CN218245830U - Be applied to cardboard model of digital clothing - Google Patents

Abstract

The utility model discloses a be applied to cardboard model of digital clothing, include: the middle-layer paper template is attached to the bottom side surface of the upper-layer paper template, the bottom-layer paper template is attached to the bottom side surface of the middle-layer paper template, and the same paperboard structures are symmetrically arranged on the right sides of the upper-layer paper template, the middle-layer paper template and the bottom-layer paper template respectively; further comprising: the thread gluing tape covers and is attached to the outer frame edges of the upper surfaces of the upper layer paper template, the middle layer paper template and the bottom layer paper template, and the outer frame edges of the upper layer paper template, the middle layer paper template and the bottom layer paper template are also provided with connecting grooves; and the metal protective edges are respectively connected at the corners of the upper layer paper template, the upper layer slot and the middle layer paper template in an embedded manner. This be applied to cardboard model of digital clothing, can convenient adjustment model size to can effectively protect the cardboard corner, can paste the cloth fast on the model simultaneously, so that scan acquisition clothing data.

Description

Be applied to cardboard model of digital clothing

Technical Field

The utility model relates to a cardboard model technical field specifically is a be applied to cardboard model of digital clothing.

Background

The digital clothing is a mode of utilizing information storage and transmission to record and refine conventional position data and unconventional figure data in clothing template design, so that clothing information is convenient to search, count and match.

In the prior art, according to a proofing board for clothing design disclosed in chinese patent CN215992889U, the proofing board comprises a paper sample board, a limiting frame is fixedly connected to the rear side of the paper sample board, a limiting block is arranged inside the limiting frame, a bottom board is fixedly connected to the rear side of the limiting block, a fixing frame is fixedly connected to the front side of the bottom board, a fixing plate is fixedly connected to the inner wall of the fixing frame, an elastic cloth is fixedly connected to the rear side of the fixing plate, a structure for increasing the strength of the paper sample board is arranged on the rear side of the paper sample board, and the structure for increasing the strength of the paper sample board comprises a reinforcing frame fixedly connected to the rear side of the paper sample board;

although above-mentioned structure can utilize stopper and spacing frame to fix the paper model to utilize elastic cloth to protect the paper model, prevent that the paper model from taking place the fold, but at the cardboard in-process that uses the paper model, need additionally operate stopper and spacing frame and fix the paper model, and elastic cloth has increased the thickness of paper model, is unfavorable for promoting the availability factor of paper model.

According to a garment rapier head split template disclosed in Chinese patent CN216585543U, the garment rapier head split template comprises a template bottom plate, garment piece fabric pressing plates respectively bonded on the template bottom plate, a split surface fabric shaping position fixing plate, a split lining positioning plate, a split surface fabric and lining sewing cover plate; a wire slot is formed in the bottom plate of the template, and comprises a garment piece paper pattern positioning wire slot and a rapier head positioning wire slot; the position of the rapier head positioning line slot is superposed with the position of the rapier head sample of the garment piece paper sample, and the structure reduces the sewing technology of the garment rapier head fork opening process and can also enable the production quality of the same order to be uniform;

although the structure can limit the sewing position of the clothes by utilizing the positions of the garment piece paper pattern positioning line grooves and the rapier head positioning line grooves on the bottom plate of the template, the using steps are more complicated, the paper template of the clothes cannot be modified and adjusted, the digital clothes are inconvenient to design and use, and innovative design is urgently needed on the basis of the original paper board model of the digital clothes aiming at the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a be applied to cardboard model of digital clothing to propose the cardboard model of the digital clothing who has used in the solution above-mentioned background art, the cardboard model change size not convenient for, when carrying out the preparation of digital clothing plane sample, it is not high to use traditional cardboard model efficiency, and the cardboard structure damages easily and the fold, and then influences cardboard size precision and life's problem.

In order to achieve the above object, the utility model provides a following technical scheme: a paperboard form for application to a digital garment, comprising:

the middle-layer paper template is attached to the bottom side surface of the upper-layer paper template, the bottom-layer paper template is attached to the bottom side surface of the middle-layer paper template, and the same paperboard structures are symmetrically arranged on the right sides of the upper-layer paper template, the middle-layer paper template and the bottom-layer paper template respectively;

further comprising:

the thread gluing tape is covered and attached to the outer frame edges of the upper surfaces of the upper-layer paper template, the middle-layer paper template and the bottom-layer paper template, and the outer frame edges of the upper-layer paper template, the middle-layer paper template and the bottom-layer paper template are also provided with connecting grooves;

and the metal protecting edges are respectively connected at the corners of the upper layer paper template, the upper layer slot and the middle layer paper template in an embedded mode, and the included angle of the metal protecting edges is of an arc-shaped structure.

