CN113536410B - Intelligent simulation system and method for 3D vertical cutting clothing patterns - Google Patents

Abstract

The application provides an intelligent simulation system and method for 3D vertical cutting clothing patterns, and relates to the field of clothing cutting simulation. The intelligent 3D vertical cutting clothing pattern simulation system comprises a mannequin molding module, a clothing molding module and an engineering pattern module, wherein the mannequin molding module is used for inputting human body data and creating a three-dimensional mannequin according to the human body data; the clothing modeling module is used for drawing clothing patterns according to the three-dimensional mannequin; the engineering paper pattern module is used for creating a clothing paper pattern according to the clothing pattern, the clothing paper pattern comprises the front paper pattern and the back paper pattern of the three-dimensional mannequin, and in addition, the application also provides a 3D vertical cutting clothing paper pattern intelligent simulation method. The application can improve the clothing manufacturing efficiency and meet the requirements of human morphology.

Description

Intelligent simulation system and method for 3D vertical cutting clothing patterns

Technical Field

The application relates to the field of garment pattern simulation, in particular to an intelligent simulation system and method for a 3D vertical cutting garment pattern.

Background

Currently, the process of designing and making garments generally involves measuring the size of the person, designing the style of the garment, making a template for the garment, and cutting and sewing the garment according to the template for the garment. When designing the clothing style, a designer needs to manually measure a group of human body sizes for a customer and fully communicate with the customer to design a product satisfactory to the customer; the templet creates a set of garment templets according to the customer's set of body dimensions and the designer's design. In the current clothing manufacturing process, when the manufactured clothing template is not good in try-on effect after being sewn, a template designer also needs to coordinate with a designer and re-manufacture the clothing template. Thus, the current clothing manufacturing cycle is generally longer and has more problems.

The traditional plate making method can produce chest and waist saving effect which can meet the human body shape, and proper effect can be obtained usually through the treatment of a return-to-draw process, which is time-consuming and labor-consuming and is not suitable for industrial production. The drawing back process mainly utilizes the expansion and contraction performance of the clothing fabric to properly change the warp and weft tissues of the fabric, or to lengthen, shorten or push the fabric to one direction, thereby achieving the purpose of shaping the clothing three-dimensional model. There is a need for a method that increases garment manufacturing efficiency and meets the morphological requirements of the human body.

Disclosure of Invention

The application aims to provide a 3D upright cutting clothing pattern intelligent simulation system which can improve clothing manufacturing efficiency and meets the requirements of human morphology.

The application further aims to provide a 3D upright cutting clothing pattern intelligent simulation method which can improve clothing manufacturing efficiency and meets the requirements of human morphology.

Embodiments of the present application are implemented as follows:

in a first aspect, an embodiment of the present application provides a 3D upright-cut clothing pattern intelligent simulation system, including a mannequin molding module, a clothing molding module, and an engineering pattern module, where the mannequin molding module is configured to input human body data, and create a three-dimensional mannequin according to the human body data; the clothing modeling module is used for drawing clothing patterns according to the three-dimensional mannequin; the engineering paper pattern module is used for creating a clothing paper pattern according to the clothing pattern, and the clothing paper pattern comprises a front paper pattern and a back paper pattern of the three-dimensional mannequin.

In some embodiments of the present application, the intelligent 3D upright cutting clothing pattern simulation system includes a collar positioning module, where the collar positioning module is configured to shorten a center line of the front pattern according to a collar midpoint of the front pattern, rotate around the side waist point by a certain position according to a line between the side waist point of the back pattern and the center line to form a back waist saving amount, and combine the back waist saving amounts.

In some embodiments of the present application, the intelligent 3D upright-cut clothing pattern simulation system includes a chest processing module, where the chest processing module is configured to obtain a length difference according to a clothing front side seam of the front pattern and a clothing back side seam of the back pattern, obtain a mark point according to the length difference below a cuff end point of the front pattern, and rotate a certain position around the collar midpoint according to a line connecting the collar midpoint of the front pattern and the mark point to form a chest saving, and combine the chest saving.

