a transformer substation connection relation diagram automatic mapping system based on python comprises a python man-machine interaction terminal 1, an automatic mapping system 2, a server 3 and a transformer substation information database 4, wherein the automatic mapping system 2 is arranged in the python man-machine interaction terminal 1, the automatic mapping system 2 comprises a code subsystem 21, a mapping subsystem 22, a data receiving module 23, a data processing module 24, a coordinate storage module 25, a power management module 26, a display module 27 and a main control module 28, the main control module 28 is arranged in the automatic mapping system 2, one side of the main control module 28 is in data connection with the code subsystem 21, the code subsystem 21 comprises a python code library 211, a coordinate calling module 212, a code calling module 213, a code inserting module 214, a code editing module 215, a code checking module 216, a code executing module 217 and a code storage module 218, one side of the main control module 28 is in data connection with the code editing module 215, one side of the code editing module 215 is connected with a code inserting module 214, one side of the code inserting module 214 is connected with a code calling module 213, and one side of the code calling module 213 is connected with a python code base 211; one side of the code editing module 215 is in data connection with a coordinate calling module 212, one side of the code editing module 215 is in data connection with a code checking module 216, one side of the code checking module 216 is in data connection with a code storage module 218, one side of the code storage module 218 is in data connection with a code executing module 217, the code executing module 217 is in data connection with the main control module 28, the coordinate calling module 212 is used for calling coordinate data, the code checking module 216 is used for checking whether the code is correct, and the code executing module 217 is used for executing the code; one side of the main control module 28 is connected with the drawing subsystem 22 in a data mode, the drawing subsystem 22 comprises a resolution acquisition module 221, a drawing module 222, a drawing source library 223, a layout optimization module 224 and a graph storage module 225, one side of the main control module 28 is connected with the resolution acquisition module 221 in a data mode, one side of the resolution acquisition module 221 is connected with the drawing module 222 in a data mode, one side of the drawing module 222 is connected with the drawing source library 223 in a data mode, one side of the drawing module 222 is connected with the layout optimization module 224 in a data mode, one side of the layout optimization module 224 is connected with the graph storage module 225 in a data mode, the graph storage module 225 is in data connection with the main control module 28, and the drawing subsystem 22 is used for drawing according to a program set by the code subsystem 21; the drawing module 222 includes a line drawing module 2221 and an inflection point drawing module 2222, the line drawing module 2221 is used for drawing a connection line, and the inflection point drawing module 2222 is used for drawing an inflection point, so as to avoid line bonding overlapping; the layout optimization module 224 comprises an array configuration module 2241 and a line optimization module 2242, the array configuration module 2241 is used for dynamically configuring the number of the substation seats in each row, and the line optimization module 2242 automatically adjusts the tension of a wiring diagram according to the number of the connecting lines; a signal line on one side of the main control module 28 is connected with a power management module 26, a signal line on one side of the main control module 28 is connected with a display module 27, a data processing module 24 is connected with data on one side of the main control module 28, a data receiving module 23 is connected with data on one side of the data processing module 24, a coordinate storage module 25 is connected with data on one side of the main control module 28, the power management module 26 is used for managing power, the display module 27 is used for displaying the running state of equipment, the data receiving module 23 is used for receiving data sent by the server 3, the data processing module 24 is used for processing data received by the data receiving module 23, and the coordinate storage module 25 is used for storing the wiring coordinates of the transformer substation and the corresponding ID address; a server 3 is arranged on one side of the python human-computer interaction terminal 1, data connection is established between the server 3 and the data receiving module 23, a transformer substation information database 4 is arranged inside the server 3, the server 3 is used for receiving and sending data, and the transformer substation information database 4 is used for storing position information, equipment information and wiring information of a transformer substation.

