KR101672299B1

KR101672299B1 - Automatic customized service system and method of Clothes pattern and Customized clothes manufactured by using this method

Info

Publication number: KR101672299B1
Application number: KR1020160020794A
Authority: KR
Inventors: 이정구
Original assignee: 이정구
Priority date: 2016-02-22
Filing date: 2016-02-22
Publication date: 2016-11-03

Abstract

The present invention relates to an automatic customizing service system and an automatic customizing service method for a clothes pattern, and customized clothes, comprising the following steps: (a) capturing a body of a customer through a scanner device (100) and analyzing a value of body measurements measured to transmit analysis information to a conversion server (200); (b) the conversion server (200) converting data to generate each point forming a clothes pattern by using the analysis information by each part of a body received from a measurement analysis means and preset selection information of the customer as variables, so as to complete and display the clothes pattern; and (c) receiving the completed clothes pattern transmitted from the conversion server (200) to output the clothes pattern through an output apparatus (300). According to the present invention, clothes customized to a body can be made and provided without fitting, and fastcorrectness, quality and speed-up of customized clothes can be promoted.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an automatic customized service system, a service method thereof, and a customized clothing made using the automatic customized service system,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a service system and a service method for automatically matching a clothing pattern to a human body, and more particularly, After the extraction, each extracted dimension is assigned to each point value of the pattern represented by the function expression with a certain reference point as the center, and the clothing pattern corresponding to the customized clothing is automatically arranged so that a garment fit to the human body is manufactured without any further garment The present invention relates to an automatic matching service system for a clothing pattern that can be provided, and a customized garment made using the same.

In the conventional process of forming a clothing pattern, a tailor uses a tape measure to measure a desired dimension to a customer, and then forms a basic pattern of the clothes based on the measured numerical values and the snow mass, The cloth was cut to make clothes.

In this way, when the tailor makes hand-made clothing pattern of hand-made clothes, it takes a lot of time, and the patterns are slightly different depending on the skill of the tailor, and even after completing the clothes by cutting the clothes, In addition, there is a problem in that custom-made garments are expensive compared to ready-to-wear clothes because of tailor's handwriting, and therefore, ordinary consumers can not easily purchase custom-made clothes suitable for their body .

Also, in the case of a ready-to-wear garment, since a pattern is uniformly formed on the basis of a predetermined standard, there is a problem that it is impossible to cover various deformation of a human body deviating from a standard standard. As a result, customers who want to purchase a ready- I did not fit, I had to fit my body into clothes.

In order to solve such a problem, Korean Utility Model Publication No. 93-4496 discloses a method of separating a plurality of clothes samples and clothes sample seams made by size and body type, The fabric of the cut fabric is composed of an original plate made of acrylic plate, the body shape of the fitting is measured by the clothes sample, and the tailoring cloth is cut and sewn by the corresponding original plate, A manufacturing set has been proposed. However, this also has a problem in that the sample rate and the uniformity thereof can not satisfy the degree of deformation of the human body, thereby increasing the stock rate and the digestibility.

In addition, Korean Patent No. 10-247659 discloses a method of setting a size and an amount of increase / decrease of a body type by a body type classification by a drop car and enlarging the use range of the gradation increase value calculation method and grading, And a method of grading a garment pattern according to a body type classification that minimizes a stock rate and a shrinkage rate due to size incompatibility of a garment maker. However, this is because a pattern of one size, which is simply formed by a three- The present invention still fails to satisfy the degree of deformation of the human body and the conformity is significantly lower than that of the customized one, thereby increasing the stock rate and the yield ratio.

In addition, Korean Patent Laid-Open No. 10-2010-15671 discloses a method and apparatus for making a custom cut tailored to a customer's body using a computer-controlled adjustable mannequin, but a three-dimensional image There is a time and economic problem in that a mannequin which is necessary and controlled by a computer must be separately manufactured and each control must be performed in accordance with the size of the body. Moreover, there is a problem that a currently used 3D scanner can not accurately express a body characteristic of a customer .

Domestic Utility Model Announcement No. 93-4496 Korean Patent No. 10-247659 Korean Patent Laid-Open No. 10-2010-15671

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object of the present invention is to provide a method and apparatus for automatically extracting dimensions required for a clothing pattern of a human body scanned through a 3D scanner or a mobile device, The clothing pattern corresponding to the customized clothing is automatically arranged in correspondence with each point value of the pattern expressed by the function formula with the point as the center.

Another object of the present invention is to provide a personalized clothing desired by a customer with a dimension required for a pattern of making a clothing anywhere in the world regardless of the distance between the customer and the service provider.

According to an aspect of the present invention, there is provided an automatic tailoring service system for an apparel pattern according to an embodiment of the present invention,

A surface position sensor means (110) for detecting a measurement value for measuring the spatial coordinates of each measurement point on the surface of the human body by a surface position sensor, and comparing the detected measurement value data information with the shape of the human body surface, A measurement value analysis means 120 for analyzing information; A display means 130 and an interlocking means 140 for displaying a human body shape displaying analysis information or analysis information for each part of the human body analyzed by the measurement value analysis means 120 and coordinate values of each part of the human body, A scanner device (100) for photographing a human body and transmitting a measured value of a human body dimension to a conversion server (200);

A data separating unit for separating analysis information of each part of the human body inputted from the measurement value analyzing unit of the scanner device 100 into basic dimensions which are minimum data necessary for designing a clothing pattern and separating selection information of a predetermined customer into selected dimensions, (210); A transforming unit 220 for transforming each point separated from the data separating unit to generate points corresponding to the clothing pattern using predetermined conversion rules and converting the points into corresponding points; A line drawing unit 230 for forming a straight line pattern by connecting each point converted from the conversion unit and forming a curved line pattern by adding a curvature to an adjacent straight line at a point not located on a connection line between points, ); A storage unit 240 for storing basic information and selection information of the customer, analyzed input information of the human body part, converted data information, and completed pattern information; And a display unit (250) for calling up data from the data separated by the data separating unit (210) and calling up the completed pattern in the line drawing unit (230) and displaying the divided pattern on one screen or one screen 200); And

And an output device (300) for receiving the completed clothing pattern from the conversion server (200) and printing by the installed printing means.

In addition, in the automatic matching service system of the clothes pattern according to the present invention,

The data separating unit 210 of the conversion server 200,

The basic dimensions "total length, vibration, back length, front length, shoulder width, sleeve length, back length, front length, chest circumference, abdomen, waist circumference, and circumferential length, which are analysis information of the human body part inputted from the measurement value analysis means of the scanner device 100 Length, length of leg, length of leg, shoulder deflection, neck, teeth, waist, neck size "and optional information selected by customer's request" Chest dart amount, beak width, coat length, flare amount, (Mm) corresponding to the "size name" and its corresponding size, the correction amount, the wrinkle amount 1, the wrinkle amount 2, the back dart 1, the back dart 2, the collar width,

The conversion unit 220 converts a basic dimension or a selected dimension separated from the data separation unit and a predetermined reference point value into a plurality of point values for determining a clothing pattern, A conversion module 221 for representing a dimension or a selected dimension and a predetermined reference point value as a coordinate variable on the XY plane, a conversion module 221 for calculating a basic or selected dimension in the function formula of each point value of the clothing pattern, And a matching module 222 for correspondingly matching the values of the points.

The garment pattern is a set of a coat pattern, a jacket pattern, a vest pattern, and a pants pattern,

The basic dimensions necessary for fabricating the above-

The length from the cervical vertebra 7 to the shin sheath line,

The vibration is a length extending from the back of the neck 7 to the point orthogonal to the chest line,

The back has a length extending from the shoulder seam of the shirt pinhole to a point orthogonal to the back chest line,

The front is a length extending from the shoulder seam of the shirt feather end to the point orthogonal to the front chest line,

The shoulder width is the length from the cervical vertebra 7 to the shoulder seam end point,

The sleeve length is the length from the end of the shoulder seam to the wrist plus 3 cm,

The rear piece has a length of the back side chest line from the left side arm point to the right side arm point,

The front piece has the length of the front chest line from the left armpit point to the right armpit point,

The chest circumference is the circumference of the most developed position of the chest,

The circumference of the abdomen is the circumferential length of the position at which the abdomen is outmost,

The waist circumference is the circumferential length of the trouser belt position,

A circumferential length of a position at which the circumference of the circumference of the spout is most protruded,

The length of the trousers is 2 cm from the ground at the trouser belt position to the restricted position,

The leg length is the length from the bottom of the hips to the ground,

The shoulder sagging is the length from the position of 20 cm horizontally from the posterior neck cervical vertebra to the shoulder position vertically descending,

The necks are the length from the point where the horizontal line from the back of the neck 7 to the cervical vertebra and the straight line of the chest line of the back plate intersect at right angles,

Wherein the ball units have a length from a point at which the horizontal line from the ball protruding point and the bottom line of the back side chest line intersect at right angles to the ball protrusion point,

The waist has a vertical length from the straight line to the waistline of the protruding point,

Wherein the neck dimension is a neckline length at a position where the head sauce is most out,

Wherein at least six points are determined based on a first reference point o and a pattern is formed by a plurality of point values determined by the first reference point, the six points, and the basic dimension,

(B; 1; 3; 4; 5; soa), and the coordinate value of the first reference point (o) is < x, y & the coordinate values of point 1 are << ox>, <oy> + [vibration] * 0.25>, and the coordinate values of point 3 are << ox> -2 - The coordinates of point 4 are [ox] - ([threes] -65) * 0.1, <oy> - [ -35) * 0.1-3 - ([front] - ([oscillation] * 2 + 45)) * 0.2>, the coordinate values of point 5 are << ox> -200, <oy >>, The coordinate values of < ox > and < oy > -320 &

At least six points are defined around a second reference point o and a pattern is formed by a plurality of point values determined by the second reference point, the six points, and the basic dimension,

The coordinate values of the second reference point o are represented by <x, y>, the six points of the jacket pattern are represented by (b; 1; 3; 4; 5; the coordinate values of point 1 are << ox>, <oy> + [vibration] * 0.25>, and the coordinate values of point 3 are << ox> -3 - The coordinates of point 4 are [ox] - ([threes] -65) * 0.1, <oy> - [ -35) * 0.1-3 - ([front] - ([oscillation] * 2 + 45)) * 0.2>, the coordinate values of point 5 are << ox> -200, <oy >>, The coordinate values of < ox > and < oy > -320 &

Wherein the vest pattern has at least five points defined around a third reference point o, a pattern is formed by the third reference point, the five points, and a plurality of point values determined by the basic dimension,

The coordinate values of the third reference point o are represented by <x, y>, the five points of the vest pattern are represented by (b; 1; 3; 4; 5) the coordinate values of point 1 are << ox>, <oy> + [vibration] * 0.25>, and the coordinate values of point 3 are << ox> -3- The coordinates of the point 4 are: ox - (threes) -65) * 0.1, and the coordinates of the point 4 are: (Vibrate) * 2 + 45)) * 0.2>, and the coordinate value of point 5 is <ox> -200, <0> oy >>,

Wherein the pants pattern has at least three points determined based on a fourth reference point s, a pattern is formed by the fourth reference point, the three points, and a plurality of point values determined by the basic dimensions,

The coordinate values of the fourth reference point s are represented by <x, y>, the three points of the pants pattern are represented by cs, s2, the coordinate values of the point c are represented by <sx>, < <sy> + [pants length] - [leg length] +5]>, the coordinate values of the point ss are <330 and <sy >>, the coordinate values of the point s2 are <sx>, <sy> +30> .

According to another aspect of the present invention,

(a) capturing a human body through the scanner device 100, analyzing the measured value of the human body dimension, and transmitting the analyzed value to the conversion server 200;

(b) The conversion server 200 converts the analysis data of the human body part inputted from the measurement value analysis means of the scanner device 100 and the selection information of the predetermined customer into variables, Converting the information and then displaying the completed pattern;

(c) receiving the completed clothing pattern from the conversion server 200 and outputting the received clothing pattern through the output device 300,

The garment pattern has a set of a coat pattern, a jacket pattern, a vest pattern, and a pants pattern. The basic dimensions required for the manufacture of the clothing pattern are a total length, a vibration, a back length, a front length, a shoulder width, a sleeve length, Circumference, circumference, waist circumference, perimeter circumference, pants length, leg length, shoulder sag, thighs, spikes, waist,

Depending on the customer's choice, the selected dimensions for which the dimension values are determined include: chest dart volume, beak width, coat length, flare amount, paw volume, wrinkle amount 1, wrinkle amount 2, back dart 1, back dart 2, Width dimension,

The basic dimensions necessary for fabricating the above-

The length from the cervical vertebra 7 to the shin sheath line,

The leg length is the length from the bottom of the hips to the ground,

In addition, the present invention provides a customized garment made using an auto-fit apparel pattern produced by the method according to the present invention.

According to the present invention as described above, after automatically extracting only the dimensions necessary for the garment pattern, the extracted dimensions are associated with each point value of the pattern expressed by the function formula around a certain reference point, Since the garment pattern is automatically regulated, it is possible to manufacture and provide garments tailored to the human body without the garment, and it is possible to improve the quality and speed of the fast and accurate garments.

