CN116702246A - Method and system for interaction between digital clothing CAD drawing and 3D clothing DIY cloud design - Google Patents

Abstract

The invention belongs to the technical field of digital information processing, and provides a method and a system for interaction between a digital clothing CAD drawing and a 3D clothing DIY cloud design.

Description

Method and system for interaction between digital clothing CAD drawing and 3D clothing DIY cloud design

Technical Field

The invention relates to the technical field of digital information processing, in particular to a method and a system for interaction between a digital clothing CAD drawing and a 3D clothing DIY cloud design.

Background

Along with the rapid development of socioeconomic, factories face the ever-changing complicated demands of clothing individuation, and the CAD graph paper sheets and fabrics of the clothing need to be displayed to users in the shape of finished products for previewing effects. In the existing clothing design technology, the physical display of clothing CAD drawing sheets and fabrics in the finished product is mainly realized through a 2D picture display technology, and 2D pictures (for example, pictures obtained by photographing cameras and mobile phones) can intuitively display finished product information, but if more finished product details need to be checked, shooting is needed from multiple dimensions, the effect of the finished product cannot be checked by free rotation, and browsing of all the details can be realized through shooting. Meanwhile, as the fabric and the style are limited by the shooting of the camera, different fabrics cannot be switched to view the effect in real time. In addition, the traditional 2D picture display finished product has low efficiency, and only one finished product is produced by the technological processes of material preparation, printing, cutting, sewing, thorn printing and the like, so that the working period is long, the middle link can be started from the beginning once deviation occurs, and the loss probability is increased. Moreover, the conventional 2D picture presentation requires a lot of language communication with the client, there is a gap between the clothing design requirement and the actual floor design, and the idea of DIY (Do It Yourself) of the client cannot be realized.

In summary, the existing 2D picture display technology of the finished product has the technical problems of low efficiency, high cost, incapability of switching different fabrics, incapability of presenting different design effects in real time, incapability of realizing the idea of DIY of the client, and the like.

Disclosure of Invention

Aiming at the defects of the technical scheme, the invention provides a method and a system for interaction between a digital clothing CAD drawing and a 3D clothing DIY cloud design, which improve clothing design efficiency, reduce clothing design cost, realize the DIY idea of a client and present different design effects for the client in real time.

In a first aspect, the present invention provides a method for interaction between a digital clothing CAD drawing and a 3D clothing DIY cloud design, where the method for interaction between the digital clothing CAD drawing and the 3D clothing DIY cloud design operates at a client, and the method for interaction between the digital clothing CAD drawing and the 3D clothing DIY cloud design includes the following steps:

acquiring a clothing CAD drawing, design elements and a 3D clothing model matched with the clothing CAD drawing;

rendering the design elements to an operable area of the clothing CAD drawing to generate a design rendering drawing;

and rendering and sewing the design rendering drawing and the 3D clothing model through a 3D rendering technology to generate a 3D clothing finished product to be checked and ordered, and synchronizing ordering information to a factory end after checking and ordering so as to enable the factory end to produce according to needs.

Further, the obtaining the clothing CAD drawing, the design element, and the 3D clothing model adapted to the clothing CAD drawing includes:

acquiring a clothing CAD drawing provided by a factory end from a server, wherein the clothing CAD drawing comprises clothing styles and clothing parts;

obtaining design elements pre-stored in a server database from a server and/or obtaining design elements provided by a factory end from the server and/or obtaining the design elements from a local place;

and acquiring a 3D clothing model which is pre-stored in a database and is matched with the clothing CAD drawing according to the pre-corresponding relation between the clothing CAD drawing and the 3D clothing model.

Further, the design elements include a garment shell for incorporation into a garment ensemble of the garment CAD drawing and a garment pattern for incorporation into the garment part.

Further, the garment fabric is generated by scanning the entity fabric through a high-definition scanner.

Further, the garment pattern includes a text pattern and/or a graphic pattern.

Further, the rendering the design elements to the operable area of the clothing CAD drawing to generate a design rendering drawing, comprising:

dividing an operable area of the clothing CAD drawing;

and responding to the design operation instruction, and rendering the design element to the operable area to generate a design rendering drawing.

