CN108185557A - The design method and device of a kind of suit-dress pattern - Google Patents
The design method and device of a kind of suit-dress pattern Download PDFInfo
- Publication number
- CN108185557A CN108185557A CN201810276809.5A CN201810276809A CN108185557A CN 108185557 A CN108185557 A CN 108185557A CN 201810276809 A CN201810276809 A CN 201810276809A CN 108185557 A CN108185557 A CN 108185557A
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- China
- Prior art keywords
- human body
- sleeve
- static state
- motion
- sleeve height
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41H—APPLIANCES OR METHODS FOR MAKING CLOTHES, e.g. FOR DRESS-MAKING OR FOR TAILORING, NOT OTHERWISE PROVIDED FOR
- A41H3/00—Patterns for cutting-out; Methods of drafting or marking-out such patterns, e.g. on the cloth
Abstract
This application involves the design method and device of a kind of suit-dress pattern, wherein, the method includes:Body surface is sampled, to obtain human body static state model;The key point and characteristic curve in the human body static state model are chosen, and according to the key point and the characteristic curve, determines the sleeve height in the human body static state model;Wherein, the sleeve height is determined based on armhole curve length and arm and the angle of vertical direction;Subregion is sampled to the body surface, and simulates the different motion posture of human body, to measure the body surface size of human body sleeve height subregion during the motion;Body surface size based on human body sleeve height subregion during the motion is adjusted the sleeve height in the human body static state model, to generate human motion model.The technical solution that the application provides can also can guarantee the beauty of women's dress in the case where athletic posture is presented in human body.
Description
Technical field
This application involves technical field of costume design, the design method and device of more particularly to a kind of suit-dress pattern.
Background technology
At present, the design of suit-dress pattern can usually be completed by plane cutting method and three-dimensional cutting method.Traditional this
Two kinds of design methods typically carry out size design, however, in practical applications, pledging clothes and wearing according to static human body
Later, certain movement posture would generally be presented in human body, can not be well at this point, the clothes based on static human design are possibly
Agree with the movement posture of human body, cause clothes dress less beautiful.
Invention content
Movement appearance can be presented in human body in a kind of design method and device that are designed to provide suit-dress pattern of the application
Also it can guarantee the beauty of women's dress in the case of state.
To achieve the above object, the application provides a kind of design method of suit-dress pattern, the method includes:
Body surface is sampled, to obtain human body static state model;
The key point and characteristic curve in the human body static state model are chosen, and according to the key point and the feature
Line determines the sleeve height in the human body static state model;Wherein, the sleeve height be based on that armhole curve is long and arm with it is vertical
The angle in direction determines;
Subregion is sampled to the body surface, and simulates the different motion posture of human body, is being moved with measuring human body
The body surface size of sleeve height subregion in the process;
Body surface size based on human body sleeve height subregion during the motion is to the sleeve in the human body static state model
Mountain height is adjusted, to generate human motion model.
Further, the key point and characteristic curve chosen in the human body static state model include:
Sleeve length in being tucked inside the sleeve using piece, sleeve mountain oblique line, sleeve suture and sleeve opening line segment endpoint as key point, two keys
Line between point is as characteristic curve;
Correspondingly, determine that the sleeve height in the human body static state model includes:
Determine the line that the endpoint of the sleeve opening line segment is formed in the endpoint of the sleeve length and the endpoint of the sleeve mountain oblique line
Intersection point in section, and the line segment that the endpoint of the sleeve length and the intersection point are formed is as sleeve height.
Further, the sleeve height is determined according to the following formula:
Wherein, c represents the sleeve height, and AH represents that armhole curve is long, and α represents arm and the angle of vertical direction.
Further, the body surface size based on human body sleeve height subregion during the motion is to the human body static state sample
Sleeve height in plate be adjusted including:
To the sleeve mountain in the human body during the motion the body surface size of sleeve height subregion and the human body static state model
Height is analyzed, to determine that human body is in the body surface size changing rate in motion process;
According to the body surface size changing rate, loose measure tune is carried out to the size of each subregion in the human body static state model
It is whole.
Further, subregion is sampled to the body surface to include:
Human body surface is coated on using plastic foil, and the outside of plastic foil is wound in using adhesive tape, while it is each to mark human body
The mark line of a structure;
The plastic foil for being labeled with mark line is unfolded, to obtain each subregion divided by the mark line.
