CN112711827A - Automatic mapping method and system for bearing design - Google Patents
Automatic mapping method and system for bearing design Download PDFInfo
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- CN112711827A CN112711827A CN201911022771.XA CN201911022771A CN112711827A CN 112711827 A CN112711827 A CN 112711827A CN 201911022771 A CN201911022771 A CN 201911022771A CN 112711827 A CN112711827 A CN 112711827A
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- 238000013461 design Methods 0.000 title claims abstract description 29
- 238000000034 method Methods 0.000 title claims abstract description 26
- 238000013507 mapping Methods 0.000 title claims description 10
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- 238000006243 chemical reaction Methods 0.000 claims description 4
- 238000004519 manufacturing process Methods 0.000 description 3
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Abstract
The invention provides an automatic drawing method for bearing design, which comprises the following steps: the method comprises the steps that a client side is operated to be connected to a server through a network, the client side comprises a display device, the client side is operated to display a webpage on the display device, and the server stores a part database, webpage software, calculation software and drawing software; the webpage software displays each part data in the part database on a webpage in a menu form; after the required part specification is selected and input by the webpage, the calculation software converts the part specification into a corresponding part parameter and displays the part parameter on the webpage; after the part parameters are determined, the webpage is operated to draw, at the moment, the webpage software automatically provides the part parameters to the drawing software, the drawing software generates the engineering drawing according to the part parameters and provides the engineering drawing to the webpage software, and the webpage software displays the engineering drawing on the webpage and provides downloading.
Description
Technical Field
The invention discloses a method and a system for automatically drawing a bearing design, which are used for simplifying the process of generating an engineering drawing by a user.
Background
The bearing is a common component, and most of the various structures requiring rotation have no bearing, and the manufacturing of the bearing needs to have a certain level of precision in order to make the structure rotate smoothly, so that most of the current mainstream methods are to machine main parts of each part of the bearing by a turning locomotive and finally assemble the parts.
If the turning machine is to turn the material into the main parts of each part of the bearing, it is necessary to draw an engineering drawing to generate a turning tool path for the turning machine to turn, and if the engineering drawing is to be drawn once for each turning, it wastes a lot of time, so the common practice is to manually input the part specification into a corresponding table by using calculation software (e.g. Excel), convert the part specification into a part parameter for drawing software (e.g. Pro/E) by using a calculation formula built in the calculation software, and manually copy the part parameter into the drawing software, and the drawing software can generate the engineering drawing according to the part parameter.
However, as the demands for bearing performance and accuracy become higher and higher with the technological progress, the engineering drawings generated by the existing method must be switched between a large number of computing software pages and a large number of drawing software pages, which increases the time cost, and thus how to simplify the engineering drawing generation process for users is a problem that needs to be solved urgently in the industry.
Disclosure of Invention
The present invention provides a method and a system for automatically drawing a bearing design, which can enable a user to select a required bearing part and input relevant specifications by only using a web page displayed by a client, and can generate a required engineering drawing by the calculation of the system, so as to simplify the process of generating the engineering drawing by the user.
The technical scheme adopted by the invention for solving the technical problems is as follows:
an automatic drawing method for bearing design comprises the following steps: opening a webpage: operating a client to be connected with a server by a network, wherein the client comprises a display device, operating the client to display a webpage on the display device, and the server stores a part database, webpage software, calculation software and drawing software; a webpage display menu: the webpage software displays each part data in the part database in a webpage in a menu form; conversion of part parameters: after the required part specification is selected and input by the webpage, the calculation software converts the part specification into a corresponding part parameter and displays the part parameter on the webpage; and (3) drawing: after the part parameters are determined, the webpage is operated to produce the map, at the moment, the webpage software automatically provides the part parameters to the drawing software, the drawing software generates the engineering drawing according to the part parameters and provides the engineering drawing to the webpage software, and the webpage software displays the engineering drawing on the webpage and provides downloading.
The drawing software has a family table for storing the parameters of the parts of the bearing.
The server stores a parameter folder, the part parameters provided by the web software in the drawing software are stored in the parameter folder, and the drawing software is provided with a folder monitoring program used for enabling the drawing software to obtain the part parameters provided by the web software in the parameter folder.
