CN108805679B - Production method for adding autonomous design through mobile terminal - Google Patents
Production method for adding autonomous design through mobile terminal Download PDFInfo
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- CN108805679B CN108805679B CN201810611280.8A CN201810611280A CN108805679B CN 108805679 B CN108805679 B CN 108805679B CN 201810611280 A CN201810611280 A CN 201810611280A CN 108805679 B CN108805679 B CN 108805679B
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Abstract
The invention discloses a production method for adding an autonomous design through a mobile terminal, which is characterized in that a virtual model is manufactured on the mobile terminal according to an actual production article, and each part which can be added with a design element on the virtual model is drawn by using independent grid data; manufacturing a production piece template corresponding to the virtual model on the mobile terminal, wherein each part capable of adding the design elements on the virtual model corresponds to an editable area of the production piece template; a user acquires a design element; a user directly adds, modifies and deletes design elements on the virtual model, and saves the design scheme after the design scheme is completed; a factory acquires a design scheme of a user to generate a production sheet; the production line uses the production sheet for product production. According to the invention, a user directly designs the appearance of the product, design elements are directly added, modified and deleted on the virtual model of the mobile phone, a factory can directly use design data to produce after the design is finished, the user design is integrated into the production process of the product, and the process of the user independent customization is greatly simplified.
Description
Technical Field
The invention relates to a virtual design technology, in particular to a production method for adding autonomous design through a mobile terminal, and belongs to the technical field of visual production and manufacturing.
Background
The appearance design user of the product can only see the design result after finishing the production of the product all the time, along with the improvement of the living standard of people and the increase of the requirements on the appearance of the product, the requirements of the user for participating in the design are higher and higher, the performance of the mobile phone is higher and higher at present, and the development of the virtual reality technology and the popularization of network purchase enable the user to design autonomously.
Therefore, it is necessary to develop a production method of adding design elements into the self-designed virtual model through the mobile terminal, which enables a user to directly add, modify and delete the design elements on the mobile terminal, and a factory can directly use the design data to produce after the design elements are completed.
Disclosure of Invention
Aiming at the defects of the prior art, the invention discloses a production method for adding an autonomous design through a mobile terminal, which enables a user to add, modify and delete design elements directly on a virtual model on the mobile terminal, and a factory can directly use design data to produce after the design elements are completed.
In order to achieve the above object, the technical scheme adopted by the invention is as follows:
a production method for adding autonomous design through a mobile terminal,
manufacturing a virtual model on a mobile terminal according to an actual production object, wherein each part which can be added with design elements on the virtual model is drawn by using independent grid data;
manufacturing a production piece template corresponding to the virtual model on a mobile terminal, wherein each part of the virtual model, which can be added with design elements, corresponds to an editable area of the production piece template;
a user acquires a design element;
a user directly adds, modifies and deletes design elements on the virtual model, and saves the design scheme after the design scheme is completed;
a factory acquires a design scheme of a user to generate a production sheet;
the production line uses the production sheet for product production.
The production method of adding the autonomous design through the mobile terminal uses the color coding cutting technology to process the editable area of the production film template.
The virtual model and the production piece template are manufactured by the automatic scaling technology of the standard size through the production method of adding the autonomous design through the mobile terminal.
According to the production method for adding the autonomous design through the mobile terminal, a user can directly operate the design elements on the virtual model in a gesture mode or a button mode through the mobile terminal, and can rotate, zoom, modify and delete the design elements and support the layer.
In the foregoing production method of joining an autonomous design by a mobile terminal, the design elements include, but are not limited to, the following: pictures, words, masks.
According to the production method of adding the mobile terminal into the autonomous design, a user designs all design elements and then saves the design, the design elements cannot be modified, the design elements and data are output as design files and resource files, and the design elements and the data are packaged and uploaded to the cloud server to generate the unique order number.
According to the production method of adding the autonomous design through the mobile terminal, all design elements in the design scheme and the production sheet template are overlapped and converted into production data in a factory, and the production data are output to a specified position in a high-definition graph mode to generate the production sheet.
Compared with the prior art, the invention has the advantages that:
(1) the what you see is what you get is that the user designs the product appearance directly, add and modify and delete the design element on the virtual model of the mobile phone directly, the factory can use the design data to produce directly after finishing, the user design is merged into the production process of the product, have greatly simplified the flow that the user customizes independently;
(2) the factory directly designs and produces the user into a product, so that intermediate communication processes are greatly reduced, the requirement of the user on independent design is met, and various errors in communication are reduced.