The working principle is as follows: when the invention is used for automatically mapping a transformer substation connection relation diagram, firstly, the position information, the equipment information and the wiring information of the transformer substation are manually collected and then uploaded to the server 3, the transformer substation information database 4 is used for storage, the python man-machine interaction terminal 1 is started, the automatic mapping system 2 completes initialization, the transformer substation information data is received by the data receiving module 23 and processed by the data processing module 24, converted into an ID address and wiring coordinates, and is transmitted to the coordinate storage module 25 by the main control module 28 for storage, meanwhile, the main control module 28 controls the code subsystem 21 to initialize, code compiling is carried out by the code editing module 215, a python code library 211 code segment is called by the code calling module 213 and is inserted by the code inserting module 214, the ID address and the wiring coordinate data are called by the coordinate calling module 212, and codes are compiled by the code editing module 215, after writing, the code checking module 216 checks the data, the code storage module 218 stores the data, the code execution module 217 executes programs, the main control module 28 controls the drawing subsystem 22 to initialize, the resolution acquisition module 221 acquires resolution data of the display device, the drawing module 222 calls the map source library 223 to draw the data, then the layout optimization module 224 performs layout optimization to obtain a transformer substation connection relation map, and the transformer substation connection relation map is stored by the map storage module 225, wherein the power management module 26 is used for managing a power supply, the display module 27 is used for displaying the running state of the device, the line drawing module 2221 is used for drawing a connection line, the inflection point drawing module 2222 is used for drawing an inflection point to avoid line bonding overlapping, the array configuration module 2241 is used for dynamically configuring the number of transformer substations in each row, and the line optimization module 2242 automatically adjusts tension of the connection line map according to the number of the connection line.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides an automatic mapping system of transformer substation connection relation picture based on python, includes python human-computer interaction terminal (1), automatic mapping system (2), server (3) and transformer substation information database (4), its characterized in that: an automatic drawing system (2) is arranged in the python man-machine interaction terminal (1), the automatic drawing system (2) comprises a code subsystem (21), a drawing subsystem (22), a data receiving module (23), a data processing module (24), a coordinate storage module (25), a power management module (26), a display module (27) and a main control module (28), the main control module (28) is arranged in the automatic drawing system (2), one side of the main control module (28) is in data connection with the code subsystem (21), the code subsystem (21) comprises a python code library (211), a coordinate calling module (212), a code calling module (213), a code inserting module (214), a code editing module (215), a code checking module (216), a code executing module (217) and a code storage module (218), one side of the main control module (28) is in data connection with the code editing module (215), one side of the code editing module (215) is connected with a code inserting module (214) in a data mode, one side of the code inserting module (214) is connected with a code calling module (213) in a data mode, and one side of the code calling module (213) is connected with a python code base (211) in a data mode.

2. The python-based substation connection relation graph automatic mapping system according to claim 1, characterized in that: one side of the code editing module (215) is connected with a coordinate calling module (212) in a data mode, one side of the code editing module (215) is connected with a code checking module (216) in a data mode, one side of the code checking module (216) is connected with a code storage module (218) in a data mode, one side of the code storage module (218) is connected with a code execution module (217) in a data mode, and the code execution module (217) is connected with the main control module (28) in a data mode.

3. The python-based substation connection relation graph automatic mapping system according to claim 1, characterized in that: one side data connection of host system (28) has drawing subsystem (22), drawing subsystem (22) are including resolution ratio acquisition module (221), drawing module (222), map source storehouse (223), layout optimization module (224) and figure storage module (225), one side data connection of host system (28) has resolution ratio acquisition module (221), one side data connection of resolution ratio acquisition module (221) has drawing module (222), one side data connection of drawing module (222) has map source storehouse (223), one side data connection of drawing module (222) has layout optimization module (224), one side data connection of layout optimization module (224) has figure storage module (225), and figure storage module (225) and host system (28) establish data connection.

4. The python-based substation connection relation graph automatic mapping system according to claim 3, wherein: the drawing module (222) includes a line drawing module (2221) and a corner drawing module (2222).

5. The python-based substation connection relation graph automatic mapping system according to claim 3, wherein: the layout optimization module (224) includes an array configuration module (2241) and a line optimization module (2242).

6. The python-based substation connection relation graph automatic mapping system according to claim 1, characterized in that: the intelligent display device is characterized in that a signal line on one side of the main control module (28) is connected with a power management module (26), a signal line on one side of the main control module (28) is connected with a display module (27), data on one side of the main control module (28) is connected with a data processing module (24), data on one side of the data processing module (24) is connected with a data receiving module (23), and data on one side of the main control module (28) is connected with a coordinate storage module (25).

7. The python-based substation connection relation graph automatic mapping system according to claim 1, characterized in that: a server (3) is arranged on one side of the python man-machine interaction terminal (1), data connection is established between the server (3) and the data receiving module (23), and a transformer substation information database (4) is arranged inside the server (3).