CN106815392B - Intelligent reading method for manufacturer terminal strip - Google Patents
Intelligent reading method for manufacturer terminal strip Download PDFInfo
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- CN106815392B CN106815392B CN201611071504.8A CN201611071504A CN106815392B CN 106815392 B CN106815392 B CN 106815392B CN 201611071504 A CN201611071504 A CN 201611071504A CN 106815392 B CN106815392 B CN 106815392B
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- G06F30/18—Network design, e.g. design based on topological or interconnect aspects of utility systems, piping, heating ventilation air conditioning [HVAC] or cabling
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Abstract
The invention provides an intelligent reading method for a manufacturer terminal strip, which comprises the following steps: establishing a screen cabinet database and loading each screen cabinet information stored in the screen cabinet database; inputting the serial number or the key words of the screen cabinet so as to inquire out corresponding screen cabinet information; acquiring terminal block information from screen cabinet information and preloading data of each terminal block information; leading in standard terminal strip information and carrying out data matching on the standard terminal strip information and the terminal strip information to obtain finished product data; configuring the functions of cables, cable cores, loop numbers and terminal strips according to the finished product data and the terminal strip format; and deleting all the preloaded data and the imported standard terminal strip information to generate each terminal strip under the to-be-connected cabinet. The intelligent reading method for the factory terminal block solves the problem that a factory terminal block wiring diagram is drawn manually and complicated, repeated labor is greatly reduced, and working efficiency is improved.
Description
Technical Field
The invention relates to a schematic diagram reading method, in particular to an intelligent reading method for a manufacturer terminal strip.
Background
In the process of transformer substation project design, secondary construction drawing is required to be completed, and drawing of a schematic diagram and a terminal row wiring diagram is a key part in the secondary construction drawing. At present, the secondary drawing is mainly manually finished by designers by utilizing CAD drawing software, a schematic diagram of secondary equipment is drawn firstly, then a terminal block diagram of a manufacturer is copied into a CAD, and a terminal block wiring diagram is drawn manually according to the connection relation between terminals in the schematic diagram. The method has large drawing workload, and particularly, the conventional station with high voltage class: generally, about 12 volume books are needed to be completed, wherein the total number of the schematic diagrams of the volume books and the terminal row wiring diagrams is more than 20, the schematic diagrams have large equipment amount and complicated connection relationship, and difficulty is caused in the process of manually drawing the terminal row wiring diagrams. Complicated drawing amount, easy and wrong drawing process, more repeated labor and low working efficiency.
Disclosure of Invention
The invention aims to solve the technical problem that the existing method for manually drawing the terminal row wiring diagram has high drawing workload, so that the working efficiency is not high.
In order to solve the technical problem, the invention provides an intelligent reading method for a manufacturer terminal block, which comprises the following steps:
step 1, establishing a screen cabinet database, and loading each screen cabinet information stored in the screen cabinet database, wherein the screen cabinet information comprises a serial number, keywords and corresponding terminal row information;
step 2, inputting the serial number or the key word of the screen cabinet to be connected according to the requirement, and inquiring corresponding screen cabinet information in a screen cabinet database;
step 3, acquiring terminal strip information of each terminal strip under the to-be-connected cabinet from the inquired cabinet information, and performing data preloading on the terminal strip information;
step 4, importing all standard terminal row information provided by a terminal row manufacturer, classifying all standard terminal row information, performing data matching on the classified standard terminal row information and the terminal row information preloaded with data, if the matching is successful, saving the matched standard terminal row information as finished product data, and if the matching is unsuccessful, deleting the unmatched standard terminal row information;
step 5, appointing a wiring starting point of each terminal strip under the cabinet to be wired, and configuring the functions of cables, cable cores, loop numbers and terminal strips according to finished product data and a terminal strip format which is preserved in advance;
and 6, after the configuration of each terminal row under the to-be-connected cabinet is completed, deleting all the preloaded data and the imported standard terminal row information, and generating each terminal row under the to-be-connected cabinet.
The information of each standard terminal strip provided by a terminal strip manufacturer is automatically matched, so that the working efficiency can be effectively improved, and the labor is saved; the cache can be reduced in real time by deleting unmatched standard terminal row information, so that the data processing speed is ensured; deleting all the preloaded data and the imported standard terminal row information can further recover the cache, and the next secondary drawing can be rapidly read.
As a further limiting scheme of the present invention, in step 1, the specific steps of establishing the screen cabinet database are as follows:
step 1.1, calling a drawing software program to open a secondary drawing, and acquiring all primitive IDs in a drawing model space of the secondary drawing;
step 1.2, acquiring each point primitive, line drawing primitive and block primitive according to the primitive ID so as to finish reading all primitives in the secondary drawing, wherein each primitive is provided with an extension mark, an attribute mark and a field name;
step 1.3, readability judgment is carried out according to the extension marks of all the primitives, if the extension marks are readable, matching is carried out according to the attribute marks of the screen cabinet and the field name of the screen cabinet, and if matching is successful, the corresponding primitives are uploaded to a screen cabinet database as the screen cabinet to be stored; if the matching is unsuccessful or is an unreadable extension mark, continuing the readability judgment and matching of the next graphic element; and after all the primitives are judged and matched, the screen cabinet database is established.