In some embodiments of the present application, the 3D upright cut clothing pattern intelligent simulation system includes a chest circumference correction module, where the chest circumference correction module is configured to modify cuffs of the combined front surface pattern according to a chest circumference of the back surface pattern.

In some embodiments of the application, the chest circumference correction module modifies the cuffs of the face stock according to the cuffs of the face stock.

In some embodiments of the application, the garment pattern comprises a sleeve pattern, and the cuffs of the sleeve pattern are modified according to the cuffs of the face pattern/back pattern.

In some embodiments of the application, the garment patterns include any one or more of style, fit, material and color.

In some embodiments of the application, the above-mentioned body data includes any one or more of shoulder width, back width, chest circumference, waist circumference, hip circumference, leg circumference, chest length, waist length, leg length, and neck length.

In a second aspect, an embodiment of the present application provides an intelligent simulation method for a 3D upright-cut clothing pattern, including the following steps: inputting human body data and creating a three-dimensional mannequin according to the human body data; drawing a clothing pattern according to the three-dimensional mannequin; creating a clothing pattern according to the clothing pattern, wherein the clothing pattern comprises a front pattern, a back pattern and a sleeve pattern of the three-dimensional mannequin; shortening the central line of the front paper pattern according to the middle point of the neckline of the front paper pattern, forming a back waist saving amount according to the rotation of a connecting line of a side waist point of the back paper pattern and the central line around the side waist point by a certain position, and cutting the back waist saving amount; and obtaining a length difference according to the garment front side seam of the front paper pattern and the garment rear side seam of the back paper pattern, obtaining a mark point according to the length difference below the cuff end point of the front paper pattern, forming a chest saving amount according to the rotation of a certain position around the collar midpoint of the front paper pattern by a connecting line of the collar midpoint of the front paper pattern and the mark point, and cutting the chest saving amount.

In some embodiments of the present application, the above-mentioned intelligent simulation method for 3D cut-to-live clothing patterns includes the following steps: and modifying the cuffs of the combined front paper patterns according to the chest circumference of the back paper patterns, modifying the cuffs of the front paper patterns according to the cuffs of the back paper patterns, and modifying the cuffs of the sleeve paper patterns according to the cuffs of the front paper patterns/the back paper patterns.

Compared with the prior art, the embodiment of the application has at least the following advantages or beneficial effects:

in a first aspect, an embodiment of the present application provides a 3D upright-cut clothing pattern intelligent simulation system, including a mannequin molding module, a clothing molding module, and an engineering pattern module, where the mannequin molding module is configured to input human body data, and create a three-dimensional mannequin according to the human body data; the clothing modeling module is used for drawing clothing patterns according to the three-dimensional mannequin; the engineering paper pattern module is used for creating a clothing paper pattern according to the clothing pattern, and the clothing paper pattern comprises a front paper pattern and a back paper pattern of the three-dimensional mannequin.

For the first aspect: according to the application, the human body data is utilized to create the three-dimensional human body table through the human body table molding module, so that the step of transferring the planar paper pattern to the design is omitted, and the design efficiency of the clothing paper pattern is improved; the clothing modeling module draws clothing patterns according to the three-dimensional mannequin, so that clothing conforming to different statures is designed, customers can visually check and select the clothing, and satisfaction and efficiency of customizing clothing and industrial clothing patterns by people are improved; the clothing pattern is created according to the clothing pattern through the engineering pattern module, so that the three-dimensional clothing design pattern is converted into pattern design, adjustment and manufacture are facilitated according to the pattern design, wherein the clothing pattern comprises a front pattern and a back pattern of the three-dimensional mannequin, the front pattern and the back pattern are respectively designed, different types of clothing patterns are conveniently designed, and the requirements of people for body tailoring are met. The application can improve the clothing manufacturing efficiency and meet the requirements of human morphology.