To achieve the above object, the application also provides a kind of design device of suit-dress pattern, and described device includes:
Static plate sampling unit, for being sampled to body surface, to obtain human body static state model;
Sleeve height determination unit, for choosing the key point and characteristic curve in the human body static state model, and according to described
Key point and the characteristic curve determine the sleeve height in the human body static state model;Wherein, the sleeve height is based on armhole arc
Line length and arm and the angle of vertical direction determine;
Dynamic dimension acquiring unit for being sampled subregion to the body surface, and simulates the different motion of human body
Posture, to measure the body surface size of human body sleeve height subregion during the motion;
Motion template generation unit, for the body surface size based on human body sleeve height subregion during the motion to institute
The sleeve height stated in human body static state model is adjusted, to generate human motion model.
Further, the sleeve height determination unit includes:
Characteristic curve builds module, for the endpoint of sleeve length, sleeve mountain oblique line, tuck inside the sleeve suture and sleeve opening line segment in a piece sleeve
As key point, the line between two key points is as characteristic curve;
Line segment builds module, for determining that the endpoint of the sleeve opening line segment is oblique in the endpoint of the sleeve length and the sleeve mountain
Intersection point in the line segment that the endpoint of line is formed, and the line segment that the endpoint of the sleeve length and the intersection point are formed is as sleeve height.
Further, the sleeve height determination unit determines sleeve height according to the following formula:
Wherein, c represents the sleeve height, and AH represents that armhole curve is long, and α represents arm and the angle of vertical direction.
Further, motion template generation unit includes:
Change rate determining module, for the human body body surface size of sleeve height subregion and the people during the motion
Sleeve height in body static state model is analyzed, to determine that human body is in the body surface size changing rate in motion process;
Loose measure adjusts module, for according to the body surface size changing rate, to each subregion in the human body static state model
Size carry out loose measure adjustment.
Further, dynamic dimension acquiring unit includes:
Mark line labeling module for being coated on human body surface using plastic foil, and is wound in plastic foil using adhesive tape
Outside, while mark the mark line of each structure of human body;
Module is unfolded, it is each to obtain dividing by the mark line for the expansion of the plastic foil of mark line will to be labeled with
A subregion.
Therefore the application is first sampled body surface when designing suit-dress pattern, to obtain human body static state
Model;Then the key point and characteristic curve in the human body static state model can be chosen, and according to the key point and described
Characteristic curve determines the sleeve height in the human body static state model;Wherein, the sleeve height be based on that armhole curve is long and arm with
The angle of vertical direction determines;Then, subregion can be sampled to the body surface, and simulates the different motion appearance of human body
State, to measure the body surface size of human body sleeve height subregion during the motion;Finally, it is tucked inside the sleeve during the motion based on the human body
The body surface size of the high subregion in mountain is adjusted the sleeve height in the human body static state model, to generate human motion model, from
And when so that human body is kept in motion, the women's dress designed can still keep beautiful.
Description of the drawings
Fig. 1 is the design method flow chart of suit-dress pattern in the application;
Fig. 2 is the structure diagram of the design device of suit-dress pattern in the application.
Specific embodiment
In order to make those skilled in the art better understand the technical solutions in the application, below in conjunction with the application reality
The attached drawing in mode is applied, the technical solution in the application embodiment is clearly and completely described, it is clear that described
Embodiment is only the embodiment of a part of embodiment of the application rather than whole.Based on the embodiment party in the application
Formula, all other embodiment that those of ordinary skill in the art are obtained without making creative work all should
When the range for belonging to the application protection.
Referring to Fig. 1, the application provides a kind of design method of suit-dress pattern, the method includes:
S1:Body surface is sampled, to obtain human body static state model.
In the present embodiment, adhesive tape method may be used, measured's body surface structure is sampled, so as to obtain people
Body static state model.
S2:The key point and characteristic curve in the human body static state model are chosen, and according to the key point and the spy
Line is levied, determines the sleeve height in the human body static state model;Wherein, the sleeve height is based on long armhole curve and arm and hangs down
Nogata to angle determine.