The server stores a web page folder, the engineering drawing generated by the drawing software is stored in the web page folder and is used for providing the web page software to capture and display on a web page, and the drawing software generates and compresses a part file when generating the engineering drawing so as to be downloaded by the at least one client on the web page.
The server stores a picture folder, and the picture folder stores the part schematic diagrams of all parts of the bearing so as to display the schematic diagrams of the corresponding parts in the menu.
A bearing design automation mapping system, comprising: at least one client, which comprises a display device, wherein the display device is used for displaying a webpage; and a server, online to the at least one client by network, the server storing: a part database for storing the part data of each part of the bearing; the webpage software is used for displaying all the part data in the part database on the webpage in a menu mode; a calculation software for converting the part specification calculation selected by the web page into part parameters to be provided to the web page software and displayed on the web page; and the drawing software is used for generating the engineering drawing from the part parameters provided by the webpage software so that the webpage software can display the engineering drawing on the webpage and provide the at least one client to download the engineering drawing.
The drawing software has a family table for storing the parameters of the parts of the bearing.
The server stores a parameter folder, the part parameters provided by the web software in the drawing software are stored in the parameter folder, and the drawing software is provided with a folder monitoring program used for enabling the drawing software to obtain the part parameters provided by the web software in the parameter folder.
The server stores a web page folder, the engineering drawing generated by the drawing software is stored in the web page folder and is used for providing the web page software to capture and display on a web page, and the drawing software generates and compresses a part file when generating the engineering drawing so as to be downloaded by the at least one client on the web page.
The server stores a picture folder, and the picture folder stores the part schematic diagrams of all parts of the bearing so as to display the schematic diagrams of the corresponding parts in the menu.
The invention has the advantages that a user can generate a required engineering drawing only by using the webpage displayed by the client, selecting the required bearing part and inputting the relevant specification, and the calculation of the system is carried out, so that the process of generating the engineering drawing by the user is simplified.
Drawings
The invention is further illustrated with reference to the following figures and examples.
FIG. 1 is a schematic flow chart of an automated bearing design method.
FIG. 2 is an architecture diagram of an automated mapping system for bearing design.
FIG. 3 is a diagram of a part library menu shown on a client-side web page.
Figure 4 is a menu of the bearing types shown on the client web page.
Figure 5 is a menu of bearing parts shown on the client web page.
Figure 6 is a menu of bearing features shown on a client web page.
FIG. 7 is a part design page shown on the client side web page.
FIG. 8 is a page displayed after the part design page corresponds to parameters.
FIG. 9 is a component build page shown on a client-side web page.
The reference numbers in the figures illustrate:
1 client
11 display device
111 webpage
2 Server
21 parts database
22 webpage software
23 drawing software
231 folder monitor program
232 family table
24 calculation software
25 parameter folder
26 webpage folder
27 picture folder
100 preview
200 input data
300 download
400 corresponding parameter
500 calculation turning
601 opening web page
602 web page display menu
603 transformation of part parameters
604 is shown in
Detailed Description
To understand the embodiments of the present invention in more detail, please refer to the accompanying drawings, and the present invention is presented in fig. 1 and fig. 2, which is an automatic drawing method for bearing design, comprising the following steps: opening a webpage 601: operating a client 1 to connect to a server 2 via a network, and operating the client 1 to display a web page 111 on a display device 11, wherein the server 2 stores a parts database 21, a web page software 22, a computing software 24, and a drawing software 23; web page display menu 602: the web software 22 displays each part data in the part database 21 on the web page 111 in a menu form; conversion of part parameters 603: after the required part specification is selected and input by the web page 111, the calculation software 24 converts the part specification into the corresponding part parameter and displays the part parameter on the web page 111; FIG. 604: after determining the part parameters, the web page 111 is operated to generate a drawing, at this time, the web page software 22 automatically provides the part parameters to the drawing software 23, the drawing software 23 generates an engineering drawing according to the part parameters and provides the engineering drawing to the web page software 22, the web page software 22 displays the engineering drawing on the web page 111 and provides the downloading, the client 1 can be a computer, the display device 11 can be a computer screen, and one client 1 or a plurality of clients 1 can be provided according to different use scales.
