CN113854687A - System and method for garment design based on human body three-dimensional scanning - Google Patents

Abstract

The invention discloses a system and a method for garment design based on human body three-dimensional scanning, and particularly relates to the technical field of human body three-dimensional scanning garment design. The invention is convenient to carry out targeted scanning analysis on different body parts of a human body by corresponding matching use of each structure, simultaneously carries out independent analysis processing on shoulders, elbows, buttocks and waists of the human body in a targeted manner, is convenient for a designer and a user to carry out selection analysis according to various data, can simulate different scenes and lamplight angles to carry out effect diagram display, and can also carry out clothing matching according to self preference so as to be convenient for the user to select.

Description

System and method for garment design based on human body three-dimensional scanning

Technical Field

The invention relates to the technical field of human body three-dimensional scanning garment design, in particular to a system and a method for garment design based on human body three-dimensional scanning.

Background

With the progress of science and civilization, the means of human clothing design is continuously developed, the clothing design belongs to the field of industrial art, is an artistic form combining practicability and artistry, the design means planning, conception and establishment scheme, and also includes the meanings of image, drawing and modeling, and the definition of the clothing design is creative planning and creation behaviors for solving various problems in a system of people wearing life.

The existing design method is based on experience and capability of a designer, great randomness exists, a user can know whether to fit and satisfy only after the clothing is manufactured, the designer has a long design period, and the design efficiency is low;

meanwhile, as the times advance, users pursue styles and individuality of clothes, so that the style change period is shortened, the design and cutting speed of the clothes industry is forced to be increased, and the traditional manual design and cutting mode cannot meet requirements.

Disclosure of Invention

In order to overcome the above defects in the prior art, embodiments of the present invention provide a system and a method for garment design based on human body three-dimensional scanning, which facilitate performing targeted scanning analysis on different body parts of a human body, and simultaneously perform separate analysis processing on shoulders, elbows, buttocks and waist of the human body in a targeted manner, thereby facilitating selection and analysis by designers and users according to various data, and simultaneously simulating different scenes and lighting angles to perform effect diagram display, and simultaneously enabling users to perform clothing matching according to preferences of the users, thereby facilitating selection of the users, and solving the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a system for designing clothes based on human body three-dimensional scanning comprises a base, wherein a human body multidirectional three-dimensional scanning mechanism is arranged at the top of the base, and a human body clothes editing assembly is arranged on one side of the human body multidirectional three-dimensional scanning mechanism;

the human body multidirectional three-dimensional scanning mechanism comprises a mounting ring mounted at the top of a base, a tray matched with the mounting ring is arranged inside the mounting ring, and a sliding groove is formed in the bottom of the tray;

human clothing editing components is including installing the control box at the base top and being located collar one side, the top of control box is provided with controls the screen, the inside of control box is provided with data terminal, one side of data terminal is provided with the digifax and constructs the module, one side of digifax construction module is provided with data and chooses analysis module, one side that analysis module was chosen to data is equipped with dress effect picture design module, one side of dress effect picture design module is provided with dress and confirms the generation module.

In a preferred embodiment, the bottom of the sliding groove is provided with a rotating ring matched with the sliding groove, a cavity is formed between the mounting ring and the tray, and the top of the rotating ring is provided with a rotary scanning assembly.

In a preferred embodiment, the rotating scanning assembly comprises a plurality of connecting rods arranged at the top of the rotating ring, a power-off protection grating is arranged between the plurality of connecting rods, the plurality of connecting rods are matched with the cavity, a mounting groove is formed in one side of each of the plurality of connecting rods, and a first human body three-dimensional scanner is arranged in the mounting groove.

In a preferred embodiment, a mounting disc is arranged on the top of the connecting rod, a supporting disc is arranged on the top of the mounting disc, a driving motor is arranged on the top of the supporting disc, and an output end of the driving motor penetrates through the supporting disc and is connected with the mounting disc.

In a preferred embodiment, the bottom setting surface of the support plate is provided with a plurality of ejector rods, the bottoms of the ejector rods are provided with connecting pieces, and the connecting pieces are distributed on the outer side of the mounting ring along the circumference of the axle center point of the mounting ring.

