CN108959751B - Intelligent design method for clothing craft template - Google Patents
Intelligent design method for clothing craft template Download PDFInfo
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- CN108959751B CN108959751B CN201810665449.8A CN201810665449A CN108959751B CN 108959751 B CN108959751 B CN 108959751B CN 201810665449 A CN201810665449 A CN 201810665449A CN 108959751 B CN108959751 B CN 108959751B
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- 238000000034 method Methods 0.000 title claims abstract description 61
- 238000013461 design Methods 0.000 title claims abstract description 25
- 230000008569 process Effects 0.000 claims abstract description 35
- 238000004519 manufacturing process Methods 0.000 claims abstract description 16
- 238000006243 chemical reaction Methods 0.000 claims description 57
- 238000009958 sewing Methods 0.000 claims description 37
- 230000003993 interaction Effects 0.000 claims description 18
- 238000010409 ironing Methods 0.000 claims description 11
- 238000011112 process operation Methods 0.000 claims description 8
- 238000004458 analytical method Methods 0.000 claims description 7
- 238000012545 processing Methods 0.000 claims description 7
- 238000005516 engineering process Methods 0.000 abstract description 17
- 230000008676 import Effects 0.000 description 14
- 238000011161 development Methods 0.000 description 2
- 230000006872 improvement Effects 0.000 description 2
- 206010063385 Intellectualisation Diseases 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 239000004744 fabric Substances 0.000 description 1
- 238000000265 homogenisation Methods 0.000 description 1
- 230000002452 interceptive effect Effects 0.000 description 1
- 238000011089 mechanical engineering Methods 0.000 description 1
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F30/00—Computer-aided design [CAD]
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F2113/00—Details relating to the application field
- G06F2113/12—Cloth
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/30—Computing systems specially adapted for manufacturing
Abstract
The invention discloses an intelligent design method of a clothing process template, which comprises the following steps: step one, drawing a new file; step two, importing the new file into intelligent template software; step three, outputting a replacement template by intelligent template software; step four, manufacturing a clothing process template according to the replacement template; compared with drawing by technical personnel, the mode of replacing the template wire frame and the wire frame in the template sample by using software greatly improves the working efficiency, saves the cost of wages, really realizes the programming and the popularization and the application of the expert comprehensive technology, facilitates the popularization of the garment process template technology, ensures that each garment manufacturer can separate from manually drawing the garment process template, and relieves the phenomenon of shortage of the number of the technical personnel who are skilled in the garment process template.
Description
Technical Field
The invention relates to the field of garment design, in particular to an intelligent design method of a garment process template.
Background
The 'clothing sewing template technology' is one of the most advanced process technologies, and the process technology has a plurality of advantages, such as 1. Unifying the process technology standard, promoting the homogenization and standardization of the processed product, and improving the product quality; 2. the production process is simplified, the technical difficulty is reduced, and the production efficiency is improved; 3. the operation mode is changed, the conversion of the production mode to the direction of mechanization and modernization is promoted, and the enterprise competitiveness is improved; 4. the technology is comprehensive, the price is low, but the popularization of the technology is hindered, the technology is roughly because 1. The clothing process template technology is a very comprehensive technology and has high requirements on technical personnel, the clothing sewing template integrates clothing pattern data, clothing raw process operation requirements and clothing finished product standards, mechanical engineering technology, mathematical knowledge, human engineering and the like are combined, the comprehensive capacity requirement on the technical personnel is high, and the technology is also difficult to popularize directly. 2. The technicians for mastering the clothes art templates are very short.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide an intelligent design method for a garment process template convenient to popularize.