The setting up of above-mentioned structure makes cardboard model ability quick adjustment size to avoid cutting the waste that cardboard model or change model caused, and can conveniently paste the cloth on the cardboard model, so that promote digital dress designing's efficiency and quality, can also effectively protect the paper corner of cardboard model, receive the collision and the fold in order to prevent the model, promoted the accurate nature of use of cardboard model.

Preferably, the upper slot has been seted up to last still fretwork of upper paper template, and 4 have been seted up around the inboard angular distribution of thread gluing area to the bottom side of upper paper template is the smooth surface structure, and the size of upper paper template is minimum simultaneously, and the setting up of above-mentioned structure makes upper paper template when drawing design two-dimensional clothing structure, can conveniently remove the model to can be convenient for assemble with the not unidimensional cardboard butt joint.

Preferably, the upper surface of middle level paper template still fixedly is provided with the middle level lug, and the distribution position of middle level lug is the same with the position of upper slot, and the middle level paper template passes through the middle level lug and the interpolation of upper slot closes and constitutes the dismantlement structure with upper paper template, and the middle level slot has still been seted up in the outside fretwork of middle level lug simultaneously, and the setting up of above-mentioned structure makes middle level paper template can splice the equipment at upper paper template bottom fast, and then the size of equal proportion expansion upper paper template, has promoted the availability factor of paperboard model.

Preferably, the upper surface of bottom paper template still fixedly connected with bottom lug, and the distribution position of bottom lug is the same with the position of middle level slot to the bottom paper template forms the dismantlement structure through inserting of bottom lug and middle level slot and closes with middle level paper template, and the size of bottom paper template is the biggest simultaneously, and the setting up of above-mentioned structure makes bottom paper template splice in middle level paper template bottom fast, thereby the size of equal proportion expansion middle level paper template.

Preferably, the metal safe edge is connected with the joint groove block, and the joint groove constitutes annular concave structure around the frame edge of upper paper template, middle level paper template and bottom paper template, and upper paper template, middle level paper template and bottom paper template still the gomphosis be provided with the magnet strip by in the inboard joint groove, the setting up of above-mentioned structure makes the cardboard model draw the in-process that removes, can avoid leading to the cardboard fold to damage because of friction or collision through the metal safe edge, can promote the drawing precision and the life of cardboard model.

Preferably, the magnet strip constitutes fixed integral structure with upper paper template, middle level paper template and bottom paper template, and upper paper template, middle level paper template and bottom paper template constitute the magnetic adsorption structure through magnet strip and symmetry cardboard respectively, and the setting up of above-mentioned structure makes the cardboard model when drawing complete clothing pattern, can splice independent cardboard model fast through magnetism mode of inhaling, and then has promoted the availability factor of cardboard model.

Compared with the prior art, the beneficial effects of the utility model are that: this be applied to cardboard model of digital clothing can come convenient adjustment model size through three-layer equal proportion enlarged paper template to can effectively protect the cardboard corner, promote the life of cardboard model, can paste the cloth on the model fast simultaneously, so that scan and gather clothing data, promote the availability factor of cardboard model, its concrete content is as follows:

1. the paperboard model applied to the digital garment is characterized in that the upper-layer paper template, the middle-layer paper template and the bottom-layer paper template are respectively provided with an upper-layer slot, a middle-layer lug, a middle-layer slot and a bottom-layer lug, the middle-layer paper template is connected to the bottom of the upper-layer paper template in a clamping manner through a mutual insertion structure of the middle-layer lug and the upper-layer slot, the bottom-layer paper template is connected to the bottom of the middle-layer paper template in a clamping manner by utilizing a mutual insertion structure of the bottom-layer lug and the middle-layer slot, and the size of the paperboard model is further increased in an equal ratio manner, so that the size of the paperboard model can be quickly modified, and the problem that the model is troublesome due to repeated replacement and cutting is avoided;

2. this be applied to cardboard model of digital clothing, upper strata paper template, be provided with the thread gluing area on middle level paper template and the bottom paper template respectively, link up the recess, the structure of metal safe edge and magnet strip, through the thread gluing area of laminating in each layer paper template surface frame department, paste the cloth on cardboard model fast, and utilize the nested metal safe edge of cardboard corner to reduce the model friction and damage, and the magnetic adsorption function through the magnet strip, splice the cardboard model of symmetry fast, realize that the cardboard model can be convenient for show the sample after the cloth is tailor, and conveniently splice the model fast and split, so that the information reference and the input of digital clothing, and can be convenient for reuse the cardboard model, reduce the model and damage, thereby promote the function of the life of cardboard model.