In the present embodiment, the endpoint of sleeve length, sleeve mountain oblique line, tuck inside the sleeve suture and sleeve opening line segment during a piece can be tucked inside the sleeve
As key point, the line between two key points is as characteristic curve.Furthermore, it is possible to determine that the endpoint of the sleeve opening line segment exists
The endpoint of the sleeve length and it is described sleeve mountain oblique line endpoint form line segment in intersection point, and by the endpoint of the sleeve length with it is described
The line segment that intersection point is formed is as sleeve height.
In one embodiment, the sleeve height can and arm long by armhole curve and the angle of vertical direction come
It determines.Specifically, the sleeve height is determined according to the following formula:
Wherein, c represents the sleeve height, and AH represents that armhole curve is long, and α represents arm and the angle of vertical direction.
S3:Subregion is sampled to the body surface, and simulates the different motion posture of human body, is being transported with measuring human body
The body surface size of sleeve height subregion during dynamic.
In the present embodiment, when being sampled subregion to the body surface, human body can be coated on using plastic foil
Surface, and the outside of plastic foil is wound in using adhesive tape, while mark the mark line of each structure of human body, then it will be labeled with
Remember the plastic foil expansion of line, each subregion divided by the mark line can be obtained.
In the present embodiment, the different motion posture of simulation human body in daily life, can measure human body and transport
The body surface size of sleeve height subregion during dynamic, which can be a range.
S4:Body surface size based on human body sleeve height subregion during the motion is in the human body static state model
Sleeve height is adjusted, to generate human motion model.
It in the present embodiment, can be to human body sleeve height during the motion when being adjusted to sleeve height
Sleeve height in the body surface size of subregion and the human body static state model is analyzed, to determine that human body is in motion process
Body surface size changing rate.The change rate can be in several subregions each section of size under motion state relative to stationary state
Size distortion ratio.According to the body surface size changing rate, the size of each subregion in the human body static state model can be carried out
Loose measure adjusts.
Wherein, the loose measure adjustment can be adjusted based on the loose measure region in human body static state model, by taking jacket as an example,
It can include an anter in the static model of jacket, which corresponds to the clavicle portion of human body covering deltoid muscle and main
To the loose measure region that outside left in shoulder line is extended, which can be transverse direction 10-15%, longitudinal 10-15%.Most
Whole actual numerical value can determine, change rate is bigger according to size changing rate, closer to 15%.
Referring to Fig. 2, the application also provides a kind of design device of suit-dress pattern, described device includes:
Static plate sampling unit, for being sampled to body surface, to obtain human body static state model;
Sleeve height determination unit, for choosing the key point and characteristic curve in the human body static state model, and according to described
Key point and the characteristic curve determine the sleeve height in the human body static state model;Wherein, the sleeve height is based on armhole arc
Line length and arm and the angle of vertical direction determine;
Dynamic dimension acquiring unit for being sampled subregion to the body surface, and simulates the different motion of human body
Posture, to measure the body surface size of human body sleeve height subregion during the motion;
Motion template generation unit, for the body surface size based on human body sleeve height subregion during the motion to institute
The sleeve height stated in human body static state model is adjusted, to generate human motion model.
In the present embodiment, the sleeve height determination unit includes:
Characteristic curve builds module, for the endpoint of sleeve length, sleeve mountain oblique line, tuck inside the sleeve suture and sleeve opening line segment in a piece sleeve
As key point, the line between two key points is as characteristic curve;
Line segment builds module, for determining that the endpoint of the sleeve opening line segment is oblique in the endpoint of the sleeve length and the sleeve mountain
Intersection point in the line segment that the endpoint of line is formed, and the line segment that the endpoint of the sleeve length and the intersection point are formed is as sleeve height.
In the present embodiment, the sleeve height determination unit determines sleeve height according to the following formula:
Wherein, c represents the sleeve height, and AH represents that armhole curve is long, and α represents arm and the angle of vertical direction.
In the present embodiment, motion template generation unit includes:
Change rate determining module, for the human body body surface size of sleeve height subregion and the people during the motion
Sleeve height in body static state model is analyzed, to determine that human body is in the body surface size changing rate in motion process;
Loose measure adjusts module, for according to the body surface size changing rate, to each subregion in the human body static state model
Size carry out loose measure adjustment.