Further, according to the present invention, regardless of the distance between the customer and the service provider, there is an effect that only desired dimensions are provided for the pattern of making clothes anywhere in the world, and desired customized clothes are provided.

1 is a configuration diagram of an automatic tailoring service system for a clothing pattern according to the present invention;
FIG. 2 is a schematic flowchart of a method of automatically adapting a clothing pattern according to the present invention,
3 is a view showing a state in which a basic dimension and a selection dimension necessary for a self-fit clothing pattern according to the present invention are measured,
Figure 4 illustrates one embodiment of a coat pattern of a self-fit clothing pattern according to the present invention,
5 is a view showing another embodiment of a coat pattern among the clothes patterns automatically fitted according to the present invention,
Figure 6 illustrates one embodiment of a jacket pattern of a garment pattern that automatically fits in accordance with the present invention;
7 illustrates another embodiment of a jacket pattern of a garment pattern automatically fit according to the present invention,
Figure 8 illustrates one embodiment of a vest pattern among the garment patterns automatically adapted according to the present invention,
9 illustrates another embodiment of a vest pattern of a garment pattern automatically fit according to the present invention,
Figure 10 illustrates one embodiment of a pants pattern of a garment pattern that automatically fits in accordance with the present invention;
11 illustrates another embodiment of a pants pattern among the garment patterns that are automatically fit according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the drawings of preferred embodiments.

The terms "point" and " point "used interchangeably in the present invention indicate the same meaning and mean the same.

In the present invention, the clothing pattern is set to be a set of a coat pattern, a jacket pattern, a vest pattern, and a pants pattern. A garment pattern pattern that can be cut immediately without bobbing is indicated as " The pattern format is indicated by "a ". Needless to say, the item of the clothing pattern is not limited to this.

2 is a schematic flow chart of a method of automatically adapting a clothing pattern according to the present invention, and Fig. 3 is a flowchart of a method of automatically adapting a clothing pattern according to the present invention, FIG. 4 is a view showing an embodiment of a coat pattern among the clothes patterns automatically fitted according to the present invention. FIG. 5 is a view showing a state where the basic dimensions and the selected dimensions are measured. 6 is a view showing an embodiment of a jacket pattern of a garment pattern that is automatically fitted according to the present invention, and Fig. 7 is a view showing another embodiment of a jacket pattern among the garment patterns automatically fitting according to the present invention. Fig. 8 is a view showing one embodiment of a vest pattern among the clothes patterns that are automatically fitted according to the present invention. Fig. 9 is a view showing an example of a vest pattern Fig. 10 is a view showing one embodiment of a pants pattern among the clothes patterns that are automatically fitted according to the present invention. Fig. 11 is a view showing another embodiment of the pants pattern among the clothes patterns that are automatically fitted according to the present invention. Fig.

As shown in FIG. 1, a system for automatically adapting a clothing pattern according to a preferred embodiment of the present invention includes a scanner device 100; A conversion server 200 interlocked with the scanner device; And an output device 300 interlocked with the conversion server. The flow of various information between the scanner device 100, the conversion server 200, and the output device 300 may include a web, a mobile web, Application or the like.

The scanner device 100 is a device for photographing a human body as a whole and transmitting the measured value of the human body dimension to the conversion server 200. The scanner device 100 includes a surface position sensor means 110 and a program for controlling the measurement value information for each human body portion A mobile device including a three-dimensional scanner or a scan app may be used, which includes a measured value analysis unit 120, a display unit 130, an interlocking unit 140, and a power supply unit 150.

First, the surface position sensor means 110 measures the spatial coordinates of each measurement point on the surface of the human body by means of the surface position sensor and detects the measured value. The three-dimensional size The position or direction is measured by the XY plane coordinate value. In this case, if the position of the mounted surface position sensor is arranged at the reference point, the three-dimensional length of the relative position between the sensors is measured and the measured value can be calculated from the measured position, .

The measurement value analyzing unit 120 transmits the analyzed analysis data of the body part to the display unit 130 and the interlocking unit 140 by comparing the analyzed measured value data information and the shape of the human body surface.

The display means 130 displays the analysis information or analysis information of the human body analyzed by the measurement value analyzing means and the human body shape displaying the coordinate values of each human body portion on the surface of the scanner device 100, Can be displayed through the surface portion.

The analytical information of the human body part displayed by the display means includes the general dimensions of the clothing pattern such as a total length, a vibration, a back length, a front length, a shoulder width, a sleeve length, a rear article, a front article, a chest circumference, a circumference, , Leg length, shoulder sag, neck, spikes, waist, neck size.

The standard for measuring basic dimensions is as shown in Table 1 (a standard point is set at the time of dimension measurement, and a thin shirt is put thereon to describe the length), and the dimension unit is mm.

Basic dimensions Explanation President Length from neck cervical vertebra to shoe heel vibration Length from the back of the neck to the point perpendicular to the chest line from the cervical vertebra Back From the shoulder seam of the shirt feather to the point perpendicular to the chest line
The length that follows Head From the shoulder seam of the shirt feather to the point orthogonal to the front chest line
The length that follows Shoulder width Length from neck cervical vertebra to shoulder seam end point Sleeve Length Shoulder seam Length from endpoint to wrist plus 3 cm Back From the left armpit point to the right armpit point
Dorsal length of the chest line Outbreak From the left armpit point to the right armpit point
Length of front chest line Bust The perimeter of the breast's most developed position Avalanche Perimeter of the position at which the stomach is most exposed Waist circumference Perimeter length of pants belt position Circumference The circumference of the position at which the butt protrudes most Pants length Length from the pants belt position to the limit position by 2 cm from the ground Leg length The length from the bottom of the hips to the ground Shoulder deflection The length from the posterior to the posterior cervical vertebra 20 cm horizontally to the vertically descending shoulder position Thorns Back of neck 7 Horizontal line from cervical vertebrae and back to back of chest line from the point where the straight line crosses to the back of neck 7 Length of cervical vertebra The balls The length from the point at which the horizontal line from the protruding point of protrusion and the direct underline of the dorsal chest line perpendicular to the protrusion point Waist Vertical length from the straight line to the waist line of the protruding point Neck dimension Neck circumference at the position where the pickles are most out.

In addition, the interlocking means 140 transmits the analysis information of the human body analyzed by the measurement value analysis means to the conversion server 200, and the transmitted analysis information is transmitted to the conversion server 200 through the conversion unit 200, The completed clothing pattern is transmitted to the output device 300 so that it can be printed by the printing means provided in the output device 300. [

The power supply unit 150 supplies the operating power of the scanner device 100 and is set to be a battery, a rechargeable battery, a USB connector, and is supplied with power by the connection of USB or by wireless charging It is possible.

The conversion server 200 is a server that provides an automatic matching service of a clothing pattern. The server 200 analyzes analytic information of a human body part input from measurement value analysis means of the scanner device 100 and preset client selection information into a predetermined clothing pattern Converts the data information so as to generate each point, and then completes and displays the pattern.

The conversion server 200 includes a data separating unit 210 for separating input analysis information of a human body into basic dimensions that are minimum data necessary for designing a clothing pattern and separating selection information of a predetermined customer into selected dimensions, ; A converting unit 220 converting each dimension separated from the data separating unit to correspond to each point of the clothing pattern using a predetermined conversion rule; A line drawing unit 230 for forming a straight line pattern by connecting each point converted from the converting unit and adding a curvature to an adjacent straight line at a point not located on the connecting line to form a curved pattern to complete the pattern; A storage unit 240 for storing basic information and selection information of the customer, analyzed input information of the human body part, converted data information, and completed pattern information; And a display unit (250) for calling the divided data from the separated data to display the data on a separate screen or on a single screen.

Here, the data separating unit 210 extracts the basic dimensions "total length, vibration, back, front, shoulder width, sleeve length, back, front, chest Length, length, leg length, shoulder deflection, neck, knuckle, waist, neck dimension "and the optional information selected by the customer's request" chest dart volume, beak width, (Length), flare amount, wrinkle amount, wrinkle amount 1, wrinkle amount 2, rear dart 1, rear dart 2, collar width, and nest width "is divided into" dimension name "and corresponding" size " And the separated data information is stored in the storage unit.

The garment pattern is a set of coat pattern, jacket pattern, vest pattern, and pants pattern.

The data information stored in the storage unit is divided into separate tables and called up in the displayed data input field and displayed on the display unit.

In addition, the converting unit 220 converts a base dimension or a selected dimension separated from the data separating unit into a plurality of point values for determining a clothing pattern by combining the predetermined reference point values, Or a selected dimension and a predetermined reference point value as coordinate variables on the XY plane, a conversion module 221 for representing the basic dimension or the selected dimension as a function expression of each point value of the pattern, And a matching module 222 for correspondingly matching the values.

Here, the functional expressions of the coat pattern, the jacket pattern, the vest pattern, and the pants pattern are expressed as coordinate values through the conversion module and the matching module as follows.

At least six points are defined around the first reference point o, the pattern is formed by a plurality of point values determined by the first reference point, the six points, and the basic dimension, the coordinates of the point b are represented by <x, y>, the six points of the court pattern are expressed by (b; 1; 3; 4; 5; soa) the coordinate values of point 1 are << ox>, <oy> + [vibration] * 0.25>, and the coordinate values of point 3 are << ox> -2- [ 0.1, <oy> + [total length] * 0.25>, and the coordinate value of point 4 is << ox> - (threes) -65) * 0.1, <oy> The coordinate value of point 5 is << ox> -200, <oy >>, and the coordinate value of point soa is << ox>, <oy> -320>.

In addition, the jacket pattern is defined by at least six points around a second reference point o, a pattern is formed by a plurality of point values determined by a second reference point, six points, and a base dimension, The coordinate values of the reference point o are represented by <x, y>, the six points of the jacket pattern are represented by (b; 1; 3; 4; 5; soa) , <vote> + [vibration]>, the coordinate value of point 1 is << ox>, <oy> + [vibration] * 0.25>, and the coordinate value of point 3 is << ox> ] * 0.05, <oy> + [total length] * 0.24>, and the coordinate value of point 4 is << ox> - (threes) -65) * 0.1, <oy> * 0.1-3 - ([Leading edge] - ([Vibration] * 2 + 45)) * 0.2>, the coordinate value of point 5 is << ox> -200, <oy >>, and the coordinate value of point soa is << ox>, <oy> -320>.

In addition, the vest pattern is defined by at least five points around a third reference point o, a pattern is formed by a plurality of point values determined by a third reference point, five points, and a base dimension, The coordinate values of the reference point o are represented by <x, y>, the five points of the vest pattern are represented by (b; 1; 3; 4; 5) the coordinate values of point 1 are << ox>, <oy> + [vibration] * 0.25>, and the coordinate values of point 3 are << ox> -3 - + 0.15, <oy> + [total length] * 0.25>, and the coordinate value of point 4 is <ox> - (thighs) -65) * 0.1, <oy> - (Throat) -45) * 0.1-3 - ([front] - ([vibration] * 2 + 45)) * 0.2>, and the coordinate value of point 5 is << ox> -200, <oy >> .

In addition, the pants pattern has at least three points determined based on the fourth reference point (s), a pattern is formed by a plurality of point values determined by a fourth reference point, three points, and a base dimension, The coordinate values of the reference point s are represented by <x, y>, the three points of the pants pattern are represented by (c; ss; s2), the coordinate values of the point c are represented by <sx>, <sy> Pants length] - [leg length] +5]>, the coordinate values of the point ss are <330 and <sy >>, and the coordinate values of the point s2 are represented by <<sx> and <sy +30>.

In addition, the line drawing unit 230 forms a straight line pattern from each point converted from the converting unit, forms a curve pattern by adding a curvature to an adjacent straight line at a point not located on a connecting line connecting the point and the point, To be completed automatically.

The storage unit 240 includes a first storage unit 241 for storing personal information of a customer such as a name, an address, a sex, an age and the like, (100), such as the back, front, front, chest, abdomen, waist circumference, circumference of the spout, pants length, leg length, shoulder deflection, A second storage section 242 for storing analysis information for each human body part, and a second storage section 242 for storing human body part analysis information. A third storage unit 243 for storing the customer's request information on the custom-made clothes such as the first, second, feather width, and nose width, a third storing unit 243 for storing the data information converted from the converting unit 210, And a storage unit 224.

In addition, the display unit 250 may display a separate screen window to be called up and displayed by calling or displaying separately from the separated data to the completed pattern, or may be divided and displayed on one screen It is possible.

The output apparatus 300 receives the completed clothing pattern from the conversion server 200 and prints the printed pattern by the installed printing means.

A method of automatically manufacturing garments fitted to a human body by using an automatic tailoring service system of a clothing pattern according to the present invention is as follows.

As shown in FIG. 2, a method of automatically adapting a clothing pattern according to the present invention includes: (a) taking a human body as a whole through the scanner device 100 and analyzing the measured dimension values of the human body, ); (b) transforms data information to generate each point constituting a predetermined clothing pattern in which analysis information of the human body part inputted from the measurement value analysis means of the scanner device 100 and selection information of a predetermined customer are used as variables, And displaying the completed image; (c) outputting the completed clothing pattern.

Each step will be described in detail as follows.