In order to realize the purpose, the invention provides the following technical scheme: the intelligent design method of the clothing craft template is characterized by comprising the following steps:
step one, drawing a new file;
step two, importing the new file into intelligent template software;
step three, outputting a replacement template by intelligent template software;
step four, manufacturing a clothing process template according to the replacement template;
the intelligent template software in the second step comprises a menu module, a template library module, a template conversion module and a new file module, wherein a bag cover library, a bag digging library, a bright line library, a non-ironing class library and a positioning class library are stored in the template library module; the menu module is used for man-machine interaction; the template conversion module comprises a conversion sub-module, a conversion area and a template sample area, wherein the conversion area is used for displaying a wire frame used for replacement at present, the conversion sub-module is used for replacing a template sample in the template sample area with the wire frame in the conversion area and generating a replacement template, and the template sample area is used for displaying the template sample; the new file module comprises an importing module, a display area and a template generating area, wherein the importing module is used for importing a new file into the conversion area, the display area is used for displaying the new file of the intelligent template software imported by a user, and the template generating area is used for displaying a replacement template;
the bag cover type library, the bag digging type library, the open line type library, the non-ironing type library and the positioning type library are all connected with the template sample area and can be used for user interaction, a user can select any one of the bag cover type library, the bag digging type library, the open line type library, the non-ironing type library and the positioning type library to call a library template and display the library template in the template sample area, the menu module is connected with the import module, the import module is connected with the conversion area and the display area, the menu module receives human-computer interaction information and outputs an import signal to the import module, the import module acquires a new file of the user and sends the new file to the display area to display the new file, the display area can be used for user interaction, the conversion area displays a selected template wire frame after the user selects the template wire frame in the display area, the conversion area and the template sample area are both connected with the conversion sub-module, the conversion sub-module is connected with the template generation area, the conversion area can be used for user interaction, the conversion sub-module acquires the template from the conversion area and acquires the library template from the template sample area, and generates a replacement template output template in the template output area to display the template wire frame area.
As a further improvement of the invention, the intelligent template software is designed and developed by the following steps,
s1, performing modeling and standardization processing on a garment sewing template design method;
s2, classifying according to sewing functional characteristics realized by the garment sewing template;
s3, designing and developing intelligent garment sewing template software;
and S4, obtaining intelligent template software.
As a further improvement of the invention, the design method of the clothing sewing template comprises the following steps of modeling and standardizing,
step M1, process operation analysis;
step M2, analyzing and solving the technical difficulties;
step M3, designing a template;
and step M4, improving the operation of the process.
The invention has the advantages that the method of replacing the template wireframe and the wireframe in the template sample by software does not need to ask technicians who master the clothing process template to draw each time, and compared with the method of asking the technicians to draw, the method of designing the clothing process template by the intelligent template software only needs 10 seconds for a common worker, compared with the method of drawing by the technicians who master the clothing process template, the working efficiency is greatly improved, the cost of wages is saved, the programming and the popularization and application of the expert comprehensive technology are really realized, meanwhile, the popularization of the clothing process template technology is facilitated, the manufacture of each clothing manufacturer is facilitated, each clothing manufacturer can separate from the manual drawing of the clothing process template, the shortage of the number of the technicians who master the clothing process template is relieved, the production mode of each clothing manufacturer is mechanically and modernized, the competitiveness of enterprises is improved, the industry is promoted to issue, the production process is simplified, the technical difficulty is reduced, the production efficiency is improved, the technical standard of the clothing is realized, the production of the clothing is realized, and the quality of the clothing is improved.
Drawings
FIG. 1 is a schematic diagram of the module connection of the present invention;
FIG. 2 illustrates the steps of intelligent template software design and development according to the present invention;
FIG. 3 shows the modeling and standardization steps of the clothing sewing template design method of the present invention.
Reference numbers: 1. a menu module; 2. a template library module; 3. a template conversion module; 31. a switching zone; 32. a template sample area; 33. a conversion submodule; 4. a new file module; 41. a display area; 42. a template generation area; 43. and importing a module.
Detailed Description
The invention will be further described in detail with reference to the following examples, which are given in the accompanying drawings.