Drawings
FIG. 1 is a flow diagram of one embodiment of a method for joining an autonomic design via a mobile terminal in accordance with the present invention;
FIG. 2 is a schematic diagram of a production sheet template of one embodiment of the production method of FIG. 1 for joining an autonomous design by a mobile terminal;
FIG. 3 is a standard size correspondence diagram for one embodiment of the manufacturing method of FIG. 1 incorporating an autonomic design via a mobile terminal;
FIG. 4 is a diagram of a virtual design model for one embodiment of the method of manufacturing by a mobile terminal joining an autonomous design of FIG. 1;
FIG. 5 is a mobile terminal design model presentation diagram of one embodiment of the method of manufacturing by a mobile terminal incorporating an autonomous design of FIG. 1;
FIG. 6 is a user design preview of one particular embodiment of the method of manufacturing the autonomic design joined by the mobile terminal of FIG. 1;
FIG. 7 is a diagram of a production slice generated by one embodiment of the method of FIG. 1 for production by a mobile terminal joining an autonomous design.
Detailed Description
The invention is described in detail below with reference to the figures and the embodiments.
Referring to fig. 1, the inventive manufacturing method by a mobile terminal incorporating an autonomous design,
manufacturing a virtual model on the mobile terminal according to an actual production article, wherein each part which can be added with design elements on the virtual model is drawn by using independent grid data;
referring to fig. 4, a 3D model consistent with an actual product is designed by using a model design tool such as 3DMAX or MAYA, a virtual design model is a white model with a size equal to the actual size, each part of the model, to which a design element can be added, is drawn by using independent mesh data, and the name of each part is set;
taking a shoe as an example, the virtual model has 2 editing areas which are respectively named as r/g, and the name corresponds to the name meaning of the editing areas;
and outputting the model as a user-defined format model file which can be used by the mobile terminal by using the export plug-in.
Manufacturing a production piece template corresponding to the virtual model on the mobile terminal, wherein each part capable of adding the design elements on the virtual model corresponds to an editable area of the production piece template;
referring to fig. 2, a photo shop and other picture design tools are used to draw print templates of various specifications according to actual sizes, and each shoe size is made into a template drawing by taking a shoe as an example;
setting the name of each editing area, wherein each shoe production sheet has 2 editing areas which are named as r/g;
each edit field is filled with a special color value, r ═ ff0000, g ═ 00ff00, the color is ready for cutting user design elements;
the size of a virtual design model corresponds to a production piece template of a standard code, each 'part' corresponds to an editable area of the standard code production piece one by one, and the two parts are associated with each other through names;
design elements such as pictures, characters, masks and the like placed on the virtual design model by a user are correspondingly placed on the editable area of the standard code production film.
And saving and generating a scaling data file with the standard size corresponding to the current specification.
Referring to FIG. 5, a user obtains design elements;
the user can add the self-input characters or masks to the editable part of the virtual model by taking pictures or adding pictures to the editable part of the virtual model from the system gallery.
Referring to fig. 6, a user directly adds, modifies and deletes design elements on a virtual model, and saves the design elements after completing a design scheme; after the design is finished, the user can save the design of the user, generate a high-definition preview image for the design result, and display a virtual design model with the same size as the real size on the screen of the mobile terminal.
A factory acquires a design scheme of a user to generate a production sheet;
the production line uses the production sheet for product production.
As a preferred scheme, the editable area of the production film template is processed by using a color coding cutting technology, the color coding cutting technology is to label the area range of the part which can be designed by a user on each printing film by different colors on the printing film template, the user design element and the production film template are superposed, then cutting is carried out according to the range alignment of the colors, and only the visible part in the related area is reserved, so that the production film required by the final production is obtained.
As a preferable scheme, a standard size automatic scaling technology is used for manufacturing a virtual model and a production sheet template, because the specification parameters of each product are multiple, in order to reduce the number of designed virtual models, one standard size and the virtual model are used for corresponding, and the production sheet templates of other specifications are obtained by setting and scaling the standard size template.
Referring to fig. 3, 40 shoe sizes are designated as standard sizes, key points of each size are set respectively by using corresponding tools, the scaling of the current size to the standard size is automatically generated after the key points are finished, and the positions and sizes of information such as printed bar codes and the like are marked on a motan.