Drawings

Fig. 1 is a schematic view of the assembled three-dimensional structure of the utility model;

fig. 2 is a schematic view of the disassembled three-dimensional structure of the present invention;

FIG. 3 is a schematic perspective view of the upper paper template of the present invention;

FIG. 4 is a schematic view of the three-dimensional structure of the connection position of the upper paper template and the metal protective edge of the present invention;

fig. 5 is an enlarged schematic perspective view of a portion a in fig. 4 according to the present invention.

In the figure: 1. an upper layer paper template; 2. an upper slot; 3. a middle layer paper template; 4. a middle layer bump; 5. a middle layer slot; 6. a bottom paper template; 7. a bottom layer bump; 8. a hook and loop fastener; 9. a joining groove; 10. metal protecting edges; 11. and a magnet strip.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a paperboard form for application to a digital garment, comprising: the middle-layer paper template 3 is connected to the bottom side surface of the upper-layer paper template 1 in an attaching mode, the bottom-layer paper template 6 is connected to the bottom side surface of the middle-layer paper template 3 in an attaching mode, the right sides of the upper-layer paper template 1, the middle-layer paper template 3 and the bottom-layer paper template 6 are respectively and symmetrically provided with the same paper board structures, the sticky buckle tapes 8 cover and are attached to the edges of the outer frames of the upper surfaces of the upper-layer paper template 1, the middle-layer paper template 3 and the bottom-layer paper template 6 in an attaching mode, the edges of the outer frames of the upper-layer paper template 1, the middle-layer paper template 3 and the bottom-layer paper template 6 are further provided with connecting grooves 9, metal protective edges 10 are connected to the edges of the upper-layer paper template 1, the upper-layer slot 2 and the middle-layer paper template 3 in an embedding mode respectively, and the included angles of the metal protective edges 10 are of arc-shaped structures;

when using this cardboard model, if need adjust the model size, can be in the laminating of the bottom of the upper strata paper template 1 of initial use and connect middle level paper template 3, or continue laminating in middle level paper template 3 bottom and connect upper bottom paper template 6, thereby the model size is enlargied to equal proportion, when carrying out model data record, can cover the cloth of different materials and colour and paste on thread gluing area 8, thereby make things convenient for the data record of cardboard model, and the cardboard model is carrying out the in-process of data record, can produce the friction damage because of cardboard removes repeatedly, and then influence the life of model, and through the protection of metal safe edge 10, can avoid the model corner to collide with wearing and tearing, make the life of cardboard model more of a specified duration.

In the digital clothing manufacturing process, if models with different sizes need to be recorded, the original basic model does not need to be cut or replaced, specifically, as shown in fig. 1 and fig. 2, an upper layer slot 2 is further hollowed on an upper layer paper template 1, 4 upper layer slots 2 are distributed around the inner side edge of a fastening tape 8, the bottom side surface of the upper layer paper template 1 is of a smooth surface structure, meanwhile, the size of the upper layer paper template 1 is the minimum, a middle layer bump 4 is further fixedly arranged on the upper surface of a middle layer paper template 3, the distribution position of the middle layer bump 4 is the same as that of the upper layer slot 2, the middle layer paper template 3 forms a dismounting structure with the upper layer paper template 1 through the insertion of the middle layer bump 4 and the upper layer slot 2, a middle layer slot 5 is further hollowed on the outer side of the middle layer bump 4, the upper surface of the bottom paper template 6 is also fixedly connected with a bottom lug 7, the distribution position of the bottom lug 7 is the same as that of the middle slot 5, the bottom paper template 6 forms a disassembly structure with the middle paper template 3 through the insertion of the bottom lug 7 and the middle slot 5, and the size of the bottom paper template 6 is the largest at the same time, when the different sizes of the models are recorded, the middle lug 4 of the middle paper template 3 can be matched and inserted with the upper slot 2 of the upper slot 2, then the bottom lug 7 of the bottom paper template 6 and the middle slot of the middle paper template 3 are matched and inserted with each other, and then the upper paper template 1, the middle paper template 3 and the bottom paper template 6 are assembled together in a stacking mode of small size and large size, so that the replacement of multiple models can be completed quickly;