(a) capturing a human body as a whole through the scanner device 100, analyzing the measured value of the human body dimension, and transmitting the analyzed value to the conversion server 200

The surface position sensor of the three-dimensional scanner or the mobile device and the scanner device detects the spatial coordinates of the respective measurement points on the surface of the human body by the surface position sensor and measures the three-dimensional size Measure the position or orientation.

The measured values measured by the surface position sensor means are compared with the shape of the human body surface through the measurement value analyzing means, and the analysis information or analysis information of the extracted human body parts and the human body shape displaying the coordinate values of the human body parts are displayed Is transmitted to a conversion server which is displayed on the surface of the means or is simultaneously displayed and interlocked.

At this time, the analytical information of the human body region includes the general dimensions of the clothing pattern, such as a total length, a vibration, a back length, a front length, a shoulder width, a sleeve length, a back length, a front length, a chest circumference, a circumference, a waist circumference, , Shoulder strains, necks, spikes, waist, neck size.

(b) transforms data information to generate each point constituting a predetermined clothing pattern in which analysis information of the human body part inputted from the measurement value analysis means of the scanner device 100 and selection information of a predetermined customer are used as variables, &Lt; / RTI >

The conversion server 200 separates analysis information of the human body part inputted from the measurement value analysis means of the scanner device 100 into basic dimensions which are minimum data necessary for designing the clothing pattern through the data separation unit 210, The line selection unit 230 separates the set customer's selection information into selected dimensions and then converts the dimensions into coordinate values corresponding to respective points of the clothing pattern using predetermined conversion rules through the conversion unit 220, And a curved line is formed by adding a curvature to an adjacent straight line to form a curved pattern, and the pattern is completed and displayed on the display unit 250.

Here, the predetermined conversion rule of the converting unit 220 is a conversion program invented by the applicant for a long time, and the relationship between the point (point) of the clothing pattern and the point is expressed in a mutually related manner, Point matching to improve the degree of customization. Through the conversion rule, the value of the reference point and the value of the measured dimension are read and substituted for each point value of the pattern represented by the function formula, and the determined line value is connected to the line system by a straight line or a curve, And automatically arranges the garment pattern. That is, a plurality of point values determined by a function formula including a base point, a point determined by a reference point and a basic dimension, and a basic dimension and / or a selected dimension are determined for each pattern by a program preset in the conversion server, Based on this, a desired clothing pattern is formed.

The patterns introduced in the present invention are illustrative and not limited thereto, and various options such as the number of buttons, folds, and wrinkles can be inserted, and the corresponding point values and pattern shapes can be corrected .

The letters or numbers used in the point names in the table are only terms borrowed from the pattern. The letters 'c' in the name of the pattern are court, 'j' is a jacket, 'v' is a vest, 'p' is the pants, 'b' is the button, and 't' is the term used to mean wrinkles.

In addition, the x and y coordinate values of the point represent the <left, right, and up and down values, respectively. In the x coordinate, '-' means to move to the left and '+' Meaning that '-' means move up and '+' means move down.

In the drawings of the "bone" pattern which does not require the basting of the present invention, the double lines represent the lead lines.

Hereinafter, a point value and a pattern corresponding thereto will be described specifically for each garment pattern.

Tables 2 to 4 below show a pattern for a coat, specifically a coat (c3b2h) with three buttons (three needles) and a coat (c3b2h) with three buttons (Table 2), the point value of only the goal c3b (Table 3), and the point value of only c3b (Table 4), which are determined by substituting the basic dimensions and the selected dimensions shown in Fig. 3 The corresponding pattern is shown in Fig. 4 and Fig.

As can be seen from Tables 2 to 4, the coat pattern has six points (b; 1; 3; 4; 5; b) which are determined only by a first reference point o and a basic dimension around a first reference point o. soa is determined and a plurality of point values are determined by a function formula including a first reference point and six points and a basic dimension and / or a selection dimension, and the measured or selected dimension value is assigned to the plurality of point values 4 to 5 are formed.

For example, the first reference point o is the point at which the upper left corner is 0 point, from which the x coordinate is 930 mm and the y coordinate is 400 mm.

(Point) corresponding to six points (b; 1; 3; 4; 5; soa) determined only by the first reference point and the basic dimension value, and a point (point) corresponding to the first reference point and the basic dimension value and / (Point) corresponding to point 6, which is one of a plurality of points determined by the function expression including the function expression, is interpreted as follows.

Point b has x coordinate <o.x> and y coordinate <o.y> + [vibration]. That is, the x-coordinate of the point b is the same as the x-coordinate of the first reference point o, and the y-coordinate is the position shifted downward by the vibration dimension value in the y-coordinate of the first reference point o, It can be confirmed that only the dimension value is determined.

Point 1 has an x coordinate of <o.x> and a y coordinate of <o.y> + [vibration] * 0.25. That is, the x-coordinate of the point 1 is equal to the x-coordinate of the first reference point o and the y-coordinate is the position shifted downward by 25% of the vibration dimension value in the y-coordinate of the first reference point o, It can be confirmed that only the point and the basic dimension value are determined.

Point 3 is that the x coordinate is <o.x> -2- [ball point] * 0.1 and the y coordinate is <o.y> + [total length] * 0.25. That is, the x-coordinate of point 3 is shifted by 2 mm to the left from the x-coordinate of the first reference point o and moved to the left by 10% of the dimension value, and the y-coordinate is the y-coordinate of the first reference point o , The position is shifted downward by 25% of the total dimension value, and it can be confirmed that it is determined by only the first reference point and the basic dimension value.

Point 4 has x coordinate <ox> - (threes) -65) * 0.1 and y coordinate is <oy> - (threes) -35) * 0.1-3 - * 2 + 45)) * 0.2. In other words, the x-coordinate of point 4 is the position at which the neck is shifted 65 mm from the dimension value to the left by 10% of the limiting dimension value at the x-coordinate of the first reference point o, and the y- The thighs are moved 35 mm from the dimension value by 10% of the limit dimension value, moved upward by 3 mm, and then the value obtained by adding 45 mm to the vibration dimension value twice from the leading dimension value by 20% It can be confirmed that only the first reference point and the basic dimension value are determined.

Point 5 has an x coordinate of <o.x> -200 and a y coordinate of <o.y>. That is, the x coordinate of the point 5 is a position shifted by 200 mm to the left from the x coordinate of the first reference point o, and the y coordinate is the same position as the y coordinate of the first reference point o. It can be confirmed that only the value is determined.

The point soa has an x coordinate of <o.x> and a y coordinate of <o.y> -320. That is, the x-coordinate of the point soa is the same as the x-coordinate of the first reference point o, and the y-coordinate is the position shifted upward by 320 mm from the y-coordinate of the first reference point o. It can be confirmed that only the value is determined.

In point 6, the x-coordinate is <5, x> and the y-coordinate is <m.y> + [shoulder deflection] -3 - ([shoulder deflection] -45) * 0.25. That is, the x coordinate of point 6 is equal to the x coordinate of point 5, and the y coordinate moves upward by 3 mm from the position shifted downward by the shoulder deflection dimension value at the y coordinate of point m, and 45 mm from the shoulder deflection dimension value It is the position that moved upward by 25% of the limit dimension value. This can be confirmed from FIGS. 4 and 5 in which a pattern is shown.

4 and 5, y, ts, z, and ad, which are located outside the drawn pattern, are points at which a value is determined by a function formula so that the hole is defined within the displacement section, It is a point to use when cutting or catching standards when cutting.

4 and 5, a point is drawn by a line connecting a point (point) and a point (point), and a point value that is not laid out on a line corresponds to a variable value of a function expression in which each point is expressed Is a point value for determining the degree of curvature of the position, that is, the curvature, in the curved line adjacent thereto.

For example, in Fig. 4, the line connecting the points x and 15 is a curve, and the curvature of this curve is determined by a function value indicating the x-coordinate and the y-coordinate of the point ad11. In other words,

The value of the point ad11 is determined by the x coordinate <14.x> -30 and the y coordinate <ad.y>, and the x coordinate value and the y coordinate value of ad11 are finally determined based on only the first reference point o and the measurement value (930,660) and the measured value of the first reference point o, the x coordinate value and the y coordinate value of ad11 are determined, and the curvature is determined by this ad11 point value. .

The lines h21 to h2, h1 to h11, and h to hr, which are drawn between adjacent two points, irrespective of the line forming the pattern, are indicative of points to be aligned with each other at the time of cutting.

