CN108710716B

CN108710716B - Design drawing generation method and device for optical amplifier station in optical transmission system

Info

Publication number: CN108710716B
Application number: CN201810274107.3A
Authority: CN
Inventors: 赵满良; 郑波; 梁新生; 程立勋; 杨伟
Original assignee: China United Network Communications Group Co Ltd; China Information Technology Designing and Consulting Institute Co Ltd
Current assignee: China United Network Communications Group Co Ltd; China Information Technology Designing and Consulting Institute Co Ltd
Priority date: 2018-03-29
Filing date: 2018-03-29
Publication date: 2022-03-15
Anticipated expiration: 2038-03-29
Also published as: CN108710716A

Abstract

The embodiment of the invention provides a method and a device for generating a design drawing of an optical amplifier station in an optical transmission system, relates to the field of optical communication, and can efficiently generate the design drawing of the optical amplifier station. The method comprises the following steps: acquiring system information of an optical transmission system, manufacturer information of optical station equipment in the optical transmission system and engineering site actual survey information of the optical transmission system, and storing the system information, the manufacturer information and the engineering site actual survey information in a classified manner; extracting drawing information of a combined drawing of the optical amplifier station and drawing information of a system drawing of the optical amplifier station from all the acquired information, and classifying all the drawing information according to the difference of design elements in the combined drawing and the system drawing; constructing a plurality of composition sub-modules according to different patterns required in the light playing station group frame drawing and the light playing station system drawing and drawing functions in a computer drawing tool; and calling a composition submodule to draw all drawing information into an optical amplifier station group frame diagram and an optical amplifier station system diagram according to the preset factory equipment interconnection logic, the preset optical transmission network system logic and the preset design standard specification.

Description

Design drawing generation method and device for optical amplifier station in optical transmission system

Technical Field

The present invention relates to the field of optical communications, and in particular, to a method and an apparatus for generating a design drawing of an optical station in an optical transmission system.

Background

At present, in the communication design industry at home and abroad, no special Optical Amplifier station (OA, Optical Amplifier or Optical Amplifier station) design chart batch automatic design system exists in the Optical transmission network. In the existing stage, the optical transmission network mainly adopts the Wavelength Division Multiplexing (DWDM) technology, the number of optical amplifier stations of the whole optical transmission network is huge, the types and types of transmission equipment produced by different transmission equipment manufacturers at different periods are various, and the field conditions and actual survey information of each optical amplifier station are different, so that the drawing of the construction design drawing of the optical amplifier station is very complicated. The traditional design mode is a mode of manually drawing a design drawing, and the production mode is as follows: drawing the optical amplifier station transmission equipment panel, the board card and other communication system composition units one by adopting general Computer Aided drawing software (such as CAD (Computer Aided Design)); then manually drawing each unit connecting line according to the working principle and the signal flow direction of the transmission system, wherein the unit connecting line comprises parameters such as system name, transmission direction, optical cable type, fiber core number and the like; and finally, counting and drawing a summary table of communication lines, power lines, warning lines and the like. The traditional design mode has the defects of complicated design content, low efficiency, high error rate, large drawing workload, long lead cycle, nonstandard drawing and the like. With the rapid development of the communication industry and the incandescence of market competition, the delivery cycle of communication design drawings is shortened. Therefore, the traditional manual design mode is far from meeting the requirements of enterprises and industries, the production cost and the benefit of the enterprises are influenced, the competition of the enterprises under the current intense market environment is not facilitated, and the transformation development of the enterprises is restricted.

In summary, there is an urgent need in the communications design industry and enterprises to solve a technical problem: the method for automatically generating the design drawings of the optical amplifier stations in batches can shorten the design delivery period, improve the working efficiency and improve the design quality.

Disclosure of Invention

The embodiment of the invention provides a method and a device for generating a design drawing of an optical amplifier station in an optical transmission system, which can efficiently generate the design drawing of the optical amplifier station.

In order to achieve the above purpose, the embodiment of the invention adopts the following technical scheme:

in a first aspect, a method for generating a design drawing of an optical amplifier station in an optical transmission system is provided, which includes: acquiring system information of an optical transmission system, manufacturer information of optical station equipment in the optical transmission system and engineering site actual survey information of the optical transmission system;

extracting first drawing information of an optical amplifier station group drawing from the acquired system information of the optical transmission system, manufacturer information of optical amplifier station equipment in the optical transmission system and engineering site actual survey information of the optical transmission system, and classifying the first drawing information according to different design elements in the optical amplifier station group drawing; extracting second drawing information of the optical amplifier station system diagram from the acquired system information of the optical transmission system, manufacturer information of optical amplifier station equipment in the optical transmission system and engineering site actual survey information of the optical transmission system, and classifying the second drawing information according to different design elements in the optical amplifier station system diagram;

constructing composition submodules aiming at different patterns according to different patterns required in the light broadcasting station group frame drawing and the light broadcasting station system drawing and drawing functions in a computer drawing tool;

calling a first composition submodule to draw target first drawing information into a corresponding part in an optical amplifier station group diagram according to preset factory equipment interconnection logic, preset optical transmission network system logic and preset design standard specifications, and calling a second composition submodule to draw target second drawing information into a corresponding part in an optical amplifier station system diagram;

the first drawing information of the target is any one of the classified first drawing information, and the first composition submodule is a composition submodule corresponding to the first drawing information of the target in all the composition submodules; the second composition submodule is a composition submodule corresponding to the target second drawing information in all the composition submodules.

Optionally, before extracting the first drawing information of the group frame diagram of the optical playback station from all the acquired information, the method further includes: and judging whether target information in the system information of the optical transmission system, the manufacturer information of the optical station equipment in the optical transmission system and the engineering site actual survey information of the optical transmission system meets a preset standard or not, and if the target information does not meet the preset standard, updating the target information.

