CN109198760B

CN109198760B - Method and system for making three-dimensional sculpture clothes

Info

Publication number: CN109198760B
Application number: CN201710791260.9A
Authority: CN
Inventors: 黄盈嘉
Original assignee: Fu Jen Catholic University
Current assignee: Fu Jen Catholic University
Priority date: 2017-07-05
Filing date: 2017-09-05
Publication date: 2020-08-25
Anticipated expiration: 2037-09-05
Also published as: CN109198760A; TWI621405B; TW201906549A

Abstract

The invention provides a method and a system for manufacturing a three-dimensional sculpture garment, comprising the following steps: obtaining a plurality of first loose data corresponding to a costume design drawing of a sculpture model through an interface of an electronic device; enabling the electronic device to calculate a plurality of second loose data according to the plurality of first loose data; enabling the laser cutting device to output a plurality of first cut pieces of the sculpture model according to the first/second pine data; combining the plurality of first cut pieces to obtain a solid garment sculpture model; setting a shearing line to obtain a plurality of second cut pieces; and enabling the laser cutting device to cut a piece of cloth according to the plurality of second cut pieces so as to obtain a plurality of third cut pieces of the three-dimensional sculpture clothes.

Description

Method and system for making three-dimensional sculpture clothes

Technical Field

The present invention relates to a method and a system for making a garment, and more particularly, to a method and a system for making a three-dimensional sculpture garment integrally designed by using a computer.

Background

The design and production of the existing clothes are often carried out by a plurality of innovative manual methods. Because these innovative manual methods cannot be easily standardized by machine, they only rely on manual work, resulting in the disadvantages of time, labor and cost.

In the conventional proofing process for clothes, after a clothes designer draws a design drawing which is difficult to make, the clothes designer only needs to operate manually, so that the clothes designer still needs to spend a long time for proofing, and the development cost is increased. If the digital printing is used as the cloth of the garment, the cloth loss is large when a garment designer takes a design and cuts the garment, and the garment cost and the manufacturing price are high.

In the existing garment manufacturing process, due to the complexity of garment design and the increase of garment production cost caused by the fact that machine production cannot be carried out, the customized garment requirements of customers cannot be effectively met. Accordingly, a novel method and system for manufacturing a three-dimensional sculpture garment are needed to solve the above problems.

Disclosure of Invention

The invention mainly aims to provide a three-dimensional sculptured garment, a manufacturing method and a system thereof, which can obtain the surface model of a solid garment sculpturing model and effectively shorten the proofing time of a sample garment.

The invention relates to a method for manufacturing a three-dimensional sculpture garment, which comprises the following steps: obtaining a plurality of first loose data corresponding to a costume design drawing of a sculpture model through an interface of an electronic device; enabling the electronic device to calculate a plurality of second loose data corresponding to the sculpture model according to the plurality of first loose data of the costume design drawing; enabling a laser cutting device to output a plurality of first cut pieces of the sculpture model according to the plurality of first pine data and the plurality of second pine data; combining the plurality of first cut pieces to obtain a solid garment sculpture model; setting a shearing line according to the solid clothing sculpture model to obtain a plurality of second cut pieces corresponding to the surface of the solid clothing sculpture model; and enabling the laser cutting device to cut a fabric according to the plurality of second cut pieces so as to obtain a plurality of third cut pieces of the three-dimensional sculpture garment.

Another object of the present invention is to provide a system for manufacturing a three-dimensional sculpture garment, including: an electronic device, comprising: the interface is used for obtaining a plurality of first pine data corresponding to a costume design drawing of a sculpture model; the garment design drawing comprises a plurality of first loose data and a plurality of second loose data, wherein the first loose data correspond to the garment design drawing; and the laser cutting device is electrically connected with the electronic device and used for outputting a plurality of first cut pieces of the sculpture model according to the plurality of first pine data and the plurality of second pine data, wherein the plurality of first cut pieces are combined to form an entity garment sculpture model.

By the method and the system for manufacturing the three-dimensional sculptured garment, the surface model of the solid garment sculpturing model can be obtained when the garment with high complexity is designed, the proofing time of the sample garment can be effectively shortened, the communication between a designer and a customer is smooth, and the purpose that the height of the sample garment conforms to the garment design drawing is achieved. In addition, the surface model of the solid clothing sculpture model obtained by the invention is cut by laser after arranging the cut pieces, so that the specially cut and accurate cut pieces can be obtained, and the production cost of the clothing is effectively reduced.