Further, the configuring the design element to the operable area in response to a design operation instruction to generate a design rendering drawing includes:

responding to a design operation instruction of pattern design of a clothing component of the clothing CAD drawing, configuring a selected clothing pattern to the operable area so as to enable the clothing pattern to be rendered to a selected position of the clothing component, and generating a design rendering drawing; and/or

And responding to a design operation instruction of fabric design of the whole clothing of the clothing CAD drawing, configuring the selected clothing fabric to the operable area so as to render the clothing fabric to the whole clothing, and generating a design rendering drawing.

Further, the configuring the selected garment pattern to the operable area includes:

acquiring a selection signal of a clothing pattern, and selecting the clothing pattern;

and acquiring a dragging signal for dragging the selected clothing pattern, and moving the selected clothing pattern to the operable area.

Further, the configuring the selected garment materials to the operable area includes:

acquiring a selection signal of a garment material, and selecting the garment material;

an add-on signal is obtained for adding the selected garment material and the selected garment pattern is added to the operative area.

In a second aspect, the present invention provides a system for interaction between a digital clothing CAD drawing and a 3D clothing DIY cloud design, comprising:

the system comprises a server, a client and a user interface, wherein the server is used for providing a clothing CAD drawing and a 3D clothing model matched with the clothing CAD drawing for the client, and providing design elements for the client when the client requests to provide the design elements;

a client comprising a processor and a memory, the memory storing a computer program, the processor running the computer program to implement the method of digitized garment CAD drawings of any one of claims 1-9 interacting with a 3D garment DIY cloud design;

and the factory end is used for providing the clothing CAD drawing for the server and carrying out on-demand production according to the ordering information.

Compared with the prior art, the invention has the following beneficial effects:

the invention provides a method and a system for interaction between a digital clothing CAD drawing and a 3D clothing DIY cloud design, wherein the design elements are rendered to an operable area of the clothing CAD drawing to generate a design rendering drawing by acquiring the clothing CAD drawing, the design elements and a 3D clothing model matched with the clothing CAD drawing, the design rendering drawing and the 3D clothing model are rendered and sewed by a 3D rendering technology to generate a 3D clothing finished product waiting for confirmation order, and order information is synchronously issued to a factory end after confirmation order so as to enable the factory end to produce according to the needs, thereby realizing the participation of a client in the design, realizing the DIY idea of the client, presenting different design effects for the client in real time, improving the clothing design efficiency and reducing the clothing design cost.

Drawings

FIG. 1 is a schematic flow chart of a method of interaction of a digitized garment CAD drawing and a 3D garment DIY cloud design of the present invention;

FIG. 2 is a schematic illustration of the design of a style component in a client interactive interface of the present invention;

FIG. 3 is a schematic illustration of a fabric design in a client interactive interface of the present invention;

FIG. 4 is a schematic diagram of an order selection in a client interactive interface of the present invention;

FIG. 5 is a schematic diagram of a text design in a client interactive interface of the present invention;

FIG. 6 is a schematic diagram of a composite view of a garment component, garment fabric, and garment pattern in a client interactive interface according to the present invention;

FIG. 7 is a schematic illustration of an Uv plan expanded view of a 3D garment model in a client interactive interface of the present invention;

FIG. 8 is a schematic diagram of the results of mX, mY, mW, mH presentation in the client interactive interface of the present invention;

FIG. 9 is a schematic diagram of an architecture of a client of the present invention;

FIG. 10 is a schematic diagram of an architecture of a system of the present invention for interaction of a digitized garment CAD drawing with a 3D garment DIY cloud design.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

It should be noted that, if the terms "first," "second," and the like in the description of the present invention and the claims and the above drawings appear, the terms are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the invention described herein may be implemented in sequences other than those illustrated or otherwise described herein.

Example 1

Referring to fig. 1 to 10, an embodiment provides a method for interaction between a digital clothing CAD drawing and a 3D clothing DIY cloud design, which includes steps S1, S2 and S3, wherein the design elements are rendered to an operable area of the clothing CAD drawing by acquiring the clothing CAD drawing, the design elements and a 3D clothing model adapted to the clothing CAD drawing to generate a design rendering drawing, the design rendering drawing and the 3D clothing model are rendered and stitched by a 3D rendering technology to generate a 3D clothing finished product waiting for confirmation order, and after confirmation order making is performed, the order making information is synchronized to a factory end to enable the factory end to be produced as required, so that a client end participates in the design, the idea of DIY of the client end is realized, different design effects are presented for the client end in real time, the clothing design efficiency is improved, and the clothing design cost is reduced.

