CN111783372A - Information processing method and electronic equipment for connector design - Google Patents

Abstract

The embodiment of the disclosure discloses an information processing method and electronic equipment for connector design. The information processing method for the connector design comprises the following steps: responding to a trigger instruction, and acquiring related information of the connector; inquiring corresponding data in a pre-configured database based on the relevant information to obtain inquired data; and feeding back a result corresponding to the trigger instruction based on the query data. Through the pre-configuration database, after relevant parameters are directly input in the connector design, automatic query is carried out based on the pre-configuration database, and relevant query results are automatically fed back based on query conditions, so that the aims of improving efficiency and accuracy are fulfilled.

Description

Information processing method and electronic equipment for connector design

Technical Field

The present disclosure relates to the field of connector technologies, and in particular, to an information processing method and an electronic device for use in connector design.

Background

With the development of information technology, signal connectors of different media pieces become important devices in the information technology. The conventional connector design involves plate end wire type selection, SI model information query, standardized type selection Systems information query, drawing and the like.

The wire rod that the board end used is various, can definitely select for use the material to the more familiar engineer of product, nevertheless because of the material variety is various, can't directly perceived clearly carry out the material and select, often need look up behind the relevant data just can carry out the lectotype, run into the site operation and the engineer is not very familiar with the ization of product structure, and the material is chooseed for use and is just unable to be clear and definite.

The existing SI model information acquisition has the problems that the related information cannot be conveniently checked and acquired, and the information acquisition is not timely.

In the existing Systems information query, the information is sent to relevant engineers in the form of mails through human communication, so that the problems of inconvenience and poor real-time performance exist.

In addition, the number of users is limited due to the limitation of equipment or software resources in the existing drawing and drawing process, such as AutoCAD software, and the users cannot use more equipment due to the limitation of the number of serial numbers. The existing drawing software only supports on-line drawing, but cannot draw on line and directly generate drawings, so that the problem of low efficiency exists.

In summary, in the process of implementing the present disclosure, the inventors found that at least the following problems exist in the prior art:

in the connector design, the connector parameters are selected by engineers who are particularly familiar to the product, and the related parameters cannot be selected clearly by most users, so that the connector design has the problem of low efficiency and accuracy.

Disclosure of Invention

In view of this, embodiments of the present disclosure provide an information processing method and an electronic device for use in connector design, which at least solve the problem of low efficiency and accuracy in the prior art.

In a first aspect, an embodiment of the present disclosure provides an information processing method for use in connector design, including:

responding to a trigger instruction, and acquiring related information of the connector;

inquiring corresponding data in a pre-configured database based on the relevant information to obtain inquired data;

and feeding back a result corresponding to the trigger instruction based on the query data.

Optionally, the related information of the connector includes board end wire information, signal integrity information, drawing information, standardized model selection information, or common question answering information.

Optionally, the board end wire information includes a board end material number, a line material number, a board end supplier, an HSG interval, an HSG pin and/or an HSG male-female attribute;

the signal integrity information comprises a cable joint, cable length, cable impedance, cable diameter specification, cable material number, cable sample number, cable version and/or cable specification;

the standardized type selection information comprises wire type, industrial standard, wire joint, plate end joint, total wire length, current load, ampere supported by the wire and/or wire impedance;

the drawing information includes connector nouns, impedances, versions and/or test rules.

Optionally, the querying, based on the relevant information, corresponding data in a preconfigured database to obtain queried data includes:

classifying data in a pre-configured database to obtain classification information;

extracting representative information of the classification information to obtain configuration information;

inquiring in the configuration information based on the inquiry condition to obtain a configuration information inquiry result;

and retrieving in the data corresponding to the configuration information based on the query result of the configuration information to obtain the data corresponding to the query, wherein the data corresponding to the configuration information is the data stored in a pre-configured database.

Optionally, when the trigger instruction is a drawing, the feeding back a result corresponding to the trigger instruction based on the query data includes:

loading a pre-configured template;

editing based on the pre-configuration template to obtain a design graph;

and generating a drawing based on the design graph.

Optionally, the preconfigured template includes editable items and non-editable items;

and editing to obtain a design graph based on the pre-configuration template, wherein the design graph comprises an editable item of the pre-configuration template.

Optionally, the editable item and the non-editable item are drawn by different parameters, so as to be distinguished;

the editable items comprise a first editable item and a second editable item, wherein elements of the first editable item are obtained by direct editing, and elements of the second editable item are obtained by copying elements in the pre-configuration template.