Point name X coordinate Y coordinate o 930 660 b <o.x> <o.y> + [vibration] One <o.x> <o.y> + [vibration] * 0.25 2 <o.x> + [threes] * 0.25 + 5 <1.y> w <3.x> <3.y> +30 wa <w.x> <w.y> +30 h <3.x> +4 <w.y> + [total length] * 0.14 l <h.x> +2 <4.y> + [coat length] om <4.x> - [Avalanche] * 0.07-27 <4.y> m <om.x> <om.y> - [Shoulder Deflection] * 0.15-18 m1 <m.x> +25 <om.y> 5 <o.x> -200 <o.y> 6 <5.x> <my> + [shoulder deflection] -3-
([Shoulder Deflection] -45) * 0.25 s <4.x> - [shoulder width] <6.y> + (<6.x> - <s.x>) * 0.3 h1 <hx> - ([Ball circumference] +50) * 0.2-
([Avalanche] + 150 - [Around the ball]) * 0.05 <h.y> w1 <h1.x> +4 <w.y> l1 <h1.x> - [Freya] * 0.1-4 <l.y> n <c.x> <cy> - [Leader] + (<by> - <my>) - 20-
([Front] - [Chest] * 0.4) * 0.2-
([Avalanche] + 150- [Chest]) * 0.03-
[Chest Dart] * 0.5 7 <n.x> +200 - (<4.x> - <om.x>) <ny> 8 <7.x> <7.y> + [shoulder deflection] -3
([Shoulder Deflection] -45) * 0.25 + ([Avalanche] + 130-
[Chest circumference]) * 0.012+ [Chest Dart] * 0.25 y <t.x> + (<s.x> - <t.x>) / 2 <t.y> + (<s.y> - <t.y>) / 2 name <y.x> <yy> + [chest circumference] * 0.1 + 135 +
(Shoulder Deflection-45) * 0.3 e <o.x> - [Back] * 0.58 <ad.y> - (<ad.y> - <y.y>) * 0.25-5 e1 <e.x> -10 <e.y> z <y.x> <y.y> + (<ad.y> - <y.y>) * 0.5-20 v <s.x> + (<e.x> - <s.x>) * 0.4 + 18 <z.y> w11 <w1.x> +30 <w1.y> h11 <h1.x> +30 <h1.y> v11 <v10.x> +30 <v10.y> bw1 <w1.x> <w1.y> -30 m2 <m.x> +50 <om.y> wc <c.x> <w.y> fl <f.x> <l.y> l5 <fl.x> <fl.y> +20 + ([Avalanche] + 150-
[Chest circumference]) * 0.1 hc <c.x> <h.y> h4 <hc.x> + ([circumference of ball circumference] +50) * 0.125 +
([Avalanche] + 150- [Around the ball]) * 0.1-
[Spades] * 0.2 <hc.y> +3 + ([Avalanche] + 200-
[Chest circumference]) * 0.05 + 30 w4 <b4.x> - (<b4.x> - <ph.x>) * 0.4 - ([total length] -200) * 0.01 <wc.y> b4 <c.x> + [previous item] * 0.25 + 45 <ad.y> +3 d <b4.x> -45 <b4.y> ts <z.x> <y.y> +33 a <d.x> <ts.y> av <d.x> <z.y> u <d.x> <d.y> -40 bt10 <bt.x> +20 <bt.y> bt11 <bt1.x> +20 <bt1.y> btf <f.x> + ([Avalanche] + 150- [Chest]) * 0.04 + 1 <bt1.y> 10 <btf.x> + (<9.x> - <btf.x>) * 0.78 <btf.y> - (<btf.y> - <9.y>) * 0.78 11 <n.x> -1 <ny> +42 x <ad.x> -30 <ad.y> b3 <x.x> -20 <x.y> wx <x.x> <w.y> w3 <b3.x> -3 <wx.y> hx <x.x> <h.y> h3 <hx.x> -40- [Ball players] * 0.2 <hx.y> +30 14 <x.x> + ([chest circumference] -400) * 0.175 <x.y> 15 <14.x> <e.y> w2 <h2.x> -4 <wx.y> b2 <16.x> <ad.y> b21 <b2.x> -30 <b2.y> w21 <w2.x> -30 <w2.y> h21 <h2.x> -30 <h2.y> l2 <h2.x> + [Freya] * 0.2 + 4 <l1.y> lx <hx.x> <l2.y> l3 <h3.x> - (Freya * 0.1) -5 <l2.y> + (<l5.y> - l2.y>) * 0.2 lc <c.x> <l5.y> -2 l4 <h4.x> + ([Freya] * 0.1) +5 <l3.y> +2 + ([Avalanche] + 200-
[Chest circumference]) * 0.05 p <c.x> <a.y> + [Sleeve length] -140 p1 <c.x> <n.y> + [total length] * 0.187 ph1 <ph.x> +10 <ph.y> -2 - ([Avalanche] + 200-
[Chest circumference]) * 0.05 dd <p.x> +15 <p.y> dt <dd.x> <p1d.y> +45 dw <dd.x> +5 <wc.y> p1d2 <p1d1.x> <p1d1.y> -27 p1d3 <p1d.x> +3 <p1d.y> -27 h41 <h4.x> -30 <h4.y> w31 <w3.x> +30 <w3.y> h31 <h3.x> +30 <h3.y> a1 <a.x> +40 <a.y> av1 <av.x> + (<t.x> - <u2.x>) * 0.5 <av.y> av2 <av1.x> -30 <av1.y> -7 d1 <d.x> +3 <d.y> -3 t1 <t.x> - (<t.x> - <u2.x>) * 0.65 <av.y> -10 13 <12.x> - (<12.x> - <10.x>) * 0.45 <12.y> u1 <u.x> -20 <u.y> soa <o.x> <o.y> -320 soav <soa.x> - (<av.y> - <a.y>) <soa.y> sou <soa.x> - (<u.y> - <a.y>) <soa.y> sod <sou.x> -40 <soa.y> left <soa.x> - [Sleeve length] -15 <soa.y> so2 <sod.x> +2 <sod.y> -27 so1 <sod.x> - (<sod.x> - <sol.x>) * 0.5 + 20 <sod.y> +10 so3 <sod.x> +2 <sod.y> + 15-280 so4 <so1.x> <sod.y> -18 so5 <so1.x> -2 <so4.y> + 42-280 so6 <sol.x> <sol.y> -42 so7 <sol.x> -3 <sol.y> -2-280 so8 <soa.x> <soa.y> + (<t.x> - <a.x>) so9 <soav.x> +3 <soav.y> + (<t1.x> - <av.x>) + 25 sots <soa.x> <sot.y> - (<sot.y> - <sos.y>) * 0.5 sov <soav.x> <so9.y> + (<soa.x> - <sod.x>) - 2 so10 <soa.x> <sov.y> so11 <sov.x> <sov.y> so12 <so11.x> <so11.y> +10 soad <sod.x> +6 <sod.y> + (<so10.y> - <soa.y>) * 0.5 + 20 so13 <sou.x> + <u.y> - <15.y> <sou.y> + <15.x> - <ux> -
(<b3.x> - <b4.x>) - 290 so14 <so11.x> <so13.y> +40 so15 <so14.x> <so14.y> + 10 so16 <sol.x> <sol.y> + [chest circumference] * 0.05 + 120 so18 <so1.x> <so12.y> -10 sox <sod.x> +1 <so3.y> +27 sou1 <sou.x> <sou.y> +30 so91 <so9.x> -6 <so9.y> +30 sov1 <sov.x> <sov.y> + 10 sox1 <so7.x> -5 <sox.y> so181 <so18.x> <so18.y> -35 so101 <so10.x> <soa10.y> - (<soa10.y> - <so10.y>) * 0.5 so31 <so3.x> +3 <so3.y> + 10 so32 <so3.x> <so3.y> +20 so81 <so9.x> - (<so9.x> - <so8.x>) * 0.6 <so9.y> + (<sot.y> - <so9.y>) * 0.15 sots1 <sots.x> -30 <sots.y> sod1 <sod.x> +7 <sod.y> -6 h5 <f.x> <hc.y> fh <h5.x> <h5.y> bt21 <bt2.x> +20 <bt2.y> so132 <so131.x> -7 <SO131.y> +20 so51 <so5.x> <so5.y> +30 so9x <soav.x> - (<so9.x> - <sou.x>) * 0.4 <soav.y> + (<so9.y> - <sou.y>) * 0.5 so121 <so18.x> +100 <so12.y> -5 so151 <so19.x> +100 <so15.y> -2 so19 <so1.x> <so15.y> soa10 <soa.x> <so9.y> - (<so9.y> - <so10.y>) / 2 so82 <so8.x> <so8.y> - (<so8.y> - <soa10.y>) * 0.55 sot <soa.x> <so8.y> + (<a.y> - <t.y>) + 30 sauce <soa.x> <so10.y> - (<a.y> - <s.y>) - 30 px1 <p.x> <p.y> -15 px2 <px1.x> <px1.y> +30 lpoint <f.x> +70 <f.y> -100 m6 <m.x> -10 <m.y> - (<m.y> - <6.y>) * 0.3 nt <n.x> +70 <n.y> - (<n.y> - <t.y>) * 0.25 wh3 <h3.x> +5 <h3.y> -90 sodad <soad.x> -7 <soad.y> -285 sod17 <so17.x> -2 <so17.y> -290 so191 <so19.x> <so19.y> -30 bw4 <w4.x> -5 <w4.y> -30 so46 <so4.x> -40 <so4.y> so57 <so5.x> -40 <so5.y> wh1 <w1.x> <w1.y> +30 bw2 <w2.x> <w2.y> -30 wh2 <w2.x> <w2.y> +30 soxd <sox.x> -3 <sox.y> +30 ddr <dd.x> +5 <dd.y> -2 4d <4.x> -3 <4.y> +15 so24 <so4.x> +90 <so4.y> so35 <so5.x> +90 <so5.y>

Point name X coordinate Y coordinate 3 <o.x> -2- [Volatiles] * 0.1 <o.y> + [total length] * 0.25 4 <o.x> - ([threes] -65) * 0.1 <oy> - ([thongs] -35) * 0.1-3-
([Leading] - ([Vibration] * 2 + 45)) * 0.2 c <b.x> -650 <b.y> t <nx> + (<om.x> - <s.x>) - (<8.y> - <7.y>) * 0.2 + 4 <8.y> + (<t.x> - <8.x>) * 0.5 v10 <v.x> -15 <v.y> b1 <e.x> <ad.y> b11 <w1.x> <b1.y> f <wc.x> - [Outbound] * 0.29 - ([Avalanche] + 130-
[Chest circumference]) * 0.1- [Bumps] * 0.2-35-10 <wc.y> bt <f.x> +33 <hc.y> bt1 <bt.x> <c.y> + [total length] * 0.05 9 <n.x> -20 <ny> 12 <10.x> - [Chest circumference] * 0.043- [Feather width] <10.y> -25 btf1 <btf.x> -3 <12.y> + (<btf.y> - <12.y>) * 0.7 h2 <hx.x> + ([circumference of circumference] +50) * 0.115-
[Spades] * 0.2 + 7 <hx.y> 16 <15.x> + 10 + 7 <15.y> pH <h4.x> -6 + ([Avalanche] + 170-
[Chest circumference]) * 0.1 <l4.y> - (<lc.y> - <p.y>) + 2 p1d <d.x> -38 <p1.y> -7 p1d1 <p1d.x> - [Chest circumference] * 0.05-60 <p1d.y> +15 w41 <wc.x> -50 <w4.y> so17 <so16.x> - [Avalanche] * 0.005-30 <so16.y> -7 so131 <so13.x> +3 <so13.y> -3 l6 <l5.x> <l5.y> +10 bt2 <bt1.x> <bt1.y> + (<bt.y> - <bt1.y>) * 0.5 so171 <so17.x> +110 <so17.y> +30 so172 <so17.x> +110 <so17.y> + 23-290 u2 <u.x> <u.y> -30 ad11 <14.x> -30 <ad.y> mc <m.x> +13 <m.y> -10 2c <2.x> +20 <2.y> 4c <4.x> +20 <4.y> 3c <3.x> +20 <3.y> wac <wa.x> +20 <wa.y> m1c <m1.x> +11 <m1.y> -14 m2c <m2.x> +3 <m2.y> -14 hvc <h.x> +20 <h.y> -150 blc <l.x> +60 <l.y> +50 l1c <l1.x> <l1.y> +50 cv <hvc.x> +40 <h.y> -30 sc <s.x> -5 <s.y> +1 vc <v.x> -5 <v.y> ec <e.x> -5 <e.y> 12c <l2.x> +1 <l2.y> +50 13c <l3.x> +1 <l3.y> + 50 nc <n.x> -15 <n.y> -3-5 ntc <nt.x> <nt.y> -5 tc <t.x> +6 <t.y> -2 t1c <t1.x> +5 <t1.y> u2c <u2.x> +8 <u2.y> -10 11c <11.x> -17 <11.x> -17 l6c <l6.x> +70 <16th> l61c <l6c.x> <l6c.y> +40 lcc <lc.x> <lc.y> +50 14c <l4.x> -1 <l4.y> +50 so6c <so6.x> -50 <so6.y> -11 solc <sol.x> -50 <sol.y> -5 so17c <so17.x> -53 <so17.y> +11 so171c <so171.x> -10 <so171.y> +18 so7c <so7.x> -50 <so7.y> -11 41c <4c.x> <4c.y> -15 12c <12.x> -10 <12.y> -20 13c <13.x> <13.y> -20 l51 <l5.x> +70 <l5.y> 4u <4.x> <41c.y> ml <m.x> -7 <m.y> +5 sr <s.x> +45 <s.y> -13 srd <sr.x> +5 <sr.y> +20 tl <t.x> -41 <t.y> -30 tld <tl.x> -7 <tl.y> +25 in <n.x> +25 <n.y> -3 if <f.x> + [Chest] * 0.1 <c.y> +50 yl5 <l5.x> + [chest circumference] * 0.11 <l5.y> +15 hr <h.x> +40 <h.y> nr <n.x> +30 <n.y> -3 nrd <nr.x> -4 <nr.y> +23 rope <p1d1.x> -5 <p1d1.y> +15 ipr <p1d.x> +20 <p1d.y> +12 sod17c <sod17.x> -53 <sod17.y> +15 so172c <so172.x> -10 <so172.y> +20 sod17r <sod17.x> +50 <sod17.y> +33 sod17rd <sod17r.x> -2 <sod17r.y> +5 so15c <so15.x> <so15.y> +5 so151c <so151.x> <so151.y> +5 16i <16.x> -7 <16.y> b2i <b2.x> -8 <b2.y> bw4 <w4.x> -5 <w4.y> -30 4cd <4c.x> -1 <4c.y> +7 nrr <n.x> +30 <n.y> + (<nt.y> - <n.y>) * 0.9 + 3 nrru <nrr.x> <nrr.y> -5 bc <b.x> +20 <b.y> so19c <so19.x> <so19.y> +3 so172d <so172.x> -2 <so172.y> +5

Point name X coordinate Y coordinate 3 <o.x> -3- [Volatiles] * 0.05 <o.y> + [total length] * 0.25 4 <o.x> - ([threes] -65) * 0.1 <oy> - ([thongs] -45) * 0.1-3-
([Leading] - ([Vibration] * 2 + 45)) * 0.2 c <b.x> -630 <b.y> t <nx> + (<om.x> - <s.x>) - [threes] * 0.1 + 4 <8.y> + (<t.x> - <8.x>) * 0.5 v10 <v.x> -10 <v.y> b1 <e.x> +5 <ad.y> b11 <b1.x> +35 <b1.y> f <wc.x> - [Outbound] * 0.29 - ([Avalanche] + 130-
[Chest circumference]) * 0.1- [Spindles] * 0.2-35 <wc.y> bt <f.x> +25 <hc.y> +20 bt1 <btf.x> +25 <c.y> + [president] * 0.065 9 <n.x> -25 <ny> 12 <10.x> - [Chest circumference] * 0.04- [Feather width] <10.y> -25 btf1 <btf.x> -3 <12.y> + (<btf.y> - <12.y>) * 0.6 h2 <hx.x> + ([circumference of circumference] +50) * 0.115-
[Spades] * 0.2 <hx.y> 16 <15.x> +10 <15.y> pH <h4.x> -6 + ([Avalanche] + 170-
[Chest circumference]) * 0.02 <l4.y> - (<lc.y> - <p.y>) + 2 p1d <d.x> -35 <p1.y> -7 p1d1 <p1d.x> - [Chest circumference] * 0.05-55 <p1d.y> +15 w41 <w4.x> -30 <w4.y> so17 <so16.x> - [Avalanche] * 0.01-30 <so16.y> -7 so131 <so13.x> +3 <so13.y> bt2 <f.x> +25 <bt1.y> + (<bt.y> - <bt1.y>) * 0.5 so171 <so17.x> - (<so17.x> - <so18.x>) * 0.4 <so17.y> +18 so172 <so17.x> - (<so17.x> - <so18.x>) * 0.4 <so17.y> + 18-290 u2 <u.x> -5 <u.y> -30 ad11 <14.x> -30 <ad.y> nr <n.x> +30 <n.y> + (<nt.y> - <n.y>) * 0.9 + 3

Tables 5 to 7 below show a pattern for a jacket (specifically, a jacket j2b with two buttons) and a jacket (j2b requiring two jets with two buttons) (Table 5), the point value of only the bone j2b (Table 6), and the point value of only j2b (Table 7), which are determined by substituting the basic dimensions and the selected dimensions shown in Fig. 3 The corresponding pattern is shown in Fig. 6 and Fig.

As can be seen from Tables 5 to 7, the jacket pattern has at least six points (b; 1; 3; 4; 5; soa) is determined, and a pattern is formed by a plurality of point values determined by a function formula including a second reference point and six points and a basic dimension and / or a selected dimension.

For example, the second reference point o of the bone j2b is the point at which the upper left corner is 0 point, from which the x coordinate is 930 mm and the y coordinate is 630 mm.

