CN109740202B - Method for realizing digital generation of transmission planning drawing - Google Patents

Abstract

The invention discloses a method for realizing digital generation of a transmission planning drawing, which comprises the following steps: configuring an equipment template, inputting necessary information required by a user, and customizing a legend template; generating an equipment group frame diagram, and adding a sub-frame by a user according to the requirement; selecting a group frame of equipment in the current drawing, and selecting an insertion point to generate a port connection table; drawing a fuse distribution diagram, namely adding a power cabinet, setting the fuse distribution diagram of the power cabinet, setting the fuse, and then drawing the fuse distribution diagram of the branch cabinet, wherein the fuse comprises a fuse value, a row number, a column number and a state; generating a protection ground map and an alarm map according to the power cabinet, the branch cabinet and the equipment; generating a device connection diagram, and generating the connection diagram of the device by a user according to the selected device; and selecting the ODF equipment to generate a system group frame diagram. The invention is convenient for the user to configure the personalized system and meets the requirements of different users.

Description

Method for realizing digital generation of transmission planning drawing

Technical Field

The invention relates to the technical field of wired network communication transmission, in particular to a method for realizing digital generation of a transmission planning drawing.

Background

With the rapid development of communication technology, the importance of transmission technology in communication engineering to the engineering is more and more obvious. The communication engineering and the information industry have a close and inseparable relationship, and the development prospect is unlimited as the new industry is always kept strong. The communication transmission technology plays a role in safety protection in the development of the project, plays a safe and effective transmission function and ensures that information is transmitted to a designated place completely. Because communication transmission construction tasks are more and more important, no transmission machine room scheme design method for improving the working efficiency of designers exists in the market nowadays. I, as a leading communication software supplier around the world, must walk to the front of the market to quickly respond to market demands.

Disclosure of Invention

In view of the above technical problems, an object of the present invention is to provide a method for digitally generating a transmission planning drawing.

In order to realize the purpose, the invention is realized according to the following technical scheme:

a method for realizing digital generation of transmission planning drawings stores all drawing information contained in transmission planning design drawings in a database or a data file in a digital form, archives the transmission planning design drawing file and carries out digital reduction backup in the database or the data file, calls out the digital information of the drawings from the database and the data file to restore the drawings after the transmission planning design drawing file is lost, and is characterized by comprising the following steps:

step S1: configuring an equipment template, inputting necessary information required by a user, and customizing a legend template;

step S2: generating an equipment group frame diagram, and adding a sub-frame by a user according to the requirement;

and step S3: selecting a group frame of equipment in the current drawing, and selecting an insertion point to generate a port connection table;

and step S4: drawing a fuse distribution diagram, namely adding a power cabinet, setting the fuse distribution diagram of the power cabinet, setting the fuse, and then drawing the fuse distribution diagram of the branch cabinet, wherein the fuse comprises a fuse value, a row number, a column number and a state;

step S5: generating a protection ground map and an alarm map according to the power cabinet, the branch cabinet and the equipment;

step S6: generating a device connection diagram, and generating the connection diagram of the device by a user according to the selected device;

step S7: and selecting the ODF equipment to generate a system group frame diagram.

In the above technical solution, the step S1 includes the following steps:

step 101: drawing a machine room map, wherein the machine room map menu comprises: drawing six submenus including a simple machine room, a polygonal machine room, a machine room door, a drawing machine room window, a machine room feeder window and a drawing machine room column;

step S102: inserting a picture frame, wherein the system supports the picture frame insertion function, a template uploading server is designed in advance, and when the picture frame is used, a button is directly clicked, and a picture frame template is selected to be inserted;

step S103: the system selects a machine room designed on a drawing as a template to upload to a server, adds the machine room to a machine room list and uploads to the server to be stored;

step S104: the machine room supports insertion of a rack, a system template is selected for insertion of the rack in the machine room, the template is flexibly configured and modified according to actual conditions, and basic information and fonts of equipment are obtained;

step S105: inserting characters into the frame, enabling the system to support batch annotation, inputting the content to be annotated into the annotated content, and selecting the attributes of fonts, character heights, horizontal annotation and vertical annotation;

step S106: the rack is divided into a vertical rack, a horizontal rack, a cable channel, a soft optical fiber cable trough and a hard PVC pipe, and the channel is provided with basic information of the width, the interval and the height of the rack.