In a second aspect, an embodiment of the present application provides an intelligent simulation method for a 3D upright-cut clothing pattern, including the following steps: inputting human body data and creating a three-dimensional mannequin according to the human body data; drawing a clothing pattern according to the three-dimensional mannequin; creating a clothing pattern according to the clothing pattern, wherein the clothing pattern comprises a front pattern, a back pattern and a sleeve pattern of the three-dimensional mannequin; shortening the central line of the front paper pattern according to the middle point of the neckline of the front paper pattern, forming a rear waist saving amount by rotating a certain position around the side waist point according to the connecting line of the side waist point of the back paper pattern and the central line, and combining the rear waist saving amounts; and obtaining a length difference according to the garment front side seam of the front paper pattern and the garment rear side seam of the back paper pattern, obtaining a mark point according to the length difference below the cuff end point of the front paper pattern, forming a chest saving amount according to the rotation of a certain position around the collar midpoint of the front paper pattern and the connecting line of the mark point, and combining the chest saving amounts.

For the second aspect: according to the embodiment of the application, the three-dimensional mannequin is created by inputting the human body data and utilizing the human body data, so that the step of transferring the planar paper pattern to the province design is omitted, and the clothing customization design efficiency is improved; the clothes patterns are drawn through the three-dimensional mannequin, so that clothes conforming to different sizes are designed, customers can visually check and select the clothes, and satisfaction and efficiency of the customers on customizing clothes or industrial clothes patterns are improved; creating a clothing pattern according to the clothing style, so that the three-dimensional clothing design style is converted into a pattern design, and the adjustment and the manufacture are convenient according to the pattern design, wherein the clothing pattern comprises a front pattern and a back pattern of a three-dimensional mannequin, the front pattern and the back pattern are respectively designed, different types of clothing patterns are convenient to design, and the requirements of people for body tailoring and industrial clothing patterns are met; shortening the central line of the front paper pattern through the middle point of the neckline, forming a back waist saving amount according to the rotation of a certain position of the connecting line of the side waist point of the back paper pattern and the central line around the side waist point, combining the back waist saving amounts, realizing the dark saving treatment of the garment, and enabling the garment to be more fit with the human body design; obtaining a length difference according to the garment front side seam of the front paper pattern and the garment rear side seam of the back paper pattern, obtaining a mark point according to the length difference below the cuff end point of the front paper pattern, forming a saving and combining according to a certain position around the collar midpoint of the front paper pattern by rotating a connecting line of the collar midpoint of the front paper pattern and the mark point, and further realizing dark saving treatment. The application can improve the clothing manufacturing efficiency and meet the requirements of human morphology.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of a 3D upright cut clothing pattern intelligent simulation system in embodiment 1 of the present application;

fig. 2 is a flow chart of a method for intelligently simulating a 3D upright cut clothing pattern in embodiment 2 of the application;

FIG. 3 is a front view of a three-dimensional table according to embodiments 1 to 2 of the present application;

FIG. 4 is a front view of the garment pattern of examples 1-2 of the present application;

fig. 5 is a schematic structural view of a front paper pattern in embodiments 1 to 2 of the present application;

fig. 6 is a schematic structural view of the back sheet in examples 1 to 2 of the present application.

The reference numerals include the following: 1-three-dimensional mannequin, 2-front paper pattern, 3-sleeve paper pattern, 4-front cuff, 5-first collar midpoint, 6-chest saving, 7-first cuff endpoint, 8-length difference, 9-mark point, 10-second collar midpoint, 11-back paper pattern, 12-side waist point, 13-back waist saving, 14-front center line, 15-back center line, 16-horizontal straight line, 17-back cuff, 18-clothing front side seam, 19-clothing back side seam, 20-collar saving, 21-first collar endpoint.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments of the present application. The components of the embodiments of the present application generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the application, as presented in the figures, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the description of the present application, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed", "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present application will be understood in specific cases by those of ordinary skill in the art.

Some embodiments of the present application are described in detail below with reference to the accompanying drawings. The various embodiments and features of the embodiments described below may be combined with one another without conflict.