Illustratively, the design elements in the assembly drawing of the optical station at least comprise: assembling drawing attributes, system and optical station equipment attributes, board card description, optical station equipment panel setting and remarking;

the assembly drawing attributes at least comprise: drawing number, drawing name and design date;

the system and the optical station equipment properties at least comprise: the method comprises the following steps of (1) carrying out optical transmission system name, optical amplifier station equipment number, optical amplifier station equipment type and optical amplifier station equipment energy consumption;

the board description at least includes: the name of the board card and the introduction information of the board card;

the station equipment panel setting is put to light includes at least: the relative position of the optical station equipment, the relative position of the sub-frame, the relative position of the alarm signal lamp, the number of the board card slots, the name of the board card and the board card arrangement position;

the remarks include at least: comment information of the optical station group shelf diagram and problems needing explanation.

Illustratively, the design elements of the system diagram of the light station at least comprise: the system drawing attribute, the system and optical amplifier station equipment attribute, optical cable and optical fiber information, optical amplifier station equipment setting information, power supply setting information, line material table information and remark information;

the system drawing attributes at least include: the number of the group drawing, the name of the group drawing and the design date;

the system and the optical station equipment properties at least comprise: the method comprises the following steps of (1) obtaining the name of an optical transmission system, the upstream direction of optical amplifier station signal transmission, the downstream direction of optical amplifier station signal transmission, the name of optical amplifier station equipment, the number of the optical amplifier station equipment and the type of the optical amplifier station equipment;

the cable optical fiber information at least includes: the number of the upstream optical fiber unit frame, the number of the downstream optical fiber unit frame, the relative position of the optical cable, the type of the optical cable joint, the name of the optical cable, the type of the optical cable, the fiber core number of the optical cable at the receiving end and the fiber core number of the optical cable at the transmitting end;

the optical playback station device setting information at least includes: the relative position of the optical amplifier station equipment, the number of optical amplifier boards, the relative position of the optical amplifier boards and the internal interconnection logical relationship of the optical amplifier station equipment are determined;

the power supply setting information includes at least: the relative position of the power supply column head cabinet, the serial number of the power supply column head cabinet and the relative position of a machine room ground wire row;

the thread material table information at least includes: the length, the number and the type of the tail fibers, the length, the number and the type of the power lines and the length, the number and the type of the alarm signal lines;

the remark information at least includes: annotation information of the optical station system diagram and problems to be explained.

Illustratively, the different patterns of the patterning sub-modules at least comprise: the system comprises a text description sub-module, a rack sub-module, a sub-rack sub-module, an alarm lamp sub-module, an optical cable schematic diagram sub-module, a line material labeling sub-module and a material table sub-module;

the character description submodule is used for generating characters in the optical amplifier station group frame diagram and the optical amplifier station system diagram;

the rack submodule is used for drawing a rack in the optical amplifier station frame assembly drawing;

the sub-frame sub-module is used for drawing sub-frames in the optical amplifier station frame assembly drawing;

the warning lamp sub-module is used for drawing warning lamps in the optical station group frame drawing;

the optical cable schematic diagram submodule is used for drawing an optical cable in the optical station system diagram;

the line material marking submodule is used for drawing connecting lines among all parts in the system diagram of the optical station;

and the material table submodule is used for drawing a material table of each connecting line in the optical station system diagram.

In a second aspect, a design drawing generation apparatus for an optical station in an optical transmission system is provided, including: the system comprises an information import module, a group frame information module, a system information module, a drawing and packaging module and an automatic control module;

the information import module is used for acquiring system information of the optical transmission system, manufacturer information of optical station equipment in the optical transmission system and engineering site actual survey information of the optical transmission system through user input;

the frame assembling information module is used for extracting first drawing information of the optical amplifier station frame assembling drawing from the system information of the optical transmission system, the manufacturer information of optical amplifier station equipment in the optical transmission system and the engineering site actual survey information of the optical transmission system, which are stored in the information importing module, and classifying the first drawing information according to different design elements in the optical amplifier station frame assembling drawing;

the system information module is used for extracting second drawing information of the optical amplifier station system diagram from the system information of the optical transmission system, the manufacturer information of the optical amplifier station equipment in the optical transmission system and the engineering field actual survey information of the optical transmission system, which are stored in the information import module, and classifying the second drawing information according to different design elements in the optical amplifier station system diagram;

the drawing packaging module is used for constructing a composition submodule aiming at different patterns according to different patterns required in the light playing station group frame drawing and the light playing station system drawing and drawing functions in a computer drawing tool;

the automatic control module is used for calling a first composition submodule constructed by the drawing and packaging module to draw target first drawing information in the frame information module into a corresponding part in the optical amplifier station frame diagram according to preset factory equipment interconnection logic, preset optical transmission network system logic and preset design standard specifications, and calling a second composition submodule constructed by the drawing and packaging module to draw target second drawing information in the system information module into a corresponding part in the optical amplifier station system diagram;

the first drawing information of the target is any kind of first drawing information in the group frame information module, the second drawing information of the target is any kind of second drawing information in the system information module, the first composition submodule is a composition submodule corresponding to the first drawing information of the target in the drawing packaging module, and the second composition submodule is a composition submodule corresponding to the second drawing information of the target in the drawing packaging module.

Optionally, the information importing module is further configured to determine whether target information in the acquired system information of the optical transmission system, manufacturer information of the optical station device in the optical transmission system, and engineering site actual survey information of the optical transmission system meets a preset standard, and if the target information does not meet the standard, update the target information in the information importing module.

Optionally, the shelf information module includes: the system comprises a framing drawing attribute submodule, a system and optical station equipment attribute submodule, a board card description submodule, an optical station equipment panel setting submodule and a remark submodule;

the group drawing attribute submodule is used for storing the group drawing attribute in the first drawing information, and the group drawing attribute at least comprises: the number of the group drawing, the name of the group drawing and the design date;

the system and optical broadcasting station equipment attribute submodule is used for storing system and optical broadcasting station equipment attributes in the first drawing information, and the system and optical broadcasting station equipment attributes at least comprise: the method comprises the following steps of (1) carrying out optical transmission system name, optical amplifier station equipment number, optical amplifier station equipment type and optical amplifier station equipment energy consumption;

the board description submodule is used for storing board descriptions in the first drawing information, and the board descriptions at least comprise: the name of the board card and the introduction information of the board card;

the optical station equipment panel setting submodule is used for storing information of optical station equipment panel setting in the first drawing information, and the optical station equipment panel setting at least comprises: the relative position of the optical station equipment, the relative position of the sub-frame, the relative position of the alarm signal lamp, the number of the board card slots, the name of the board card and the board card arrangement position;

the remark submodule is used for storing remarks in the first drawing information, and the remarks at least comprise: the optical station group diagram annotates information and problems needing explanation.