Referring to fig. 1 to 3, the intelligent design method for the clothing process template of the embodiment includes the following steps:
step one, drawing a new file;
step two, importing the new file into intelligent template software;
step three, outputting a replacement template by intelligent template software;
step four, manufacturing a clothing process template according to the replacement template;
the intelligent template software in the step two comprises a menu module 1, a template library module 2, a template conversion module 3 and a new file module 4, wherein a bag cover library, a bag digging library, an open-line library, a non-ironing library and a positioning library are stored in the template library module 2; the menu module 1 is used for man-machine interaction; the template conversion module 3 comprises a conversion sub-module 33, a conversion area 31 and a template sample area 32, wherein the conversion area 31 is used for displaying a wire frame currently used for replacement, the conversion sub-module 33 is used for replacing a template sample in the template sample area 32 with the wire frame in the conversion area 31 and generating a replacement template, and the template sample area 32 is used for displaying the template sample; the new file module 4 comprises an importing module 43, a display area 41 and a template generating area 42, wherein the importing module 43 is used for importing a new file into the conversion area 31, the display area 41 is used for displaying the new file of the intelligent template software imported by a user, and the template generating area 42 is used for displaying a replacement template;
the bag cover library, the bag digging library, the bright line library, the non-ironing class library and the positioning library are all connected with the template sample area 32 and can be used for user interaction, a user can select any one of the bag cover library, the bag digging library, the bright line library, the non-ironing class library and the positioning library to call a library template and display the library template in the template sample area 32, the menu module 1 is connected with the import module 43, the import module 43 is connected with the conversion area 31 and the display area 41, the menu module 1 receives human-computer interaction information and then outputs an import signal to the import module 43, the import module 43 acquires a new file of the user and sends the new file to the display area 41 to be displayed, the display area 41 can be used for user interaction, after the user selects a template wire frame in the display area 41, the conversion area 31 displays the selected template wire frame, the conversion area 31 and the template sample area 32 are both connected with the conversion submodule 33, the conversion submodule 33 is connected with the template generation area 42, the conversion area 31 can be used for user interaction, after the conversion area 33 acquires the template wire frame from the conversion area 31, acquires the template from the template interaction submodule, replaces the template from the template sample library 32, and replaces the template with the template generation area and outputs the template to the template generation area 42.
According to the technical scheme, the template wire frame of the target shape to be designed is drawn through the first step, then the template wire frame is led into intelligent template software through the second step, then the template wire frame and the corresponding wire frame in the template sample carried by the intelligent template software are replaced, then the replaced template is output through the third step by utilizing the intelligent template software, then the clothing process template is manufactured according to the replaced template through the fourth step, the manner of replacing the template wire frame and the wire frame in the template sample by utilizing the software does not need to require technicians going through the clothing process template to draw every time, and compared with the manner of drawing by technical personnel, the clothing process template is designed through the intelligent template software, and only 10 seconds are needed for a common staff to design the clothing process template, compared with the prior art that drawing is performed by technicians of the clothing process template, the drawing method needs 10 minutes, greatly improves the working efficiency, saves the cost of wages, really realizes the programming and the popularization and application of expert comprehensive technology, simultaneously facilitates the popularization of the clothing process template technology, facilitates the manufacture of each clothing manufacturer, enables each clothing manufacturer to be separated from manually drawing the clothing process template, relieves the shortage phenomenon of the quantity of the technicians of the clothing process template, enables the production mode of each clothing manufacturer to be changed in a mechanical and modern direction, improves the competitiveness of enterprises, promotes the development of industries, simplifies the production process of each clothing manufacturer, reduces the technical problem, improves the production efficiency, unifies the technological standard, enables the produced and processed products of clothing to be homogeneous and standardized, and improves the product quality. Wherein, the user interacts with the menu module 1, for example, the user clicks the menu module 1, the following interaction can be understood as mouse click, finger touch through a touch screen, etc., then the import module 43 interacts with the user, the user imports the new file in the first step through the import module 43, the imported new file can be displayed in the display area 41 for the user to browse, the user can know the currently imported template wire frame, meanwhile, the user can interact with the display area 41 to select the template wire frame that the user needs to replace this time, then the import module 43 displays the selected template wire frame in the conversion area 31 at the same time for the user to check the currently selected template wire frame, wherein, the template library module 2 can also interact with the user, the user can select any one of the pocket cover library, the pocket digging library, the bright line library, the non-ironing library and the positioning library in the template library module 2 to call the library template and display the library template in the template sample area 32, wherein the conversion sub-template can obtain a corresponding library template from the sample display area 41 and obtain a template wireframe in the conversion area 31 at the same time, the user interacts with the conversion area 31, the conversion sub-module 33 can replace the template wireframe in the conversion area 31 with the wireframe corresponding to the template in the template sample area 32 and then generate a replacement template and output the replacement template to the template generation area 42 for display, and the user can carry out interactive copy and the like at the same time, so that the intellectualization of the clothing process template design can be completed, and a large number of template libraries are pre-stored in the template library module 2, and the user only needs to select and does not need to draw each time.