in order to fully record the clothes size data of the paperboard model, the paperboard model needs to be split into a plurality of parts for splicing, the paperboard model can be spliced quickly and tidily by installing a structure of the magnet strips 11 on the paperboard model, and particularly, as shown in fig. 1, 4 and 5, the metal protective edge 10 is connected with the splicing groove 9 in a clamping manner, the splicing groove 9 surrounds the outer frame edges of the upper-layer paper template 1, the middle-layer paper template 3 and the bottom-layer paper template 6 to form an annular concave structure, the magnet strips 11 are further embedded in the splicing grooves 9 close to the inner sides of the upper-layer paper template 1, the middle-layer paper template 3 and the bottom-layer paper template 6, the magnet strips 11 are embedded in the splicing grooves 9 adjacent to the templates and form a fixed integrated structure, the upper-layer paper template 1, the middle-layer paper template 3 and the bottom-layer paper template 6 respectively form a magnetic adsorption structure with the symmetrical paperboards through the magnet strips 11, when the symmetrical paperboard model is spliced, the magnet strips 11 are embedded in the splicing grooves 9 adjacent to form a magnetic adsorption structure, so that the paperboard model can be spliced quickly by the magnetic adsorption effect, and the metal protective edge 10 can be embedded into a different structure when the paperboard model is spliced into the integrated structure, and the paperboard model can be prevented from being damaged when the paperboard model is spliced into a symmetrical paperboard model.

The working principle is as follows: when the paperboard model is used, as shown in figures 1-5, according to the information record of the digital clothing model, the middle-layer paper template 3 and the bottom-layer paper template 6 can be respectively stacked and connected to the bottom of the upper-layer paper template 1, so that the model size is amplified in an equal ratio, and when the model size is recorded, the model is quickly spliced through the magnet strips 11, so that the use efficiency of the paperboard model is improved, meanwhile, in the repeated splicing process, the corners of the paperboard are protected from being damaged by extrusion through the metal protective edges 10, and the working principle of the paperboard model applied to the digital clothing is realized.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A paperboard model for digital clothing, which is composed of an upper layer paper template (1), a middle layer paper template (3) and a bottom layer paper template (6), and comprises: the middle-layer paper template (3) is attached to the bottom side surface of the upper-layer paper template (1), the bottom-layer paper template (6) is attached to the bottom side surface of the middle-layer paper template (3), and the same paper board structures are symmetrically arranged on the right sides of the upper-layer paper template (1), the middle-layer paper template (3) and the bottom-layer paper template (6) respectively;

it is characterized by also comprising:

the magic tape (8) is covered and attached to the outer frame edges of the upper surfaces of the upper-layer paper template (1), the middle-layer paper template (3) and the bottom-layer paper template (6), and the outer frame edges of the upper-layer paper template (1), the middle-layer paper template (3) and the bottom-layer paper template (6) are also provided with connecting grooves (9);

and the metal protecting edges (10) are respectively connected at the corners of the upper layer paper template (1), the upper layer slot (2) and the middle layer paper template (3) in an embedded mode, and the included angle of the metal protecting edges (10) is of an arc-shaped structure.

2. A cardboard model for digital garment application as claimed in claim 1 wherein: still fretwork has seted up upper slot (2) on upper paper template (1), and 4 have been seted up around the inboard angular distribution of thread gluing area (8) in upper slot (2) to the bottom side of upper paper template (1) is smooth surface structure, and the size of upper paper template (1) is minimum simultaneously.

3. A cardboard model for a digital garment according to claim 1 wherein: the upper surface of the middle layer paper template (3) is fixedly provided with a middle layer lug (4), the distribution position of the middle layer lug (4) is the same as that of the upper layer slot (2), the middle layer paper template (3) forms a dismounting structure with the upper layer paper template (1) through the insertion of the middle layer lug (4) and the upper layer slot (2), and meanwhile, the middle layer slot (5) is further hollowed out in the outer side of the middle layer lug (4).

4. A cardboard model for digital garment application as claimed in claim 1 wherein: the upper surface of the bottom paper template (6) is fixedly connected with bottom lugs (7), the distribution positions of the bottom lugs (7) are the same as those of the middle slot (5), the bottom paper template (6) and the middle paper template (3) form a dismounting structure through the insertion of the bottom lugs (7) and the middle slot (5), and meanwhile, the size of the bottom paper template (6) is the largest.

5. A cardboard model for digital garment application as claimed in claim 1 wherein: the metal protecting edge (10) is connected with the connecting groove (9) in a clamping mode, the connecting groove (9) surrounds the outer frame edges of the upper layer paper template (1), the middle layer paper template (3) and the bottom layer paper template (6) to form an annular concave structure, and the upper layer paper template (1), the middle layer paper template (3) and the bottom layer paper template (6) are further embedded into the connecting groove (9) close to the inner side to be provided with the magnet strips (11).

6. The cardboard model for digital garment according to claim 5, wherein: the magnetic iron strip (11), the upper-layer paper template (1), the middle-layer paper template (3) and the bottom-layer paper template (6) form a fixed integrated structure, and the upper-layer paper template (1), the middle-layer paper template (3) and the bottom-layer paper template (6) respectively form a magnetic adsorption structure with the symmetrical paper boards through the magnetic iron strip (11).

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