In the above technical solution, step S101 includes the following steps:

step S1011: drawing basic information of the machine room required to be set in the machine room, setting the length, the width and the wall width according to drawing standards, and flexibly generating the position of a machine room door according to the actual situation;

step S1012: drawing a polygonal machine room according to the shape of the machine room which is required to be customized, inputting a coordinate at a console to select one point, inputting another coordinate at the console to select a next vertex, repeating the operation until the last vertex is selected, automatically connecting a starting point and an end point, and generating the machine room;

step 1013: clicking options of a machine room door, a machine room window and a machine room feeder window, and selecting an oblique line segment for obliquely cutting a machine room wall at the edge of the machine room.

In the above technical solution, step S2 includes the following steps:

step S201: generating a group frame, drawing an equipment group frame diagram inserted into the machine room, supporting the equipment number and the frame number of the generated group frame diagram by the system, and supporting the pointing equipment to display a group frame model corresponding to the frame;

step S202: the operation sub-rack comprises an adding sub-rack and a deleting sub-rack, the double-click equipment group rack diagram can pop up rack information, and the rack inserted in the operation current period displays the data of the current period, wherein the sub-rack has the original, removed, occupied and newly added states, the state of the original sub-rack is deleted, the display is removed, the occupied situation is displayed, and the newly added sub-rack is deleted directly;

step S203: adding a board card, wherein the board card has the states of original, removed, occupied and newly increased, if the board card is a board card in the previous period, the state of the board card shows the original state, the state of the newly added board card shows the newly increased state, and the board card is removed when the board card in the previous period is deleted; and if the newly added board card is deleted, the newly added board card is directly deleted, and the occupation situation is also cleared.

In the technical scheme, the sub-rack comprises a main clip supporting rack and a main clip not supporting rack, wherein the main clip supporting sub-rack is divided into a vertical card inserting and handling rack and a horizontal card inserting and handling rack, and a sub-rack number row needing to be added with the sub-rack is selected from rack information to be added.

In the above technical solution, the step S5 includes the following steps:

step S501: generating a protective ground map according to the power cabinet, the branch cabinet and the equipment;

step S502: generating a protective ground wire graph classification line, and automatically generating the filled information in a protective ground wire material table;

step S503: selecting by a system frame to generate a protective map material table;

step S504: generating a protective ground alarm line graph according to the power supply cabinet, the branch cabinet and the equipment;

step S505: generating a protective ground wire graph classification line, wherein the filled information can be automatically generated in a protective ground wire material table;

step S506: an alarm graph legend is automatically generated.

Compared with the prior art, the invention has the following advantages:

the invention has the advantages of intelligent insertion of picture frames, intelligent classification and filing of drawings, configurable generation of equipment room templates, informatization of drawings to form informatization and intelligent form information processing. The invention is convenient for the user to configure the personalized system and meets the requirements of different users.

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 other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic diagram of an embodiment of a method for implementing digital generation of a transmission planning drawing according to the present invention;

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention.

The invention relates to a digital design of a transmission network based on a cloud system, project initiation needs to be carried out at a WEB end, projects are added at the WEB end by using related personnel account numbers, and project information is perfected. And after the project is added, logging in software to update a task list, downloading tasks, then opening a drawing to draw the drawing, wherein different tasks can be carried out on the same site, and the concept of the current period and the future period is formed.

As shown in fig. 1, a method for implementing digital generation of a transmission planning drawing according to the present invention stores all drawing information included in a transmission planning design drawing in a database or a data file in a digital form, archives the transmission planning design drawing file, performs digital restoration backup in the database or the data file, calls out digital information of the drawing from the database and the data file to restore the drawing after the transmission planning design drawing file is lost, and includes the following steps:

step S1: configuring an equipment template, inputting necessary information required by a user, and customizing a legend template;

step S2: generating an equipment group frame diagram, and adding a sub-frame by a user according to the requirement;

and step S3: selecting a group frame of equipment in the current drawing, and selecting an insertion point to generate a port connection table;

and step S4: drawing a fuse distribution diagram, namely adding a power cabinet, setting the fuse distribution diagram of the power cabinet, setting the fuse, and then drawing the fuse distribution diagram of the branch cabinet, wherein the fuse comprises a fuse value, a row number, a column number and a state;

step S5: generating a protection ground map and an alarm map according to the power cabinet, the branch cabinet and the equipment;

step S6: generating a device connection diagram, and generating the connection diagram of the device by a user according to the selected device;

step S7: and selecting the ODF equipment to generate a system group frame diagram.