Example 1

Referring to fig. 1 and fig. 3 to fig. 6, fig. 1 is a schematic diagram of a 3D upright-cut clothing pattern intelligent simulation system according to an embodiment of the application. The intelligent 3D vertical cutting clothing pattern simulation system comprises a mannequin molding module, a clothing molding module and an engineering pattern module, wherein the mannequin molding module is used for inputting human body data and creating a three-dimensional mannequin 1 according to the human body data; the clothing modeling module is used for drawing clothing patterns according to the three-dimensional mannequin 1; the engineering paper pattern module is used for creating a clothing paper pattern according to the clothing pattern, and the clothing paper pattern comprises a front paper pattern 2 and a back paper pattern 11 of the three-dimensional mannequin 1.

In detail, the embodiment of the present application inputs human body data through the human body bench shaping module, wherein the human body data includes waistline, chest circumference, and hip circumference. In detail, after the mannequin molding module inputs human body data, the size of the chest circumference is properly increased, the waistline is properly reduced, and the hip circumference is properly increased, so that the fit of the design of the garment is improved, and the automatic garment transferring function is realized. Wherein the size of the chest circumference increase, the size of the waist circumference decrease, and the size of the hip circumference increase can be between 1cm and 6 cm. The height difference between the chest circumference and the waistline and between the waistline and the hip circumference can be used for adapting to the stature of people, the shaping of the clothes model is enhanced, and the requirements of different clothes styles are met. In detail, the mannequin model corresponding to the customer generated after the province is transferred can be any modeling, such as half body or whole body. Optionally, a mannequin model is generated according to the length, waist length and other data, and the garment shaping module draws different garment styles according to the three-dimensional mannequin 1, so that the try-on effect of a customer is met. In detail, the garment pattern can be selected by leading in different garment templates, and various data of the templates are matched with various data of the stereoscopic mannequin 1, so that the garment templates fit on the stereoscopic mannequin 1. Alternatively, the stereoscopic mannequin 1 displays and draws the clothing pattern, and the pattern design can be performed by modifying the drawn clothing pattern by points, lines, and faces. In detail, the engineering paper pattern module creates a clothing paper pattern according to the clothing pattern, and the clothing paper pattern comprises a front paper pattern 2 and a back paper pattern 11, wherein the front paper pattern 2 is generated through the front shape of the three-dimensional mannequin 1, and the back paper pattern 11 is generated through the back shape of the three-dimensional mannequin 1. In detail, since the front pattern 2 and the back pattern 11 are symmetrical, only half of them can be equally distributed by the vertical center line and only half of them are displayed, so that the front pattern 2 and the back pattern 11 can be easily modified by the symmetrical half.

In some embodiments of the present application, the intelligent 3D upright cut clothing pattern simulation system includes a collar positioning module, where the collar positioning module is configured to shorten a front center line 14 of the front pattern 2 according to a first collar midpoint 5 of the front pattern 2, form a back waist saving 13 by rotating a line between a side waist point 12 of the back pattern 11 and a back center line 15 around the side waist point 12 by a certain position, and cut the back waist saving 13.

In detail, the first neckline midpoint 5 of the front sheet 2 is a point where the front center line 14 intersects the neckline, and the second neckline midpoint 10 of the back sheet 11 is a point where the back center line 15 intersects the neckline. The first neckline midpoint 5 of the front paper sample 2 is moved so as to shorten the front central line 14, wherein the front central line can be shortened by 1 cm-4 cm, the first neckline endpoint 21 is fixed, the first neckline endpoint 21 is connected to the first neckline midpoint 5 through an arc line, and the neckline saving 20 is cut after the position of the first neckline midpoint 5 is moved downwards. Correspondingly, the horizontal connecting line of the side waist concave part side waist point 12 of the back paper sample 11 connected to the back central line 15 rotates downwards around the side waist point 12 by a certain position to form a waist saving amount, and the waist saving amount is cut, so that the neckline key of the back paper sample 11 moves downwards by a certain position. The first neckline midpoint 5 of the front paper pattern 2 is lower than the second neckline midpoint 10 of the back paper pattern 11, and the downward moving position is also lower than the second neckline midpoint 10 of the back paper pattern 11, so that the comfort of the neckline, chest and back is improved when the garment is worn, and the fit degree of the garment is improved. Wherein, the clothes at two sides of the back waist saving 13 are spliced after cutting, so that the gap of the back waist saving 13 is eliminated.