Drawings

Fig. 1 is a schematic step view illustrating a method for manufacturing a statuary according to the present invention;

FIG. 2A is a schematic diagram of a garment design of the present invention presented in a side view;

FIG. 2B is a schematic view of a garment design from a rear perspective of the present invention;

FIG. 3A is a schematic view of one embodiment of a horizontal version of the garment design of the present invention from a top view;

FIG. 3B is a schematic illustration of another embodiment of an in-flight horizontal version of the garment design of the present invention from a top view;

FIG. 4 is a diagram illustrating outputting a plurality of first panels according to the loose data according to the present invention;

FIG. 5 is a schematic view of a solid garment sculpture model composed of a plurality of first cut pieces according to the present invention; and

fig. 6 is a schematic view illustrating a system for manufacturing a sculpture garment according to the present invention.

Description of the symbols

2 electronic device

21. 211, 212 interface

22 pine score data calculation module

23. 231, 232 sculpture model

241 front design drawing

242 back side design

243 right design drawing

244 left side plan view

3 laser cutting device

4 solid clothing sculpture model

41. 42 first panel

S11-S16.

Detailed Description

The embodiments of the present invention are described below with reference to specific embodiments, and other advantages and technical effects of the present invention will be easily understood by those skilled in the art from the disclosure of the present specification, and can be implemented or applied by other embodiments.

Referring to fig. 1, a process flow of the method for manufacturing a three-dimensional sculpture garment according to the present invention is illustrated. In step S11, a plurality of first score data corresponding to the costume design drawing of the sculpture model are obtained through the interface 21 of the electronic device 2 shown in fig. 6. In one embodiment, the electronic device 2 is a mobile phone, a tablet computer, a desktop computer or a cloud server, and the interface 21 is a user interface presented by software running in the electronic device 2 on a display screen of the electronic device 2. In another embodiment, the software running in the electronic device 2 may be 3D stereo modeling software, such as Rhinoceros 3D, but the invention is not limited thereto.

As shown in fig. 2A, the interface 211 is presented at an angle to side view of the statuary model 231, e.g., to side view of the left side of the statuary model 231. As shown in fig. 2B, the interface 212 is shown in a rear view of a statuary model 232, for example, a rear view of the statuary model 232, which is not limited by the invention. The display screen of the electronic device 2 may present the

interfaces

211 and 212 at the same time, or present the

interfaces

211 and 212 respectively, so that a designer can design on the

interfaces

211 and 212, which is not limited in the present disclosure.

The designer may draw the costume design drawing on the

interfaces

211, 212, such as the front design drawing 241 and the back design drawing 242 on the sculpture model 231 in the interface 211 shown in fig. 2A; in the interface 212 shown in fig. 2B, a right design 243 and a left design 244 are drawn on the sculpture model 232.

The

interfaces

211 and 212 basically have a plurality of ruled lines of vertical and horizontal square scales, and the electronic device 2 can calculate the first loose point data of the costume design corresponding to the sculpture model according to the ruled lines of the vertical and horizontal square scales. For example, taking the front design drawing 241 in fig. 2A as an example, the first loose point data is the distance between the edge line of the front design drawing 241 and the sculpture model 231, and the first loose point data may be formed with a plurality of loose point data through a plurality of horizontal grid lines, and for example, the software may calculate the distance between the edge line of the front design drawing 241 and the sculpture model 231 by the coordinate point position of the edge line of the front design drawing 241 in the coordinate point system defined by the software and the coordinate point position of the sculpture model 231 in the coordinate system defined by the software. Similarly, taking the right design drawing 243 in fig. 2B as an example, the edge lines of the right design drawing 243 may be cut by a plurality of horizontal ruled lines, and the distance between each of the plurality of horizontal ruled lines and the sculpture model 232 may be calculated to form a plurality of loose point data. The first loose data of the front design 241, the back design 242, the right design 243 and the left design 244 can be listed as follows:

TABLE 1 Loose data table on front, back, right and left sides of dress designing drawing

In the above table, wl (waist line) refers to a waist line position of the sculpted

model

231, 232, and hl (hips line) refers to a hip line position of the sculpted

model

231, 232.

After obtaining the first pieces of loose data corresponding to the costume design drawing of the sculpture model, the process proceeds to step S12. In step S12, the electronic device 2 calculates a plurality of second loose data corresponding to the sculpture model according to the plurality of first loose data of the costume design drawing. The method of calculating the second loose data is described in detail below.