In the present embodiment, dynamic dimension acquiring unit includes:
Mark line labeling module for being coated on human body surface using plastic foil, and is wound in plastic foil using adhesive tape
Outside, while mark the mark line of each structure of human body;
Module is unfolded, it is each to obtain dividing by the mark line for the expansion of the plastic foil of mark line will to be labeled with
A subregion.
Therefore the application is first sampled body surface when designing suit-dress pattern, to obtain human body static state
Model;Then the key point and characteristic curve in the human body static state model can be chosen, and according to the key point and described
Characteristic curve determines the sleeve height in the human body static state model;Wherein, the sleeve height be based on that armhole curve is long and arm with
The angle of vertical direction determines;Then, subregion can be sampled to the body surface, and simulates the different motion appearance of human body
State, to measure the body surface size of human body sleeve height subregion during the motion;Finally, it is tucked inside the sleeve during the motion based on the human body
The body surface size of the high subregion in mountain is adjusted the sleeve height in the human body static state model, to generate human motion model, from
And when so that human body is kept in motion, the women's dress designed can still keep beautiful.
Those skilled in the art are supplied to the purpose described to the description of the various embodiments of the application above.It is not
It is intended to exhaustive or is not intended to and limits the invention to single disclosed embodiment.As described above, the application's is various
It substitutes and variation will be apparent for above-mentioned technology one of ordinary skill in the art.Therefore, although specifically begging for
Some alternative embodiments are discussed, but other embodiment will be apparent or those skilled in the art are opposite
Easily obtain.The application is intended to be included in this all replacements of the present invention crossed by discussion, modification and variation and falls
Other embodiment in the spirit and scope of above-mentioned application.
Claims (10)
1. a kind of design method of suit-dress pattern, which is characterized in that the method includes:
Body surface is sampled, to obtain human body static state model;
The key point and characteristic curve in the human body static state model are chosen, and according to the key point and characteristic curve, determines institute
State the sleeve height in human body static state model;Wherein, the sleeve height is based on armhole curve length and arm and the folder of vertical direction
Angle determines;
Subregion is sampled to the body surface, and simulates the different motion posture of human body, to measure human body in motion process
The body surface size of the high subregion in half sleeve mountain;
Body surface size based on human body sleeve height subregion during the motion is to the sleeve height in the human body static state model
It is adjusted, to generate human motion model.
2. according to the method described in claim 1, it is characterized in that, choose the key point and feature in the human body static state model
Line includes:
Sleeve length in being tucked inside the sleeve using piece, sleeve mountain oblique line, sleeve suture and sleeve opening line segment endpoint as key point, two key points it
Between line as characteristic curve;
Correspondingly, determine that the sleeve height in the human body static state model includes:
It determines in the line segment that the endpoint of the sleeve opening line segment is formed in the endpoint of the sleeve length and the endpoint of the sleeve mountain oblique line
Intersection point, and the line segment that the endpoint of the sleeve length and the intersection point are formed is as sleeve height.
3. method according to claim 1 or 2, which is characterized in that the sleeve height is determined according to the following formula:
Wherein, c represents the sleeve height, and AH represents that armhole curve is long, and α represents arm and the angle of vertical direction.
4. according to the method described in claim 1, it is characterized in that, based on human body sleeve height subregion during the motion
Body surface size the sleeve height in the human body static state model is adjusted including:
To the sleeve height in the human body during the motion the body surface size of sleeve height subregion and the human body static state model into
Row analysis, to determine that human body is in the body surface size changing rate in motion process;
According to the body surface size changing rate, loose measure adjustment is carried out to the size of each subregion in the human body static state model.
5. according to the method described in claim 1, include it is characterized in that, being sampled subregion to the body surface:
Human body surface is coated on using plastic foil, and the outside of plastic foil is wound in using adhesive tape, while marks each knot of human body
The mark line of structure;
The plastic foil for being labeled with mark line is unfolded, to obtain each subregion divided by the mark line.
6. the design device of a kind of suit-dress pattern, which is characterized in that described device includes:
Static plate sampling unit, for being sampled to body surface, to obtain human body static state model;
Sleeve height determination unit, for choosing the key point and characteristic curve in the human body static state model, and according to the key
Point and characteristic curve, determine the sleeve height in the human body static state model;Wherein, the sleeve height be based on armhole curve it is long and
Arm and the angle of vertical direction determine;
Dynamic dimension acquiring unit for being sampled subregion to the body surface, and simulates the different motion posture of human body,
To measure the body surface size of human body sleeve height subregion during the motion;
Motion template generation unit, for the body surface size based on human body sleeve height subregion during the motion to the people
Sleeve height in body static state model is adjusted, to generate human motion model.