In the above technical solution, the step S1 includes the following steps:

step 101: drawing a machine room map, wherein the machine room map menu comprises: drawing six submenus including a simple machine room, a polygonal machine room, a machine room door, a drawing machine room window, a machine room feeder window and a drawing machine room column;

step S102: inserting a picture frame, wherein the system supports the picture frame insertion function, a template uploading server is designed in advance, and when the picture frame is used, a button is directly clicked, and a picture frame template is selected to be inserted; wherein the frame attributes support modification. Further, the system supports batch modification of frame font styles.

Step S103: the system selects a machine room designed on a drawing as a template to upload to a server, adds the machine room to a machine room list and uploads to the server to be stored;

step S104: the machine room supports insertion of a rack, a system template is selected for insertion of the rack in the machine room, the template is flexibly configured and modified according to actual conditions, and basic information and fonts of equipment are obtained;

the device supports simultaneous insertion of a plurality of devices, and is placed in a mode that an insertion point is taken as an original point and an X axis and a Y axis are distributed; the invention supports drawing of the pre-occupation space, and the number of the input reserved racks is reserved in a machine room by selecting one area.

Step S105: inserting characters into the frame, enabling the system to support batch annotation, inputting the content to be annotated into the annotated content, and selecting the attributes of fonts, character heights, horizontal annotation and vertical annotation; the invention can select constant, decreasing or increasing and the like in a text box, the number required to be decreased or increased is filled, the marked content or the number can be inserted into the drawing and then automatically decreased or increased, and the number is continuously inserted into the drawing after the determination until the cancellation.

Step S106: the machine room cabling rack is divided into a vertical cabling rack, a horizontal cabling rack, a cable channel, a soft optical fiber cabling channel and a hard PVC pipe, wherein the channel is provided with basic information of the width, the interval and the height of the cabling rack.

The invention also supports a key to add legend function and supports inserting north-seeking needle.

The invention also supports the floor editing function, and the cabling rack also has the floor editing function which can set the floor distance.

Further, step S101 of the present invention includes the steps of:

step S1011: drawing basic information of the machine room required to be set in the machine room, setting the length, the width and the wall width according to drawing standards, and flexibly generating the position of a machine room door according to the actual situation;

step S1012: drawing a polygonal machine room according to the shape of the machine room which is required to be customized, inputting a coordinate at a console to select one point, inputting another coordinate at the console to select a next vertex, repeating the operation until the last vertex is selected, automatically connecting a starting point and an end point, and generating the machine room;

step 1013: clicking options of a machine room door, a machine room window and a machine room feeder window, and selecting an oblique line section for obliquely cutting a machine room wall body at the edge of the machine room to generate corresponding things.

Step S2 of the present invention includes the steps of:

step S201: generating a group frame, drawing an equipment group frame picture inserted into a machine room, supporting the equipment number and the frame number of the generated group frame picture by a system, and supporting clicking equipment to display a group frame model corresponding to a frame; the group frame model comprises a front side and a back side, if only the front side model is configured, only the front side model is displayed, and meanwhile, the group frame graph model is in a checking state. Only if the rack is in the checking state, the corresponding rack group model is generated.

In addition, in the present invention, if the current device has not yet added a device number to it, the numbered column in the list on the left side of the dialog box is displayed as null. Generating a group frame diagram for the current equipment together with the current data; when the frame assembling drawing is generated, whether a frame is added or not can be selected, and when the frame space is full, the next frame placing frame assembling drawing is automatically generated. The additional frames and frame style options have a memory function.

Step S202: the operation sub-rack comprises an adding sub-rack and a deleting sub-rack, the double-click equipment group rack diagram can pop up rack information, and the rack inserted in the operation current period displays the data of the current period, wherein the sub-rack has the original, removed, occupied and newly added states, the state of the original sub-rack is deleted, the display is removed, the occupied situation is displayed, and the newly added sub-rack is deleted directly;

the sub-racks comprise a main-clip supporting rack and a main-clip non-supporting rack, wherein the main-clip supporting sub-racks are divided into a vertical card inserting and handling rack and a horizontal card inserting and handling rack, and sub-rack number lines needing to be added with the sub-racks are selected from rack information to be added.