The second loose data is incremental loose data or decremental loose data calculated between two adjacent ones of the front loose data of the front design drawing 241, the back loose data of the back design drawing 242, the right loose data of the right design drawing 243, and the left loose data of the left design drawing 244. Referring to fig. 3A, taking the front loose data of the front design drawing 241 and the right loose data of the right design drawing 243 as an example, the front design drawing 241 and the right design drawing 243 may be equally divided, that is, after the distance between the front loose data of the front design drawing 241 and the right loose data of the right design drawing 243 is equally divided, three sets of loose data may be obtained, and the three sets of loose data are gradually increased from the front loose data to the right loose data in an equal difference manner, or gradually decreased from the front loose data to the right loose data, and may be listed after calculation as follows:

TABLE 2 all pine data tables between front pine data to right pine data

After the front loose data of the front design drawing 241 and the right loose data of the right design drawing 243 are obtained as the multiple sets of loose data between the adjacent two, the left right loose data of the right design drawing 243 and the back loose data of the back design drawing 242 as the multiple sets of loose data between the adjacent two, the back loose data of the back design drawing 242 and the left loose data of the left design drawing 244 as the multiple sets of loose data between the adjacent two, and the left loose data of the left design drawing 244 and the front loose data of the front design drawing 241 as the multiple sets of loose data between the adjacent two can be calculated by this method.

In another embodiment, in addition to the second loose data calculated by the above method, the second loose data may also be calculated by the following method. As shown in fig. 3B, the proportion of the human body (i.e., the sculpturing model 23) is substantially an approximately elliptical egg shape, and the second loose point data can be calculated according to the following formula:

wherein m is the number of nodes, n is the node sequence, n is more than or equal to 3 and less than or equal to m, and the more the number of nodes, the higher the comfort level of the manufactured clothes is. And wherein BRn, FRn, BLn, FLn are distances from the sculpt 23 to the costume drawing, b1, b2 are distances from a point inside the sculpt 23 to the back and front edges of the sculpt 23, a is a distance from the point inside the sculpt 23 to the left and right edges of the sculpt 23, and Xn, Yn, Zn, Wn are distances from the point inside the sculpt 23 to the edges of the sculpt 23.

In an embodiment, the number of the first loose data is at least four or more, and the number of the second loose data is at least four or more, but the invention is not limited thereto. The more the number of the first or second pine data, the more the fineness of the manufactured clothes is, and the skilled person can adjust the number of the pine data according to his own needs.

The method for making the stereoscopic sculptural garment of the present invention can adopt one of the two methods to obtain a plurality of second loose data, i.e. the incremental or decremental loose data between the front loose data and the right loose data, and the incremental or decremental loose data between the right loose data and the back loose data, the incremental or decremental loose data between the back loose data and the left loose data, and the incremental or decremental loose data between the left loose data and the front loose data, as shown in table 2, can be obtained. Then, the process proceeds to step S13.

In step S13, a laser cutting device 3 (shown in fig. 6) may output a plurality of first cut pieces of the sculptured model according to the first and second loose score data, for example, cut the carton to output a plurality of first cut pieces. As shown in fig. 4, the data for each row in the table may form a first panel 41 in a horizontal layout, and the data for each column in the table may form a first panel 42 in a vertical layout. Thus, a plurality of

first cut pieces

41, 42 can be obtained. Then, the process proceeds to step S14.

In step S14, after the plurality of first cut pieces 41 of the horizontal type and the plurality of first cut pieces 42 of the vertical type are combined, the solid clothing sculpture model 4 as shown in fig. 5 is obtained. The solid statuary model 4 may highly conform to the statuary model of the costume design drawing. Then, the process proceeds to step S15.

In step S15, a trimming line is set according to the solid garment sculpture model 4 to obtain a plurality of second cut pieces corresponding to the surface of the solid garment sculpture model 4. In detail, the surface of the assembled solid garment sculpture model 4 is covered with a plastic film, and then a cutting line is set (or drawn) on the plastic film. In one embodiment, the number of the trimming lines is more than one. And (3) after the plastic film is detached from the solid clothes sculpture model 4, cutting the plastic film according to the cutting lines to obtain a plurality of second cut pieces corresponding to the surface of the solid clothes sculpture model. Then, the process proceeds to step S16.

In step S16, the laser cutting device 3 cuts a fabric according to the second cut pieces to obtain third cut pieces of the three-dimensional sculptured garment. In an embodiment, the second cut pieces can be digitized through the interface 21 of the electronic device 2, and then the third cut pieces of the specially cut and accurate three-dimensional sculptured garment can be obtained by arranging the cut pieces with the least cloth in the concept of clothing production in the software run by the electronic device 2 and then cutting the cloth by the laser cutting device 3. In an embodiment, the cut cloth may be a digital printed cloth, but the invention is not limited thereto.