Optionally, the loading a preconfigured template includes:

based on the input parameters, inquiring an element list corresponding to the parameters in a pre-configuration template library;

completing preconfigured template loading based on the element list.

Optionally, when the trigger instruction is a drawing, the feeding back a result corresponding to the trigger instruction based on the query data further includes:

judging whether a drawing corresponding to the trigger instruction is obtained;

if the drawing is not obtained, judging whether the resources are occupied;

and if the resources are occupied, inquiring the task of successfully obtaining the drawing within the set time period, and cleaning the resources corresponding to the task of successfully obtaining the drawing.

In a second aspect, an embodiment of the present disclosure further provides an electronic device, including:

a memory storing executable instructions;

a processor executing the executable instructions in the memory to implement the method of any of the first aspects.

According to the method, the database is pre-configured, relevant parameters are directly input in the connector design, automatic query is carried out based on the pre-configured database, relevant query results are automatically fed back based on query conditions, and therefore the purpose of improving efficiency and accuracy is achieved.

Additional features and advantages of the disclosure will be set forth in the detailed description which follows.

Drawings

The above and other objects, features and advantages of the present disclosure will become more apparent by describing in greater detail exemplary embodiments thereof with reference to the attached drawings, in which like reference numerals generally represent like parts throughout.

FIG. 1 shows a flow diagram of an information processing method for use in connector design according to one embodiment of the present disclosure;

FIG. 2 illustrates a schematic diagram of a trigger instruction interface of one embodiment of the present disclosure;

fig. 3 and 4 show schematic diagrams of a parameter selection interface of one embodiment of the present disclosure.

Detailed Description

Preferred embodiments of the present disclosure will be described in more detail below. While the following describes preferred embodiments of the present disclosure, it should be understood that the present disclosure may be embodied in various forms and should not be limited by the embodiments set forth herein.

Description of the nouns:

HSG: a rubber shell is fully called houseing;

the connector is a cable connector that functions primarily to connect two cable lugs or a cable lug with a connector on an electronic device.

SI is called Signal Integrity, and Signal Integrity refers to the quality of a Signal on a transmission path, and the transmission path may be a common metal wire, an optical device, or other media. A signal having good signal integrity means that it has the necessary voltage level value to achieve when it is needed. Poor signal integrity is not caused by a single factor, but is caused by multiple factors in the system design.

Although the existing AutoCAD product has the function of releasing the own online cloud CAD product, and supports online checking, editing and storing of drawings, the cost is high, the access smoothness is not enough, and the practicability is inferior to that of a computer version, and the mobile phones of android and IOS can be used only by additionally downloading corresponding APP. Other CAD-based online applications are available in the market that essentially support only online views. The CAD drawing can not be directly generated on line.

As shown in fig. 1, an information processing method for use in connector design includes:

step S101: responding to a trigger instruction, and acquiring related information of the connector;

the triggering instruction is input through a user terminal, for example, a corresponding function area is arranged on a user interface with an interaction function, for example, graphs such as signal integrity, online plotting, line segment type selection, standard type selection and the like, after the corresponding graph is clicked, for example, a corresponding parameter interface is entered, some parameter items can be arranged in the parameter interface, the parameter items correspond to a corresponding setting selection frame, corresponding attributes are selected in the selection frame, and after parameter selection is completed, the relevant information of the connector is obtained. The trigger instruction and parameter selection interfaces are shown in fig. 2 and 3. The characters and patterns in fig. 2 are only exemplary, the patterns are not limited to circles, and may be patterns such as squares, trapezoids, polygons, etc., the characters in the figures may be modified into any characters according to the function, and may be characters in languages such as chinese and english, etc. The image in fig. 2 has interactive functionality, such as click signal integrity, such as entering the parameter selection interface shown in fig. 3. Clicking on the triangle pattern in the selection box of fig. 3 enters the parameter selection list shown in fig. 4.

Step S102: inquiring corresponding data in a pre-configured database based on the relevant information to obtain inquired data;

after the relevant query parameters are acquired, automatic query is performed in a pre-configured database based on the query parameters, wherein the pre-configured database is pre-configured based on past historical data. The pre-configured database is a dynamically adjustable database, the classification of the data in the database is continuously and dynamically adjusted according to the query result, and the database can also be artificially corrected, so that the accuracy and the rapidity of database query are improved.