In a preferred embodiment, two electric push rods are arranged at the bottom of the mounting disc, the output ends of the two electric push rods are respectively provided with a limiting ring, and a second human body three-dimensional scanner matched with the limiting ring is arranged inside the limiting ring.

In a preferred embodiment, the upper surface of the base is provided with a transition cavity matched with the spacing ring and the second human body three-dimensional scanner.

A use method of a system for designing clothes based on human body three-dimensional scanning specifically comprises the following steps;

step one; firstly, a user steps on the tray and is positioned in the middle of the tray, then the two arms are unfolded, the user searches for a proper position at the top of the tray according to the height of the user and the actual requirements of the length of the unfolded time of the two arms, and the length of the unfolded time of the two arms can be ensured to be positioned in the transition cavity;

step two; when the human body three-dimensional scanner is scanned, the driving motor is started to drive the mounting disc to rotate slowly, the mounting disc can simultaneously drive the connecting rods to simultaneously rotate and displace along the axial center point of the mounting disc when rotating, then the first human body three-dimensional scanner can be driven to displace, the human body is scanned in three dimensions, the connecting rods can drive the rotating ring to rotate when rotating, the rotating ring is made to rub against the inner wall of the sliding groove, and the stability of the rotating ring, the connecting rods and the first human body three-dimensional scanner when rotating is improved;

step three; in the rotating process of the connecting rod, the user is not moved at the top of the tray, but the arms of the user can be unfolded at will, and the user can lift and put down and can bend down, squat and the like;

step four; when the first human body three-dimensional scanner firstly carries out three-dimensional scanning on the human body, the first human body three-dimensional scanner is started through the mounting disc, the limiting ring is driven to move downwards, and the second human body three-dimensional scanner is driven to move downwards when the limiting ring moves, so that the human body is scanned three-dimensionally again;

step five; when the limiting ring and the second human body three-dimensional scanner move to the upper surface of the tray, the limiting ring and the second human body three-dimensional scanner extend into the transition cavity, and the interference between the limiting ring and the second human body three-dimensional scanner and the tray is staggered through the transition cavity, so that the human body can be conveniently and comprehensively scanned;

step six; the three-dimensional data of the human body are comprehensively scanned by the first human body three-dimensional scanner and the second human body three-dimensional scanner and then transmitted to the human body garment editing assembly, the human body three-dimensional data are displayed on the control screen after being processed by the data terminal, and then the three-dimensional data of each part of the human body are modeled by a worker through the digital-analog building module;

step seven; when the digital-analog construction module carries out modeling on all three-dimensional data of a human body, the shoulder processing unit, the elbow processing unit, the hip processing unit and the waist processing unit of the human body can respectively and independently analyze and process the shoulder, the elbow, the hip and the waist of the human body in a targeted manner;

step eight; after the human body three-dimensional digital analogy is constructed, a user and a worker discuss together, and the flexibility of the fabric is selected and analyzed through a data selection and analysis module according to each part of a clothing graph obtained through human body three-dimensional modeling;

step nine; after the user determines the clothing fabric, the worker designs the clothing effect diagram for the user through the clothing effect diagram design module, simulates different scenes and lighting angles to display the effect diagram, and meanwhile, the user can match clothing according to the preference of the user;

step ten; and finally, determining a design scheme selected by a user through a clothing effect diagram design module, and performing clothing production for a manufacturer.

The invention has the technical effects and advantages that:

1. according to the invention, firstly, a user steps on the tray firstly, the two arms are unfolded, and the length of the two arms can be ensured to be positioned in the transition cavity when the two arms are unfolded, so that the connecting rods can rotate and displace along the axial center point of the mounting disc conveniently, and then the first human body three-dimensional scanner can be driven to displace, the human body is firstly subjected to three-dimensional scanning, and the first appearance profile of the human body is recorded and identified;