In another embodiment, in order to make the third cut pieces of the three-dimensional sculptured garment more conform to the garment design drawing, after the second pieces of score data are calculated in the step S12, or after the solid garment sculpturing model is obtained in the step S14, the first pieces of score data and the second pieces of score data may be finely adjusted, so that the first cut pieces, the second cut pieces or the third cut pieces obtained in the following step according to the first pieces of score data and the second pieces of score data can be more closely fitted to the requirement, so that the three-dimensional sculptured garment more conforms to the garment design drawing drawn by the designer.

After the plurality of third cut pieces are obtained, the plurality of third cut pieces can be sewn by a sewing machine to manufacture the three-dimensional sculptured garment. In one embodiment, the stitching machine may be a three-car, parallel stitching machine or a four-line overlock machine.

Referring to fig. 6, the system for manufacturing a three-dimensional sculptured garment according to the present invention can be used to perform the method for manufacturing the three-dimensional sculptured garment, and the system includes an electronic device 2 and a laser cutting device 3, wherein the electronic device 2 is electrically connected to the laser cutting device 3. The electronic device 2 comprises an interface 21 and a loose data calculation module 22. In an embodiment, the electronic device 2 is a mobile phone, a tablet computer, a desktop computer or a cloud server, the interface 21 is a user interface (user interface) presented on a display screen of the electronic device 2 by software running in the electronic device 2, and the module (module) is software or a software function running in the electronic device 2. In another embodiment, the software running in the electronic device 2 may be 3D modeling software, such as Rhinoceros 3D, but the invention is not limited thereto.

The interface 21 of the electronic device 2 is used for obtaining a plurality of first loose-point data corresponding to a costume design drawing of a sculpture model, that is, the interface 21 is used for a designer to draw the costume design drawing thereon. The detailed technical contents related to obtaining the plurality of first loose data from the clothing design drawing are as described above, and are not described herein again.

In one embodiment, the first loose point data includes front loose point data, back loose point data, left loose point data and right loose point data corresponding to the sculpture model.

The loose-score data calculating module 22 of the electronic device 2 is configured to calculate a plurality of second loose-score data corresponding to the sculpture model according to the plurality of first loose-score data of the costume design drawing. The detailed technical contents related to the calculation of the second loose data are as described above, and are not described herein.

In an embodiment, the second loose data are incremental loose data or decremental loose data between two adjacent ones of the front loose data, the back loose data, the left loose data and the right loose data. In another embodiment, the number of the first loose data acquired by the interface 21 is at least four or more, and the number of the second loose data calculated by the loose data calculating module 22 is at least four or more, but the invention is not limited thereto.

The laser cutting device 3 is used for outputting a plurality of first cut pieces of the sculpture model according to a plurality of first pine data and a plurality of second pine data, and the plurality of first cut pieces can be combined to form an entity clothing sculpture model.

In an embodiment, the laser cutting device 3 may be controlled to output a plurality of first cut pieces according to a plurality of first/second loose data, or a 3D modeling manner may be used to directly establish a 3D model of the solid clothing sculpture model according to a plurality of first/second loose data in software run by the electronic device 2, without controlling the laser cutting device 3 to output real objects of the plurality of first cut pieces.

After the solid garment sculpture model is obtained, the shearing line can be set according to the solid garment sculpture model. For example, under the condition that the laser cutting device 3 is controlled to output a plurality of first cut pieces to form the solid garment sculpture model through combination, the surface of the solid garment sculpture model is firstly coated with the plastic film, then, the cutting lines are drawn on the plastic film, and then, after the plastic film is detached from the solid garment sculpture model, the plastic film can be cut along the cutting lines, so that the real objects of a plurality of second cut pieces corresponding to the surface of the solid garment sculpture model can be obtained. For another example, in the case of creating a 3D model of a solid garment sculpture model using 3D modeling, a plurality of second cut pieces corresponding to the surface of the solid garment sculpture model can be obtained by setting (drawing) cut lines on the surface of the solid garment sculpture model through the interface 21, and the second cut pieces here are not real pieces but virtual cut pieces represented by software.

After the second cut piece is obtained, if the second cut piece is a real object, the second cut piece can be digitalized through the interface 21, and the laser cutting device 3 is made to cut a fabric according to the digitalized second cut pieces to obtain a plurality of third cut pieces of the three-dimensional sculpture garment. If the second cut piece is a virtual cut piece represented by the software, the laser cutting device 3 can cut a piece of cloth directly according to the virtual second cut piece, so as to obtain a plurality of third cut pieces of the three-dimensional sculpture garment.

In one embodiment, the fabric is a digital printed fabric.