It should be noted that, the method for interaction between the digital clothing CAD drawing and the 3D clothing DIY cloud design provided in this embodiment may be run at the client, where the client is used as an execution subject of all or part of the steps in the method for interaction between the digital clothing CAD drawing and the 3D clothing DIY cloud design, and may execute part or all of the steps of the method referred to below in addition to the steps S1, S2 and S3 in this embodiment. The client comprises a memory, a processor and a network interface which are mutually communicated through a system bus. It should be noted that only some of the components of the client are shown in the figures, but it should be understood that not all of the illustrated components are required to be implemented and that more or fewer components may be implemented instead. It will be appreciated by those skilled in the art that a client is a device capable of automatically performing numerical calculations and/or information processing according to predetermined or stored instructions, the hardware of which includes, but is not limited to, microprocessors, application specific integrated circuits (Application Specific Integrated Circuit, ASIC), programmable gate arrays (Field-Programmable Gate Array, FPGA), digital processors (Digital Signal Processor, DSP), embedded devices, etc. The client may be a computing device such as a smart phone, smart wearable device, or the like. The client can perform man-machine interaction with a user through a keyboard, a mouse, a remote controller, a touch pad or voice control equipment and the like. The memory includes at least one type of readable storage medium including flash memory, hard disk, multimedia card, card memory (e.g., SD or DX memory, etc.), random Access Memory (RAM), static Random Access Memory (SRAM), read-only memory (ROM), electrically erasable programmable read-only memory (EEPROM), programmable read-only memory (PROM), magnetic memory, magnetic disk, optical disk, etc. In some embodiments, the memory may be an internal storage unit of the client, such as a hard disk or a memory of the client. In other embodiments, the memory may also be an external storage device of the client, such as a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash Card (Flash Card) or the like, which are provided on the client. Of course, the memory may also include both the internal storage unit of the client and its external storage device.

Specifically, in step S1, a client obtains a CAD drawing of a garment, a design element, and a 3D garment model adapted to the CAD drawing of the garment.

It should be noted that, the factory end is taken as a generating party of the clothing, and usually has clothing CAD drawings, but most factory ends do not have 3D clothing models adapted to the clothing CAD drawings. In the prior art, when a customer needs to purchase clothing, a factory end displays the CAD drawing of the clothing to the customer, and then the factory end repeatedly communicates with the customer for modification in a field or remote mode, and finally confirms the design requirement of the customer and then performs finished product design and production. The mode makes the customer unable to participate in the design independently, and the efficiency is low, and the technological processes such as material preparation, printing, cutting, sewing, and thorn printing are involved to produce a finished product, so that the working period is long, and once deviation occurs in the intermediate link, the intermediate link can be started from the beginning, thereby increasing the loss probability. Moreover, a great deal of language communication exists, and a gap exists between the clothing design requirement and the actual floor design, so that the design concept wanted by the customer cannot be realized finally.

In this embodiment, the client obtains the CAD drawing of the garment, the design element, and the 3D garment model adapted to the CAD drawing of the garment, so that the DIY (Do It Yourself) design may be performed in the subsequent steps S2 and S3.

In some preferred embodiments, step S1 may comprise the steps of: acquiring a clothing CAD drawing provided by a factory end from a server, wherein the clothing CAD drawing comprises clothing styles and clothing parts; obtaining design elements pre-stored in a server database from a server and/or obtaining design elements provided by a factory end from the server and/or obtaining the design elements from a local place; and acquiring a 3D clothing model which is pre-stored in a database and is matched with the clothing CAD drawing according to the pre-corresponding relation between the clothing CAD drawing and the 3D clothing model. Further, the design elements may include a garment shell for incorporation into a garment ensemble of the garment CAD drawing and a garment pattern for incorporation into the garment part. Further, the garment pattern includes a text pattern and/or a graphic pattern.

It should be noted that, in this embodiment, the design elements may be pre-stored in the server database, and provided to the client by the client selecting and calling. The design elements may be provided by the factory side to the server and provided to the client by way of client-side selective call. The design element may also be a client-side self-design generation or scan upload from local. For example, the clothing fabric is generated by scanning the entity fabric through a high-definition scanner and then uploaded to a client.

