CN212877640U - 3D prints jacket - Google Patents

Abstract

The utility model discloses a 3D printing coat, which comprises a coat body, wherein the coat body comprises a front side and a back, and the back comprises an upper part and a lower part; printing 3-4 layers of 3D printing fabric at the position of the front side corresponding to the abdomen of the human body; the upper part of the back adopts 3D printing lace fabric; printing 1-2 layers of 3D printing fabric at the lower part of the back to serve as a bottom layer, wherein a decorative layer is arranged on the bottom layer and is a 3D printing layer; and printing 1-2 layers of 3D printing fabric on other parts. The 3D printing technology is adopted to develop the garment fabric, so that the most real effect of a real object can be simulated directly before the real object is formed; the size of the fabric can be designed according to the requirements of customers and researchers, the fabric is formed in one step, cutting is not needed, materials are saved, leftover materials are not needed to be removed, and the material utilization rate is improved; the upper part of the back is made of lace fabric, so that the air permeability is good; the front side is printed with the thick precoat with belly corresponding position department, prevents that the belly from catching a cold.

Description

3D prints jacket

Technical Field

The utility model belongs to the technical field of 3D prints clothing, a 3D prints jacket is related to.

Background

The three-dimensional printing technology, also known as 3D (three-dimensional) printing technology, is the latest technology in the field of garment digitization, and is combined with a garment three-dimensional intelligent design system, different texture pattern designs can be carried out on different garments, the designed texture effect can be seen in time through printing, the design period is shortened, materials are saved, the production cost is reduced, and the production efficiency of the garments is improved. The competitiveness of clothing enterprises is enhanced, the intelligent development of clothing design is really realized, and opportunities and changes are brought to clothing manufacturers.

However, with the improvement of national economic level and the technological progress, the requirements of consumers on fashion, technological feeling and three-dimensional sense of textiles are gradually improved, the requirements of 3D printing raw materials for environmental protection are required, the requirements of comfortable handfeel, clear and clear patterns and strong three-dimensional sense of the fabrics are also required, and the customization requirements of individuals can be realized. The method provides new challenges for the textile industry, and along with the great change of the supply side, intelligent manufacturing, flexible production and personalized customization of the textile are urgently required. In a word, how to improve the personalized design of the current three-dimensional fabric and realize the customization has very important practical value.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defect that above-mentioned prior art exists, the utility model aims to provide a 3D prints jacket, save material, the travelling comfort is high, and is pleasing to the eye, but personalized customization.

The utility model discloses a realize through following technical scheme:

A3D printing coat comprises a coat body, wherein the coat body comprises a front side and a back, and the back comprises an upper part and a lower part;

3-4 layers of 3D printing fabric layers are adopted at the positions of the front sides corresponding to the human abdomen;

the upper part of the back adopts 3D printing lace fabric;

the lower part of the back adopts 1-2 layers of 3D printing fabric bottom layers, and the 3D printing fabric bottom layers are provided with 3D printing layers;

and 1-2 layers of 3D printing fabric layers are adopted at other parts.

Further, the 3D printing layer is formed by a protruding four-rectangle surrounding structure array, and the protruding four-rectangle surrounding structure is obtained by rotating a rectangular unit for 4 times by 90 degrees in the center.

Further, the 3D printing fabric layer, the 3D printing fabric bottom layer and the 3D printing layer are made of one or more of PLA, ABS and TPU.

Further, the thickness of the 3D printing fabric layer is 2-3 mm.

Further, PLA or TPU is adopted as the raw material of the 3D printing lace fabric.

Furthermore, the 3D printing fabric layer, the 3D printing fabric bottom layer, the 3D printing lace fabric and the 3D printing layer are all formed in a 3D printing mode through fusion lamination. Further, the 3D prints the protruding surface of establishing on the bottom.

Further, the front and back sides are sewn together.

Further, the upper and lower portions are printed in an integral or separate manner.

Compared with the prior art, the utility model discloses following profitable technological effect has:

the utility model discloses a 3D printing coat, which can finely adjust the specific lines of local materials through software, more conform to the lines of human body, simultaneously, remove a plurality of complex procedures in the traditional clothes making process, save energy and protect environment; the 3D printing technology is adopted to develop the garment fabric, so that the most real effect of a real object can be simulated directly before the real object is formed; the size of the fabric can be designed according to the requirements of customers and researchers, the fabric is formed in one step, cutting is not needed, materials are saved, leftover materials are not needed to be removed, and the material utilization rate is improved; the upper part of the back is made of lace fabric, so that the air permeability is good, and the comfort is improved; a thicker fabric layer is printed at the position of the front side corresponding to the abdomen, so that the abdomen is prevented from catching a cold; the lower part of the back is provided with the decorative layer, so that the back is attractive and can be customized according to the requirements of users.

Furthermore, the adopted printing raw material is flexible PLA which is polylactic acid, and the polymer is obtained by polymerizing lactic acid serving as a main raw material, so that the printed fabric is soft and comfortable, can be recycled, and is energy-saving and environment-friendly. The TPU is thermoplastic polyurethane elastomer rubber which has good elasticity and is wear-resistant; ABS is a terpolymer of three monomers of acrylonitrile (A), butadiene (B) and styrene (S), and has the characteristics of toughness and high hardness. The three materials have different properties, and fabrics with different properties can be manufactured.