Step S103: and feeding back a result corresponding to the trigger instruction based on the query data.

And feeding back different feedback results according to different trigger instructions, and if the trigger instructions are triggered by clicking signal integrity, returning back the parameters of signal integrity simulation. In signal integrity simulation, parameters in a database related to signal integrity are simulated in a simulation system according to various input parameters, and the input parameters are parameters of the common signal integrity simulation. The parameters selected through the parameter selection interface all store corresponding simulation results in a pre-configured database.

Optionally, the related information of the connector includes board end wire information, signal integrity information, drawing information, standardized model selection information, or common question answering information.

Optionally, the board end wire information includes a board end material number, a line material number, a board end supplier, an HSG interval, an HSG pin and/or an HSG male-female attribute;

the signal integrity information comprises a cable joint, cable length, cable impedance, cable diameter specification, cable material number, cable sample number, cable version and/or cable specification;

the standardized type selection information comprises wire type, industrial standard, wire joint, plate end joint, total wire length, current load, ampere supported by the wire and/or wire impedance;

the drawing information includes connector nouns, impedances, versions and/or test rules.

Optionally, the querying, based on the relevant information, corresponding data in a preconfigured database to obtain queried data includes:

classifying data in a pre-configured database to obtain classification information;

extracting representative information of the classification information to obtain configuration information;

inquiring in the configuration information based on the inquiry condition to obtain a configuration information inquiry result;

and retrieving in the data corresponding to the configuration information based on the query result of the configuration information to obtain the data corresponding to the query, wherein the data corresponding to the configuration information is the data stored in a pre-configured database.

That is, to improve the speed and certainty of the query, the data in the pre-configured database is categorized so that the same and similar data are placed under the same category. And generating a corresponding configuration information table based on the classification information, then inquiring the configuration information in later inquiry, and then searching data corresponding to the configuration information, thereby improving the inquiry speed. If in the standardized type selection information query, three categories of which the wire types are A, B, C are classified, during query, the first retrieved data belongs to which category, if the retrieved data belongs to category A, the query is continued in the database data corresponding to category A, and the database data corresponding to category B and category C are not queried any more, so that the query data volume is reduced. The configuration information can be dynamically adjusted according to the query result, for example, the configuration information is dynamically adjusted by establishing a training model through a neural algorithm and the like, so that the classification in the configuration information is more accurate.

The related information is configured at the background, the configured related information has relevance, when some query conditions are input, the screening range of the next condition can be narrowed down according to the configured information, a user can find the desired information more quickly and accurately, the data is simple, clear and accurate, the user has better experience, and the interface is more friendly.

Optionally, when the trigger instruction is a drawing, the feeding back a result corresponding to the trigger instruction based on the query data includes:

loading a pre-configured template;

editing based on the pre-configuration template to obtain a design graph;

and generating a drawing based on the design graph.

Optionally, the preconfigured template includes editable items and non-editable items;

and editing to obtain a design graph based on the pre-configuration template, wherein the design graph comprises an editable item of the pre-configuration template.

Optionally, the editable item and the non-editable item are drawn by different parameters, so as to be distinguished;

the editable items comprise a first editable item and a second editable item, wherein elements of the first editable item are obtained by direct editing, and elements of the second editable item are obtained by copying elements in the pre-configuration template.

If the first editing item is a line, the thickness of the line, the color of the line and the like can be directly edited by a user, namely the user can directly draw the line by using a line drawing function in drawing software.

The elements of the second editable item cannot be directly edited by the user, and the configured elements of the pre-configured template need to be copied, and if the layout is generally the drawing, the second editable item can only copy the stored line elements with configured thickness and color.

Optionally, the loading a preconfigured template includes:

based on the input parameters, inquiring an element list corresponding to the parameters in a pre-configuration template library;

completing preconfigured template loading based on the element list.

Optionally, when the trigger instruction is a drawing, the feeding back a result corresponding to the trigger instruction based on the query data further includes:

judging whether a drawing corresponding to the trigger instruction is obtained;

if the drawing is not obtained, judging whether the resources are occupied;

and if the resources are occupied, inquiring the task of successfully obtaining the drawing within the set time period, and cleaning the resources corresponding to the task of successfully obtaining the drawing.

Through regularly clearing up the resource, can improve the smoothness of drawing.