2. when the human body is scanned in a three-dimensional mode, the arms of a user can be unfolded at will, lifted up and put down, and can perform actions such as bending down and squatting down, and when a first human body three-dimensional scanner scans the human body in a three-dimensional mode firstly, the limiting ring is driven to displace downwards through the starting of the mounting disc, and the second human body three-dimensional scanner is driven to displace downwards when the limiting ring displaces, so that the human body is scanned in a three-dimensional mode again, and different parts of the human body can be conveniently subjected to scanning analysis;

3. the three-dimensional data of the human body are comprehensively scanned by the first human body three-dimensional scanner and the second human body three-dimensional scanner and then are transmitted into the human body garment editing assembly, and the three-dimensional data of each part of the human body are conveniently modeled by a worker through the digital-analog building module after being processed by the data terminal, and meanwhile, the shoulders, the elbows, the buttocks and the waist of the human body are respectively and independently analyzed and processed in a targeted manner, so that a designer and a user can conveniently select and analyze the three-dimensional data according to each item of data;

4. the invention simultaneously designs the clothing effect diagram for the user through the clothing effect diagram design module, simulates different scenes and lighting angles to display the effect diagram, and meanwhile, the user can match clothing according to the preference of the user, thereby facilitating the selection of the user;

to sum up, through the corresponding cooperation use of each structure, utilize human multidirectional three-dimensional scanning mechanism, carry out three-dimensional scanning first to the human body at first, carry out record discernment to the first appearance profile of human body, rethread second human three-dimensional scanner downward displacement simultaneously, carry out three-dimensional scanning once more to the human body, conveniently carry out to scanning analysis to different health positions of human body, simultaneously respectively the pertinence carries out independent analysis and processing to human shoulder, elbow, buttock and waist respectively, make things convenient for designer and user to select the analysis according to each item data, can carry out dress effect picture design to the user simultaneously, simulate different scenes and light angle and carry out the effect picture show, the user can also carry out dress collocation according to self hobby oneself simultaneously, make things convenient for the user to select.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a side view of the overall structure of the present invention.

Fig. 3 is a front view of the multi-directional three-dimensional human body scanning mechanism of the present invention.

Fig. 4 is an exploded view of the human body multidirectional three-dimensional scanning mechanism of the present invention.

Fig. 5 is a front view of the bottom structure of the mounting ring and tray of the present invention.

Fig. 6 is a sectional view showing the internal structure of the control box of the present invention.

FIG. 7 is a partial structure diagram of the portion A in FIG. 3 according to the present invention.

FIG. 8 is a flow chart of the system of the present invention.

FIG. 9 is a flow chart of the digital-to-analog building block distribution of the present invention.

The reference signs are: 1. a base; 2. a control box; 3. a mounting ring; 4. a tray; 5. a cavity; 6. a chute; 7. rotating the ring; 8. a connecting rod; 9. mounting grooves; 10. a first human body three-dimensional scanner; 11. a connecting member; 12. a top rod; 13. a support disc; 14. mounting a disc; 15. a drive motor; 16. an electric push rod; 17. a limiting ring; 18. a second human body three-dimensional scanner; 19. a transition chamber; 20. a control screen; 21. a data terminal; 22. a digital-to-analog construction module; 23. a data selection and analysis module; 24. a clothing effect picture design module; 25. and a clothing confirmation generation module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The system for designing the clothes based on the human body three-dimensional scanning comprises a base 1, wherein a human body multidirectional three-dimensional scanning mechanism is arranged at the top of the base 1, and a human body clothes editing assembly is arranged on one side of the human body multidirectional three-dimensional scanning mechanism;

the human body multidirectional three-dimensional scanning mechanism comprises a mounting ring 3 mounted at the top of a base 1, a tray 4 matched with the mounting ring 3 is arranged inside the mounting ring 3, and a sliding groove 6 is formed in the bottom of the tray 4;

human clothing editing components is including installing at base 1 top and being located the control box 2 of collar 3 one side, the top of control box 2 is provided with controls screen 20, the inside of control box 2 is provided with data terminal 21, one side of data terminal 21 is provided with digital analog construction module 22, one side of digital analog construction module 22 is provided with data and selects analysis module 23, one side that analysis module 23 was selected to data is equipped with dress effect picture design module 24, one side of dress effect picture design module 24 is provided with dress and confirms generation module 25.