Optionally, the system information module includes: the system comprises a system drawing attribute submodule, a system and optical amplifier station equipment attribute submodule, an optical cable and optical fiber submodule, an optical amplifier station equipment setting submodule, a power supply setting submodule, a line material table submodule and a remark submodule;

the system drawing attribute submodule is used for storing the system drawing attribute in the second drawing information, and the system drawing attribute at least comprises: the number of the group drawing, the name of the group drawing and the design date;

the system and optical broadcasting station equipment attribute submodule is used for storing the system and optical broadcasting station equipment attributes in the second drawing information; the system and the optical station equipment properties at least comprise: the method comprises the following steps of (1) obtaining the name of an optical transmission system, the upstream direction of optical amplifier station signal transmission, the downstream direction of optical amplifier station signal transmission, the name of optical amplifier station equipment, the number of the optical amplifier station equipment and the type of the optical amplifier station equipment;

and the optical cable optical fiber sub-module is used for storing optical cable optical fiber information in the second drawing information, and the optical cable optical fiber information at least comprises: the number of the upstream optical fiber unit frame, the number of the downstream optical fiber unit frame, the relative position of the optical cable, the type of the optical cable joint, the name of the optical cable, the type of the optical cable, the fiber core number of the optical cable at the receiving end and the fiber core number of the optical cable at the transmitting end;

the station equipment setting submodule is put to light for the station equipment setting information is put to light in the storage second drawing information, and station equipment setting information is put to light includes at least: the relative position of the optical amplifier station equipment, the number of optical amplifier boards, the relative position of the optical amplifier boards and the internal interconnection logical relationship of the optical amplifier station equipment are determined;

the power setting submodule is used for storing power setting information in the second drawing information, and the power setting information at least comprises: the relative position of the power supply column head cabinet, the serial number of the power supply column head cabinet and the relative position of a machine room ground wire row;

the wire material table submodule is used for storing wire material table information in the second drawing information, and the wire material table information at least comprises: the length, the number and the type of the tail fibers, the length, the number and the type of the power lines and the length, the number and the type of the alarm signal lines;

and the remark submodule is used for storing remark information in the second drawing information, and the remark information at least comprises: annotation information of the optical station system diagram and problems to be explained.

Optionally, the different patterns of patterning sub-modules at least comprise: the system comprises a text description sub-module, a rack sub-module, a sub-rack sub-module, an alarm lamp sub-module, an optical cable schematic diagram sub-module, a line material labeling sub-module and a material table sub-module;

The embodiment of the invention provides a method and a device for generating a design drawing of an optical amplifier station in an optical transmission system, wherein the method comprises the following steps: acquiring system information of an optical transmission system, manufacturer information of optical station equipment in the optical transmission system and engineering site actual survey information of the optical transmission system; extracting first drawing information of an optical amplifier station group drawing from the acquired system information of the optical transmission system, manufacturer information of optical amplifier station equipment in the optical transmission system and engineering site actual survey information of the optical transmission system, and classifying the first drawing information according to different design elements in the optical amplifier station group drawing; extracting second drawing information of the optical amplifier station system diagram from the acquired system information of the optical transmission system, manufacturer information of optical amplifier station equipment in the optical transmission system and engineering site actual survey information of the optical transmission system, and classifying the second drawing information according to different design elements in the optical amplifier station system diagram; constructing composition submodules aiming at different patterns according to different patterns required in the light broadcasting station group frame drawing and the light broadcasting station system drawing and drawing functions in a computer drawing tool; calling a first composition submodule to draw target first drawing information into a corresponding part in an optical amplifier station group diagram according to preset factory equipment interconnection logic, preset optical transmission network system logic and preset design standard specifications, and calling a second composition submodule to draw target second drawing information into a corresponding part in an optical amplifier station system diagram; the first drawing information of the target is any one of the classified first drawing information, and the first composition submodule is a composition submodule corresponding to the first drawing information of the target in all the composition submodules; the second composition submodule is a composition submodule corresponding to the target second drawing information in all the composition submodules. Because the scheme provided by the embodiment of the invention classifies the information for drawing the optical amplifier station group shelf diagram and the optical amplifier station system diagram according to the different design elements and constructs the composition submodule of the computer drawing software function for drawing the design diagram according to the different patterns in the optical amplifier station group shelf diagram and the optical amplifier station system diagram, so that the corresponding drawing information can be rapidly called to draw the corresponding drawing information into the corresponding patterns according to the patterns and the design elements in the design diagram according to the preset factory equipment interconnection logic, the preset optical transmission network system logic and the preset design standard specification when the optical amplifier station group shelf diagram and the system diagram are automatically generated in the following process, compared with the prior art, the technical scheme provided by the embodiment of the invention can automatically generate the optical amplifier station design diagrams (the optical amplifier station group shelf diagram and the optical amplifier station system diagram) in batch, high-efficiency, accuracy and normative mode, the design production efficiency and the design drawing quality are effectively improved, the design delivery cycle is greatly shortened, the enterprise cost is reduced, and the competitiveness and the development prospect of enterprises are increased.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic flow chart of a method for generating a design drawing of an optical amplifier station in an optical transmission system according to an embodiment of the present invention;

fig. 2 is a schematic diagram of an optical docking station assembly according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a light standing system provided by an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a design drawing generation apparatus of an optical amplifier station in an optical transmission system according to an embodiment of the present invention;

fig. 5 is a schematic view of an optical docking station assembly according to another embodiment of the present invention;

fig. 6 is a schematic diagram of an optical station system according to another embodiment of the present invention.

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.

It should be noted that, in the embodiments of the present invention, words such as "exemplary" or "for example" are used to indicate examples, illustrations or explanations. Any embodiment or design described as "exemplary" or "e.g.," an embodiment of the present invention is not necessarily to be construed as preferred or advantageous over other embodiments or designs. Rather, use of the word "exemplary" or "such as" is intended to present concepts related in a concrete fashion.