In some embodiments of the present application, the intelligent 3D cut-to-standing clothing pattern simulation system includes a chest processing module, where the chest processing module is configured to obtain a length difference 8 according to a clothing front side seam 18 of the front pattern 2 and a clothing back side seam 19 of the back pattern 11, obtain a mark point 9 according to the length difference 8 located below a first cuff end point 7 of the front pattern 2, and rotate a certain position around the first collar end point 5 according to a line connecting the first collar end point 5 of the front pattern 2 and the mark point 9 to form a chest saving 6 and combine the chest saving 6.

In detail, the chest processing module obtains a length difference 8 according to the arc length of the garment front side seam 18 of the front paper pattern 2 and the garment front side seam 18 of the back paper pattern 11, marks a point according to the position of the lower end points of the cuffs of the front paper pattern 2, rotates a certain position around the first collar midpoint 5 according to the connecting line of the mark point 9 and the first collar midpoint 5 to form a chest saving amount 6, and meets the requirement that the fit of the garment can be improved without a return-pull process. Optionally, the length of the front side seam of the front paper pattern 2 is matched with the shortened length of the front central line 14 when the chest saving amount 6 is arranged, so that uneven hem on the front side of the garment is prevented, and the garment processing efficiency and quality are improved. Wherein, the clothes at the two sides of the chest saving amount 6 are spliced after being combined, so that the gap of the chest saving amount 6 is eliminated.

In some embodiments of the present application, the 3D upright cut clothing pattern intelligent simulation system includes a chest circumference correction module, where the chest circumference correction module is configured to modify the front cuffs 4 of the front pattern 2 after cutting according to the chest circumference of the back pattern 11.

In detail, the chest circumference correcting module adjusts the chest circumference size through the front cuffs 4 according to the front paper pattern 2 processed by the chest circumference saving amount 6 of the back paper pattern 11, improves the wearing comfort of people, and is especially suitable for various types of female clothing paper patterns.

In some embodiments of the application, the chest circumference correction module modifies the front cuffs 4 of the face stock 2 according to the back cuffs 17 of the back stock 11.

In detail, the chest circumference correcting module modifies the front cuffs 4 of the front paper pattern 2 according to the shape and the size of the back cuffs 17 of the back paper pattern 11, so as to facilitate sewing the sleeves

In some embodiments of the application, the garment pattern comprises a sleeve pattern 3, the cuffs of the sleeve pattern 3 being modified according to the front cuffs 4/back cuffs 17 of the front pattern 2/back pattern 11.

In detail, the sleeve paper pattern 3 is one piece, the front and the back of the three-dimensional figure are not distinguished, and each part of the sleeve paper pattern 3 is conveniently positioned according to the front cuffs 4 and the back cuffs 17, so that the shape and the size are adjusted. Likewise, the chest circumference, waistline and hip circumference of the front paper pattern 2 and the back paper pattern 11 are correspondingly marked, so that the size can be conveniently adjusted according to the corresponding positions, and the back paper pattern is suitable for being worn by people.

In some embodiments of the application, the garment patterns include any one or more of style, fit, material and color.

In detail, the garment pattern can be designed by means of style, pattern, material and color, and the garment pattern can be displayed by the three-dimensional mannequin 1, so that the design of the pattern satisfied by customers is facilitated, and the efficiency of garment customization and industrial garment pattern is improved.

In some embodiments of the application, the above-mentioned body data includes any one or more of shoulder width, back width, chest circumference, waist circumference, hip circumference, leg circumference, chest length, waist length, leg length, and neck length.

In detail, the human body data can be set according to various sizes, so that the clothes pattern can be drawn conveniently through the three-dimensional mannequin 1, the more real try-on effect of the customer is displayed, and the custom-made clothes satisfactory to the customer can be designed conveniently.