The present invention is presented in fig. 2 as an automated bearing design mapping system, which includes: at least one client 1, which includes a display device 11, wherein the display device 11 is used for displaying a web page 111; and a server 2 connected to the at least one client 1 via a network, the server 2 storing: a part database 21 for storing part data of each part of the bearing; a web page software 22 for displaying each part data in the part database 21 on the web page 111 in the form of menu; a calculation software 24 for calculating and converting the part specification selected via the web page 111 into part parameters, which are provided to the web page software 22 and displayed on the web page 111; a drawing software 23 for generating engineering drawings from the part parameters provided by the web software 22, so that the web software 22 can display the engineering drawings on the web page 111, and provide the at least one client 1 to download the engineering drawings, wherein the client 1 can be a computer, the display device 11 can be a computer screen, and can be one client 1 or a plurality of clients 1 according to different scales of use.
The following is a detailed description of the embodiments of the method and system of the present invention, and the first step is to open the web page 601: a user operates the client to open a webpage on the display equipment; step two, a web page display menu 602: the web software will be shown in fig. 3, the component database 21 is displayed on the web page 111 in the component library menu, the user can operate the content displayed on the web page 111 by using the client 1, the bearing type menu shown in fig. 4 is displayed by clicking the next page after selecting the bearing component, the bearing component menu shown in fig. 5 is displayed by clicking the next page after selecting the required bearing type, the bearing feature menu shown in fig. 6 is displayed by clicking the next page after selecting the required bearing component, and the component design page shown in fig. 7 is displayed by clicking the next page after selecting the required bearing feature.
Step three, converting part parameters 603: the left side of the part design page is an engineering drawing preview, the right side is a parameter table which consists of three columns of parameters, descriptions and values, a user can select part specifications and modify parameters according to the part specifications and a webpage control, the middle part is the current model browse, the user can select the current part model, the system can bring the parameters of the corresponding model into the right side table, the system is quite convenient when slightly modifying the old model, in the aspect of the main dimension of the bearing, for international interchangeability and economical production, the production of the bearing is mostly in accordance with the ISO standard, such as the inner diameter, the outer diameter, the thickness, the angle of lead or the rotation precision of the bearing, and the like, in the past, an engineer must browse the design specifications to design the bearing in the design process, and click a button corresponding to the parameter 400 after selecting the specifications from the parameter table, the webpage software 22 provides the specifications selected from the parameter table for the calculation conversion of the calculation software 24, after the calculated part parameters are returned to the web software 22, as shown in fig. 8, a new parameter table is generated to cover the original parameter table, and if the design result is to be obtained and viewed; step four fig. 604: after the preview 100 is clicked, the web software 22 provides the part parameters in the parameter table to the drawing software 23, the drawing software 23 generates an engineering drawing according to the obtained part parameters, so that the web software 22 can display the part design page of the web page 111 and provide the user to click and download 300 on the web page to download the drawing file, in addition, the button of inputting data 200 can be clicked, so that the newly designed part data can be stored in the part database 21, and then can be displayed in the existing model browsing for convenient later micro-modification, and the button of switching turning 500 can be clicked, so that the part parameters can be calculated through the calculation software 24, and then the part parameters can be converted into a turning parameter for the web software 22 to display on the web page 111.
If the bearing component menu shown in fig. 5 is selected and the bevel assembly is selected, the component setup page shown in fig. 9 is displayed, the page distribution of the component setup page is the same as that of the component design page, and the component of the existing model can be selected and selected from the parameter table, and the key operation and operation methods corresponding to the parameter 400, the preview 100 and the like are the same as those of the component design page.
By combining the above contents, the automatic drawing method for bearing design according to the present invention can be known, so that a user only needs to click a required part and select a specification system thereof to automatically calculate the part parameters corresponding to the parameters, the system can automatically generate the engineering drawing by the drawing software 23 to be displayed on the webpage 111 after clicking preview, and can click the download 300 to download the engineering drawing file, the user only needs to operate the webpage 111 from beginning to end, and the user does not need to switch back and forth among a plurality of different software pages as in the prior art, thereby achieving the purpose of simplifying the process of generating the engineering drawing by the user.