It should be noted that, in the embodiments of the present invention, "of", "corresponding" and "corresponding" may be sometimes used in combination, and it should be noted that, when the difference is not emphasized, the intended meaning is consistent.

For the convenience of clearly describing the technical solutions of the embodiments of the present invention, in the embodiments of the present invention, the words "first", "second", and the like are used for distinguishing the same items or similar items with basically the same functions and actions, and those skilled in the art can understand that the words "first", "second", and the like are not limited in number or execution order.

In the prior art, most of design drawings of optical amplifier stations in an optical transmission system are drawn by manual drawing, but because the number of the optical amplifier stations of the whole optical transmission network is huge, the models and types of transmission equipment produced by different transmission equipment manufacturers at different periods are various, and the field conditions and actual survey information of each optical amplifier station are different, the construction design drawings of the optical amplifier stations are extremely complicated to draw, the efficiency is low, the requirement of intense competition of enterprises under the current market environment cannot be met, and the development steps of the enterprises are restricted.

In view of the above problem, referring to fig. 1, an embodiment of the present invention provides a method for generating a design drawing of an optical station in an optical transmission system, including:

101. the method comprises the steps of obtaining system information of the optical transmission system, manufacturer information of optical station equipment in the optical transmission system and engineering site actual survey information of the optical transmission system.

Specifically, the three types of information obtained here may be directly input by a user or collected by the optical transmission system during operation; after the three types of information are collected, the three types of information need to be stored in visible and operable software, such as an Excel table, so that the information can be conveniently supplemented into the Excel if newly added optical broadcasting station equipment or components of original optical broadcasting station equipment are updated in the working process of the optical transmission system.

These three types of information include at least: the method comprises the following steps of optical transmission system name, optical amplifier station equipment manufacturer information, optical amplifier station equipment model number, project number, design date, station province, province abbreviation, station name, station abbreviation, upstream optical cable name, upstream optical cable type, upstream transmitting end optical cable core number, upstream receiving end optical cable core number, downstream optical cable name, downstream optical cable type, downstream transmitting end optical cable core number, downstream receiving end optical cable core number, soft optical fiber length, soft optical fiber joint type, -48V power line length and color, working ground power line length and color, protective ground line length and color, alarm signal line length and the like.

102. Extracting first drawing information of the optical amplifier station group drawing from the acquired system information of the optical transmission system, manufacturer information of optical amplifier station equipment in the optical transmission system and engineering site actual survey information of the optical transmission system, and classifying the first drawing information according to different design elements in the optical amplifier station group drawing.

Specifically, after the first drawing information is classified according to the design elements of the group frame drawing of the optical amplifier station, the information can be called more quickly according to requirements in the subsequent drawing work to draw the corresponding pattern in the group frame drawing of the optical amplifier station; the light placing station group shelf diagram is used for showing one side of the light placing station which is convenient for a user to observe the working process in the operation process in the embodiment of the invention.

specifically referring to fig. 2, the assembly drawing sheet attributes at least include: drawing number 201, drawing name 202 and design date 203;

the system and the optical station equipment properties at least comprise: an optical transmission system name 204, an optical amplifier station device name 205, an optical amplifier station device number 206, an optical amplifier station device type 207, and an optical amplifier station device energy consumption 208;

the station equipment panel setting is put to light includes at least: the relative position of the optical station equipment, the relative position of the rack, the relative position of the sub-rack, the relative position of an alarm signal lamp, the number of the board card slots, the name of the board card and the board card arrangement position;

note 211 includes at least: comment information of the optical station group shelf diagram and problems needing explanation.

103. And extracting second drawing information of the system diagram of the optical amplifier station from the acquired system information of the optical transmission system, the manufacturer information of the optical amplifier station equipment in the optical transmission system and the engineering site actual survey information of the optical transmission system, and classifying the second drawing information according to different design elements in the system diagram of the optical amplifier station.

Specifically, after the second drawing information is classified according to the design elements of the optical playback station system diagram, the information can be called more quickly according to requirements in the subsequent drawing work to draw the corresponding diagram in the optical playback station system diagram; the optical broadcasting station system diagram is mainly used for representing the connection relation between optical broadcasting station equipment and other equipment in an optical transmission system so as to show the logical relation between the information flow direction of the whole optical transmission system and the equipment;

referring specifically to fig. 3, the system drawing attributes at least include: the group drawing number 301, the group drawing name 302 and the design date 303;

the system and the optical station equipment properties at least comprise: an optical transmission system name 304, an optical amplifier station signal transmission upstream direction 305, an optical amplifier station signal transmission downstream direction 306, an optical amplifier station device name 307, an optical amplifier station device number 308, and an optical amplifier station device type 309;

the cable optical fiber information at least includes: an upstream fiber unit frame rack number 310, a downstream fiber unit frame rack number 311, a cable relative position, a cable splice type 312, a cable name 313, a cable type 314, a receiving end cable core number 315, and a sending end cable core number 316;

the wire gauge 317 information at least includes: the length, the number and the type of the tail fibers, the length, the number and the type of the power lines and the length, the number and the type of the alarm signal lines;

the remark information 318 includes at least: annotation information of the optical station system diagram and problems to be explained.

104. And constructing a composition submodule aiming at different patterns according to different patterns required in the light placing station group frame drawing and the light placing station system drawing and drawing functions in a computer drawing tool.

Alternatively, the Computer drawing tool may be CAD (Computer Aided Design) or similar software such as visio.