7. device according to claim 6, which is characterized in that the sleeve height determination unit includes:
Characteristic curve builds module, for sleeve length in being tucked inside the sleeve using piece, sleeve mountain oblique line, sleeve suture and sleeve opening line segment endpoint as
Key point, the line between two key points is as characteristic curve;
Line segment builds module, for determining the endpoint and the sleeve mountain oblique line of the endpoint of the sleeve opening line segment in the sleeve length
Intersection point in the line segment that endpoint is formed, and the line segment that the endpoint of the sleeve length and the intersection point are formed is as sleeve height.
8. the device described according to claim 6 or 7, which is characterized in that the sleeve height determination unit is true according to the following formula
Determine sleeve height:
Wherein, c represents the sleeve height, and AH represents that armhole curve is long, and α represents arm and the angle of vertical direction.
9. device according to claim 6, which is characterized in that motion template generation unit includes:
Change rate determining module, for the body surface size of sleeve height subregion and the human body to be quiet during the motion to the human body
Sleeve height in aspect plate is analyzed, to determine that human body is in the body surface size changing rate in motion process;
Loose measure adjusts module, for according to the body surface size changing rate, to the ruler of each subregion in the human body static state model
Little progress row loose measure adjusts.
10. device according to claim 6, which is characterized in that dynamic dimension acquiring unit includes:
Mark line labeling module for being coated on human body surface using plastic foil, and is wound in using adhesive tape the outside of plastic foil,
The mark line of each structure of human body is marked simultaneously;
Module is unfolded, for the expansion of the plastic foil of mark line will to be labeled with, to obtain each point divided by the mark line
Area.
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CN201810276809.5A CN108185557A (en) | 2018-03-30 | 2018-03-30 | The design method and device of a kind of suit-dress pattern |
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CN201810276809.5A CN108185557A (en) | 2018-03-30 | 2018-03-30 | The design method and device of a kind of suit-dress pattern |
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Cited By (3)
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CN110623352A (en) * | 2019-08-30 | 2019-12-31 | 浙江蓝天制衣有限公司 | Method for manufacturing sample plate of occupational trousers suitable for production activities |
CN111418939A (en) * | 2020-06-10 | 2020-07-17 | 台州市中心医院(台州学院附属医院) | Posture acquisition method and protective clothing digital customization system based on same |
CN113812709A (en) * | 2021-10-09 | 2021-12-21 | 浙江蓝天制衣有限公司 | Professional clothing sleeve reference template generation method based on feature point-line space vector |
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CN105533879A (en) * | 2016-01-26 | 2016-05-04 | 李宁体育(上海)有限公司 | Three-dimensional cut garment for enhancing movement comfort and manufacturing method thereof |
CN106127774A (en) * | 2016-06-28 | 2016-11-16 | 北京服装学院 | A kind of method of testing of golf full swing action trunk skin deformation |
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CN103535963A (en) * | 2012-07-09 | 2014-01-29 | 三六一度(中国)有限公司 | Sportswear dynamic foundation pattern and foundation pattern building method |
CN104598690A (en) * | 2015-01-30 | 2015-05-06 | 西安工程大学 | Method for converting style chart into paper pattern chart of one-piece sleeve |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110623352A (en) * | 2019-08-30 | 2019-12-31 | 浙江蓝天制衣有限公司 | Method for manufacturing sample plate of occupational trousers suitable for production activities |
CN111418939A (en) * | 2020-06-10 | 2020-07-17 | 台州市中心医院(台州学院附属医院) | Posture acquisition method and protective clothing digital customization system based on same |
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CN113812709A (en) * | 2021-10-09 | 2021-12-21 | 浙江蓝天制衣有限公司 | Professional clothing sleeve reference template generation method based on feature point-line space vector |
CN113812709B (en) * | 2021-10-09 | 2023-08-08 | 浙江蓝天制衣有限公司 | Professional garment sleeve reference template generation method based on feature point-line space vector |
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