Example 2

Referring to fig. 2 and 3-6, the embodiment of the application provides an intelligent simulation method for a 3D upright cut clothing pattern, which comprises the following steps: inputting human body data and creating a three-dimensional mannequin 1 according to the human body data; drawing a clothing pattern according to the three-dimensional mannequin 1; creating a clothing pattern according to the clothing pattern, wherein the clothing pattern comprises a front pattern 2, a back pattern 11 and a sleeve pattern 3 of the three-dimensional mannequin 1; shortening the front center line 14 of the front paper pattern 2 according to the first collar midpoint 5 of the front paper pattern 2, forming a back waist saving amount 13 according to the rotation of a certain position around the side waist point 12 of the connecting line of the side waist point 12 and the back center line 15 of the back paper pattern 11, and combining the back waist saving amounts 13; a length difference 8 is obtained from a garment front side seam 18 of the front pattern 2 and a garment rear side seam 19 of the back pattern 11, a mark point 9 is obtained from the length difference 8 located below a first cuff end point 7 of the front pattern 2, a chest saving 6 is formed by rotating a line between a first neckline midpoint 5 of the front pattern 2 and the mark point 9 around the first neckline midpoint 5 by a predetermined position, and the chest saving 6 is combined.

In some embodiments of the present application, the method for intelligently simulating the 3D cut-to-stand clothing pattern includes the following steps: the front cuffs 4 of the front pattern 2 cut according to the chest circumference of the back pattern 11 are modified, the cuffs of the front pattern 2 are modified according to the back cuffs 17 of the back pattern 11, and the cuffs of the sleeve pattern 3 are modified according to the front pattern 2/the front cuffs 4/the back cuffs 17 of the back pattern 11.

The principle and advantageous effects of the above are the same as those of embodiment 1, and a repetitive description thereof will not be made here.

It will be appreciated that the configuration shown in fig. 1 is merely illustrative, and that the 3D cut-to-live fashion intelligent simulation system may also include more or fewer components than shown in fig. 1, or have a different configuration than shown in fig. 1. The components shown in fig. 1 may be implemented in hardware, software, or a combination thereof.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other manners. The apparatus embodiments described above are merely illustrative, for example, of the flowcharts and block diagrams in the figures that illustrate the architecture, functionality, and operation of possible implementations of apparatus, methods and computer program products according to various embodiments of the present application. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

In addition, functional modules in the embodiments of the present application may be integrated together to form a single part, or each module may exist alone, or two or more modules may be integrated to form a single part.

The above functions, if implemented in the form of software functional modules and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on this understanding, the technical solution of the present application may be embodied in essence or a part contributing to the prior art or a part of the technical solution in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the above-described method of the various embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

In summary, the 3D upright cutting clothing pattern intelligent simulation system and method provided by the embodiment of the application are as follows:

according to the embodiment of the application, the three-dimensional mannequin 1 is created by inputting the human body data and utilizing the human body data, so that the step of manual cutting design is omitted, and the clothing customization design efficiency is improved; the clothes patterns are drawn through the three-dimensional mannequin 1, so that clothes conforming to different sizes are designed, customers can visually check and select the clothes, and satisfaction and efficiency of customizing the clothes by the customers are improved; creating a clothing pattern according to the clothing pattern, so that the three-dimensional clothing design pattern is converted into a pattern design, and the adjustment and the manufacture are convenient according to the pattern design, wherein the clothing pattern comprises a front pattern 2 and a back pattern 11 of a three-dimensional mannequin 1, and the front pattern 2 and the back pattern 11 are respectively designed, so that different types of clothing patterns are convenient to design, and the requirements of people for body cutting are met; shortening the front center line 14 of the front paper sample 2 through the first collar midpoint 5, forming a rear waist saving amount 13 by rotating a certain position around the side waist point 12 according to the connecting line of the side waist point 12 and the back center line 15 of the back paper sample 11, cutting the rear waist saving amount 13, realizing dark saving treatment of clothing, and enabling the clothing to be more fit with the personal design; the length difference 8 is obtained according to the clothing front side seam 18 of the front paper pattern 2 and the clothing back side seam 19 of the back paper pattern 11, the mark point 9 is obtained according to the length difference 8 below the first cuff end point 7 of the front paper pattern 2, and the line between the first neckline midpoint 5 of the front paper pattern 2 and the mark point 9 is rotated around the first neckline midpoint 5 by a certain position to form a saving amount and is combined, so that the dark saving processing is further realized. The application meets the human body morphological requirement better through automatic transferring and saving processing, reduces the returning and pulling process and further improves the clothing manufacturing efficiency.