Step S203: adding a board card, wherein the board card has the states of original, removed, occupied and newly added, if the board card is a board card in the previous period, the state of the board card shows the original state, the state of the newly added board card shows the newly added board card, and the board card is removed by deleting the operation board card in the previous period; and if the newly added board card is deleted, the newly added board card is directly deleted, and the occupation situation is also cleared.

If the port is added in the previous period, the port state is displayed as original, and the previous period is displayed in the port construction period; the port state display of the newly added port at the current period is newly added, the port at the previous period is deleted, and the port state display is removed;

in addition, the board port attribute: the board card can fill in information such as channel number, speed and the like.

Port connection: the port connection can be set between the ports, and the port connection can be added only after the ports are added to a plurality of board cards of a plurality of devices. When the device is connected with the ODF device terminal, the connection establishment needs to be initiated from the ODF device terminal.

Configuring time slot connection: the system supports the configuration of time slot connection, and only SDH service can configure the time slot connection.

Step S5 of the present invention includes the steps of:

step S501: generating a protective floor map according to the power cabinet, the branch cabinet and the equipment;

step S502: generating a protective ground wire graph classification line, and automatically generating the filled information in a protective ground wire material table; when the filling serial numbers are the same, the attribute of the classification line is automatically filled, but the attribute cannot be changed, and only the number and the quantity can be changed.

Step S503: selecting a system box to generate a protective map material table;

step S504: generating a protective ground alarm line graph according to the power cabinet, the branch cabinet and the equipment;

step S505: generating a protective ground wire graph classification line, wherein the filled information can be automatically generated in a protective ground wire material table;

step S506: an alarm graph legend is automatically generated. In addition, the invention also supports the ODF equipment protection ground map.

In step S7 of the present invention, an ODF skeleton map is generated: selecting an ODF device may generate a system set frame map. Whether to give the generated group frame picture an automatic frame adding or not can be selected.

The ODF group frame diagram supports adding and removing of the sub-frames, and the attributes of the sub-frames are set according to actual conditions. The current sub-frame displays the sub-frame number of the sub-frame in the group frame; selecting a model of the sub-frame from a drop-down list of the name of the sub-frame; the line number determines whether the numbering mode of the line number is letters or numbers; the same applies to the column number; "row number" determines the row number of the port matrix; "column number" determines the number of columns of the port matrix; and adding attributes such as transmitting and receiving arrangement, terminal types, sub-frame states, system directions and the like according to requirements.

In addition, the terminals and the terminal connections are arranged, and the terminals can be edited by double-clicking the sub-rack to which the terminals are arranged in the ODF equipment rack assembly diagram. The original state display is the terminal connection added in the previous period, the display is removed by deleting the state of the original sub-rack, and the terminal connection newly added in the current period can be directly deleted by deleting the state of the original sub-rack.

Adding a terminal: the status bar shows "configured" after the addition of the terminal, and the status of the corresponding terminal on the other side also shows "configured".

Adding a terminal for connection: the terminal status is configured terminal, wherein the terminal to which the connection has been added can not be added any more, and the terminal connection relationship can be edited.

Radio boxes select "connect to device" or "connect to ODF terminal"; the tree diagram in the list box displays the connection state of the equipment or the terminal in the drawing, selects the port/terminal which is not connected, and selects whether the signal is input or output (whether the ODF equipment is the front side or the back side) to establish connection. Note that: when the ODF terminal is connected with the equipment port, 2 terminals can be connected with one equipment port (one receiving and one sending); when the ODF terminal is connected with the ODF terminal, only one terminal can be connected with one terminal.

Notes are added or modified: when the terminal is connected, the system name + the system direction + the channel number of the terminal connection are displayed by default in the remarks; when the device is connected with a device port, the service name of the port, the system direction and the channel number are displayed in the remark by default; selecting to add or modify the notes may edit the information within the notes.

ODF fiber connection table and legend: when the ODF is selected to be connected with the configured equipment, the optical fiber connection table can be automatically generated, and the port connection table can only generate data of the current period and cannot generate data of the current period.

The invention supports automatic generation of ODF sub-shelf legends and supports generation of adapter legends.

The ODF optical fiber frame assembly drawing of the invention generates the ODF frame assembly drawing: selecting an ODF device may generate a system set up diagram. Whether to give the generated group frame picture an automatic frame adding or not can be selected.