the character description submodule is used for generating characters in the optical amplifier station group frame diagram and the optical amplifier station system diagram; the character description submodule specifically sets information such as positions, sizes, fonts, contents, alignment modes, widths, colors and the like of all characters in the assembly drawing of the playing station and the system drawing of the playing station according to design element information (such as dates, remark information and the like) related to the characters in the first drawing information and the second drawing information;

the rack submodule is used for drawing a rack in the optical amplifier station frame assembly drawing; the rack submodule sets the length and width of the rack in the light broadcasting station group diagram and the line type, line pipe, color and the like of lines forming the rack according to the information set by the light broadcasting station equipment panel in the first drawing information;

the sub-frame sub-module is used for drawing sub-frames in the optical amplifier station frame assembly drawing; the sub-frame sub-module is mainly used for setting the length, the width, the slot position, the board card, the line type, the line pipe, the color and the like of the sub-frame in the light station group frame diagram according to the information set by the light station equipment panel in the first drawing information;

the warning lamp sub-module is used for drawing warning lamps in the optical station group frame drawing; the warning lamp sub-module is mainly used for setting the position, size, color and category of warning lamps in the assembly drawing of the optical amplifier station according to the information set by the panel of the optical amplifier station equipment in the first drawing information;

the optical cable schematic diagram submodule is used for drawing an optical cable in the optical station system diagram; the cable schematic diagram sub-module is mainly used for setting the position, size, name, type, direction and the like of the optical cable in the optical amplifier station system diagram according to the optical cable optical fiber information and the system and optical amplifier station equipment attribute information in the second drawing information;

the line material marking submodule is used for drawing connecting lines among all parts in the system diagram of the optical station; the line marking submodule sets the position, size, number, length, type and the like of a connecting line in the optical amplifier station system diagram mainly according to information of the connecting line among all parts in the second drawing information;

and the material table submodule is used for drawing a material table of each connecting line in the optical playback station system diagram, listing the material composition information of the connecting lines in the optical playback station system diagram according to the information of the connecting lines among the components in the second drawing information, and setting the position, row and column information of the material table and the information of material numbers, material names, material lengths, material models, remark descriptions, material summarization and the like in the material table.

105. And calling a first composition submodule to draw the target first drawing information into a corresponding part in the group frame diagram of the optical amplifier station and calling a second composition submodule to draw the target second drawing information into a corresponding part in the system diagram of the optical amplifier station according to the preset factory equipment interconnection logic, the preset optical transmission network system logic and the preset design standard specification.

Specifically, when the design drawing of the optical amplifier station is actually generated, the design drawing may be sequentially generated for each optical amplifier station according to the signal transmission direction of the optical transmission system, the generation sequence may be set by the user, or the system may randomly select the sequence or simultaneously generate the design drawing in batches.

Optionally, in order to ensure the accuracy of generating the design drawing, before the step 102, the method further includes: and judging whether target information in the system information of the optical transmission system, the manufacturer information of the optical station equipment in the optical transmission system and the engineering site actual survey information of the optical transmission system meets a preset standard or not, and if the target information does not meet the preset standard, updating the target information.

The embodiment of the invention provides a method for generating a design drawing of an optical amplifier station in an optical transmission system, which comprises the following steps: acquiring system information of an optical transmission system, manufacturer information of optical station equipment in the optical transmission system and engineering site actual survey information of the optical transmission system; extracting first drawing information of an optical amplifier station group drawing from the acquired system information of the optical transmission system, manufacturer information of optical amplifier station equipment in the optical transmission system and engineering site actual survey information of the optical transmission system, and classifying the first drawing information according to different design elements in the optical amplifier station group drawing; extracting second drawing information of the optical amplifier station system diagram from the acquired system information of the optical transmission system, manufacturer information of optical amplifier station equipment in the optical transmission system and engineering site actual survey information of the optical transmission system, and classifying the second drawing information according to different design elements in the optical amplifier station system diagram; constructing composition submodules aiming at different patterns according to different patterns required in the light broadcasting station group frame drawing and the light broadcasting station system drawing and drawing functions in a computer drawing tool; calling a first composition submodule to draw target first drawing information into a corresponding part in an optical amplifier station group diagram according to preset factory equipment interconnection logic, preset optical transmission network system logic and preset design standard specifications, and calling a second composition submodule to draw target second drawing information into a corresponding part in an optical amplifier station system diagram; the first drawing information of the target is any one of the classified first drawing information, and the first composition submodule is a composition submodule corresponding to the first drawing information of the target in all the composition submodules; the second composition submodule is a composition submodule corresponding to the target second drawing information in all the composition submodules. Because the scheme provided by the embodiment of the invention classifies the information for drawing the optical amplifier station group shelf diagram and the optical amplifier station system diagram according to the different design elements and constructs the composition submodule of the computer drawing software function for drawing the design diagram according to the different patterns in the optical amplifier station group shelf diagram and the optical amplifier station system diagram, so that the corresponding drawing information can be rapidly called to draw the corresponding drawing information into the corresponding patterns according to the patterns and the design elements in the design diagram according to the preset factory equipment interconnection logic, the preset optical transmission network system logic and the preset design standard specification when the optical amplifier station group shelf diagram and the system diagram are automatically generated in the following process, compared with the prior art, the technical scheme provided by the embodiment of the invention can automatically generate the optical amplifier station design diagrams (the optical amplifier station group shelf diagram and the optical amplifier station system diagram) in batch, high-efficiency, accuracy and normative mode, the design production efficiency and the design drawing quality are effectively improved, the design delivery cycle is greatly shortened, the enterprise cost is reduced, and the competitiveness and the development prospect of enterprises are increased.

Referring to fig. 4, an embodiment of the present invention further provides a device 01 for generating a design drawing of an optical amplifier station in an optical transmission system, including: an information import module 41, a group frame information module 42, a system information module 43, a drawing encapsulation module 44 and an automatic control module 45;

the information import module 41 is used for acquiring system information of the optical transmission system, manufacturer information of optical station equipment in the optical transmission system and engineering site actual survey information of the optical transmission system through user input;

the group frame information module 42 is configured to extract first drawing information of the group frame diagram of the optical amplifier station from the system information of the optical transmission system, the manufacturer information of the optical amplifier station equipment in the optical transmission system, and the engineering site survey information of the optical transmission system stored in the information importing module 41, and classify the first drawing information according to differences of design elements in the group frame diagram of the optical amplifier station;

the system information module 43 is configured to extract second drawing information of the optical amplifier station system diagram from the system information of the optical transmission system, the manufacturer information of the optical amplifier station equipment in the optical transmission system, and the engineering site survey information of the optical transmission system stored in the information importing module 41, and classify the second drawing information according to different design elements in the optical amplifier station system diagram;

the drawing packaging module 44 is used for constructing a composition submodule aiming at different patterns according to different patterns required in the light placing station group frame drawing and the light placing station system drawing and drawing functions in a computer drawing tool;

the automatic control module 45 is configured to call a first composition submodule constructed by the drawing encapsulation module 44 to draw the target first drawing information in the group frame information module 42 into a corresponding part in the group frame diagram of the optical playback station according to a preset factory equipment interconnection logic, a preset optical transmission network system logic and a preset design standard specification, and call a second composition submodule constructed by the drawing encapsulation module 44 to draw the target second drawing information in the system information module 43 into a corresponding part in the system diagram of the optical playback station;

the target first drawing information is any type of first drawing information in the group frame information module 42, the target second drawing information is any type of second drawing information in the system information module 43, the first composition submodule is a composition submodule corresponding to the target first drawing information in the drawing packaging module 44, and the second composition submodule is a composition submodule corresponding to the target second drawing information in the drawing packaging module 44.