The screen cabinet information is stored in the form of a database, so that the loading efficiency is high, later-stage repeated use is facilitated, and the modular design effect is achieved.
As a further limitation of the present invention, in step 2, if the inputted primitive number or keyword is not matched with the corresponding screen cabinet, the corresponding screen cabinet information is discarded. The design can prevent misjudgment and ensure the reliability of reading.
As a further limitation of the present invention, in step 4, each standard terminal row information is classified by using a terminal rank or a terminal number. The adoption is categorised each standard terminal row information and is conveniently carried out data matching with standard terminal row information and terminal row information, has improved matching efficiency.
As a further limitation of the present invention, in step 5, the terminal strip format is pre-configured and stored in a local XML file. The data used is serialized into the file by adopting the standard of the xml, the structure of the xml file has standard property and strong readability and portability, and other programs can also read the serialized file conveniently.
The invention has the beneficial effects that: (1) the information of each standard terminal strip provided by a terminal strip manufacturer is automatically matched, so that the working efficiency can be effectively improved, and the labor is saved; (2) the cache can be reduced in real time by deleting unmatched standard terminal row information, so that the data processing speed is ensured; (3) deleting all the preloaded data and the imported standard terminal row information can further recover the cache, and the next secondary drawing can be rapidly read.
Drawings
FIG. 1 is a flow chart of a terminal strip reading method of the present invention;
fig. 2 is a flow chart of the screen cabinet database establishment according to the present invention.
Detailed Description
As shown in fig. 1, the method for intelligently reading a manufacturer terminal block provided by the invention comprises the following steps:
step 1, establishing a screen cabinet database, and loading each screen cabinet information stored in the screen cabinet database, wherein the screen cabinet information comprises a serial number, keywords and corresponding terminal row information;
step 2, inputting the serial number or the key word of the screen cabinet to be connected according to the requirement, and inquiring corresponding screen cabinet information in a screen cabinet database;
step 3, acquiring terminal strip information of each terminal strip under the to-be-connected cabinet from the inquired cabinet information, and performing data preloading on the terminal strip information;
step 4, importing all standard terminal row information provided by a terminal row manufacturer, classifying all standard terminal row information, performing data matching on the classified standard terminal row information and the terminal row information preloaded with data, if the matching is successful, saving the matched standard terminal row information as finished product data, and if the matching is unsuccessful, deleting the unmatched standard terminal row information;
step 5, appointing a wiring starting point of each terminal strip under the cabinet to be wired, and configuring the functions of cables, cable cores, loop numbers and terminal strips according to finished product data and a terminal strip format which is preserved in advance;
and 6, after the configuration of each terminal row under the to-be-connected cabinet is completed, deleting all the preloaded data and the imported standard terminal row information, and generating each terminal row under the to-be-connected cabinet.
As shown in fig. 2, in step 1, the specific steps of establishing the screen cabinet database are as follows:
step 1.1, calling a drawing software program to open a secondary drawing, and acquiring all primitive IDs in a drawing model space of the secondary drawing;
step 1.2, acquiring each point primitive, line drawing primitive and block primitive according to the primitive ID so as to finish reading all primitives in the secondary drawing, wherein each primitive is provided with an extension mark, an attribute mark and a field name;
step 1.3, readability judgment is carried out according to the extension marks of all the primitives, if the extension marks are readable, matching is carried out according to the attribute marks of the screen cabinet and the field name of the screen cabinet, and if matching is successful, the corresponding primitives are uploaded to a screen cabinet database as the screen cabinet to be stored; if the matching is unsuccessful or is an unreadable extension mark, continuing the readability judgment and matching of the next graphic element; and after all the primitives are judged and matched, the screen cabinet database is established.
In the step 2, if the input primitive number or the keyword is not matched with the corresponding screen cabinet, the corresponding screen cabinet information is discarded. The design can prevent misjudgment and ensure the reliability of reading.
In the step 4, the standard terminal row information is classified by using the terminal rank or the terminal number. The adoption is categorised each standard terminal row information and is conveniently carried out data matching with standard terminal row information and terminal row information, has improved matching efficiency.
In step 5, the terminal strip format is pre-configured and stored in the local XML file. The data used is serialized into the file by adopting the standard of the xml, the structure of the xml file has standard property and strong readability and portability, and other programs can also read the serialized file conveniently.
When the intelligent reading method for the factory terminal block is specifically implemented, the drawing software program adopts CAD software, and based on an AutoCAD platform, all information on a CAD schematic diagram and a factory terminal block diagram is read through the method, a terminal block wiring diagram is automatically generated, the convenience of CAD drawing is utilized to the maximum extent, the repeated labor is reduced, the connection relation among all devices is recorded, and the manual operation during drawing the terminal block wiring diagram is simplified; meanwhile, the problem that a terminal block wiring diagram of a manufacturer is complex to draw manually is solved, the terminal block diagram of the manufacturer is picked up through one key, repeated labor is greatly reduced, and working efficiency is improved.