Refer to 4, 5 the drawings show, the bottom of spout 6 is provided with and rotates circle 7 with spout 6 assorted, be formed with cavity 5 between collar 3 and the tray 4, the top of rotating circle 7 is provided with the rotary scanning subassembly, spout 6 can play spacing effect, a stability when increasing and rotating circle 7 installation, and cavity 5 then can play the effect of transition, stagger when the rotary scanning subassembly rotary displacement with the collar 3 and the tray between interfere, facilitate the use.

Referring to the attached drawings 4, 7 shown, rotatory scanning subassembly is including setting up a plurality of connecting rods 8 at circle 7 tops of rotating, all be provided with outage protection grating between a plurality of connecting rods 8, a plurality of connecting rods 8 all match with cavity 5, mounting groove 9 has all been seted up to one side of a plurality of connecting rods 8, be provided with first human three-dimensional scanner 10 in the mounting groove 9, connecting rod 8 can play the effect of support, make things convenient for first human three-dimensional scanner 10 of staff's installation, stability when increasing first human three-dimensional scanner 10 installation.

Referring to fig. 1, 2, 3, 4, the top of connecting rod 8 is provided with mounting disc 14, the top of mounting disc 14 is provided with supporting disk 13, the top of supporting disk 13 is provided with driving motor 15, driving motor 15's output runs through supporting disk 13 and is connected with mounting disc 14, can drive mounting disc 14 rotatory when driving motor 15 starts, then make a plurality of connecting rods 8 rotatory simultaneously, and supporting disk 13 then can play the effect of support, make things convenient for staff to install driving motor 15, facilitate the use.

Referring to fig. 1, 3, 4 and 7, the bottom of the supporting disk 13 is provided with a plurality of ejector rods 12 on the surface, the bottoms of the ejector rods 12 are provided with connecting pieces 11, the connecting pieces 11 are distributed on the outer side of the mounting ring 3 along the circumference of the axial center point of the mounting ring 3, the ejector rods 12 are matched with the connecting pieces 11, so that the ejector rods 12 are mounted on the outer side of the mounting ring 3 by taking the connecting pieces 11 as supporting points, and the stability of the supporting disk 13 during mounting is further improved.

Referring to fig. 1, 2, 3 and 4, the bottom of the mounting disc 14 is provided with two electric push rods 16, the output ends of the two electric push rods 16 are respectively provided with a limiting ring 17, a second human body three-dimensional scanner 18 matched with the limiting ring 17 is arranged inside the limiting ring 17, when the output end of the electric push rod 16 extends, the limiting ring 17 is driven to displace, and the limiting ring 17 can drive the second human body three-dimensional scanner 18 to displace during displacement, so that the human body is scanned three-dimensionally again, the accuracy of the clothes timing is increased, and the use is facilitated.

Referring to fig. 4 and 6, a transition cavity 19 matched with the limiting ring 17 and the second human body three-dimensional scanner 18 is formed in the upper surface of the base 1, and the transition cavity 19 can play a role in transition and is used for staggering interference between the limiting ring 17, the second human body three-dimensional scanner 18 and the tray 4 when the limiting ring is in contact with the tray 4, so that the use is convenient.

A method for using a garment design system based on human body three-dimensional scanning specifically comprises the following steps;

step one; firstly, a user steps on the tray 4 and is positioned in the middle of the tray 4, then the two arms are unfolded, the user searches for a proper position at the top of the tray 4 according to the height of the user and the actual requirement of the length of the unfolded time of the two arms, and the length of the unfolded time of the two arms is ensured to be positioned in the transition cavity 19;

step two; when the human body is scanned in a three-dimensional mode, the driving motor 15 is started to drive the mounting disc 14 to rotate slowly, the mounting disc 14 can simultaneously drive the connecting rods 8 to simultaneously rotate and displace along the axial center point of the mounting disc 14 when rotating, then the first human body three-dimensional scanner 10 can be driven to displace, the human body is scanned in a three-dimensional mode, the connecting rods 8 can drive the rotating ring 7 to rotate when rotating, the rotating ring 7 is made to rub against the inner wall of the sliding groove 6, and the stability of the rotating ring 7, the connecting rods 8 and the first human body three-dimensional scanner 10 when rotating is improved;