If the CAD graph has the problem of resource limitation, the resources can be cleaned in time after the graph is drawn out every time, and the resources can be cleaned regularly every day, so that the resources are prevented from being idle and wasted; the online map may be full of resources to cause map failure, so that the resources are full (the system can set a time within which map failure means that the resources are full), the map is automatically displayed again after the resources are cleared in time, and the user is informed of the possibility of map display on the interface, so that the user experience is better and simpler, and the user is prevented from manually displaying the map again after one map failure

In a particular application scenario, the user may,

and (3) selecting the type of the wire at the plate end:

the inquiry system is based on a Web framework, computer software does not need to be logged in, the inquiry system can be directly operated on mobile equipment such as a mobile phone and a Pad, the multi-latitude inquiry function of the existing board end material number is provided, an available material list matched with a board end is displayed, meanwhile, downloading of data such as board end drawing, wire drawing and HSG3D drawing is supported, the type selection of engineers is facilitated, and the working efficiency and the convenience of product design are improved.

The board end wire selection technology is deployed through a Web server and externally issued, a user can check the intranet board end wire and the matched available material list data through mobile equipment such as a mobile phone and a Pad without logging in a computer, and board end drawings, wire drawing and HSG3D drawings are provided for downloading data of a mail box.

The system provides six query conditions of line board end material number, line material number, board end supplier, HSG interval, HSG pin and HSG male and female attributes, the query conditions are submitted to a Web server side through a user on mobile equipment, the server side retrieves data according to the conditions and transmits the data back to a user interface in Json format, display contents comprise data such as the board end material number, the board end supplier, board end coating, board end interval, pin arrangement, wire connector and connector description, related board end drawing, wire drawing and HSG3D drawing files are bound, and the user can click to request to send the related drawing files to a user mailbox.

In the specific implementation process, board end information retrieval: a user logs in the system through mobile equipment, inputs related retrieval conditions according to specific requirements, clicks a query button, and transmits related parameters to a Web server.

Web server side processing: and after receiving the parameter application submitted by the user, the server side retrieves the related data, binds the board side drawing, the wire drawing, the HSG3D drawing and other documents, and returns the data to the user side through the Json format data.

The user side checks data: after the user side receives the data return of the server side, the user side can check related board side data and a wire list matched with the board side, and can click three buttons of a board side drawing, a wire drawing and an HSG3D drawing to request related drawing files, so that the system can directly push mails to a configuration mailbox of the user.

And (3) inquiring SI model information:

the Web server is used for deployment and external release, so that a user can check internal network SI test data through mobile equipment such as a mobile phone and a Pad without logging in a computer, and the functions of SI test chart preview and SI test file downloading to a mail are provided. The multi-latitude query function of the existing data is provided, the related signal pictures of the SI are synchronously checked, corresponding test files can be downloaded, and convenience and practicability of data query of a user are improved.

The system provides eleven query conditions such as cable connector, length, impedance, wire diameter specification, material number, sample number, version and specification, the query conditions are submitted to a Web server side through a user on mobile equipment, the server side retrieves data according to the conditions and transmits the data back to a user interface in a Json format, the displayed content comprises data such as cable connector, cable length, impedance, SI specification, test date, sample number, version, material number and type, meanwhile, a relevant SI test result graph and an SI test file are bound, and the user can click a test graph or request to send the test file to a user mailbox.

The specific query process comprises the following steps: and (3) retrieving information of the SI model: a user logs in the system through mobile equipment, inputs related retrieval conditions according to specific requirements, clicks a query button, and transmits related parameters to a Web server.

Web server side processing: and after receiving the parameter application submitted by the user, the server retrieves the related data, binds the SI test picture and the SI test file, and returns the SI test picture and the SI test file to the user side through Json format data.

The user side checks data: after receiving the data return of the server, the user can check the related data, click the check picture, directly load the SI test result graph, click the test file button, and directly push the mail to the configuration mailbox of the user.

Standardized type selection Systems information self-service query:

in the prior art, when a user needs some product data, the user often contacts with a corresponding window through mail, but the method often needs to wait for feedback, so that the user experience and the real-time performance are relatively deficient. In the prior art, data required by a customer is sent in a mail form through manual communication, the method is not convenient and real-time, and the user can collect and send the related data on a computer.

The standardized model selection Systems information self-service query technology is deployed through a Web server and is externally issued, a user can directly operate mobile equipment such as a mobile phone and a Pad without logging in a computer or sending mails to a related window, and can freely look up and download required data to obtain related files within the permission range of a company, so that the client can conveniently and timely obtain the company data. The client can obtain company data in time conveniently, the client experience and the cooperation intention are enhanced, and the convenience of the client and the instantaneity of the first-hand data are improved.