In some preferred embodiments, after the clothing CAD drawing provided by the factory end is sent to the server, the server extracts the layer data of the clothing CAD drawing by identifying the clothing parts, and separates the data to obtain the cut piece information of the single clothing part for storage. Meanwhile, the server processes the superimposed combination association relation of the clothing components, marks the clothing component information obtained after the data are separated according to the designed position, so that the clothing component splicing position is tightly attached and is not misplaced, and meanwhile the obtained marked point information is stored. Meanwhile, the server performs matching tracing processing on the cut piece information of the CAD drawing and the chartlet UV normal of the manufactured 3D clothing model by processing the corresponding relation between the clothing component and the UV normal of the 3D clothing model so as to ensure that the size and the direction of the CAD drawing and the UV normal are consistent, and stores the matching tracing information of the cut piece information of the CAD drawing and the chartlet UV normal of the 3D clothing model.

Specifically, in step S2, the client renders the design element to an operable area of the CAD drawing of the garment, so as to generate a design rendering drawing.

It should be noted that, rendering the design element to the operable area of the clothing CAD drawing to generate a design rendering drawing may include the following steps: dividing an operable area of the clothing CAD drawing; and responding to the design operation instruction, and rendering the design element to the operable area to generate a design rendering drawing. Further, the configuring the design element to the operable area in response to the design operation instruction to generate a design rendering drawing may include the steps of: responding to a design operation instruction of pattern design of a clothing component of the clothing CAD drawing, configuring a selected clothing pattern to the operable area so as to enable the clothing pattern to be rendered to a selected position of the clothing component, and generating a design rendering drawing; and/or responding to a design operation instruction of fabric design of the whole clothing of the clothing CAD drawing, configuring the selected clothing fabric to the operable area so as to render the clothing fabric to the whole clothing, and generating a design rendering drawing. Further, the configuring of the selected garment pattern to the operative area may include the steps of: acquiring a selection signal of a clothing pattern, and selecting the clothing pattern; and acquiring a dragging signal for dragging the selected clothing pattern, and moving the selected clothing pattern to the operable area. Further, the configuring the selected garment materials to the operable area may include the steps of: acquiring a selection signal of a garment material, and selecting the garment material; an add-on signal is obtained for adding the selected garment material and the selected garment pattern is added to the operative area.

In some preferred embodiments, rendering the design element to the operable area in response to a design operation instruction to generate a design rendering drawing may include the steps of: zooming and/or rotating the clothing pattern in response to a design operation instruction of the clothing pattern triggered by a zooming button and/or a rotating button; and automatically cutting the clothing fabric according to the shape of the clothing component in the CAD clothing drawing, and combining a plurality of different fabrics and characters based on the CAD clothing drawing to generate a design rendering drawing.

Specifically, in step S3, the client performs rendering stitching on the design rendering drawing and the 3D garment model through a 3D rendering technology, so as to generate a 3D garment finished product, and after confirmation of the order, the client synchronizes order information to the factory end so as to enable the factory end to produce according to needs.

In some preferred embodiments, step S3 may comprise the steps of: according to the UV normal coordinates, the rotation angles and the intelligent typesetting algorithm of the 3D garment model, carrying out data cutting and tiling on the design rendering drawing to obtain texture information required by 3D rendering; combining the 3D garment model and the texture information by adopting a 3D rendering engine technology to generate a 3D garment finished product for display; responding to gesture operation instructions (for example, sliding a single finger up and down, sliding left and right, rotating a 3D clothing finished product, and sliding double fingers to zoom in and zoom out the 3D clothing finished product) so as to change different visual viewing presentation effects of the 3D clothing finished product; and after the customer confirms the effect of the 3D clothing finished product and confirms the ordering, synchronizing ordering information to a factory end so that the factory end can produce the 3D clothing finished product according to the requirement. The clients can purchase and order in batches according to the size information, and the factories produce the clients according to the needs.