Optionally, the information importing module 41 is further configured to determine whether target information in the acquired system information of the optical transmission system, manufacturer information of the optical station device in the optical transmission system, and engineering site actual survey information of the optical transmission system meets a preset standard, and if the target information does not meet the standard, update the target information in the information importing module 41.

Optionally, the group shelf information module 42 includes: the system comprises a framing drawing sheet attribute submodule 421, a system and optical station equipment attribute submodule 422, a board card description submodule 423, an optical station equipment panel setting submodule 424 and a remark submodule 425;

the group drawing attribute submodule 421 is configured to store a group drawing attribute in the first drawing information, where the group drawing attribute at least includes: the number of the group drawing, the name of the group drawing and the design date;

the system and optical broadcasting station device attribute sub-module 422 is configured to store system and optical broadcasting station device attributes in the first drawing information, where the system and optical broadcasting station device attributes at least include: the method comprises the following steps of (1) carrying out optical transmission system name, optical amplifier station equipment number, optical amplifier station equipment type and optical amplifier station equipment energy consumption;

the board description submodule 423 is configured to store a board description in the first drawing information, where the board description at least includes: the name of the board card and the introduction information of the board card;

a light station equipment panel setting submodule 424, configured to store information of light station equipment panel settings in the first drawing information, where the light station equipment panel settings at least include: the relative position of the optical station equipment, the relative position of the sub-frame, the relative position of the alarm signal lamp, the number of the board card slots, the name of the board card and the board card arrangement position;

a remarks sub-module 425 configured to store remarks in the first drawing information, where the remarks at least include: the optical station group diagram annotates information and problems needing explanation.

Optionally, the system information module 43 includes: a system drawing attribute submodule 431, a system and optical amplifier station equipment attribute submodule 432, an optical cable and optical fiber submodule 433, an optical amplifier station equipment setting submodule 434, a power supply setting submodule 435, a line material table submodule 436 and a remark submodule 437;

the system drawing attribute submodule 431 is configured to store the system drawing attribute in the second drawing information, where the system drawing attribute at least includes: the number of the group drawing, the name of the group drawing and the design date;

the system and optical playback station equipment attribute submodule 432 is used for storing the system and optical playback station equipment attributes in the second drawing information; the system and the optical station equipment properties at least comprise: the method comprises the following steps of (1) obtaining the name of an optical transmission system, the upstream direction of optical amplifier station signal transmission, the downstream direction of optical amplifier station signal transmission, the name of optical amplifier station equipment, the number of the optical amplifier station equipment and the type of the optical amplifier station equipment;

the optical cable optical fiber submodule 433 is configured to store optical cable optical fiber information in the second drawing information, where the optical cable optical fiber information at least includes: the number of the upstream optical fiber unit frame, the number of the downstream optical fiber unit frame, the relative position of the optical cable, the type of the optical cable joint, the name of the optical cable, the type of the optical cable, the fiber core number of the optical cable at the receiving end and the fiber core number of the optical cable at the transmitting end;

the optical broadcasting station device setting submodule 434 is configured to store optical broadcasting station device setting information in the second drawing information, where the optical broadcasting station device setting information at least includes: the relative position of the optical amplifier station equipment, the number of optical amplifier boards, the relative position of the optical amplifier boards and the internal interconnection logical relationship of the optical amplifier station equipment are determined;

a power setting submodule 435, configured to store power setting information in the second drawing information, where the power setting information at least includes: the relative position of the power supply column head cabinet, the serial number of the power supply column head cabinet and the relative position of a machine room ground wire row;

the wire table sub-module 436 is configured to store wire table information in the second drawing information, where the wire table information at least includes: the length, the number and the type of the tail fibers, the length, the number and the type of the power lines and the length, the number and the type of the alarm signal lines;

the remark submodule 437 is configured to store remark information in the second drawing information, where the remark information at least includes: annotation information of the optical station system diagram and problems to be explained.

Optionally, the different patterns of patterning sub-modules at least comprise: a text description sub-module 441, a rack sub-module 442, a sub-rack sub-module 443, an alarm lamp sub-module 444, an optical cable schematic sub-module 445, a line marking sub-module 446 and a material table sub-module 447;

the text description submodule 441 is used for generating texts in the optical amplifier station group frame diagram and the optical amplifier station system diagram;

a rack submodule 442 for drawing the rack in the optical station group rack diagram;

the sub-rack sub-module 443 is used for drawing sub-racks in the optical station group rack diagram;

the warning lamp sub-module 444 is used for drawing warning lamps in the optical amplifier station group frame diagram;

the cable schematic view sub-module 445 is used for drawing cables in the optical station system diagram;

the line material marking sub-module 446 is used for drawing connecting lines among all parts in the system diagram of the optical amplifier station;

the material table sub-module 447 is configured to draw a material table of each connection line in the light station system diagram.