(Point) corresponding to six points (b; 1; 3; 4; 5; soa) determined only by the second reference point and the basic dimension value, and the second reference point and the basic dimension value and / (Point) corresponding to point 6, which is one of a plurality of points determined by the function expression including the function expression, is interpreted as follows. The jacket is almost similar in shape to the coat, so the point value and interpretation are almost similar. Since the function values of the double point b, point 1, point 4, point 5 and point soa are the same, the interpretation thereof is omitted.

Point 3 has an x coordinate of <o.x> -3 - [volts] of 0.05 and a y coordinate of <o.y> + [total length] * 0.24. That is, the x-coordinate of point 3 moves to the left by 3 mm from the x-coordinate of the first reference point o, and additionally the position where the balloons are moved to the left by 5% of the dimension value, and the y- y coordinate is shifted downward by 24% of the total dimension value, and it can be confirmed that only the second reference point and the basic dimension value are determined.

In point 6, the x-coordinate is <5.x> and the y-coordinate is <m.y> + [shoulder deflection] -3 - ([shoulder deflection] -45) * 0.25. That is, the x coordinate of point 6 is equal to the x coordinate of point 5, the y coordinate moves downward by the shoulder deflection dimension value at the y coordinate of point m, then moves upward by 3 mm, and 45 mm from the shoulder deflection dimension value It is the position that moved upward by 25% of the limit dimension value. This can be confirmed from FIG. 6 and FIG. 7 in which the pattern is displayed.

Also, y, ts, z, and soa, ad among the points located outside the drawn pattern in the pattern diagrams of Figs. 6 and 7 are as described above.

6, the line connecting the points x and 15 is a curve, and the curvature of the curve is determined by a function value indicating an x coordinate and a y coordinate of the point ad11. In other words,

The value of the point ad11 is determined by the x coordinate <ad.x> + [chest circumference] * 0.02 and the y coordinate <ad.y>, and the x coordinate value and the y coordinate value of ad11 are finally determined to be the second reference point o (930,630) of the second reference point o and a measured value are determined, the x-coordinate value and the y-coordinate value of ad11 are determined, and the ad11 point value The curvature is determined.

In addition, the lines connecting between the adjacent two points, for example, w3 to w31, w21 to w2, w1 to w11, ..., irrespective of the line forming the pattern, are marks for indicating the points to be aligned with each other at the time of cutting.

Point name X coordinate Y coordinate b <o.x> <o.y> + [vibration] One <o.x> <o.y> + [vibration] * 0.25 2 <o.x> + [threes] * 0.25 + 5 <1.y> 3 <o.x> -3- [Volatiles] * 0.05 <o.y> + [total length] * 0.24 w <3.x> <3.y> +25 wa <w.x> <w.y> +25 h <3.x> +4 <w.y> + [total length] * 0.12 l <h.x> +1 <4.y> + [general manager] * 0.5-10 om <4.x> - [Avalanche] * 0.07-25 <4.y> m <om.x> <om.y> - [Shoulder Deflection] * 0.15-18 m1 <m.x> +25 <om.y> 5 <o.x> -200 <o.y> 6 <5.x> <m.y> + [Shoulder Deflection] -3 - ([Shoulder Deflection] -45) * 0.25 s <4.x> - [shoulder width] <6.y> + (<6.x> - <s.x>) * 0.3 h1 <h.x> - [circumference of circumference] * 0.2 - ([circumference] + 150 - [circumference of circumference]) * 0.05 <h.y> w1 <h1.x> +4 <w.y> l1 <h1.x> -3 <l.y> n <c.x> <cy> - [Leading] + (<by> - <my>) - 20 - ([Front] - [Chest] * 0.4) * 0.2 - ([Avalanche] + 150 - [Chest]) * 0.03 - [Chest Dart] * 0.5 7 <n.x> +200 - (<4.x> - <om.x>) <ny> 8 <7.x> <7.y> + [Shoulder Deflection] - ([Shoulder Deflection] -45) * 0.25 + ([Avalanche] + 130- [Chest]) * 0.012+ [Chest Dart] * 0.25 y <t.x> + (<s.x> - <t.x>) / 2 <t.y> + (<s.y> - <t.y>) / 2 name <y.x> <y.y> + ([chest] * 0.1) +115 + ([shoulder deflection] -45) * 0.3 e <o.x> - [Back] * 0.57 <ad.y> - (<ad.y> - <y.y>) * 0.25-5 e1 <e.x> -10 <e.y> z <y.x> <y.y> + (<ad.y> - <y.y>) * 0.5-20 v <s.x> + (<e.x> - <s.x>) * 0.4 + 18 <z.y> w11 <w1.x> +30 <w1.y> h11 <h1.x> +30 <h1.y> v11 <v10.x> +30 <v10.y> bw1 <w1.x> <w1.y> -30 m2 <m.x> +50 <om.y> wc <c.x> <w.y> f <wc.x> - [previous item] * 0.26 - ([Avalanche] + 130- [Chest circumference]) * 0.1- [Bows] * 0.2-15-10 <wc.y> fl <f.x> + ([Avalanche] + [Total length] -110) * 0.02 + 10 <l.y> l5 <fl.x> <fl.y> +20 + ([Avalanche] + 150- [Chest]) * 0.1 ch <c.x> <h.y> h4 <ch.x> + [circumference of circumference] * 0.125 + ([circumference] + 150- [circumference of circumference]) * 0.1- [ <ch.y> +3 + ([Avalanche] + 200- [Bust]) * 0.05 + 30 w4 <b4.x> - (<b4.x> - <ph.x>) * 0.4 - ([total length] -200) * 0.01 <wc.y> b4 <c.x> + [previous item] * 0.25 + 45 <ad.y> +3 d <b4.x> -45 <b4.y> ts <z.x> <y.y> +33 a <d.x> <ts.y> av <d.x> <z.y> u <d.x> <d.y> -35 bt <f.x> +15 <f.y> 9 <n.x> -15 <ny> 10 <f.x> + (<9.x> - <f.x>) * 0.79 <f.y> - (<f.y> - <9.y>) * 0.79 11 <n.x> -1 <n.y> + [president] * 0.025 12 <10.x> - [Chest circumference] * 0.035- [Feather width] <n.y> + [president] * 0.045 b3 <x.x> -20 <x.y> wx <x.x> <w.y> w3 <b3.x> <wx.y> hx <x.x> <h.y> 14 <x.x> + ([chest] -400) * 0.17 <x.y> 15 <14.x> <e.y> w2 <h2.x> -4 <wx.y> b2 <16.x> <ad.y> b21 <b2.x> -30 <b2.y> w21 <w2.x> -30 <w2.y> h21 <h2.x> -30 <h2.y> l2 <h2.x> +3 <l1.y> lx <hx.x> <l2.y> l3 <h3.x> -2 <l2.y> + (<l5.y> - l2.y>) * 0.2 lc <c.x> <l5.y> -2 p <c.x> <n.y> + (<lc.y> - <n.y>) * 0.67 pH <h4.x> -6 + ([Avalanche] + 170- [Chest]) * 0.02 <l4.y> - (<lc.y> - <p.y>) + 2 ph1 <ph.x> +10 <ph.y> -2 - ([Avalanche] + 200- [Bust]) * 0.05 dd <p.x> +15 <p.y> dt <dd.x> <p1d.y> +45 dw <dd.x> +5 <wc.y> fl1 <fl.x> -20 <fl.y> -10 p1d <d.x> -30 <p1.y> -7 p1d1 <p1d.x> - [Chest circumference] * 0.05-50 <p1d.y> +15 p1d2 <p1d1.x> <p1d1.y> -27 p1d3 <p1d.x> +3 <p1d.y> -27 h41 <h4.x> -30 <h4.y> w31 <w3.x> +30 <w3.y> h31 <h3.x> +30 <h3.y> a1 <a.x> +40 <a.y> av1 <av.x> + (<t.x> - <u2.x>) * 0.5 <av.y> av2 <av1.x> -30 <av1.y> -7 d1 <d.x> +5 <d.y> -3 t1 <t.x> - (<t.x> - <u2.x>) * 0.65 <av.y> -10 21 <12.x> - (<12.x> - <10.x>) * 0.45 <12.y> u1 <u.x> -20 <u.y> soa <o.x> <o.y> -320 soav <soa.x> - (<av.y> - <a.y>) <soa.y> sou <soa.x> - (<u.y> - <a.y>) <soa.y> sod <sou.x> -35 <soa.y> left <soa.x> - [Sleeve length] <soa.y> so2 <sod.x> +2 <sod.y> -27 so1 <sod.x> - (<sod.x> - <sol.x>) * 0.5 + 20 <sod.y> +20 so3 <sod.x> +2 <sod.y> + 15-280 so4 <so1.x> <sod.y> -18 so5 <so4.y> + 42-280 <so4.y> + 42-280 so6 <sol.x> <sol.y> -42 so7 <sol.x> -3 <sol.y> -2-280 so8 <soa.x> <soa.y> + (<t.x> - <a.x>) so9 <soav.x> +3 <soav.y> + (<t1.x> - <av.x>) + 25 sots <soa.x> <sot.y> - (<sot.y> - <sos.y>) * 0.5 so10 <soa.x> <sov.y> so11 <sov.x> <sov.y> so12 <so11.x> <so11.y> +10 soad <sod.x> +6 <sod.y> + (<so10.y> - <soa.y>) * 0.5 + 20 so13 <sou.x> + <u.y> - <15.y> <sou.y> + <15.x> - <u.x> - (<b3.x> - <b4.x>) - 290 so14 <so11.x> <so13.y> +40 so15 <so14.x> <so14.y> + 10 so16 <sol.x> <sol.y> + [chest circumference] * 0.05 + 110 so17 <so16.x> - [Avalanche] * 0.005-27 <so16.y> -7 so18 <so1.x> <so12.y> -10 sox <sod.x> +1 <so3.y> +32 sou1 <sou.x> <sou.y> +30 sov1 <sov.x> <sov.y> + 10 sox1 <so7.x> -5 <sox.y> so181 <so18.x> <so18.y> -35 so101 <so10.x> <soa10.y> - (<soa10.y> - <so10.y>) * 0.5 so31 <so3.x> +3 <so3.y> + 10 so32 <so3.x> +1 <so3.y> +20 so81 <so9.x> - (<so9.x> - <so8.x>) * 0.6 <so9.y> + (<sot.y> - <so9.y>) * 0.15 sots1 <sots.x> -30 <sots.y> sod1 <sod.x> +7 <sod.y> -6 so131 <so13.x> +3 <so13.y> -3 so132 <so131.x> -7 <SO131.y> +20 so51 <so5.x> <so5.y> +30 so172 <so17.x> - (<so17.x> - <so19.x>) * 0.4 <so17.y> + 23-290 u2 <u.x> -5 <u.y> -30 ad11 <ad.x> + [Chest] * 0.02 <ad.y> so91 <so9.x> -6 <so9.y> +30 so9x <soav.x> - (<so9.x> - <sou.x>) * 0.4 <soav.y> + (<so9.y> - <sou.y>) * 0.5 so19 <so1.x> <so15.y> so121 <so18.x> +100 <so12.y> -5 so151 <so19.x> +100 <so15.y> -2 soa10 <soa.x> <so9.y> - (<so9.y> - <sov.y>) / 2 fp <f.x> -3 <f.y> +150 so82 <so8.x> <so8.y> - (<so8.y> - <soa10.y>) * 0.55 sot <soa.x> <so8.y> + (<a.y> - <t.y>) + 30 sauce <soa.x> <so10.y> - (<a.y> - <s.y>) - 30 px1 <p.x> <dd.y> -15 px2 <px1.x> <px1.y> +30 m6 <m.x> -10 <m.y> - (<m.y> - <6.y>) * 0.3 nt <n.x> +70 <n.y> - (<n.y> - <t.y>) * 0.25 bt20 <bt2.x> +23 <bt2.y> lpoint <f.x> +50 <f.y> -50 wh3 <h3.x> +4 <h3.y> -80 sodad <soad.x> -7 <soad.y> -285 sod17 <so17.x> -2 <so17.y> -290 wh1 <w1.x> <w1.y> +30 bw2 <w2.x> <w2.y> -30 wh2 <w2.x> <w2.y> +30 soxd <sox.x> -3 <sox.y> +30 ddr <dd.x> +5 <dd.y> -2 4d <4.x> -3 <4.y> +15 so24 <so4.x> +90 <so4.y> so35 <so5.x> +90 <so5.y>