The system provides query conditions such as wire type, industrial standard, wire joint, plate end joint, total length of wire, current load, ampere supported by wire, wire impedance and the like, the query conditions are submitted to a Web server side through a user on mobile equipment, the server side retrieves data according to the conditions and transmits the data back to a user interface in a Json format to display product information of related companies, wherein the product information comprises product customers, items, finished product material numbers, product types, application fields, tolerance upper and lower limits, joints and plate end joints (at most, 3 are included), related finished product drawing files are bound simultaneously, and the user can click to request to send the related drawing files to a user mailbox.

The query process comprises the following steps: and (3) standardized product information retrieval: a user logs in the system through mobile equipment, inputs related retrieval conditions according to specific requirements, clicks a query button, and transmits related parameters to a Web server.

Web server side processing: and after receiving the parameter application submitted by the user, the server side retrieves the related data, binds the finished drawing file and returns the finished drawing file to the user side through the Json format data.

The user side checks data: after receiving the data return of the server, the user can check the information of the related finished product material number, the corresponding project and the like, and can click the finished product drawing button to request the related drawing file from the server, so that the system can directly push the mail to the configuration mailbox of the user.

And (3) drawing:

taking CAD as an example, the CAD is drawn on line, the CAD is deployed and issued to the outside through a Web server provided with CAD software based on a CAD template, and a user operates the CAD drawing on line through three steps of loading the configured template, modifying an editable item of the template and generating a latest drawing.

The template can be drawn according to a specified color, and the CAD online drawing template has the following colors: red (Red), color number 171, Red (Red) representing editable elements on the template, and color number 171 representing elements (copy elements for short) having the same value as other elements in the template.

After the template is drawn as required, the template is read and imported into a database through a system, element coordinates (X, Y) on the template, element names, element sequencing numbers and corresponding template identifications are stored, and the template is drawn by a reference class library: CAD2014 version interap. acadselectionSet.

A user selects a template to load, Red (Red) editable elements are displayed in a list, names of corresponding elements are inquired in the list according to element coordinates, the user can conveniently determine service names corresponding to data, after contents are edited by the user, a drawing is clicked to generate, the system reads the latest contents and returns the latest contents to a Web server, the system instantiates corresponding CAD elements such as AcadText, AcadMText, AcadAttribute and AcadDimRotated according to element attributes, and a method of the elements is called to assign values to objects.

The system sets a CAD object according to the designated element coordinate of the data submitted by the user, then calls the Save method of the AcadDocument, stores the latest CAD drawing file (file in dwg format) to a Web server path, and then sends an email to a mailbox configured by the user through a system account.

The specific process is as follows: CAD template: drawn by a professional engineer, the editable element is set to Red (Red), and the same element as the other element values is set to the color number 171.

Template introduction: the administrator reads the template import, configures the element names corresponding to the editable element Red (Red) and the copy element (color number 171), and stores the read element coordinates and the identification primary key into the database.

Loading template editing data: and (3) loading the template selected by the user, rewriting the data submitted by the user into the CAD file by the system, and calling the AcadDocument instance processing object.

Generating a CAD drawing: the system generates a dwg format file, stores the dwg format file in a Web server for temporary storage, and automatically deletes the temporary file after the dwg format file is sent to a user mailbox.

The CAD on-line graph uses calibration element objects, including but not limited to coordinates, and also contains other attributes such as primary key, name, number, etc.

The Web server configuration minimum requirement is as follows: win7 or service version system, processor need reach 1.6GHz or higher, memory 2GB or more, 2GB free disk space installation.

An embodiment of the present disclosure provides an electronic device comprising a memory and a processor,

a memory storing executable instructions;

and the processor executes the executable instructions in the memory to realize the information processing method used in the connector design.

The memory is to store non-transitory computer readable instructions. In particular, the memory may include one or more computer program products that may include various forms of computer-readable storage media, such as volatile memory and/or non-volatile memory. The volatile memory may include, for example, Random Access Memory (RAM), cache memory (cache), and/or the like. The non-volatile memory may include, for example, Read Only Memory (ROM), hard disk, flash memory, etc.

The processor may be a Central Processing Unit (CPU) or other form of processing unit having data processing capabilities and/or instruction execution capabilities, and may control other components in the electronic device to perform desired functions. In one embodiment of the disclosure, the processor is configured to execute the computer readable instructions stored in the memory.