In some improved embodiments, the rendering and stitching of the design rendering drawing and the 3D garment model by a 3D rendering technique includes the steps of:

setting a horizontal distance x between the left edge of the clothing pattern and the left edge of the clothing component, a vertical distance y between the upper edge of the clothing pattern and the upper edge of the clothing component, a width w of the clothing pattern, a height h of the clothing pattern, a width pw of the clothing component plan, a height ph of the clothing component plan, a width cuw of the UV plan of the 3D clothing model of one clothing style, a height cuh of the UV plan of the 3D clothing model of one clothing style, a horizontal distance ux between the left edge of the clothing component and the left edge of the UV plan of the 3D clothing model, a vertical distance uy between the upper edge of the clothing component and the upper edge of the UV plan of the 3D clothing model, a width uw of the UV plan of the 3D clothing model of the clothing component in the whole UV plan, and a height uh of the UV plan of the 3D clothing model of the clothing model in the whole UV plan of the clothing component;

setting a horizontal distance mX between the left edge of the clothing pattern and the left edge of the UV plane development diagram of the 3D clothing model, a vertical distance mY between the upper edge of the clothing pattern and the upper edge of the UV plane development diagram of the 3D clothing model, and the width mW of the clothing pattern in the whole UV diagram and the height mH of the clothing pattern in the whole UV diagram;

when rendering and stitching the design rendering drawing and the 3D garment model, the constraint of the following formula is satisfied; mw= (w/pw) × (uw/pw) ×uw; mh= (h/ph) × (uh/ph) ×uh; mx= ((x/pw) + (ux/cuw)). Uw; my= ((y/ph) + (uy/cuh)). Uh.

In some preferred embodiments, the client communicates with the server to obtain calibration plot information stored by the server, and the generation of the calibration plot information includes: the server processes the superimposed combination association relation of the clothing components, marks the drawing points of the clothing component information obtained after data separation according to the designed positions so as to ensure that the splicing positions of the clothing components are tightly attached without dislocation, and stores the obtained marked drawing point information;

and the client performs rendering stitching on the design rendering drawing and the 3D clothing model through a 3D rendering technology according to the calibrated dotting information.

In some preferred embodiments, the client communicates with the server to obtain matching description information stored by the server, the generating of the matching description information comprising: the server performs matching tracing processing on the cut piece information of the CAD drawing and the charted UV normal of the manufactured 3D clothing model by processing the corresponding relation between the clothing component and the UV normal of the 3D clothing model so as to ensure that the size and the direction of the CAD drawing are consistent with those of the UV normal, and stores the cut piece information of the CAD drawing and the matching tracing information of the charted UV normal of the 3D clothing model;

and the client performs rendering stitching on the design rendering drawing and the 3D clothing model through a 3D rendering technology according to the matching description information.

Example two

Referring to fig. 1 to 10, on the basis of the above embodiments, a second embodiment provides a system for interaction between a digital clothing CAD drawing and a 3D clothing DIY cloud design, including:

the system comprises a server, a client and a user interface, wherein the server is used for providing a clothing CAD drawing and a 3D clothing model matched with the clothing CAD drawing for the client, and providing design elements for the client when the client requests to provide the design elements;

the client comprises a processor and a memory, wherein the memory stores a computer program, and the processor runs the computer program to realize the method for interaction between the digital clothing CAD drawing and the 3D clothing DIY cloud design in any embodiment;

and the factory end is used for providing the clothing CAD drawing for the server and carrying out on-demand production according to the ordering information.

It should be noted that, the factory end is taken as a generating party of the clothing, and usually has clothing CAD drawings, but most factory ends do not have 3D clothing models adapted to the clothing CAD drawings. In the prior art, when a customer needs to purchase clothing, a factory end displays the CAD drawing of the clothing to the customer, and then the factory end repeatedly communicates with the customer for modification in a field or remote mode, and finally confirms the design requirement of the customer and then performs finished product design and production. The mode makes the customer unable to participate in the design independently, and the efficiency is low, and the technological processes such as material preparation, printing, cutting, sewing, and thorn printing are involved to produce a finished product, so that the working period is long, and once deviation occurs in the intermediate link, the intermediate link can be started from the beginning, thereby increasing the loss probability. Moreover, a great deal of language communication exists, and a gap exists between the clothing design requirement and the actual floor design, so that the design concept wanted by the customer cannot be realized finally.

In this embodiment, by acquiring a CAD drawing of a garment, a design element, and a 3D garment model adapted to the CAD drawing of the garment, rendering the design element to an operable area of the CAD drawing of the garment to generate a design rendering drawing, performing rendering stitching on the design rendering drawing and the 3D garment model by a 3D rendering technique to generate a 3D garment product, waiting for confirmation of the confirmation, synchronizing the confirmation information to a factory end to enable the factory end to produce as required, thereby realizing participation of a client in design, realizing the idea of DIY of the client, presenting different design effects for the client in real time, improving the garment design efficiency, and reducing the garment design cost.