Point name X coordinate Y coordinate o 930 630 c <b.x> -620 <b.y> t <nx> + (<om.x> - <s.x>) - [threes] * 0.1 + 4 <8.y> + (<t.x> - <8.x>) * 0.6 v10 <v.x> -15 <v.y> b1 <e.x> <ad.y> b11 <w1.x> <b1.y> bt1 <bt.x> <c.y> + [president] * 0.07 bt10 <bt.x> +20 <bt.y> bt11 <bt1.x> +20 <bt1.y> btf <f.x> <bt2.y> btf1 <f.x> -5 <12.y> + (<f.y> - <12.y>) * 0.7 x <ad.x> -30 <ad.y> h3 <hx.x> -40- [Ball players] * 0.2 <hx.y> +30 h2 <hx.x> + [circumference of circumference] * 0.115- [spindles] * 0.2 + 7 <hx.y> 16 <15.x> + 10 + 7 <15.y> l4 <h4.x> +2 <l3.y> +2 + ([avalanche] + 200- [chest circumference]) * 0.05 p1 <p.x> <n.y> + (<lc.y> - <n.y>) * 0.34 fl2 <l5.x> -20 <l5.y> +10 fl3 <l5.x> +10 <l5.y> +10 w41 <wc.x> -50 <w4.y> sov <soav.x> <so9.y> + (<soa.x> - <sod.x>) - 2 so171 <so17.x> +110 <so17.y> +25 mc <m.x> +13 <m.y> -10 m1c <m1.x> +11 <m1.y> -14 m2c <m2.x> +3 <m2.y> -14 4c <4.x> +15 <4.y> 2c <2.x> +15 <2.y> 3c <3.x> +15 <3.y> wac <wa.x> +15 <wa.y> hc <h.x> +15 <h.y> blc <l.x> +15 <l.y> +40 l1c <l1.x> <l1.y> +40 sc <s.x> -5 <s.y> +1 vc <v.x> -5 <v.y> ec <e.x> -5 <e.x> -5 l2c <l2.x> <l2.y> +40 l3c <l3.x> +1 <l3.y> +40 nc <n.x> -15 <n.y> -10 ntc <nt.x> <nt.y> -5 tc <t.x> +6 <t.y> -2 t1c <t1.x> +5 <t1.y> u2c <u2.x> +10 <u2.y> -10 11c <11.x> -17 <11.x> -15 l6 <l5.x> +50 <l5.y> l6c <16.x> <16th> + 10 l61c <16x> +2 <16th> +40 lcc <lc.x> <lc.y> +40 14c <l4.x> -1 <l4.y> +40 so6c <so6.x> -45 <so6.y> -10 solc <sol.x> -45 <sol.y> -5 so7c <so7.x> -45 <so7.y> -10 so17c <so17.x> -47 <so17.y> +10 so171c <so171.x> -10 <so171.y> +20 bt2 <btf.x> +25 <bt.y> - [General] * 0.067 12c <12.x> -10 <12.y> -20 21c <21.x> <21.y> -20 41c <4c.x> <4c.y> -15 in <n.x> +25 <ny> if <f.x> + [Chest] * 0.1 <c.y> +50 yl5 <l5.x> + [Chest] * 0.09 <l5.y> +15 ml <m.x> -7 <m.y> +5 sr <s.x> +45 <s.y> -13 srd <sr.x> +5 <sr.y> +20 tl <t.x> -41 <t.y> -30 tld <tl.x> -7 <tl.y> +25 4u <4.x> <41c.y> nr <n.x> +30 <n.y> -3 nrd <nr.x> -4 <nr.y> +23 rope <p1d1.x> -5 <p1d1.y> +15 ipr <p1d.x> +20 <p1d.y> +12 sod17c <so17c.x> <sod17.y> +15 so172c <so172.x> -10 <so172.y> +20 sod17r <sod17.x> +45 <sod17.y> +32 sod17rd <sod17r.x> -2 <sod17r.y> +5 so191 <so19.x> <so19.y> -30 so15c <so15.x> <so15.y> +5 so151c <so151.x> <so151.y> +5 16i <16.x> -7 <16.y> b2i <b2.x> -8 <b2.y> bw4 <w4.x> -7 <w4.y> -30 so46 <so4.x> -40 <so4.y> so57 <so5.x> -40 <so5.y> 4cd <4c.x> -1 <4c.y> +7 nrr <n.x> +30 <n.y> + (<nt.y> - <n.y>) * 0.9 + 3 nrru <nrr.x> <nrr.y> -5 bc <b.x> +15 <b.y> so172d <so172.x> -2 <so172.y> +5 so19c <so19.x> <so19.y> +3

Point name X coordinate Y coordinate o 930 660 c <b.x> -650 <b.y> t <nx> + (<om.x> - <s.x>) - [threes] * 0.1 + 3 <8.y> + (<t.x> - <8.x>) * 0.5 v10 <v.x> -10 <v.y> b1 <e.x> +5 <ad.y> b11 <b1.x> +35 <b1.y> bt1 <bt.x> <bt.y> + [total length] * 0.067 bt10 <bt.x> +23 <bt.y> bt11 <bt1.x> +23 <bt1.y> btf <f.x> <bt2.y> +30 x <ad.x> -50 <ad.y> h3 <hx.x> -40- [Volatiles] * 0.15 <hx.y> +30 h2 <hx.x> + [circumference of circumference] * 0.115- [spindles] * 0.2 <hx.y> 16 <15.x> +10 <15.y> l4 <h4.x> +3 <l3.y> +2 + ([avalanche] + 200- [chest circumference]) * 0.05 p1 <c.x> <n.y> + (<lc.y> - <n.y>) * 0.34 fl2 <l5.x> -10 <l5.y> fl3 <l5.x> +10 <l5.y> +5 w41 <w4.x> -30 <w4.y> sov <soav.x> +5 <so9.y> + (<soa.x> - <sod.x>) - 2 so191 <so19.x> <so19.y> -30 so171 <so17.x> - (<so17.x> - <so18.x>) * 0.4 <so17.y> +18 bt2 <btf.x> +15 <bt.y> - [General] * 0.067 btf1 <f.x> -5 <12.y> + (<f.y> - <12.y>) * 0.7 bw4 <w4.x> -5 <w4.y> -20 so46 <so4.x> -70 <so4.y> so57 <so5.x> -70 <so5.y> nr <n.x> +30 <n.y> + (<nt.y> - <n.y>)

Tables 8 to 10 below show a vest, specifically a vest (bone v5b) with five needles, and a vest (v5b) with five buttons, (Table 8), the point value only for the goal v5b (Table 9), and the point value for only v5b (Table 10), which are determined by substituting the basic dimensions and the selected dimensions shown in Fig. 3 The corresponding pattern is shown in Fig. 8 and Fig.

As can be seen from Tables 8 to 10, the vest pattern has at least five points (b; 1; 3; 4; 5) is determined, and the pattern is formed by a plurality of point values determined by a function formula including a third reference point and five points and a basic dimension and / or a selected dimension.

For example, the third reference point o is the point at which the upper left corner is 0 point, from which the x coordinate is 950 mm and the y coordinate is 100 mm.

5 points (b; 1; 3; 4; 5) determined only by a third reference point and a basic dimension value, and a plurality of points determined by a function expression including a third reference point and a basic dimension value and / (Point) corresponding to point 6, which is one of the following, is interpreted as follows. Likewise, portions of the vest pattern that are substantially similar in shape to the coat are substantially similar in point value and interpretation. Since the function values of the double point b, point 1, and point 5 are the same, the interpretation thereof is omitted.

Point 3 has an x coordinate of <o.x> -3 - ([bobbins] + [waists] -10) * 0.15 and a y coordinate of <o.y> + [total length] * 0.25. In other words, the x-coordinate of point 3 moves 3 mm to the left from the x-coordinate of the third reference point o, and furthermore, 10 mm is shifted to the left by 15% of the limiting numerical value from the value obtained by adding the waist values to the dimension values Position, and the y coordinate is a position shifted downward by 25% of the total length dimension value at the y coordinate of the third reference point o, and it can be confirmed that the third reference point and the basic dimension value are determined only.

Point 4 is the x coordinate <ox> - (threes) -65) * 0.1 and the y coordinate is <oy> - (threes) -45) * 0.1-3 - * 2 + 45)) * 0.2. In other words, the x-coordinate of point 4 is the position at which the neck is shifted 65 mm from the dimension value to the left by 10% of the limiting dimension value at the x-coordinate of the first reference point o, and the y- The necks are moved 45 mm from the dimension value by 10% of the limit dimension value and moved upward by 3 mm, and then the value obtained by adding 45 mm to the vibration dimension value twice from the lead dimension value by 20% It can be confirmed that only the third reference point and the basic dimension value are determined.

In point 6, the x-coordinate is <5.x> and the y-coordinate is <m.y> + [shoulder deflection] - ([shoulder deflection] -45) * 0.25. That is, the x coordinate of point 6 is equal to the x coordinate of point 5, the y coordinate moves downward by the shoulder deflection dimension value at the y coordinate of point m, then 45 mm from the shoulder deflection dimension value by 25% It is the position that moved upward. This can be confirmed from Figs. 8 and 9 in which a pattern is shown.

8, the line connecting the points 9c and bt1c is a curve, and the curvature of the curve is determined by a function value indicating an x coordinate and a y coordinate of the point 91c. In other words,

The value of the point 91c is determined by the x coordinate <91.x> -10 and the y coordinate <91.y>, and the x coordinate value and the y coordinate value of 91c are finally determined based on the third reference point o and the measurement value only (950,100) and the measured value of the third reference point o are substituted, the x coordinate value and the y coordinate value of 91c are determined, and the curvature is determined by the 91c point value .

In addition, the lines extending between adjacent two points, for example, w1c to w11, w21 to w2, bt1 to bt11 ... are marks for indicating points where they are aligned with each other at the time of cutting.

Point name X coordinate Y coordinate o 950 100 b <o.x> <o.y> + [vibration] One <o.x> <o.y> + [vibration] * 0.25 3 <o.x> -3 - ([balls] + [waist] -10) * 0.15 <o.y> + [total length] * 0.25 w <3.x> <3.y> +75 l <w.x> +5 <w.y> + [total length] * 0.05 4 <o.x> - ([threes] -65) * 0.1 <o.y> - ([threes] -45) * 0.1-3 - ([Leading] - ([Vibration] * 2 + 45)) * 0.2 om <4.x> - [Avalanche] * 0.07-23 <4.y> m <om.x> <om.y> - [Shoulder stabbing] * 0.15-18 5 <o.x> -200 <o.y> 6 <5.x> <m.y> + [shoulder stabbing] - ([shoulder stabbing] -45) * 0.25 s <m.x> - [Chest] * 0.095 <6.y> -2 41 <4.x> <4.y> -15 mc <m.x> +11 <m.y> -10 x <b.x> - [Chest circumference] * 0.29-10 <b.y> b1 <x.x> <x.y> +10 w1 <w.x> - ([Avalanche] + [Chest]) * 0.135-25 - ([Avalanche] + 130- [Bust]) * 0.1 <w.y> l1 <w1.x> -5 <l.y> n <c.x> <cy> - [Leading] + (<by> - <my>) - ([Front] - [Chest] * 0.4) * 0.2 - ([Avalanche] + 150- [Chest]) * 0.03- [ Dart] * 0.5 7 <n.x> + (<om.x> - <5.x>) <ny> 8 <7.x> <7.y> + [Shoulder strikes] + ([Avalanche] + 130- [Chest circumference]) * 0.012+ [Chest Dart] * 0.25 t <n.x> + (<m.x> - <s.x>) - [Thorns] * 0.01 <8.y> -4 9 <n.x> -13 <n.y> -5 w3 <c.x> <w.y> f <w3.x> - [Out of Stock] * 0.26 - ([Avalanche] + 130- [Chest Circle]) * 0.1- [Balls] * 0.2-12 <w3.y> fl <f.x> +2 <l.y> + ([Avalanche] + 130- [Chest]) * 0.2 cf <c.x> - [Outbound] * 0.26-12 <c.y> bt1 <cf.x> <cf.y> b2 <c.x> + [previous item] * 0.24 + 45 <b1.y> w2 <w3.x> + ([Avalanche] + [Chest]) * 0.065 + ([Avalanche] + 130- [Bust]) * 0.1 + 10 <w3.y> l3 <fl.x> +60 <fl.y> l4 <l3.x> <l3.y> +70 p <f.x> + [Avalanche] * 0.09 <f.y> +25 p1 <cf.x> + <p.x> - <f.x> -3 <p.y> - [General] * 0.1-30 91 <9.x> <9.y> +70 b21 <b2.x> -100 <b2.y> +10 l11 <l1.x> -2 <l1.y> +10 l02 <l.x> - (<l.x> - <l1.x>) * 0.47 <l.y> -15 w01 <l02.x> +7 <w.y> -10 l03 <l02.x> <l02.y> l04 <l03.x> <l03.y> -240 m2 <m.x> +50 <om.y> bs <s.x> +50 <b.y> +30 p01 <p.x> + [Chest] * 0.14 <p.y> -30 p02 <p01.x> <p01.y> -25 p03 <p.x> <p.y> -25 p11 <p1.x> + [Chest] * 0.095 + 10 <p1.y> -20 p13 <p1.x> <p1.y> -25 p12 <p11.x> <p11.y> -25 c1 <p1.x> - (<p1.x> - <p11.x>) * 0.5 + 7 <p1.y> +25 l41 <c1.x> +5 <l4.y> - (<l4.y> - <l2.y>) * 0.45 l42 <l41.x> +5 <l41.y> bt11 <bt1.x> +30 <bt1.y> fl1 <fl.x> +30 <fl.y> w21 <w2.x> -20 <w2.y> w11 <w1.x> +20 <w1.y> ms <m.x> -10 <m.y> - (<m.y> - <s.y>) * 0.3 9t <n.x> +50 <ny> - (<9.y> - <ty>) * 0.3 lpoint <f.x> +40 <f.y> -130 m1c <m1.x> +10 <m1.y> -13 m2c <m2.x> +3 <m2.y> -15 l5 <c.x> <l4.y> -20 l5 <c.x> <l4.y> -20 4d <4.x> -2 <4.y> +13 nr <n.x> +20 <n.y> + (<9t.y> - <n.y>) * 0.9