Drawings

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

Wherein: 1 is a garment body; 2 is the upper part; and 3 is the lower part.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings:

the utility model discloses a 3D printing coat, which comprises a coat body 1, wherein the coat body 1 comprises a front side and a back, and the back comprises an upper part 2 and a lower part 3; printing 3-4 layers of 3D printing fabric at the position of the front side corresponding to the human abdomen, and printing lace fabric on the upper part 2 of the back in a 3D mode; and 3, printing 1-2 layers of 3D printing fabric as a bottom layer at the lower part of the back, wherein a decorative layer is arranged on the bottom layer and is a 3D printing layer. And printing 1-2 layers of 3D printing fabric on other parts.

The upper part 2 of the back is made of lace fabric, so that the air permeability is good, and the comfort is improved; a thicker fabric layer is printed at the position of the front side corresponding to the abdomen, so that the abdomen is prevented from catching a cold; the lower part 3 of the back is provided with a decorative layer, which is beautiful and can be customized according to the needs of users.

The 3D printing fabric and the 3D printing layer are made of one or more of PLA, ABS and TPU.

Generally, the thickness of the 3D printing fabric is 2-3 mm.

Generally, the raw material of the 3D printing lace fabric is PLA or TPU.

Preferably, the 3D printing fabric, the 3D printing lace fabric and the 3D printing layer are formed on the bottom layer of the fabric in a fused laminated forming 3D printing mode.

The 3D prints the protruding surface of establishing at the surface fabric bottom of stamp layer, and is pleasing to the eye, does not influence the comfortable degree of dress.

The utility model discloses a preparation technology of 3D prints jacket specifically includes following step:

1) firstly, 3ds Max software is taken as a platform, a Peirce circular theoretical model is adopted, an NURBS curve modeling method is combined, the yarn axis line path in a fabric tissue is determined according to control point coordinates, and operations such as lofting and copying are carried out on the tissue section;

2) then, using Print-Rite CoLiDo player-Host slicing software to carry out layered processing on the model and extract each layer of data;

3) and finally, analyzing the printing effect under different printing parameters by adopting a Tianwei Colido X3045 quasi-industrial printer to obtain the optimal printing parameters. And printing the three-dimensional model under the optimal printing parameters.

The jacket is divided into a front part and a back part which are respectively printed, and the front part and the back part are sewn together after the printing.

Preferably, the back is printed as a whole, or the upper part 2 and the lower part 3 are printed separately, and when the upper part 2 and the lower part 3 are printed separately, they are modeled separately, printed separately, and then the upper part 2 and the lower part 3 are sewn together.

The 3D printing layer is formed by a protruding four-rectangle surrounding structure array, and the protruding four-rectangle surrounding structure is obtained by rotating a rectangle unit for 4 times by 90 degrees. The rectangular cells have a length and width of 26mm by 7mm by 4mm, or 27mm by 8mm by 5 mm.

During modeling, the distance between the four convex rectangular surrounding structural units in the X direction is 6mm, the distance between the four convex rectangular surrounding structural units in the Y direction is 9mm, and the distance between the four convex rectangular surrounding structural units in the Z direction is 0 mm.

The spinning temperature is set to 210 ℃ and 220 ℃, and the spinning speed is 90-100 mm/s.

The above description is only for the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are all covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. The 3D printing coat is characterized by comprising a coat body (1), wherein the coat body (1) comprises a front side, a back and other parts, and the back comprises an upper part (2) and a lower part (3);

3-4 layers of 3D printing fabric layers are adopted at the positions of the front sides corresponding to the human abdomen;

the upper part (2) of the back adopts 3D printing lace fabric;

the lower part (3) of the back adopts 1-2 layers of 3D printing fabric bottom layers, and the 3D printing fabric bottom layers are provided with 3D printing layers;

and 1-2 layers of 3D printing fabric layers are adopted at other parts.

2. The 3D-printed jacket according to claim 1, wherein the 3D-printed pattern is formed by an array of four-rectangular-convex surrounding structures, which are obtained by rotating a rectangular unit by 90 ° through 4 centers.

3. The 3D printing coat according to claim 1, wherein the 3D printing fabric layer, the 3D printing fabric bottom layer and the 3D printing layer are made of PLA, ABS or TPU.

4. The 3D-printed coat according to claim 1, wherein the thickness of the 3D-printed fabric layer is 2-3 mm.

5. The 3D printing coat according to claim 1, wherein PLA or TPU is adopted as a raw material of the 3D printing lace fabric.

6. The 3D printing coat according to claim 1, wherein the 3D printing fabric layer, the 3D printing fabric bottom layer, the 3D printing lace fabric and the 3D printing layer are formed by fusion lamination and 3D printing.

7. The 3D printed jacket according to claim 1, wherein the 3D printed layer is embossed on the outer surface of the base layer.

8. The 3D printed jacket according to claim 1, wherein the front side and the back are sewn together.

9. The 3D printed jacket according to claim 1, wherein the upper part (2) and the lower part (3) are printed integrally or separately.

Images