By the method and the system for manufacturing the three-dimensional sculptured garment, the surface model of the solid garment sculpturing model can be obtained when the garment with high complexity is designed, and the problem that the garment model with a special outline cannot be manufactured at one time by the traditional plane printing can be solved, for example, the manufacturing time of the existing special model needs about 21 working days, but the invention only needs about 1 working day, so that the sample printing time of the sample garment is effectively shortened, the communication between a designer and a client is smooth, and the purpose that the sample garment highly conforms to a garment design drawing is achieved. In addition, the surface model of the solid clothing sculpture model obtained by the invention is cut by laser after arranging the cut pieces, so that the specially cut and accurate cut pieces can be obtained, the model clothing sculpture model has the advantage of reducing waste of model cloth when the special clothing model is manufactured, and the production cost of the clothing is effectively reduced.

The above embodiments are merely illustrative of the technical principles, features and technical effects of the present invention, and are not intended to limit the scope of the present invention, and any person skilled in the art can modify and change the above embodiments without departing from the spirit and scope of the present invention. It is intended that all such equivalent modifications and variations be covered by the following claims. Rather, the scope of the invention is as set forth in the following claims.

Claims

1. A method for manufacturing a three-dimensional sculpture garment is characterized by comprising the following steps:

obtaining a plurality of first pine data corresponding to a costume design drawing of a sculpture model through an interface of an electronic device, wherein the plurality of first pine data comprise front pine data, back pine data, left pine data and right pine data corresponding to the sculpture model;

calculating a plurality of second loose data corresponding to the sculpture model by the electronic device according to the plurality of first loose data of the dress plan, wherein the plurality of second loose data are incremental loose data or decremental loose data between adjacent two of the front loose data, the back loose data, the left loose data and the right loose data;

enabling a laser cutting device to output a plurality of first cut pieces of the sculpture model according to the plurality of first pine data and the plurality of second pine data;

combining the plurality of first cut pieces to obtain a solid garment sculpture model;

setting a shearing line according to the solid clothing sculpture model to obtain a plurality of second cut pieces corresponding to the surface of the solid clothing sculpture model; and

and cutting a fabric by the laser cutting device according to the second cut pieces to obtain a plurality of third cut pieces of the three-dimensional sculpture garment.

2. The method of claim 1, wherein the number of the first pine data is at least four or more, and the number of the second pine data is at least four or more.

3. The method for making a three-dimensional sculptured garment according to claim 1, further comprising the step of fine-tuning the first and second loose score data after calculating the second loose score data or obtaining the sculptured model of the solid garment, so that the first and second loose score data are more in line with the design drawing of the garment, and the second cut pieces can be digitized through the interface of the electronic device, so that the laser cutting device cuts the fabric according to the digitized second cut pieces to obtain the third cut pieces of the three-dimensional sculptured garment.

4. The method of claim 1, wherein the electronic device is a mobile phone, a tablet computer, a desktop computer or a cloud server, and the fabric is a digital calico fabric.

5. The method of manufacturing a stereoscopic sculptured garment according to claim 1, wherein the method further comprises the step of sewing the plurality of third cut pieces using a sewing machine, which is a three-roll, parallel sewing machine or a four-line overlock machine.

6. A system for manufacturing a sculpture garment, comprising:

an electronic device, comprising:

an interface for obtaining a plurality of first pine data corresponding to a costume design drawing of a sculptured model, wherein the plurality of first pine data include front pine data, back pine data, left pine data and right pine data corresponding to the sculptured model; and

a loose data calculation module for calculating second loose data corresponding to the sculpture model according to the first loose data of the costume design drawing, wherein the second loose data are incremental loose data or incremental loose data between adjacent two of the front loose data, the back loose data, the left loose data and the right loose data; and

the laser cutting device is electrically connected with the electronic device and used for outputting a plurality of first cut pieces of the sculpture model according to the plurality of first pine data and the plurality of second pine data, wherein the plurality of first cut pieces are combined to form an entity garment sculpture model.

7. The system of claim 6, wherein the interface is further configured to obtain a plurality of second cut pieces corresponding to the surface of the solid garment sculpture model according to the cutting lines set on the surface of the solid garment sculpture model.

8. The system of claim 7, wherein the laser cutting device is further configured to cut a fabric according to the second cut pieces digitized through the interface to obtain third cut pieces of the three-dimensional sculptured garment.

9. The system for manufacturing a sculptured garment according to claim 8, wherein the fabric is a digital calico fabric, and the electronic device is a mobile phone, a tablet computer, a desktop computer or a cloud server.

10. The system for manufacturing a sculpture garment according to claim 6, wherein the number of the first plurality of pine data obtained by the interface is at least four or more, and the number of the second plurality of pine data calculated by the pine data calculating module is at least four or more.