Point name X coordinate Y coordinate 2 <o.x> + [threes] * 0.25 <1.y> c 450 <b.y> l2 <w2.x> +10 <l.y> l01 <l1.x> +100 <l1.y> m1 <m.x> +25 <om.y> l43 <l41.x> +6 <p.y> +25 41c <41.x> + 10 <41.y> 2c <2.x> +10 <2.y> bc <b.x> +10 <b.y> 3c <3.x> +10 <3.y> lc <l.x> +10 <l.y> + 10 l01c <l01.x> <l01.x> l11c <l11.x> -10 <l11.y> +10 w1c <w1.x> -10 <w1.y> b1c <b1.x> -10 <b1.y> 9c <9.x> -10 <9.y> -7 bt1c <bt1.x> -10 <bt1.y> fc <f.x> -10 <f.y> flc <fl.x> -10 <f.y> l4c <14.x> <l4.y> +10 l41c <l41.x> <l41.y> +10 l2c <l2.x> <l2.y> +10 91c <91.x> -10 <91.y> 4c <4.x> +10 <4.y> 9tc <9t.x> <9t.y> -5 tc <t.x> +2 <t.y> -5 wc <w.x> +10 <w.y> 4cd <4c.x> -1 <4c.y> +7 nru <nr.x> <nr.y> -5

Point name X coordinate Y coordinate 2 <o.x> + [threes] * 0.25 + 5 <o.x> + [threes] * 0.25 + 5 c 430 <b.y> l2 <w2.x> +7 <l.y> l01 <l1.x> +100 <l1.y> +3 m1 <m.x> +20 <om.y> l43 <l41.x> +6 <p.y>

Tables 11 to 13 below show patterns of pants (specifically, p1t) having one ply (ply) having no padding (ply) having one padding and one padding having one padding (Table 12), and the point value of only p1t (Table 13), which are necessary for making a comparison between the basic point and the selected dimension shown in FIG. 2, The corresponding pattern to be determined is shown in Figs. 10 to 11. Fig.

As can be seen from Tables 11 to 13, the pants pattern has at least three points (c; ss; s2) determined only by the fourth reference point (s) and the basic dimension centered on the fourth reference point (s) , A fourth reference point and three points and a plurality of point values determined by a function formula including a basic dimension and / or a selected dimension

For example, the fourth reference point s is the point at which the upper left corner is 0 point, from which the x coordinate is 800 mm and the y coordinate is 70 mm.

A point (point) corresponding to three points (c; ss; s2) determined only by the fourth reference point and the basic dimension value, and a fourth reference point and a basic dimension value and / The point (point) corresponding to point 6, which is one of the plurality of points, is interpreted as follows.

Point c has x coordinate <s.x> and y coordinate <s.y> + [pants length] - [leg length] +5. That is, the x-coordinate of the point c is equal to the x-coordinate of the fourth reference point s, the y-coordinate moves downward by the pants length dimension value at the y-coordinate of the fourth reference point s, And then moved downward by 5 mm. As a result, it can be confirmed that only the fourth reference point and the basic dimension value are determined.

The point ss has an x coordinate of 330 mm and a y coordinate of <s.y>. That is, the x-coordinate of the point ss is a position where the upper left corner is 0 point and the x-coordinate is 330 mm, and the y-coordinate is the same position as the y-coordinate of the fourth reference point s. As shown in Fig.

Point s2 has an x coordinate of <s.x> and a y coordinate of <s.y> +30. That is, the x-coordinate of the point s2 is the same as the x-coordinate of the fourth reference point s, and the y-coordinate is the position shifted downward by 30 mm from the y-coordinate of the fourth reference point s. It can be confirmed that only the dimension value is determined.

In point 6, the x-coordinate is <k.x> + [circumference of circumference] * 0.102 + [nose width] +2, and the y-coordinate is <l.y>. That is, the x-coordinate of point 6 is the position shifted to the right by adding 10.2% of the perimeter dimension value at the x-coordinate of point k and the nasal width dimension value of 2 mm, and the y-coordinate is equal to the y-coordinate of point l Location. This can be confirmed from FIGS. 10 to 11 in which the patterns are shown.

Also, in the clothing pattern of FIG. 10, for example, a line connecting points x and 17 is a curve, and the curvature of the curve is determined by a function value indicating x and y coordinates of point x17. That is, the value of the point x17 is determined by the x coordinate <kk.x> - (<16.x> - <kk.x>) - 3 and the y coordinate <kk.y> (X, y) of the fourth reference point s and the measured values are substituted into the x coordinate of the point x17, Value and y coordinate value are determined, and the curvature of the curve is determined by the point value of the point x17.

Likewise, the lines extending between adjacent two points, for example, 17 to 172, 7 to 71, 161 to 16, 61 to 6, ..., irrespective of the line forming the pattern, are marks for indicating points that are aligned with each other at the time of cutting.

Point name X coordinate Y coordinate s 800 70 c <s.x> <s.y> + [pants length] - [leg length] +5 k <c.x> <c.y> + [leg length] * 0.5-70 l <c.x> <c.y> + [leg length] +5 hc <c.x> <c.y> - [circumference of circumference] * 0.05-60 One <c.x> - [waist circumference] * 0.1-15 - ([wrinkle amount 1] * 0.3) <c.y> 2 <1.x> <s.y> f <2.x> + ([circumference] - [waist circumference]) * 0.02 <2.y> 3 <f.x> + [waist circumference] * 0.25 + [wrinkle amount 1] +20 <s.y> 4 <l.x> + [beak] * 0.5 <l.y> 5 <l.x> - [Beak] * 0.5 <l.y> 6 <k.x> + [circumference of circumference] * 0.102 + [width of nose] +2 <k.y> 7 <k.x> - (<6.x> - <k.x>) <k.y> 8 <1.x> - ([Spindle circumference] + [Waist circumference]) * 0.04 <1.y> +5 9 <1.x> -5 <hc.y> 10 <hc.x> + ([circumference] + [waist circumference] +500) * 0.055 <hc.y> 11 <10.x> + [wrinkle amount 1] * 0.45 + 30 <10.y> s1 <s.x> <f1.y> ju1 <s1.x> + [wrinkle amount 1] <s1.y> ju11 <ju1.x> - (<ju1.x> - <s.x>) * 0.2-5 <c.y> -30 92 <1.x> -5 <1.y> -25 72 <7.x> -5 <8.y> + (<7.y> - <8.y>) * 0.5 6111 <6.x> + (<111.x> - <6u.x>) * 0.5 <6u.y> - (<6u.y> - <111.y>) * 0.5 111 <11.x> -5 <c.y> ss 330 <s.y> cc <ss.x> <c.y> kk <ss.x> <k.y> ll <ss.x> <l.y> -3 hchc <ss.x> <hc.y> b <hchc.x> - [Spindle circumference] * 0.06 <hchc.y> 19 <h.x> - (<h.x> - <16.x>) * 0.2 <cc.y> + ([waist circumference] -750) * 0.015 + 3 ss1 <ss.x> <ss.y> - [waist] * 1.1-15 dat1 <13.x> + [waist circumference] * 0.1 <ss1.y> - (<ss1.y> - <a.y>) * 0.1 dat2 <dat1.x> + [back art 1] <dat1.y> +5 dat3 <dat2.x> + [waist circumference] * 0.065 <dat4.y> -4 dat4 <dat3.x> + [back art 2] <a.y> - (<a.y> - <dat1.y>) * 0.5 dat11 <dat1.x> <dat1.y> + ([pants length] - [leg length]) * 0.5 dat31 <dat3.x> <dat3.y> +80 bx <b.x> -25 <cc.y> + ([circumference of circumference] -900) * 0.05 169 <16.x> + (<19.x> - <16.x>) * 0.1 <16.y> - (<16.y> - <19.y>) * 0.55 191 <19.x> -30 <19.y> 172 <17.x> +30 <17.y> 161 <16.x> -30 <16.y> 1111 <111.x> -40 <111.y> 71 <7.x> +30 <7.y> 61 <6.x> -30 <6.y> x1 <x.x> +80 <x.y> -7 x17 <17.x> -7 <x.y> - (<x.y> - <17.y>) * 0.55 s2 <s.x> <s.y> +30 91 <9.x> -7 <9.y> +55 l1 <l.x> <l.y> -9 ll1 <ll.x> <ll.y> + 10 b1 <b.x> -5- [waist] * 0.2 <cc.y> -30 lpoint <f.x> +50 <f.y> +50 s1r <s1.x> + [wrinkle amount 1] * 0.5 <s1.y> s1rd <s1r.x> <s1r.y> +30 3l <3.x> -30 <3.y> 3d <11.x> -3 <3.y> +80+ [circumference of circumference] * 0.1 3dl <3d.x> -15 <3d.y> 3ld <3d.x> -20 <3d.y> -70 891 <91.x> -10 <8.y> -35 891r <891.x> +15 <891.y> +10 dat1r <dat1.x> + [back art 1] * 0.5 <dat1.y> +2 dat3r <dat3.x> + [back art 2] * 0.5 <dat3.y> +2 311 <11.x> +3 <3.y> - (<3.y> - <11.y>) * 0.6 6u <6.x> +2 <6.y> -50 16u <16.x> +2 <16.y> -50 ah <a.x> - (<a.x> - <h.x>) * 0.5 <a.y> - (<a.y> - <h.y>) * 0.5

Point name X coordinate Y coordinate f1 <f.x> <f.y> - ([waist circumference] + 180- [peripherals circumference]) * 0.15 + 7 51 <5.x> <5.y> -70 41 <4.x> <4.y> -70 12 <b.x> + [waist] <ss.y> 13 <12.x> + [waist] * 0.3 <ss1.y> - [waist] * 0.25 14 <ll x> + [beak] * 0.5 + 20 + 7 <ll.y> 15 <ll> - [beak] * 0.5-20-10 <ll.y> 16 <kk.x> + (<6.x> - <k.x>) + 20 + 7 <kk.y> 17 <kk.x> - (<16.x> - <kk.x>) - 3 <kk.y> a <12.x> + [waist circumference] * 0.25 + [back art 1] + [back art 2] + 7 + 7 <ss.y> +6 + ([waist circumference] -750) * 0.02 h <b.x> + [Spindle circumference] * 0.245 + [Back Art 1] +10 + ([Waist circumference] + 200- [Spindle circumference]) * 0.1 + 7 <b.y> x <cc.x> - ([circumference] + [waist circumference]) * 0.115-10-10 <cc.y> + ([circumference of circumference] -900) * 0.04 + 10 141 <14.x> <14.y> -70 151 <15.x> <15.y> -70 13c <13.x> -35 <13.y> -5 bc <b.x> -18 <b.y> b1c <b1.x> -15 <b1.y> bxc <bx.x> -20 <bx.y> -15 xc <x.x> +10 <x.y> -12 x1c <x1.x> <x1.y> -12 4c <4.x> <4.y> +70 5c <5.x> <5.y> +70 l1c <l1.x> <l1.y> +70 14c <14.x> <14.y> +70 15c <15.x> <15.y> +70 ll1c <l1.x> <ll1.y> +70 151i <151.x> + 10 <151.y> 15ci <15c.x> +10 <15c.y> +1 ai <a.x> -7 <a.y> -2 aid <ah.x> -9 <ai.y> +50

Point name X coordinate Y coordinate f1 <f.x> <f.y> - ([waist circumference] + 150- [peripherals circumference]) * 0.15 + 7 51 <5.x> <5.y> -50 41 <4.x> <4.y> -50 12 <b.x> + [waist] * 0.5 + 10 <ss.y> 13 <12.x> <ss1.y> - [waist] * 0.25 14 <ll x> + [beak] * 0.5 + 20 <ll.y> 15 <ll> - [beak] * 0.5-20 <ll.y> 16 <kk.x> + (<6.x> - <k.x>) + 20 <kk.y> 17 <kk.x> - (<16.x> - <kk.x>) <kk.y> a <12.x> + [waist circumference] * 0.25 + [back art 1] + [back art 2] +7 <ss.y> +6 + ([waist circumference] -750) * 0.02 h <b.x> + [Spindle circumference] * 0.245 + [Back Art 1] +10 + ([Waist circumference] + 200- [Spindle circumference]) * 0.1 <b.y> x <cc.x> - ([circumference] + [waist circumference]) * 0.115-10 <cc.y> + ([circumference of circumference] -900) * 0.04 + 10 141 <14.x> <14.y> -50 151 <15.x> <15.y> -50 br <b.x> +20 <b.y> bx1d <bx1.x> <bx1.y> +20 ll1 <ll.x> <ll.y> + 10

(c) Scheme Outputting the finished clothing pattern

As described above, in the process of outputting the shape of the automatically arranged clothing pattern through the output device 300, the output device is provided with paper or a cloth to be cut so that the clothes pattern formed on the cloth or the cloth is directly formed .