As a preferred scheme, a user can directly operate the design elements on the virtual model in a gesture mode or a button mode through a mobile terminal, and can rotate, zoom, modify and delete the design elements and support the layer.
As a more preferred approach, the design elements include, but are not limited to, the following: pictures, words, masks.
As an optimal scheme, a user saves the design after completing the design of all design elements, the design elements cannot be modified any more, the design elements and data are output as design files and resource files, the design elements and the data are packaged and uploaded to a cloud server, and a unique order number is generated and used as a production data acquisition basis for a factory.
Referring to fig. 7, as a preferred scheme, a factory overlaps all design elements in the design scheme and the production sheet template, converts the overlap into production data, and outputs the production data to a specified position in a high-definition diagram manner to generate a production sheet.
A factory downloads currently designed resources such as pictures, characters and the like from a cloud server according to order information, and produces a piece template and scaling data; loading a production sheet template, reading scaling data, firstly scaling the user design elements to the specification size of the actual production commodity according to the scaling, then cutting the design elements by using a color cutting algorithm, merging the design elements into a picture after cutting, and outputting the picture as a production sheet picture; because the specifications of each production piece template are different, when the design elements and the production piece templates are combined, the design elements are required to perform automatic scaling operation according to the scaling of the standard code production pieces and the actual production pieces, and the design elements with the actual sizes are obtained.
It should be understood that the above-mentioned embodiments are merely preferred embodiments of the present invention, and not intended to limit the present invention, and any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (5)
1. A production method for adding autonomous design through a mobile terminal is characterized in that,
manufacturing a virtual model on a mobile terminal according to an actual production object, wherein each part which can be added with design elements on the virtual model is drawn by using independent grid data;
manufacturing a production piece template corresponding to the virtual model on a mobile terminal, wherein each part of the virtual model, which can be added with design elements, corresponds to an editable area of the production piece template;
a user acquires a design element;
a user directly adds, modifies and deletes design elements on the virtual model, and saves the design scheme after the design scheme is completed;
a factory acquires a design scheme of a user, and generates a production piece based on design elements in the design scheme and the production piece template;
the production line uses the production sheet for product production, wherein, based on the design elements in the design scheme and the production sheet template, the mode of generating the production sheet comprises at least any one of the following modes:
-processing an editable area of the production sheet template using a color-coded cropping technique; superposing the design elements and the production sheet template processed by the color coding cutting technology, cutting the production sheet template processed by the color coding cutting technology based on color range alignment, and reserving a visible part in a design area to obtain the production sheet;
-superposing the design elements and the production sheet model, converting the superposition into production data, and outputting the production data to a specified position in a high-definition graph mode to generate the production sheet.
2. The method of claim 1, wherein the virtual model and the production sheet template are created using standard auto-scaling techniques.
3. The method for producing the self-contained design added through the mobile terminal as claimed in claim 1, wherein the user can operate the design element directly on the virtual model through the mobile terminal in two modes of gestures or buttons, and can rotate, zoom, modify, delete the design element and support the layer.
4. A method for production of joining an autonomous design by a mobile terminal according to claim 3, characterized in that the design elements include but are not limited to the following: pictures, words, masks.
5. The method for producing the self-contained design added through the mobile terminal according to claim 1, wherein the user saves the design after completing design of all design elements, the design elements cannot be modified any more, the design elements and data are output as design files and resource files, and the design elements and the data are packaged and uploaded to the cloud server to generate a unique order number.
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CN101847173A (en) * | 2010-05-31 | 2010-09-29 | 浙江理工大学 | Method of three-dimensional scanning free-shape design and plate-making and molding of clothes or accessories |
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US9898388B2 (en) * | 2014-05-23 | 2018-02-20 | Mentor Graphics Corporation | Non-intrusive software verification |
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CN101833674A (en) * | 2010-03-31 | 2010-09-15 | 赵德勇 | Method and system for integrating online modularized design and printing |
CN101847173A (en) * | 2010-05-31 | 2010-09-29 | 浙江理工大学 | Method of three-dimensional scanning free-shape design and plate-making and molding of clothes or accessories |
GB2531732A (en) * | 2014-10-28 | 2016-05-04 | Cox Richard | A method and application for updating progress and documentation on construction siteworks |
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