As an improved specific implementation mode, the intelligent template software is designed and developed by the following steps,
s1, performing modeling and standardization processing on a garment sewing template design method;
s2, classifying according to sewing functional characteristics realized by the garment sewing template;
s3, designing and developing intelligent garment sewing template software;
and S4, obtaining intelligent template software.
Through the technical scheme, if intelligent template software is to be independently developed, firstly, the design method of the clothing sewing template is subjected to modeling and standardized processing to obtain standardized and modeled templates, a part of line frames in the templates are marked to facilitate the replacement of subsequent intelligent template software and facilitate the intelligent programming operation of a computer, then, the templates are systematized and classified according to the sewing functional characteristics realized by the clothing sewing template, and the computer processing (processing according to types) is facilitated, for example, a bag cover type sewing template, a bag digging type sewing template, an open line type sewing template, a non-ironing type sewing template and a positioning type sewing template are classified according to the classification mode, and compared with the classification mode according to a basic template, a middle-level template and a high-level template;
classifying according to a single template, a combined template and a special template;
dividing the template into a double-layer template and a multi-layer template according to the number of layers;
the method is divided into a trouser template, a skirt template, a shirt template and the like according to application;
the clothing sewing template is divided into a combined template and a component template according to the sewing form of the working procedure,
the classification mode has very strong identification function, can be combined with the functional characteristics of the sewing template, can be associated with the design type of the sewing template, is convenient for analyzing and summarizing the design method,
then, the intelligent clothing sewing template software is designed and developed through the laying of the previous steps, so that the intelligent clothing sewing template software is simpler and quicker to design and develop, and the difficulty and the cost of software development are reduced.
As an improved specific implementation mode, the design method of the clothing sewing template comprises the following steps of modeling and standardizing,
step M1, process operation analysis;
step M2, analyzing and solving the technical difficulties;
step M3, designing a template;
and step M4, improving the operation of the process.
Through the technical scheme, the process operation analysis, such as the garment pocket flap process operation analysis, comprises the following steps of 1, making the inner side of the belt flap opposite to the front side of the pocket flap surface, and making the reverse side of the pocket flap surface upward; and 2, placing the bag cover clean sample plate with the consistent specification on the aspect of a bag cover surface, and using an invisible stroke to form a lower seam line, and 3, using a flat sewing machine to make a circle along the seam line. The technical quality requirements of the step 1 are that cut pieces are flat, silk locks are smooth and straight, cloth edges face the cut pieces, and the technical difficulty is simple; the technical quality requirements of the step 2 are that the front ends of the bag covers are straight, the seams are balanced, the warping is accurate, the drawn lines are clear, and the technical difficulty is general; the technical quality requirement of the step 3 is that the stitches are smooth, the bag cover has proper eating tendency, the specification is accurate, and the technical difficulty is difficult; after the analysis is completed, the technical difficulty analysis and the solution are started, wherein the uniform seam quantity control can be drawn on the template, the uniform seam quantity and the routing of the seam quantity can be controlled by the seam quantity control in the subsequent processing, so that the technical difficulty in the step 2 and the step three is reduced, then the template is drawn by a template design scheme, a drawing picture of the seam quantity control is added, each wire frame is marked, the subsequent intelligent template software is convenient to replace with the mark, then the process operation is improved, the previous step is changed into the step A1, the sewing template with the corresponding specification is opened, the bag cover is placed at the position where the sewing template is arranged with the front face facing upwards, and then the middle sector of the sewing template is covered; step A2 places the pocket flap face down on the position of making up template setting, will make up the sector above the template and cover again, step A3 is with the flush joint machine along making up template track sewing a week, makes the technical degree of difficulty of each step all become simple degree of difficulty like this for clothing manufacturer operates more easily, and the template of drawing the completion can be deposited in intelligent template software's template library module 2, and it is more convenient when making subsequent template in the selection template library module 2, does not need redesign.