The above description is only of the preferred embodiments of the present application and is not intended to limit the present application, but various modifications and variations can be made to the present application by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the protection scope of the present application.

It will be evident to those skilled in the art that the application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The intelligent 3D vertical cutting clothing pattern simulation system is characterized by comprising a mannequin molding module, a clothing molding module, an engineering pattern module, a collar positioning module and a chest processing module, wherein the mannequin molding module is used for inputting human body data and creating a three-dimensional mannequin according to the human body data; the clothing modeling module is used for drawing clothing patterns according to the three-dimensional mannequin; the engineering paper pattern module is used for creating a clothing paper pattern according to the clothing pattern, and the clothing paper pattern comprises a front paper pattern and a back paper pattern of the three-dimensional mannequin; the collar positioning module is used for shortening the central line of the front paper pattern according to the collar midpoint of the front paper pattern, forming a back waist saving amount by rotating around a side waist point to a certain position according to the connecting line of the side waist point of the back paper pattern and the central line, and cutting the back waist saving amount; the chest processing module is used for obtaining a length difference according to a garment front side seam of the front paper pattern and a garment rear side seam of the back paper pattern, obtaining a mark point according to the length difference below a cuff end point of the front paper pattern, forming a chest saving amount according to a line between a collar midpoint of the front paper pattern and the mark point and rotating a certain position around the collar midpoint, and combining the chest saving amounts.

2. The intelligent 3D cut-to-standing clothing pattern simulation system according to claim 1, comprising a chest circumference correction module for modifying the cuffs of the combined face pattern according to the chest circumference of the back pattern.

3. The intelligent 3D cut-to-standing clothing pattern simulation system of claim 2, wherein the chest circumference correction module modifies the cuffs of the face pattern according to the cuffs of the back pattern.

4. A 3D cut-to-live garment pattern intelligent simulation system according to claim 3, wherein the garment pattern comprises a sleeve pattern, the cuffs of the sleeve pattern being modified according to the cuffs of the face pattern/back pattern.

5. The intelligent 3D cut-to-live garment pattern simulation system according to claim 1, wherein the garment pattern comprises any one or more of a style, a layout, a material, and a color.

6. The intelligent 3D cut-to-standing clothing pattern simulation system of claim 1, wherein the body data comprises any one or more of a shoulder width, a back width, a chest circumference, a waist circumference, a hip circumference, a leg circumference, a chest length, a waist length, a leg length, and a neck length.

7. The intelligent simulation method for the 3D upright cutting clothing pattern is characterized by comprising the following steps of: inputting human body data and creating a three-dimensional mannequin according to the human body data; drawing a clothing pattern according to the three-dimensional mannequin; creating a clothing pattern according to the clothing pattern, wherein the clothing pattern comprises a front pattern, a back pattern and a sleeve pattern of the three-dimensional mannequin; shortening the central line of the front paper pattern according to the middle point of the neckline of the front paper pattern, forming a rear waist saving amount according to the rotation of a certain position around the side waist point of the connecting line of the side waist point of the back paper pattern and the central line, and merging the rear waist saving amounts; obtaining a length difference according to the garment front side seam of the front paper pattern and the garment rear side seam of the back paper pattern, obtaining a mark point according to the length difference below the cuff end point of the front paper pattern, forming a chest saving amount according to the fact that a connecting line of the collar midpoint of the front paper pattern and the mark point rotates around the collar midpoint at a certain position, and combining the chest saving amounts.

8. The intelligent simulation method for the 3D upright cut clothing pattern according to claim 7, comprising the following steps: and modifying the cuffs of the combined front paper patterns according to the chest circumference of the back paper patterns, modifying the cuffs of the front paper patterns according to the cuffs of the back paper patterns, and modifying the cuffs of the sleeve paper patterns according to the cuffs of the front paper patterns/the back paper patterns.