Claims (5)
1. The intelligent reading method for the manufacturer terminal strip is characterized by comprising the following steps of:
step 1, establishing a screen cabinet database, and loading each screen cabinet information stored in the screen cabinet database, wherein the screen cabinet information comprises a serial number, keywords and corresponding terminal row information;
step 2, inputting the serial number or the key word of the screen cabinet to be connected according to the requirement, and inquiring corresponding screen cabinet information in a screen cabinet database;
step 3, acquiring terminal strip information of each terminal strip under the to-be-connected cabinet from the inquired cabinet information, and performing data preloading on the terminal strip information;
step 4, importing all standard terminal row information provided by a terminal row manufacturer, classifying all standard terminal row information, performing data matching on the classified standard terminal row information and the terminal row information preloaded with data, if the matching is successful, saving the matched standard terminal row information as finished product data, and if the matching is unsuccessful, deleting the unmatched standard terminal row information;
step 5, appointing a wiring starting point of each terminal strip under the cabinet to be wired, and configuring the functions of cables, cable cores, loop numbers and terminal strips according to finished product data and a terminal strip format which is preserved in advance;
and 6, after the configuration of each terminal row under the to-be-connected cabinet is completed, deleting all the preloaded data and the imported standard terminal row information, and generating each terminal row under the to-be-connected cabinet.
2. The intelligent reading method for the factory terminal block as claimed in claim 1, wherein in step 1, the specific steps of establishing a screen cabinet database are as follows:
step 1.1, calling a drawing software program to open a secondary drawing, and acquiring all primitive IDs in a drawing model space of the secondary drawing;
step 1.2, acquiring each point primitive, line drawing primitive and block primitive according to the primitive ID so as to finish reading all primitives in the secondary drawing, wherein each primitive is provided with an extension mark, an attribute mark and a field name;
step 1.3, readability judgment is carried out according to the extension marks of all the primitives, if the extension marks are readable, matching is carried out according to the attribute marks of the screen cabinet and the field name of the screen cabinet, and if matching is successful, the corresponding primitives are uploaded to a screen cabinet database as the screen cabinet to be stored; if the matching is unsuccessful or is an unreadable extension mark, continuing the readability judgment and matching of the next graphic element; and after all the primitives are judged and matched, the screen cabinet database is established.
3. The intelligent reading method for the factory terminal block according to claim 1, wherein in step 2, if the input primitive number or the keyword is not matched with the corresponding screen cabinet, the corresponding screen cabinet information is discarded.
4. The intelligent factory terminal block reading method as claimed in claim 1, wherein in step 4, each standard terminal block information is classified by using a terminal rank or a terminal number.
5. The intelligent factory terminal strip reading method as claimed in claim 1, wherein in step 5, the terminal strip format is pre-configured and stored in a local XML file.
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CN109977065A (en) * | 2019-03-06 | 2019-07-05 | 云南电网有限责任公司保山供电局 | A kind of terminal block scanning automatic map delivery device and its application method |
CN112149548B (en) * | 2020-09-17 | 2022-10-21 | 宁夏宁电电力设计有限公司 | CAD drawing intelligent input and identification method and device suitable for terminal row |
CN112446068A (en) * | 2020-11-25 | 2021-03-05 | 上海易缔信息科技有限公司 | Electric one-time automatic wiring method for electric secondary terminal strip |
CN113591599A (en) * | 2021-07-07 | 2021-11-02 | 广东电网能源发展有限公司 | Cable information identification method, device, equipment and medium |
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US6606731B1 (en) * | 1999-08-05 | 2003-08-12 | The Boeing Company | Intelligent wiring diagram system |
JP4607032B2 (en) * | 2006-02-27 | 2011-01-05 | 富士通株式会社 | Circuit diagram creation device and circuit diagram creation program |
US8068715B2 (en) * | 2007-10-15 | 2011-11-29 | Telescent Inc. | Scalable and modular automated fiber optic cross-connect systems |
KR101575215B1 (en) * | 2010-05-25 | 2015-12-08 | 엘지이노텍 주식회사 | Method for measuring optic characteristic and electric characteristic of light emitting diode |
CN103187801B (en) * | 2011-12-31 | 2014-10-29 | 山东电力工程咨询院有限公司 | Method of optical fiber distribution frame port configuration method in intelligent transformer substation secondary system |
CN104218340B (en) * | 2014-09-17 | 2016-06-08 | 株洲南车时代电气股份有限公司 | A kind of connecting terminal block |
KR101631685B1 (en) * | 2014-09-18 | 2016-06-21 | (주)에이피엠테크놀러지스 | Automatic Switch for Partial Discharge Diagnosis in Power transmission and distribution system |
CN104376171A (en) * | 2014-11-17 | 2015-02-25 | 陕西合信诚铭软件科技有限公司 | Automatic design method and system for terminal block drawing and cable detailed list |
CN104376169A (en) * | 2014-11-17 | 2015-02-25 | 陕西合信诚铭软件科技有限公司 | Automatic recognition method and system for electric secondary design cubicle and mechanism case terminal blocks |
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