step three; in the rotating process of the connecting rod 8, the user is not moved at the top of the tray 4, but the arms of the user can be unfolded at will, and the user can lift and put down, and can bend down, squat and the like;

step four; when the first human body three-dimensional scanner 10 firstly carries out three-dimensional scanning on a human body, the first human body three-dimensional scanner is started through the mounting disc 14, the limiting ring 17 is driven to move downwards, and the second human body three-dimensional scanner 18 is driven to move downwards when the limiting ring 17 moves, so that the human body is scanned three-dimensionally again;

step five; when the limiting ring 17 and the second human body three-dimensional scanner 18 move to the upper surface of the tray 4, the limiting ring 17 and the second human body three-dimensional scanner 18 extend into the transition cavity 19, and the interference between the limiting ring 17, the second human body three-dimensional scanner 18 and the tray 4 is staggered through the transition cavity 19, so that the human body can be conveniently and comprehensively scanned;

step six; after the first human body three-dimensional scanner 10 and the second human body three-dimensional scanner 18 completely scan the human body three-dimensional data, the human body three-dimensional data is transmitted to the human body garment editing assembly, the human body three-dimensional data is displayed on the control screen 20 after being processed by the data terminal 21, and then the staff carries out modeling on the three-dimensional data of each part of the human body through the digital-analog building module 22;

step seven; when the digital modeling module 22 models various three-dimensional data of the human body, the shoulder processing unit, the elbow processing unit, the hip processing unit and the waist processing unit of the human body can be used for respectively and independently analyzing and processing the shoulder, the elbow, the hip and the waist of the human body;

step eight; after the human body three-dimensional digital analogy is constructed, a user and a worker discuss together, and the flexibility of the fabric is selected and analyzed through the data selection and analysis module 23 according to each part of a clothing graph obtained through human body three-dimensional modeling;

step nine; after the user determines the clothing fabric, the worker designs the clothing effect diagram for the user through the clothing effect diagram design module 24, simulates different scenes and lighting angles to display the effect diagram, and meanwhile, the user can also match clothing according to the preference of the user;

step ten; finally, the design scheme selected by the user is determined through the clothing effect diagram design module 24, and clothing production is carried out for manufacturers.

The working principle of the invention is as follows: firstly, a user steps on the tray 4 and is positioned in the middle of the tray 4, then the two arms are unfolded, the user searches for a proper position at the top of the tray 4 according to the height of the user and the actual requirement of the length of the unfolded time of the two arms, and the length of the unfolded time of the two arms is ensured to be positioned in the transition cavity 19;

when the human body is scanned in a three-dimensional mode, the driving motor 15 is started to drive the mounting disc 14 to rotate slowly, the mounting disc 14 can simultaneously drive the connecting rods 8 to simultaneously rotate and displace along the axial center point of the mounting disc 14 when rotating, then the first human body three-dimensional scanner 10 can be driven to displace, the human body is scanned in a three-dimensional mode, the connecting rods 8 can drive the rotating ring 7 to rotate when rotating, the rotating ring 7 is made to rub against the inner wall of the sliding groove 6, and the stability of the rotating ring 7, the connecting rods 8 and the first human body three-dimensional scanner 10 when rotating is improved;

meanwhile, in the rotating process of the connecting rod 8, the user is not at the top of the tray 4, but the arms of the user can be unfolded at will, and can be lifted up and put down, and meanwhile, the user can bend down and squat down, and the like, and after the first human body three-dimensional scanner 10 carries out three-dimensional scanning on the human body firstly, the first human body three-dimensional scanner is started through the mounting disc 14, the limiting ring 17 is driven to move downwards, and when the limiting ring 17 moves, the second human body three-dimensional scanner 18 is driven to move downwards, so that the human body is scanned three-dimensionally again;

