3D printed elastic biological far-infrared antibacterial and deodorant underwear and preparation method thereof

A 3D printing and far-infrared technology, applied to underwear, bras, bras, etc., can solve the problems of differential functionalization, waste of manpower and material resources, and large material loss, so as to prevent mammary gland hyperplasia, promote enzyme growth, improve The effect of analgesic function

Active Publication Date: 2018-09-21
景洪丽 +3
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] At present, underwear production is mainly based on weaving, dyeing, shaping, cutting, and sewing. The entire production process has large material loss, high energy consumption, serious environmental pollution, poor production environment, serious waste of manpower and material resources, and difficult differentiation and functionalization. , it is difficult to keep up with the times, so the desire for rapid prototyping of underwear is high

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] A 3D printed elastic biological far-infrared antibacterial and deodorant underwear, including the following raw materials by weight: 85% of film-forming materials, 10% of materials capable of emitting far-infrared electromagnetic waves, and 5% of nano-scale antibacterial and deodorant materials.

[0028] The film-forming material is silica gel.

[0029] The nano antibacterial and deodorant material is nano silver ion.

[0030] The material capable of emitting far-infrared electromagnetic waves is: far-infrared nano-ceramic powder; the far-infrared nano-ceramic powder is composed of the following components by weight: 20% aluminum oxide, 20% silicon oxide, 30% titanium oxide, 10% magnesium oxide and Zirconia 20%.

[0031] The preparation method of far-infrared nano-ceramic powder is as follows: weigh the ingredients according to the product formula, mix them through a three-dimensional mixer, press them into shape or roll them into shape, and then dry them. The smear m...

Embodiment 2

[0034] A 3D printing elastic biological far-infrared antibacterial and deodorant underwear, including the following raw materials by weight: 95% of film-forming materials, 2% of materials capable of emitting far-infrared electromagnetic waves and 3% of nano-scale antibacterial and deodorant materials; also includes additives, The auxiliary agent is nano-graphene; the added weight of the auxiliary agent is 2% of the sum of the film-forming material, the material capable of emitting far-infrared electromagnetic waves and the nano-antibacterial and deodorizing material.

[0035] The film-forming material is latex.

[0036] The nano antibacterial and deodorizing material is a mixture of nano copper ions and nano zinc ions in a weight ratio of 1:1.

[0037] The material capable of emitting far-infrared electromagnetic waves is: far-infrared nano-ceramic powder, which is composed of the following components by weight: 30% aluminum oxide, 10% silicon oxide, 30% titanium oxide, 20% ma...

Embodiment 3

[0041] A 3D printed elastic biological far-infrared antibacterial and deodorant underwear, including the following raw materials by weight: 80% of film-forming materials, 10% of materials capable of emitting far-infrared electromagnetic waves, and 10% of nano-scale antibacterial and deodorant materials; The additive is mixed with nano-graphene, nano-selenium powder and negative ion nano-powder in an equal weight ratio; the added weight of the additive is 4% of the sum of the film-forming material, the material capable of emitting far-infrared electromagnetic waves, and the nano-antibacterial and deodorizing material. %.

[0042] The film-forming material is TPE.

[0043] The nano antibacterial and deodorizing material is a mixture of nano zinc ions, nano titanium dioxide and nano negative ions in an equal weight ratio.

[0044] The material capable of emitting far-infrared electromagnetic waves is: far-infrared nano-ceramic powder, which is composed of the following component...

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Abstract

The invention relates to underwear and in particular relates to 3D (Three Dimensional) printed elastic biological far-infrared antibacterial and deodorant underwear and a preparation method thereof. The underwear is produced through a 3D printing process and is prepared from the following raw materials: a film forming material, a material capable of emitting far-infrared electromagnetic waves and a nano antibacterial and deodorant material; the material capable of emitting the far-infrared electromagnetic waves is far-infrared nano ceramic powder; the nano antibacterial and deodorant material is one or more of nano silver ions, nano copper ions, nano zinc ions, nano titanium dioxide and nano negative ions. According to the underwear provided by the invention, the materials have good wearing resistance, can keep the shape of the underwear, have a health-care property, can generate activated tissue cells, improve blood circulation and have pain alleviating functions, have antibacterial and deodorant effects and have biological friendliness to people; the invention further provides the preparation method of the 3D printed elastic biological far-infrared antibacterial and deodorant underwear.

Description

technical field [0001] The invention relates to underwear, in particular to a 3D printed elastic biological far-infrared antibacterial and deodorant underwear and a preparation method thereof. Background technique [0002] At present, underwear production is mainly based on weaving, dyeing, shaping, cutting, and sewing. The entire production process has large material loss, high energy consumption, serious environmental pollution, poor production environment, serious waste of manpower and material resources, and difficult differentiation and functionalization. , it is difficult to keep up with the pace of the times, so the desire for rapid prototyping of underwear is high. At present and in the future, with the improvement of living standards, the functional requirements of underwear are becoming more and more urgent. The functional requirements for underwear are also getting higher and higher. Contents of the invention [0003] Aiming at the deficiencies of the prior ar...

Claims

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine
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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A41B17/00A41C3/00A41C5/00
CPCA41B17/00A41C3/00A41C5/00
Inventor 郑承国郑璐怿
Owner 景洪丽
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