The ODF group frame diagram supports the addition and the removal of the subrack, and the attribute of the subrack is set according to the actual situation. The current sub-frame displays the sub-frame number of the sub-frame in the group frame; selecting a model of the subframe from a drop-down list of the name of the subframe; the line number determines whether the numbering mode of the line number is letters or numbers; the same applies to the column number; the 'row number' determines the row number of the port matrix; "column number" determines the number of columns of the port matrix; and adding attributes such as receiving and transmitting arrangement, terminal types, sub-frame states, system directions and the like according to requirements.

The terminals can be edited by configuring ODF terminals and terminal connections, and double-clicking the subrack to be configured with terminal connections in the ODF equipment group rack diagram. The original state display is the terminal connection added in the previous period, the display is removed by deleting the state of the original sub-rack, and the terminal connection newly added in the current period can be directly deleted.

Adding a terminal: the status bar shows "configured" after the addition of the terminal, and the status of the corresponding terminal on the other side also shows "configured".

Adding a terminal for connection: the terminal state is configured terminals, the terminals with connection added can not be added any more, and the terminal connection relation can be edited.

Radio boxes select "connect to device" or "connect to ODF terminal"; the tree diagram in the list box displays the connection state of the equipment or the terminal in the drawing, selects the port/terminal which is not connected, and selects whether the signal is input or output (whether the ODF equipment is the front side or the back side) to establish connection. Note that: when the DDF terminal is connected with the equipment port, 2 terminals (one receiving and one sending) can be connected with one equipment port; when the DDF terminal is connected to the DDF terminal, only one terminal can be connected to one terminal.

Notes are added or modified: when the terminal is connected, the system name + the system direction + the channel number of the terminal connection are displayed by default in the remarks; when the device is connected with a device port, the service name of the port, the system direction and the channel number are displayed in the remark by default; and selecting to add or modify the information in the remark editing remark.

Cross-over schematic: automatically generating a device connection schematic diagram: and adding an equipment connection diagram button for creating an equipment connection diagram, automatically loading all the equipment which can be used for creating the connection diagram, a power supply cabinet and a branch cabinet in the drawing, distinguishing by equipment numbers, and selecting the equipment to establish connection.

And (4) completing all connection selection to generate a drawing, searching an insertion point in the drawing, and inserting the generated drawing with the drawing frame. The drawing is saved, but the drawing is generated in the current design task and can be acted when the drawing is opened next time.

The system diagram comprises OA stations without protection, OA stations with protection, WDM (protection), WDM, ROADM (protection), system classification lines, wiring schedule, network management diagram and network management diagram classification lines

Generating a system diagram with an OA protection station: selecting a system legend of a protected OA station, displaying a system diagram template on the right side, then selecting whether to attach a drawing frame, selecting an insertion point on the drawing, automatically generating the protected OA station system diagram by the system, and editing the attributes of the OA station system diagram according to actual conditions, wherein the red fonts can be modified (system name, system direction, core receiving and sending, equipment number and the like).

Generating a system diagram without OA protection station: selecting a system legend of an unprotected OA station, displaying a system diagram template on the right side, then selecting whether to attach a drawing frame, selecting an insertion point on the drawing, automatically generating the unprotected OA station system diagram by the system, and editing the OA station system diagram attribute according to the actual situation, wherein the red font can be modified (system name, system direction, number of cores, equipment number and the like).

Generating a WDM (protection) system diagram: selecting objects, seeing the device attribute, selecting primary to add to a lower primary list frame, selecting standby to click to add to a lower standby list frame (only one device in a communication system diagram), and generating the communication system diagram.

Generating a WDM system diagram: selecting objects, seeing the device attribute, selecting primary to add to the lower primary list frame, selecting standby to add to the lower standby list frame (only one device in a communication system diagram), and generating the communication system diagram.

System classification line: the system adds a sort line function button, selects a starting point on the left side of the line to be selected with the mouse, selects an ending point on the right side of the line to be selected, and draws a line segment through the line to be selected. And selecting the line segment attribute according to actual requirements, wherein the specification model can be changed correspondingly along with the change of the application, and the information filled in the dialog box can be displayed in the wiring schedule. (wherein, when the 'use' value is soft optical fiber, the 'use' and 'core number' of the field can be pulled down to obtain the value, otherwise, the value cannot be obtained).

A wiring schedule: the routing schedule may be generated by blocking the ordinal numbers of the classification lines in the system diagram.