Fig. 2 shows that the drawing software 23 has a family table 232, the family table 232 is used to store the part parameters of each part of the bearing, if the part parameters transmitted to the drawing software 23 are all the part parameters in the family table, the drawing software 23 directly uses the parameters in the family table 232 to construct the engineering drawing, and if the part parameters not stored in the family table 232 are present, the part parameters are newly added into the family table 232 to construct the engineering drawing, so as to accelerate the program operation speed of the drawing software 23.
As shown in fig. 2, in which the server 2 stores a parameter folder 25, the part parameters provided by the netpage software 22 in the drawing software 23 are stored in the parameter folder 25, the drawing software 23 has a folder monitoring program 231 for making the drawing software 23 obtain the part parameters provided by the web page software 22 from the parameter folder 25, the folder watch process 231 scans the parameter folder 25 every second when the user presses the preview 100 on the web page 111, the netpage software 22 automatically generates a text file of the part parameters and stores the text file in the parameter folder 25, and after the folder monitor 231 scans the text file, drawing software 23 will read its contents and delete the text file to avoid repeated reading, in this way, a system architecture is provided for the drawing software 23 to read the part parameters provided by the web page software 22.
Referring to fig. 2, in which the server 2 stores a web page folder 26, the engineering drawing generated by the drawing software 23 is stored in the web page folder 26 for being retrieved and displayed on the web page 111 by the web page software 22, in this configuration, if the web page software 22 detects that the file appears in the web page folder 26, the link and the engineering drawing are embedded into the web page 111 and the display page is updated, and at this time, the user can browse the engineering drawing preview drawing on the web page or click the download 300 to download the engineering drawing to the client, so as to provide a system configuration in which the web page software 22 reads the engineering drawing provided by the drawing software 23.
When the drawing software 23 generates the engineering drawing, it further generates a part file and compresses it for the at least one client 1 to download on the web page 111, so that the client 1 can store the part file and is convenient to carry by using devices such as a portable hard disk, a memory card, etc.
The server 2 further stores a picture folder 27, and the picture folder 27 stores schematic diagrams of components of each part of the bearing, so that the web page 111 can display schematic diagrams of corresponding components in a menu, and the effect of the method is as shown in fig. 3 to 6, so as to more clearly confirm the bearing component selected by the server.
FIG. 2 presents an automated mapping system for bearing design, comprising: at least one client 1, which includes a display device 11, wherein the display device 11 is used for displaying a web page 111; and a server 2 connected to the at least one client 1 via a network, the server 2 storing: a part database 21 for storing part data of each part of the bearing; a web page software 22 for displaying each part data in the part database 21 on the web page 111 in the form of menu; a calculation software 24 for calculating and converting the part specification selected via the web page 111 into part parameters, which are provided to the web page software 22 and displayed on the web page 111; a drawing software 23 for generating engineering drawings from the part parameters provided by the web software 22, so that the web software 22 can display the engineering drawings on the web page 111, and provide the at least one client 1 to download the engineering drawings, wherein the client 1 can be a computer, the display device 11 can be a computer screen, and can be one client 1 or a plurality of clients 1 according to different scales of use.
The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all simple modifications, equivalent variations and modifications made to the above embodiment according to the technical spirit of the present invention still fall within the scope of the technical solution of the present invention.
Claims (10)
1. An automatic drawing method for bearing design is characterized by comprising the following steps:
opening a webpage: operating a client to be connected with a server by a network, wherein the client comprises a display device, operating the client to display a webpage on the display device, and the server stores a part database, webpage software, calculation software and drawing software;
a webpage display menu: the webpage software displays each part data in the part database in a webpage in a menu form;
conversion of part parameters: after the required part specification is selected and input by the webpage, the calculation software converts the part specification into a corresponding part parameter and displays the part parameter on the webpage;
and (3) drawing: after the part parameters are determined, the webpage is operated to produce the map, at the moment, the webpage software automatically provides the part parameters to the drawing software, the drawing software generates the engineering drawing according to the part parameters and provides the engineering drawing to the webpage software, and the webpage software displays the engineering drawing on the webpage and provides downloading.