The design drawing generating device for the optical amplifier station in the optical transmission system provided by the embodiment of the invention comprises: the system comprises an information import module, a group frame information module, a system information module, a drawing and packaging module and an automatic control module; the information import module is used for acquiring system information of the optical transmission system, manufacturer information of optical station equipment in the optical transmission system and engineering site actual survey information of the optical transmission system through user input; the frame assembling information module is used for extracting first drawing information of the optical amplifier station frame assembling drawing from the system information of the optical transmission system, the manufacturer information of optical amplifier station equipment in the optical transmission system and the engineering site actual survey information of the optical transmission system, which are stored in the information importing module, and classifying the first drawing information according to different design elements in the optical amplifier station frame assembling drawing; the system information module is used for extracting second drawing information of the optical amplifier station system diagram from the system information of the optical transmission system, the manufacturer information of the optical amplifier station equipment in the optical transmission system and the engineering field actual survey information of the optical transmission system, which are stored in the information import module, and classifying the second drawing information according to different design elements in the optical amplifier station system diagram; the drawing packaging module is used for constructing a composition submodule aiming at different patterns according to different patterns required in the light playing station group frame drawing and the light playing station system drawing and drawing functions in a computer drawing tool; the automatic control module is used for calling a first composition submodule constructed by the drawing and packaging module to draw target first drawing information in the frame information module into a corresponding part in the optical amplifier station frame diagram according to preset factory equipment interconnection logic, preset optical transmission network system logic and preset design standard specifications, and calling a second composition submodule constructed by the drawing and packaging module to draw target second drawing information in the system information module into a corresponding part in the optical amplifier station system diagram; the first drawing information of the target is any kind of first drawing information in the group frame information module, the second drawing information of the target is any kind of second drawing information in the system information module, the first composition submodule is a composition submodule corresponding to the first drawing information of the target in the drawing packaging module, and the second composition submodule is a composition submodule corresponding to the second drawing information of the target in the drawing packaging module. Because the scheme provided by the embodiment of the invention classifies the information for drawing the optical amplifier station group shelf diagram and the optical amplifier station system diagram according to the different design elements and constructs the composition submodule of the computer drawing software function for drawing the design diagram according to the different patterns in the optical amplifier station group shelf diagram and the optical amplifier station system diagram, so that the corresponding drawing information can be rapidly called to draw the corresponding drawing information into the corresponding patterns according to the patterns and the design elements in the design diagram according to the preset factory equipment interconnection logic, the preset optical transmission network system logic and the preset design standard specification when the optical amplifier station group shelf diagram and the system diagram are automatically generated in the following process, compared with the prior art, the technical scheme provided by the embodiment of the invention can automatically generate the optical amplifier station design diagrams (the optical amplifier station group shelf diagram and the optical amplifier station system diagram) in batch, high-efficiency, accuracy and normative mode, the design production efficiency and the design drawing quality are effectively improved, the design delivery cycle is greatly shortened, the enterprise cost is reduced, and the competitiveness and the development prospect of enterprises are increased.

In practice, a diagram of an optical station group generated by an enterprise according to the technical solution provided by the embodiment of the present invention is shown in fig. 5, and a diagram of an optical station system generated according to the technical solution provided by the embodiment of the present invention is shown in fig. 6.

The steps of a method or algorithm described in connection with the disclosure herein may be embodied in hardware or in software instructions executed by a processor. An embodiment of the present invention further provides a storage medium, where the storage medium may include a memory for storing computer software instructions for a method for generating a design drawing of an optical playback station in an optical transmission system, and the storage medium includes a program code designed to execute the method for generating a design drawing of an optical playback station in an optical transmission system. Specifically, the software instructions may be composed of corresponding software modules, and the software modules may be stored in a Random Access Memory (RAM), a flash Memory, a Read Only Memory (ROM), an Erasable Programmable Read Only Memory (EPROM), an Electrically Erasable Programmable Read Only Memory (EEPROM), a register, a hard disk, a removable hard disk, a compact disc Read Only Memory (CD-ROM), or any other form of storage medium known in the art. An exemplary storage medium is coupled to the processor such the processor can read information from, and write information to, the storage medium. Of course, the storage medium may also be integral to the processor. The processor and the storage medium may reside in an ASIC. Additionally, the ASIC may reside in a core network interface device. Of course, the processor and the storage medium may reside as discrete components in a core network interface device.

The embodiment of the present invention further provides a computer program, where the computer program may be directly loaded into the memory and contains a software code, and the computer program is loaded and executed by the computer, so as to implement the method for generating the design drawing of the optical station in the optical transmission system.

Those skilled in the art will recognize that, in one or more of the examples described above, the functions described in this invention may be implemented in hardware, software, firmware, or any combination thereof. When implemented in software, the functions may be stored on or transmitted over as one or more instructions or code on a computer-readable medium. Computer-readable media includes both computer storage media and communication media including any medium that facilitates transfer of a computer program from one place to another. A storage media may be any available media that can be accessed by a general purpose or special purpose computer.

The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. A method for generating a design drawing of an optical station in an optical transmission system is characterized by comprising the following steps:

acquiring system information of the optical transmission system, manufacturer information of optical station equipment in the optical transmission system and engineering site actual survey information of the optical transmission system;

the design elements in the optical station group shelf diagram at least comprise: assembling drawing attributes, system and optical station equipment attributes, board card description, optical station equipment panel setting and remarking;

the system and the optical station equipment properties at least comprise: the name of the optical transmission system, the name of the optical amplifier station equipment, the serial number of the optical amplifier station equipment, the type of the optical amplifier station equipment and the energy consumption of the optical amplifier station equipment;

the optical station equipment panel arrangement at least comprises: the relative position of the optical station equipment, the relative position of the sub-frame, the relative position of the alarm signal lamp, the number of the board card slots, the name of the board card and the board card arrangement position;

the remarks include at least: comment information of the optical station group shelf diagram and problems needing explanation;

the design elements of the system diagram of the optical station at least comprise: the system drawing attribute, the system and optical amplifier station equipment attribute, optical cable and optical fiber information, optical amplifier station equipment setting information, power supply setting information, line material table information and remark information;

the system drawing attributes at least comprise: the number of the group drawing, the name of the group drawing and the design date;

the system and the optical station equipment properties at least comprise: the optical transmission system name, the optical amplifier station signal transmission upstream direction, the optical amplifier station signal transmission downstream direction, the optical amplifier station equipment name, the optical amplifier station equipment number and the optical amplifier station equipment type;

the optical station equipment setting information at least comprises: the relative position of the optical amplifier station equipment, the number of optical amplifier boards, the relative position of the optical amplifier boards and the internal interconnection logical relationship of the optical amplifier station equipment are determined;

the remark information at least includes: annotation information of the optical station system diagram and problems needing to be explained;

constructing composition submodules aiming at different patterns according to the different patterns required in the light playing station group frame drawing and the light playing station system drawing and drawing functions in a computer drawing tool;

the different pattern patterning sub-modules at least comprise: the system comprises a text description sub-module, a rack sub-module, a sub-rack sub-module, an alarm lamp sub-module, an optical cable schematic diagram sub-module, a line material labeling sub-module and a material table sub-module;

the text description submodule is used for generating texts in the optical amplifier station group frame diagram and the optical amplifier station system diagram;

the rack submodule is used for drawing the rack in the optical amplifier station frame assembly drawing;

the warning lamp sub-module is used for drawing warning lamps in the optical amplifier station group frame diagram;

the material table submodule is used for drawing a material table of each connecting line in the optical station system diagram;

the target first drawing information is any one of the classified first drawing information, and the first composition submodule is a composition submodule corresponding to the target first drawing information in all composition submodules; the second composition submodule is a composition submodule corresponding to the target second drawing information in all the composition submodules.