Generating a network management graph: determining whether the network management equipment is in the same machine room according to actual requirements, if so, generating the picture frames of the same machine room, and otherwise, generating the picture frames of different machine rooms; and after the equipment is inserted, the information of the drawing frame is edited according to the actual requirement, and the equipment in the drawing frame is connected.

And generating a network management diagram classification line, selecting a line segment and perfecting information to generate the classification line, wherein the information of the classification line can be displayed on a wiring schedule.

In addition, the invention carries out the budget estimate statistics and the drawing submission, wherein the budget estimate statistics can carry out the budget estimate statistics, part of quota needs to be filled in manually, the rest part is automatically generated by the system, and the generated budget table is automatically submitted to the first menu of the WEB terminal.

And after drawing of the drawing is finished and stored, closing the drawing, selecting a design task after closing, popping up a design task dialog box, selecting the task which is just designed, and selecting the task to submit the finished drawing to the server. Note: when the drawing is modified, the drawing can be submitted again.

In the present invention, the definition of the future period and the present period is: multiple tasks can be established for the same site, and the tasks of the same site can be modified, submitted and downloaded on each task. For example, a task with a task name of 003 is selected from design tasks, a drawing is downloaded and opened, the drawing is saved after being modified, the drawing is closed, a design task dialog box is opened again, the task of 003 is submitted, a task of 004 is clicked, the drawing is downloaded and opened, only a machine room and a rack in the machine room (the machine room, the rack and the like are described in detail later) are arranged in the drawing, the equipment states in the current drawing are current, equipment is continuously added or existing equipment on the drawing is modified, and the added or modified equipment states are current.

And (3) collision detection: the drawing conflict detection can be automatically carried out when the task is downloaded, and the conflict detection can be manually carried out in a pull-down bar of the transmission equipment design. The conflict detection means that under the condition of the same station name, the drawing of the existing task is compared with the drawing of the server side, when some equipment change is found, the user can be reminded of the place where the drawing conflicts in the dialog box, and the user modifies the drawing of the existing task according to the conflict prompt. This is done to alert the user which devices have been changed.

Drawing arrangement: when a plurality of drawings are arranged in the drawings, the disordered arrangement of various drawings can influence drawing and browsing, a drawing arrangement function button is added in the system, an insertion point is selected, and all the drawings can be classified according to categories and ordered.

The system provides a template updating function and updates the template file of the server to the local. The change of the menu is to be effected after restarting the software.

Batch printing: the system supports a batch printing function, and supports modification of a target printer and modification of a printing style, wherein the modification mode is selected from a corresponding drop-down list; the form in the dialog box shows the frame number, frame type and other attributes of the current drawing, whether to print and determine the response object. Printing offset, printing proportion and printing direction can be adjusted. Filling the number of printing copies into the number of printing copies;

model library configuration: the system supports model self-definition, and the configuration of the configuration model library comprises the following steps: the method comprises the following steps of equipment group frame model configuration, equipment sub-frame model configuration, ODF group frame model configuration and ODF sub-frame model configuration.

In the present specification, the embodiments are described in a progressive manner, and each embodiment focuses on differences from other embodiments, and the same or similar parts in each embodiment are referred to each other. For the system embodiment, since it basically corresponds to the method embodiment, the description is relatively simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, it is intended that all such modifications and alterations be included within the scope of this invention as defined in the appended claims.

Claims (6)

1. A method for realizing digital generation of transmission planning drawings stores all drawing information contained in transmission planning design drawings in a database or a data file in a digital form, archives the transmission planning design drawing file and carries out digital reduction backup in the database or the data file, calls out the digital information of the drawings from the database and the data file to restore the drawings after the transmission planning design drawing file is lost, and is characterized by comprising the following steps:

step S1: configuring an equipment template, inputting necessary information required by a user, and customizing a legend template;

step S2: generating an equipment group frame diagram, and adding a sub-frame by a user according to the requirement;

and step S3: selecting a group frame of equipment in the current drawing, and selecting an insertion point to generate a port connection table;

and step S4: drawing a fuse distribution diagram, namely adding a power cabinet, setting the fuse distribution diagram of the power cabinet, setting the fuse, and then drawing the fuse distribution diagram of the branch cabinet, wherein the fuse comprises a fuse value, a row number, a column number and a state;

step S5: generating a protection map and an alarm map according to the power cabinet, the branch cabinet and the equipment;

step S6: generating a device connection diagram, and generating the connection diagram of the device by a user according to the selected device;

step S7: and selecting the ODF equipment to generate a system group frame diagram.