2. The automated mapping method of claim 1, wherein the mapping software comprises a table set for storing part parameters of each part of the bearing.
3. The automated drawing method for bearing design according to claim 1, wherein the server stores a parameter folder, the part parameters provided by the web software in the drawing software are stored in the parameter folder, and the drawing software has a folder monitoring program for enabling the drawing software to obtain the part parameters provided by the web software in the parameter folder.
4. The automated drawing method for bearing design according to claim 3, wherein the server stores a web page folder, the engineering drawing generated by the drawing software is stored in the web page folder for being retrieved by the web page software and displayed on the web page, and the drawing software further generates and compresses a part file for the at least one client to download on the web page when generating the engineering drawing.
5. The method as claimed in any one of claims 1 to 4, wherein the server further stores a picture folder, the picture folder stores schematic diagrams of parts of each part of the bearing, so that the web page can display schematic diagrams of corresponding parts in a menu.
6. An automated bearing design mapping system, comprising:
at least one client, which comprises a display device, wherein the display device is used for displaying a webpage;
and a server, online to the at least one client by network, the server storing: a part database for storing the part data of each part of the bearing; the webpage software is used for displaying all the part data in the part database on the webpage in a menu mode; a calculation software for converting the part specification calculation selected by the web page into part parameters to be provided to the web page software and displayed on the web page; and the drawing software is used for generating the engineering drawing from the part parameters provided by the webpage software so that the webpage software can display the engineering drawing on the webpage and provide the at least one client to download the engineering drawing.
7. The automated bearing design mapping system of claim 6, wherein the mapping software has a family of tables for storing part parameters for each part of the bearing.
8. The automated bearing design mapping system of claim 6, wherein the server stores a parameter folder, the part parameters provided by the web software for the mapping software are stored in the parameter folder, and the mapping software has a folder monitor program for enabling the mapping software to obtain the part parameters provided by the web software from the parameter folder.
9. The system of claim 8, wherein the server stores a web page folder, the engineering drawing generated by the drawing software is stored in the web page folder, and is used for the web page software to retrieve and display on the web page, and the drawing software further generates and compresses a part file for the at least one client to download on the web page when generating the engineering drawing.
10. The system as claimed in any one of claims 6 to 9, wherein the server further stores a picture folder, the picture folder stores schematic diagrams of parts of each part of the bearing, so that the web page can display the schematic diagrams of corresponding parts in a menu.
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201911022771.XA CN112711827A (en) | 2019-10-25 | 2019-10-25 | Automatic mapping method and system for bearing design |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201911022771.XA CN112711827A (en) | 2019-10-25 | 2019-10-25 | Automatic mapping method and system for bearing design |
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| CN112711827A true CN112711827A (en) | 2021-04-27 |
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| CN201911022771.XA Pending CN112711827A (en) | 2019-10-25 | 2019-10-25 | Automatic mapping method and system for bearing design |
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Citations (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109063309A (en) * | 2018-07-26 | 2018-12-21 | 武汉理工大学 | A kind of Parameterized Design System and method based on cloud platform |
| CN110297637A (en) * | 2019-06-06 | 2019-10-01 | 北京网聘咨询有限公司 | The applicable resource file thermogravimetric of full platform client software carries tool and method of development |
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- 2019-10-25 CN CN201911022771.XA patent/CN112711827A/en active Pending
Patent Citations (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109063309A (en) * | 2018-07-26 | 2018-12-21 | 武汉理工大学 | A kind of Parameterized Design System and method based on cloud platform |
| CN110297637A (en) * | 2019-06-06 | 2019-10-01 | 北京网聘咨询有限公司 | The applicable resource file thermogravimetric of full platform client software carries tool and method of development |
Non-Patent Citations (1)
| Title |
|---|
| 周自平,殷国富: "基于SOLIDWORKS的机床夹具元件三维参数化图库的研究", 计算机应用技术, vol. 33, no. 8, pages 33 - 36 * |
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