It should be noted that the above embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily contemplated by those skilled in the art within the technical scope of the present invention should be covered by the scope of the present invention, which is defined by the claims.

Claims (10)

1. The method for interaction between the digital clothing CAD drawing and the 3D clothing DIY cloud design runs at a client side and is characterized by comprising the following steps of:

acquiring a clothing CAD drawing, design elements and a 3D clothing model matched with the clothing CAD drawing;

rendering the design elements to an operable area of the clothing CAD drawing to generate a design rendering drawing;

and rendering and sewing the design rendering drawing and the 3D clothing model through a 3D rendering technology to generate a 3D clothing finished product to be checked and ordered, and synchronizing ordering information to a factory end after checking and ordering so as to enable the factory end to produce according to needs.

2. The method for interaction between a digitized CAD drawing of a garment and a 3D garment DIY cloud design of claim 1, wherein the obtaining the CAD drawing of the garment, the design elements, and the 3D garment model adapted to the CAD drawing of the garment comprises:

acquiring a clothing CAD drawing provided by a factory end from a server, wherein the clothing CAD drawing comprises clothing styles and clothing parts;

obtaining design elements pre-stored in a server database from a server and/or obtaining design elements provided by a factory end from the server and/or obtaining the design elements from a local place;

and acquiring a 3D clothing model which is pre-stored in a database and is matched with the clothing CAD drawing according to the pre-corresponding relation between the clothing CAD drawing and the 3D clothing model.

3. The method of digitized CAD drawing of claim 2 interacting with a 3D garment DIY cloud design, wherein the design elements comprise garment materials for incorporation into a garment body of the CAD drawing and garment patterns for incorporation into the garment part.

4. A method of interacting a digitized CAD drawing of a garment with a 3D garment DIY cloud design of claim 3 wherein the garment material is generated by scanning a physical material with a high definition scanner.

5. A method of interacting a digitized CAD drawing of a garment with a 3D garment DIY cloud design as claimed in claim 3 wherein the garment pattern comprises a textual pattern and/or a graphical pattern.

6. The method of digitized garment CAD drawing interaction with a 3D garment DIY cloud design of claim 1 wherein said rendering the design elements to an operable area of the garment CAD drawing to generate a design rendering drawing comprises:

dividing an operable area of the clothing CAD drawing;

and responding to the design operation instruction, and rendering the design element to the operable area to generate a design rendering drawing.

7. The method of digitized garment CAD drawing interaction with a 3D garment DIY cloud design of claim 6 wherein said configuring said design elements to said operable areas in response to design operation instructions to generate a design rendering drawing comprises:

responding to a design operation instruction of pattern design of a clothing component of the clothing CAD drawing, configuring a selected clothing pattern to the operable area so as to enable the clothing pattern to be rendered to a selected position of the clothing component, and generating a design rendering drawing; and/or

And responding to a design operation instruction of fabric design of the whole clothing of the clothing CAD drawing, configuring the selected clothing fabric to the operable area so as to render the clothing fabric to the whole clothing, and generating a design rendering drawing.

8. The method of interacting a digitized garment CAD drawing with a 3D garment DIY cloud design of claim 7, wherein said configuring a selected garment pattern to said operable area comprises:

acquiring a selection signal of a clothing pattern, and selecting the clothing pattern;

and acquiring a dragging signal for dragging the selected clothing pattern, and moving the selected clothing pattern to the operable area.

9. The method of interacting a digitized CAD drawing of a garment with a 3D garment DIY cloud design of claim 7, wherein said configuring selected garment materials to said operable area comprises:

acquiring a selection signal of a garment material, and selecting the garment material;

an add-on signal is obtained for adding the selected garment material and the selected garment pattern is added to the operative area.

10. A system for interaction of a digitized garment CAD drawing with a 3D garment DIY cloud design, comprising:

the system comprises a server, a client and a user interface, wherein the server is used for providing a clothing CAD drawing and a 3D clothing model matched with the clothing CAD drawing for the client, and providing design elements for the client when the client requests to provide the design elements;

a client comprising a processor and a memory, the memory storing a computer program, the processor running the computer program to implement the method of digitized garment CAD drawings of any one of claims 1-9 interacting with a 3D garment DIY cloud design;

and the factory end is used for providing the clothing CAD drawing for the server and carrying out on-demand production according to the ordering information.