2. The method for realizing the digital generation of the transmission planning drawing according to claim 1, wherein the step S1 comprises the following steps:

step 101: drawing a machine room map, wherein the machine room map menu comprises: drawing six submenus including a simple machine room, a polygonal machine room, a machine room door, a drawing machine room window, a machine room feeder window and a drawing machine room column;

step S102: inserting a picture frame, wherein the system supports the picture frame insertion function, a template uploading server is designed in advance, and when the picture frame is used, a button is directly clicked, and a picture frame template is selected to be inserted;

step S103: the system selects a machine room designed on a drawing as a template to upload to a server, adds the machine room to a machine room list and uploads to the server to be stored;

step S104: the machine room supports the insertion of the machine frame, the machine frame in the machine room selects a system template for insertion, the template is flexibly configured and modified according to actual conditions, and basic information and fonts of equipment are obtained;

step S105: inserting characters in the picture frame, enabling the system to support batch annotation, inputting the content to be annotated in the annotated content, and selecting the attributes of fonts, character heights, horizontal annotation and vertical annotation;

step S106: the machine room cabling rack is divided into a vertical cabling rack, a horizontal cabling rack, a cable channel, a soft optical fiber cabling channel and a hard PVC pipe, wherein the channel is provided with basic information of the width, the interval and the height of the cabling rack.

3. The method for realizing the digital generation of the transmission planning drawing according to claim 2, wherein the step S101 comprises the following steps:

step S1011: drawing basic information of the machine room required to be set in the machine room, setting the length, the width and the wall width according to drawing standards, and flexibly generating the position of a machine room door according to the actual situation;

step S1012: drawing a polygonal machine room according to the shape of the machine room which is required to be customized, inputting a coordinate at a console to select one point, inputting another coordinate at the console to select a next vertex, repeating the operation until the last vertex is selected, automatically connecting a starting point and an end point, and generating the machine room;

step 1013: clicking options of a machine room door, a machine room window and a machine room feeder window, and selecting an oblique line segment for obliquely cutting a machine room wall at the edge of the machine room.

4. The method for realizing the digital generation of the transmission planning drawing according to claim 1, wherein the step S2 comprises the following steps:

step S201: generating a group frame, drawing an equipment group frame picture inserted into a machine room, supporting the equipment number and the frame number of the generated group frame picture by a system, and supporting clicking equipment to display a group frame model corresponding to a frame;

step S202: the operation sub-rack comprises an adding sub-rack and a deleting sub-rack, the double-click equipment group rack diagram can pop up rack information, and the rack inserted in the operation current period displays the data of the current period, wherein the sub-rack has the original, removed, occupied and newly added states, the state of the original sub-rack is deleted, the display is removed, the occupied situation is displayed, and the newly added sub-rack is deleted directly;

step S203: adding a board card, wherein the board card has the states of original, removed, occupied and newly added, if the board card is a board card in the previous period, the state of the board card shows the original state, the state of the newly added board card shows the newly added board card, and the board card is removed by deleting the operation board card in the previous period; and if the newly added board card is deleted, the newly added board card is directly deleted, and the occupation situation is also cleared.

5. The method for realizing the digital generation of the transmission planning drawing according to claim 4, wherein the sub-frame comprises a frame supporting the female clip and a frame not supporting the female clip, the sub-racks supporting the mother card are divided into a vertical card inserting and transacting mode and a horizontal card inserting and transacting mode, and the sub-rack number row needing to be added with the sub-rack is selected from the rack information to be added.

6. The method for realizing the digital generation of the transmission planning drawing according to claim 1, wherein the step S5 comprises the following steps:

step S501: generating a protective ground map according to the power cabinet, the branch cabinet and the equipment;

step S502: generating a protective ground wire graph classification line, and automatically generating the filled information in a protective ground wire material table;

step S503: selecting a system box to generate a protective map material table;

step S504: generating a protective ground alarm line graph according to the power supply cabinet, the branch cabinet and the equipment;

step S505: generating a protective ground wire graph classification line, wherein the filled information can be automatically generated in a protective ground wire material table;

step S506: an alarm graph legend is automatically generated.

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