Those skilled in the art should understand that, in order to solve the technical problem of how to obtain a good user experience, the present embodiment may also include well-known structures such as a communication bus, an interface, and the like, and these well-known structures should also be included in the protection scope of the present disclosure.

For the detailed description of the present embodiment, reference may be made to the corresponding descriptions in the foregoing embodiments, which are not repeated herein.

The disclosed embodiments provide a computer-readable storage medium storing a computer program that, when executed by a processor, implements an information processing method for use in connector design.

A computer-readable storage medium according to an embodiment of the present disclosure has non-transitory computer-readable instructions stored thereon. The non-transitory computer readable instructions, when executed by a processor, perform all or a portion of the steps of the methods of the embodiments of the disclosure previously described.

The computer-readable storage media include, but are not limited to: optical storage media (e.g., CD-ROMs and DVDs), magneto-optical storage media (e.g., MOs), magnetic storage media (e.g., magnetic tapes or removable disks), media with built-in rewritable non-volatile memory (e.g., memory cards), and media with built-in ROMs (e.g., ROM cartridges).

Having described embodiments of the present disclosure, the foregoing description is intended to be exemplary, not exhaustive, and not limited to the disclosed embodiments. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments.

Claims (10)

1. An information processing method for use in connector design, comprising:

responding to a trigger instruction, and acquiring related information of the connector;

inquiring corresponding data in a pre-configured database based on the relevant information to obtain inquired data;

and feeding back a result corresponding to the trigger instruction based on the query data.

2. The information processing method for use in connector design according to claim 1, wherein the connector-related information includes board end wire information, signal integrity information, drawing information, standardized sizing information, or frequently asked questions information.

3. The information processing method for use in connector design according to claim 2, wherein the board end wire information includes a board end material number, a line material number, a board end supplier, an HSG pitch, an HSG pin and/or an HSG male-female attribute;

the signal integrity information comprises a cable joint, cable length, cable impedance, cable diameter specification, cable material number, cable sample number, cable version and/or cable specification;

the standardized type selection information comprises wire type, industrial standard, wire joint, plate end joint, total wire length, current load, ampere supported by the wire and/or wire impedance;

the drawing information includes connector nouns, impedances, versions and/or test rules.

4. The information processing method for connector design according to claim 1, wherein the querying the corresponding data in a preconfigured database based on the related information to obtain queried data comprises:

classifying data in a pre-configured database to obtain classification information;

extracting representative information of the classification information to obtain configuration information;

inquiring in the configuration information based on the inquiry condition to obtain a configuration information inquiry result;

and retrieving in the data corresponding to the configuration information based on the query result of the configuration information to obtain the data corresponding to the query, wherein the data corresponding to the configuration information is the data stored in a pre-configured database.

5. The information processing method for connector design according to claim 1, wherein when the trigger instruction is drawing, the feeding back a result corresponding to the trigger instruction based on the query data includes:

loading a pre-configured template;

editing based on the pre-configuration template to obtain a design graph;

and generating a drawing based on the design graph.

6. The information processing method for use in connector design according to claim 5, wherein the pre-configured template includes an editable item and a non-editable item;

and editing to obtain a design graph based on the pre-configuration template, wherein the design graph comprises an editable item of the pre-configuration template.

7. The information processing method for use in connector design according to claim 6, wherein the editable item and the non-editable item are drawn by different parameters for distinction;

the editable items comprise a first editable item and a second editable item, wherein elements of the first editable item are obtained by direct editing, and elements of the second editable item are obtained by copying elements in the pre-configuration template.

8. The method of claim 5, wherein loading the pre-configured template comprises:

based on the input parameters, inquiring an element list corresponding to the parameters in a pre-configuration template library;

completing preconfigured template loading based on the element list.

9. The information processing method for connector design according to claim 5, wherein when the trigger instruction is drawing, the feeding back a result corresponding to the trigger instruction based on the query data further comprises:

judging whether a drawing corresponding to the trigger instruction is obtained;

if the drawing is not obtained, judging whether the resources are occupied;

and if the resources are occupied, inquiring the task of successfully obtaining the drawing within the set time period, and cleaning the resources corresponding to the task of successfully obtaining the drawing.

10. An electronic device, characterized in that the electronic device comprises:

a memory storing executable instructions;

a processor executing the executable instructions in the memory to implement the method of any one of claims 1-9.

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