Further, in addition to the steps described above, it is possible to manufacture and provide personalized clothing using the self-made clothing pattern produced by the method described in the present invention.

According to another aspect of the present invention, there is provided a method of automatically adapting a clothing pattern,

Since customers' basic dimensions and selected dimensions are stored in the storage unit for each customer, it is a service that enables users to easily identify changes in body shape and parts to be corrected through comparison between newly measured dimensions and stored dimensions.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be appreciated by those skilled in the art that numerous changes and modifications may be made without departing from the invention. Accordingly, all such appropriate modifications and changes, and equivalents thereof, should be regarded as within the scope of the present invention.

Claims

Surface position sensor means (110) for detecting a measurement value for measuring spatial coordinates of each measurement point on the surface of the human body by a surface position sensor; A measurement value analyzing unit 120 for analyzing the analyzed information of the human body by comparing and analyzing the measured value data information and the shape of the surface of the human body; Display means (130) for displaying analysis information or analysis information of the human body analyzed by the measurement value analysis means (120) and a human body shape displaying coordinate values of each human body portion; And an interlocking unit 140 for transmitting analysis information of each part of the body analyzed by the measurement value analyzing unit 120 to the conversion server 200. The measurement unit 140 measures a dimension value To the conversion server (200);
A data separating unit for separating analysis information of each part of the human body inputted from the measurement value analyzing unit of the scanner device 100 into basic dimensions which are minimum data necessary for designing a clothing pattern and separating selection information of a predetermined customer into selected dimensions, (210); A converting unit (220) for converting each dimension separated from the data separating unit to correspond to each point forming a clothing pattern using a predetermined conversion rule; A line drawing unit 230 for forming a straight line pattern by connecting each point converted from the conversion unit and forming a curved line pattern by adding a curvature to an adjacent straight line at a point not located on a connection line between points, ); A storage unit 240 for storing basic information and selection information of the customer, analyzed input information of the human body part, converted data information, and completed pattern information; And a display unit (250) for calling up data from the data separated by the data separating unit (210) and calling up the completed pattern in the line drawing unit (230) and displaying the divided pattern on one screen or one screen 200); And
And an output device (300) for receiving the completed clothing pattern in the conversion server (200) and printing by the installed printing means,
The data separating unit 210 of the conversion server 200,
The basic dimensions "total length, vibration, back length, front length, shoulder width, sleeve length, back length, front length, chest circumference, abdomen, waist circumference, and circumferential length, which are analysis information of the human body part inputted from the measurement value analysis means of the scanner device 100 Length, length of leg, length of leg, shoulder deflection, neck, teeth, waist, neck size "and optional information selected by customer's request" Chest dart amount, beak width, coat length, flare amount, (Mm) corresponding to the "size name" and its corresponding size, the correction amount, the wrinkle amount 1, the wrinkle amount 2, the back dart 1, the back dart 2, the collar width,
The conversion unit 220 converts a basic dimension or a selected dimension separated from the data separation unit and a predetermined reference point value into a plurality of point values for determining a clothing pattern, A conversion module 221 for representing a dimension or a selected dimension and a predetermined reference point value as a coordinate variable on the XY plane, a conversion module 221 for calculating a basic or selected dimension in the function formula of each point value of the clothing pattern, And a matching module 222 for correspondingly matching the values of the points,
The garment pattern is a set of a coat pattern, a jacket pattern, a vest pattern, and a pants pattern,
The basic dimensions necessary for fabricating the above-
The length from the cervical vertebra 7 to the shin sheath line,
The vibration is a length extending from the back of the neck 7 to the point orthogonal to the chest line,
The back has a length extending from the shoulder seam of the shirt pinhole to a point orthogonal to the back chest line,
The front is a length extending from the shoulder seam of the shirt feather end to the point orthogonal to the front chest line,
The shoulder width is the length from the cervical vertebra 7 to the shoulder seam end point,
The sleeve length is the length from the end of the shoulder seam to the wrist plus 3 cm,
The rear piece has a length of the back side chest line from the left side arm point to the right side arm point,
The front piece has the length of the front chest line from the left armpit point to the right armpit point,
The chest circumference is the circumference of the most developed position of the chest,
The circumference of the abdomen is the circumferential length of the position at which the abdomen is outmost,
The waist circumference is the circumferential length of the trouser belt position,
The perimeter of the spout has a circumferential length of the position at which the hips are most protruded,
The length of the trousers is 2 cm from the ground at the trouser belt position to the restricted position,
The leg length is the length from the bottom of the hips to the ground,
The shoulder sagging is the length from the position of 20 cm horizontally from the posterior neck cervical vertebra to the shoulder position vertically descending,
The necks are the length from the point where the horizontal line from the back of the neck 7 to the cervical vertebra and the straight line of the chest line of the back plate intersect at right angles,
Wherein the ball units have a length from a point at which the horizontal line from the ball protruding point and the bottom line of the back side chest line intersect at right angles to the ball protrusion point,
The waist has a vertical length from the straight line to the waistline of the protruding point,
Wherein the neck dimension is a neckline length at a position where the head sauce is most out,
Wherein at least six points are determined based on a first reference point o and a pattern is formed by a plurality of point values determined by the first reference point, the six points, and the basic dimension,
(B; 1; 3; 4; 5; soa), and the coordinate value of the first reference point (o) is < x, y & the coordinate values of point 1 are <<ox>,<oy> + [vibration] * 0.25>, and the coordinate values of point 3 are <<ox> -2 - The coordinates of point 4 are [ox] - ([threes] -65) * 0.1, <oy> - [ -35) * 0.1-3 - ([front] - ([oscillation] * 2 + 45)) * 0.2>, the coordinate values of point 5 are <<ox> -200, <oy >>, The coordinate values of < ox > and < oy > -320 &
At least six points are defined around a second reference point o and a pattern is formed by a plurality of point values determined by the second reference point, the six points, and the basic dimension,
The coordinate values of the second reference point o are represented by <x, y>, the six points of the jacket pattern are represented by (b; 1; 3; 4; 5; the coordinate values of point 1 are <<ox>,<oy> + [vibration] * 0.25>, and the coordinate values of point 3 are <<ox> -3 - The coordinates of point 4 are [ox] - ([threes] -65) * 0.1, <oy> - [ -35) * 0.1-3 - ([front] - ([oscillation] * 2 + 45)) * 0.2>, the coordinate values of point 5 are <<ox> -200, <oy >>, The coordinate values of < ox > and < oy > -320 &
Wherein the vest pattern has at least five points defined around a third reference point o, a pattern is formed by the third reference point, the five points, and a plurality of point values determined by the basic dimension,
The coordinate values of the third reference point o are represented by <x, y>, the five points of the vest pattern are represented by (b; 1; 3; 4; 5) the coordinate values of point 1 are <<ox>,<oy> + [vibration] * 0.25>, and the coordinate values of point 3 are <<ox> -3- The coordinates of the point 4 are: ox - (threes) -65) * 0.1, and the coordinates of the point 4 are: (Vibrate) * 2 + 45)) * 0.2>, and the coordinate value of point 5 is <ox> -200, <0> oy >>,
Wherein the pants pattern has at least three points determined based on a fourth reference point s, a pattern is formed by the fourth reference point, the three points, and a plurality of point values determined by the basic dimensions,
The coordinate values of the fourth reference point s are represented by <x, y>, the three points of the pants pattern are represented by cs, s2, the coordinate values of the point c are represented by <sx>, <<sy> + [pants length] - [leg length] +5]>, the coordinate values of the point ss are <330 and <sy >>, the coordinate values of the point s2 are <sx>, <sy>+30> Wherein the automatic pattern matching service system comprises:

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(a) capturing a human body through the scanner device 100, analyzing the measured value of the human body dimension, and transmitting the analyzed value to the conversion server 200;
(b) The conversion server 200 converts the analysis data of the human body part inputted from the measurement value analysis means of the scanner device 100 and the selection information of the predetermined customer into variables, Information is transformed and then the converted points are connected to form a straight line pattern and a curved line is added to an adjacent straight line at a point that is not located on the connecting line between the point and point to complete the pattern, Dividing and displaying the image on a separate screen or on one screen;
(c) receiving the completed clothing pattern from the conversion server 200 and outputting the received clothing pattern through the output device 300,
The garment pattern has a set of a coat pattern, a jacket pattern, a vest pattern, and a pants pattern. The basic dimensions required for the manufacture of the clothing pattern are a total length, a vibration, a back length, a front length, a shoulder width, a sleeve length, Circumference, circumference, waist circumference, perimeter circumference, pants length, leg length, shoulder sag, thighs, spikes, waist,
Depending on the customer's choice, the selected dimensions for which the dimension values are determined include: chest dart volume, beak width, coat length, flare amount, paw volume, wrinkle amount 1, wrinkle amount 2, back dart 1, back dart 2, Width dimension,
The basic dimensions necessary for fabricating the above-
The length from the cervical vertebra 7 to the shin sheath line,
The vibration is a length extending from the back of the neck 7 to the point orthogonal to the chest line,
The back has a length extending from the shoulder seam of the shirt pinhole to a point orthogonal to the back chest line,
The front is a length extending from the shoulder seam of the shirt feather end to the point orthogonal to the front chest line,
The shoulder width is the length from the cervical vertebra 7 to the shoulder seam end point,
The sleeve length is the length from the end of the shoulder seam to the wrist plus 3 cm,
The rear piece has a length of the back side chest line from the left side arm point to the right side arm point,
The front piece has the length of the front chest line from the left armpit point to the right armpit point,
The chest circumference is the circumference of the most developed position of the chest,
The circumference of the abdomen is the circumferential length of the position at which the abdomen is outmost,
The waist circumference is the circumferential length of the trouser belt position,
The perimeter of the spout has a circumferential length of the position at which the hips are most protruded,
The length of the trousers is 2 cm from the ground at the trouser belt position to the restricted position,
The leg length is the length from the bottom of the hips to the ground,
The shoulder sagging is the length from the position of 20 cm horizontally from the posterior neck cervical vertebra to the shoulder position vertically descending,
The necks are the length from the point where the horizontal line from the back of the neck 7 to the cervical vertebra and the straight line of the chest line of the back plate intersect at right angles,
Wherein the ball units have a length from a point at which the horizontal line from the ball protruding point and the bottom line of the back side chest line intersect at right angles to the ball protrusion point,
The waist has a vertical length from the straight line to the waistline of the protruding point,
Wherein the neck dimension is a neckline length at a position where the head sauce is most out,
Wherein at least six points are determined based on a first reference point o and a pattern is formed by a plurality of point values determined by the first reference point, the six points, and the basic dimension,
(B; 1; 3; 4; 5; soa), and the coordinate value of the first reference point (o) is < x, y & the coordinate values of point 1 are <<ox>,<oy> + [vibration] * 0.25>, and the coordinate values of point 3 are <<ox> -2 - The coordinates of point 4 are [ox] - ([threes] -65) * 0.1, <oy> - [ -35) * 0.1-3 - ([front] - ([oscillation] * 2 + 45)) * 0.2>, the coordinate values of point 5 are <<ox> -200, <oy >>, The coordinate values of < ox > and < oy > -320 &
At least six points are defined around a second reference point o and a pattern is formed by a plurality of point values determined by the second reference point, the six points, and the basic dimension,
The coordinate values of the second reference point o are represented by <x, y>, the six points of the jacket pattern are represented by (b; 1; 3; 4; 5; the coordinate values of point 1 are <<ox>,<oy> + [vibration] * 0.25>, and the coordinate values of point 3 are <<ox> -3 - The coordinates of point 4 are [ox] - ([threes] -65) * 0.1, <oy> - [ -35) * 0.1-3 - ([front] - ([oscillation] * 2 + 45)) * 0.2>, the coordinate values of point 5 are <<ox> -200, <oy >>, The coordinate values of < ox > and < oy > -320 &
Wherein the vest pattern has at least five points defined around a third reference point o, a pattern is formed by the third reference point, the five points, and a plurality of point values determined by the basic dimension,
The coordinate values of the third reference point o are represented by <x, y>, the five points of the vest pattern are represented by (b; 1; 3; 4; 5) the coordinate values of point 1 are <<ox>,<oy> + [vibration] * 0.25>, and the coordinate values of point 3 are <<ox> -3- The coordinates of the point 4 are: ox - (threes) -65) * 0.1, and the coordinates of the point 4 are: (Vibrate) * 2 + 45)) * 0.2>, and the coordinate value of point 5 is <ox> -200, <0> oy >>,
Wherein the pants pattern has at least three points determined based on a fourth reference point s, a pattern is formed by the fourth reference point, the three points, and a plurality of point values determined by the basic dimensions,
The coordinate values of the fourth reference point s are represented by <x, y>, the three points of the pants pattern are represented by cs, s2, the coordinate values of the point c are represented by <sx>, <<sy> + [pants length] - [leg length] +5]>, the coordinate values of the point ss are <330 and <sy >>, the coordinate values of the point s2 are <sx>, <sy>+30> Of the clothing pattern.

A personalized garment made using an automatic fit apparel pattern produced by the method of claim 4.