when the limiting ring 17 and the second human body three-dimensional scanner 18 move to the upper surface of the tray 4, the limiting ring 17 and the second human body three-dimensional scanner 18 extend into the transition cavity 19, the interference between the limiting ring 17 and the second human body three-dimensional scanner 18 and the tray 4 is staggered through the transition cavity 19, so that a human body can be scanned comprehensively, then the human body three-dimensional data is comprehensively scanned through the first human body three-dimensional scanner 10 and the second human body three-dimensional scanner 18 and then transmitted into the human body garment editing assembly, the human body three-dimensional data is displayed on the control screen 20 through the processing of the data terminal 21, and then a worker models the three-dimensional data of each part of the human body through the digital-analog building module 22;

when the digital modeling module 22 is used for modeling various three-dimensional data of a human body, the shoulder processing unit, the elbow processing unit, the hip processing unit and the waist processing unit of the human body can be used for respectively and independently analyzing and processing the shoulder, the elbow, the hip and the waist of the human body in a targeted manner, after the three-dimensional digital modeling of the human body is completed, a user and a worker discuss the three-dimensional digital modeling together, and the flexibility of the fabric is selected and analyzed through the data selection and analysis module 23 according to each part of a clothes graph obtained by the three-dimensional modeling of the human body;

after the user confirms the dress surface fabric, the staff carries out dress effect picture design to the user through dress effect picture design module 24, simulates different scenes and light angles to carry out effect picture display, and the user can also carry out dress collocation according to self hobby simultaneously, and finally through dress effect picture design module 24, confirms the design scheme selected by the user, and takes place to carry out dress production for the manufacturer.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the invention, only the structures related to the disclosed embodiments are referred to, other structures can refer to common designs, and the same embodiment and different embodiments of the invention can be combined with each other without conflict;

and finally: the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that are within the spirit and principle of the present invention are intended to be included in the scope of the present invention.

Claims (8)

1. The utility model provides a system for dress designing based on human three-dimensional scanning, includes base (1), its characterized in that: a human body multidirectional three-dimensional scanning mechanism is arranged at the top of the base (1), and a human body clothing editing assembly is arranged on one side of the human body multidirectional three-dimensional scanning mechanism;

the multidirectional three-dimensional human body scanning mechanism comprises a mounting ring (3) mounted at the top of a base (1), a tray (4) matched with the mounting ring (3) is arranged inside the mounting ring (3), and a sliding groove (6) is formed in the bottom of the tray (4);

human clothing editing components is including installing control box (2) at base (1) top and being located collar (3) one side, the top of control box (2) is provided with controls screen (20), the inside of control box (2) is provided with data terminal (21), one side of data terminal (21) is provided with digifax construction module (22), one side of digifax construction module (22) is provided with data and selects analysis module (23), one side that analysis module (23) was selected to data is equipped with dress effect picture design module (24), one side of dress effect picture design module (24) is provided with dress and confirms generation module (25).

2. The system for designing the clothes based on the three-dimensional scanning of the human body as claimed in claim 1, wherein: the bottom of spout (6) is provided with and rotates circle (7) with spout (6) assorted, be formed with cavity (5) between collar (3) and tray (4), the top that rotates circle (7) is provided with rotatory scanning assembly.

3. The system for designing the clothes based on the three-dimensional scanning of the human body as claimed in claim 2, wherein: rotatory scanning subassembly is including setting up a plurality of connecting rods (8) at rotating circle (7) top, and is a plurality of all be provided with outage protection grating between connecting rod (8), it is a plurality of connecting rod (8) all with cavity (5) phase-match, it is a plurality of mounting groove (9) have all been seted up to one side of connecting rod (8), be provided with first human three-dimensional scanner (10) in mounting groove (9).

4. The system for designing the clothes based on the three-dimensional scanning of the human body as claimed in claim 2, wherein: the top of connecting rod (8) is provided with mounting disc (14), the top of mounting disc (14) is provided with supporting disk (13), the top of supporting disk (13) is provided with driving motor (15), the output of driving motor (15) runs through supporting disk (13) and is connected with mounting disc (14).