2. The method according to claim 1, wherein before extracting the first drawing information of the group frame diagram of the optical playback station from all the acquired information, the method further comprises:

and judging whether target information in the system information of the optical transmission system, the manufacturer information of optical station equipment in the optical transmission system and the engineering site actual survey information of the optical transmission system meets a preset standard or not, and if the target information does not meet the preset standard, updating the target information.

3. A design drawing generation apparatus for an optical station in an optical transmission system, comprising: the system comprises an information import module, a group frame information module, a system information module, a drawing and packaging module and an automatic control module;

the frame assembling information module is used for extracting first drawing information of a frame assembling drawing of the optical amplifier station from the system information of the optical transmission system, the manufacturer information of optical amplifier station equipment in the optical transmission system and the engineering site actual survey information of the optical transmission system, which are stored in the information importing module, and classifying the first drawing information according to different design elements in the optical amplifier station assembling drawing;

the group shelf information module includes: the system comprises a framing drawing attribute submodule, a system and optical station equipment attribute submodule, a board card description submodule, an optical station equipment panel setting submodule and a remark submodule;

the group drawing attribute submodule is configured to store a group drawing attribute in the first drawing information, where the group drawing attribute at least includes: the number of the group drawing, the name of the group drawing and the design date;

the system and optical broadcasting station equipment attribute submodule is used for storing the system and optical broadcasting station equipment attributes in the first drawing information, and the system and optical broadcasting station equipment attributes at least comprise: the name of the optical transmission system, the name of the optical amplifier station equipment, the serial number of the optical amplifier station equipment, the type of the optical amplifier station equipment and the energy consumption of the optical amplifier station equipment;

the board description submodule is configured to store a board description in the first drawing information, where the board description at least includes: the name of the board card and the introduction information of the board card;

the remark submodule is configured to store remarks in the first drawing information, where the remarks at least include: the optical station group frame diagram annotation information and the problems needing to be explained;

the system information module is used for extracting second drawing information of the optical amplifier station system diagram from the system information of the optical transmission system, the manufacturer information of optical amplifier station equipment in the optical transmission system and the engineering site actual survey information of the optical transmission system, which are stored in the information import module, and classifying the second drawing information according to different design elements in the optical amplifier station system diagram;

the system information module includes: the system comprises a system drawing attribute submodule, a system and optical amplifier station equipment attribute submodule, an optical cable and optical fiber submodule, an optical amplifier station equipment setting submodule, a power supply setting submodule, a line material table submodule and a remark submodule;

the system drawing attribute submodule is configured to store a system drawing attribute in the second drawing information, where the system drawing attribute at least includes: the number of the group drawing, the name of the group drawing and the design date;

the system and optical broadcasting station equipment attribute submodule is used for storing the system and optical broadcasting station equipment attributes in the second drawing information; the system and the optical station equipment properties at least comprise: the optical transmission system name, the optical amplifier station signal transmission upstream direction, the optical amplifier station signal transmission downstream direction, the optical amplifier station equipment name, the optical amplifier station equipment number and the optical amplifier station equipment type;

the optical cable optical fiber sub-module is configured to store optical cable optical fiber information in the second drawing information, where the optical cable optical fiber information at least includes: the number of the upstream optical fiber unit frame, the number of the downstream optical fiber unit frame, the relative position of the optical cable, the type of the optical cable joint, the name of the optical cable, the type of the optical cable, the fiber core number of the optical cable at the receiving end and the fiber core number of the optical cable at the transmitting end;

the optical broadcasting station equipment setting submodule is configured to store optical broadcasting station equipment setting information in the second drawing information, where the optical broadcasting station equipment setting information at least includes: the relative position of the optical amplifier station equipment, the number of optical amplifier boards, the relative position of the optical amplifier boards and the internal interconnection logical relationship of the optical amplifier station equipment are determined;

the power setting submodule is configured to store power setting information in the second drawing information, where the power setting information at least includes: the relative position of the power supply column head cabinet, the serial number of the power supply column head cabinet and the relative position of a machine room ground wire row;

the thread material table submodule is configured to store thread material table information in the second drawing information, where the thread material table information at least includes: the length, the number and the type of the tail fibers, the length, the number and the type of the power lines and the length, the number and the type of the alarm signal lines;

the remark submodule is configured to store remark information in the second drawing information, where the remark information at least includes: annotation information of the optical station system diagram and problems needing to be explained;

the automatic control module is used for calling a first composition submodule constructed by the drawing and packaging module to draw target first drawing information in the composition information module into a corresponding part in an optical amplifier station composition diagram according to preset factory equipment interconnection logic, preset optical transmission network system logic and preset design standard specifications, and calling a second composition submodule constructed by the drawing and packaging module to draw target second drawing information in the system information module into a corresponding part in the optical amplifier station system diagram;

the target first drawing information is any type of first drawing information in the group frame information module, the target second drawing information is any type of second drawing information in the system information module, the first composition submodule is a composition submodule corresponding to the target first drawing information in the drawing packaging module, and the second composition submodule is a composition submodule corresponding to the target second drawing information in the drawing packaging module.

4. The apparatus according to claim 3, wherein the information importing module is further configured to determine whether target information in the acquired system information of the optical transmission system, manufacturer information of optical station equipment in the optical transmission system, and engineering site survey information of the optical transmission system meets a preset standard, and update the target information in the information importing module if the target information does not meet the standard.