The above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above embodiments, and all technical solutions that belong to the idea of the present invention belong to the scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.
Claims (3)
1. The intelligent design method of the clothing process template is characterized by comprising the following steps:
step one, drawing a new file;
step two, importing the new file into intelligent template software;
step three, outputting a replacement template by intelligent template software;
fourthly, manufacturing a clothing process template according to the replacement template;
the intelligent template software in the step two comprises a menu module (1), a template library module (2), a template conversion module (3) and a new file module (4), wherein a bag cover library, a bag digging library, an open-line library, a non-ironing library and a positioning library are stored in the template library module (2); the menu module (1) is used for man-machine interaction; the template conversion module (3) comprises a conversion sub-module (33), a conversion area (31) and a template sample area (32), wherein the conversion area (31) is used for displaying a wire frame currently used for replacement, the conversion sub-module (33) is used for replacing a template sample in the template sample area (32) with the wire frame in the conversion area (31) and generating a replacement template, and the template sample area (32) is used for displaying the template sample; the new file module (4) comprises an importing module (43), a display area (41) and a template generating area (42), wherein the importing module (43) is used for importing a new file into the conversion area (31), the display area (41) is used for displaying the new file of the intelligent template software imported by a user, and the template generating area (42) is used for displaying a replacement template;
the bag cover type library, the bag digging type library, the bright line type library, the non-ironing type library and the positioning type library are all connected with the template sample area (32) and can be used for user interaction, a user can select any one of the bag cover type library, the bag digging type library, the bright line type library, the non-ironing type library and the positioning type library to call a library template and display the library template in the template sample area (32), the menu module (1) is connected with the lead-in module (43), the lead-in module (43) is connected with the conversion area (31) and the display area (41), the menu module (1) receives human-computer interaction information and then outputs a lead-in signal to the lead-in module (43), the lead-in module (43) obtains a new file of the user and sends the new file to the display area (41) for display, the display area (41) can be used for user interaction, after a user selects a template wire frame in the display area (41), the conversion area (31) displays the selected template wire frame, the conversion area (31) and the template sample area (32) are both connected with the conversion sub-module (33), the conversion sub-module (33) is connected with the template generation area (42), the conversion area (31) can be used for user interaction, after interaction, the conversion sub-module (33) obtains the template wire frame from the conversion area (31), obtains the library template from the template sample area (32), replaces the template wire frame with the template in the library template to generate a replacement template, and outputs the replacement template to the template generation area (42) for display.
2. The intelligent design method for clothing process template according to claim 1, characterized in that the intelligent template software is designed and developed by the following steps,
s1, performing modeling and standardization processing on a garment sewing template design method;
s2, classifying according to sewing functional characteristics realized by the clothing sewing template;
s3, designing and developing intelligent garment sewing template software;
and S4, obtaining intelligent template software.
3. The intelligent design method of clothing process template according to claim 2,
the design method of the clothing sewing template comprises the following steps of modeling and standardizing,
step M1, process operation analysis;
step M2, analyzing and solving the technical difficulties;
step M3, designing a scheme of the template;
and step M4, improving the process operation.
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