5. The system for garment design based on three-dimensional scanning of human body according to claim 4, wherein: the bottom of supporting disk (13) sets up the surface and is provided with a plurality of ejector pins (12), and is a plurality of the bottom of ejector pin (12) all is provided with connecting piece (11), and is a plurality of connecting piece (11) all distribute in the outside of collar (3) along the axle center point circumference of collar (3).

6. The system for garment design based on three-dimensional scanning of human body according to claim 4, wherein: the bottom of mounting disc (14) is provided with two electric putter (16), two electric putter's (16) output all is provided with spacing collar (17), the inside of spacing collar (17) is provided with and spacing collar (17) assorted human three-dimensional scanner (18) of second.

7. The system for designing the clothes based on the three-dimensional scanning of the human body as claimed in claim 1, wherein: the upper surface of the base (1) is provided with a transition cavity (19) matched with the limiting ring (17) and the second human body three-dimensional scanner (18).

8. The use method of the system for clothing design based on human body three-dimensional scanning according to any one of claims 1-7, characterized in that: the method specifically comprises the following steps:

step one; firstly, a user steps on the tray (4) and is positioned in the middle of the tray (4), then the two arms are unfolded, the user searches for a proper position at the top of the tray (4) according to the height of the user and the actual requirements of the length of the unfolded time of the two arms, and the length of the unfolded time of the two arms is ensured to be positioned in the transition cavity (19);

step two; when the human body three-dimensional scanning is carried out, the driving motor (15) is started, the driving mounting disc (14) is driven to rotate slowly, the mounting disc (14) can simultaneously drive the connecting rods (8) to simultaneously rotate and displace along the axial center point of the mounting disc (14) during rotation, then the first human body three-dimensional scanner (10) can be driven to displace, the human body is scanned in a three-dimensional mode, the connecting rods (8) can drive the rotating ring (7) to rotate during rotation, the rotating ring (7) is made to rub against the inner wall of the sliding groove (6), and the stability of the rotating ring (7), the connecting rods (8) and the first human body three-dimensional scanner (10) during rotation is improved;

step three; in the rotating process of the connecting rod (8), the position of a user on the top of the tray (4) is fixed, but the arms of the user can be unfolded at will, and the user can lift and put down and can bend down and squat down and the like;

step four; when the first human body three-dimensional scanner (10) firstly carries out three-dimensional scanning on a human body, the first human body three-dimensional scanner is started through the mounting disc (14), the limiting ring (17) is driven to move downwards, and the second human body three-dimensional scanner (18) is driven to move downwards when the limiting ring (17) moves, so that the human body is scanned three-dimensionally again;

step five; when the limiting ring (17) and the second human body three-dimensional scanner (18) move to the upper surface of the tray (4), the limiting ring (17) and the second human body three-dimensional scanner (18) extend into the transition cavity (19), and the interference between the limiting ring (17) and the second human body three-dimensional scanner (18) and the tray (4) is staggered through the transition cavity (19), so that the human body can be conveniently and comprehensively scanned;

step six; the three-dimensional data of the human body are comprehensively scanned by a first human body three-dimensional scanner (10) and a second human body three-dimensional scanner (18) and then transmitted into a human body garment editing assembly, the human body three-dimensional data are displayed on a control screen (20) through the processing of a data terminal (21), and then the three-dimensional data of each part of the human body are modeled by a worker through a digital-analog building module (22);

step seven; when the digital-analog building module (22) models various three-dimensional data of a human body, the shoulder processing unit, the elbow processing unit, the hip processing unit and the waist processing unit of the human body can respectively and independently analyze and process the shoulder, the elbow, the hip and the waist of the human body;

step eight; after the human body three-dimensional digital analogy is constructed, a user and a worker discuss together, and the flexibility of the fabric is selected and analyzed through a data selection and analysis module (23) according to each part of a clothing graph obtained through human body three-dimensional modeling;

step nine; after the user determines the clothing fabric, the worker designs the clothing effect diagram for the user through the clothing effect diagram design module (24), simulates different scenes and lighting angles to display the effect diagram, and meanwhile, the user can match clothing according to the preference of the user;

step ten; finally, the design scheme selected by the user is determined through a dress effect drawing design module (24), and dress production is carried out for manufacturers.

Images