Anti-bacterial, anti-mite and anti-viral finishing agent, plush shell fabric and preparation method and application of plush shell fabric

An anti-virus and finishing agent technology is applied to plush fabrics with anti-bacterial, anti-mite, anti-mold and anti-virus and its preparation, and in the field of anti-bacterial, anti-mite and anti-virus finishing agents. The problem of poor antibacterial effect, etc., can achieve good antibacterial effect, improve antibacterial, anti-mite and antiviral effect, and effect of broad-spectrum and long-acting antibacterial and antiviral performance.

An anti-virus and finishing agent technology is applied to plush fabrics with anti-bacterial, anti-mite, anti-mold and anti-virus and its preparation, and in the field of anti-bacterial, anti-mite and anti-virus finishing agents. The problem of poor antibacterial effect, etc., can achieve good antibacterial effect, improve antibacterial, anti-mite and antiviral effect, and effect of broad-spectrum and long-acting antibacterial and antiviral performance.

CN111411510AActive Publication Date: 2020-07-14同曦集团有限公司
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  • Anti-bacterial, anti-mite and anti-viral finishing agent, plush shell fabric and preparation method and application of plush shell fabric
  • Anti-bacterial, anti-mite and anti-viral finishing agent, plush shell fabric and preparation method and application of plush shell fabric
  • Anti-bacterial, anti-mite and anti-viral finishing agent, plush shell fabric and preparation method and application of plush shell fabric

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0052] This embodiment provides an antibacterial, anti-mite and anti-virus finishing agent, which specifically includes the following components by weight:

[0053]

[0054]

[0055] Its preparation method is:

[0056] Mix the metal ion-doped photocatalyst and dispersant in water to obtain a suspension, heat it to 80°C, and then perform ultrasonic treatment on the suspension. The ultrasonic time is 30min, and the power is 500W, and then chitosan is added. and plant extracts are mixed to obtain the antibacterial, anti-mite and anti-viral finishing agent.

Embodiment 2

[0058] This embodiment provides an antibacterial, anti-mite and anti-virus finishing agent, which specifically includes the following components by weight:

[0059]

[0060]

[0061] Its preparation method is:

[0062] Mix the metal ion-doped photocatalyst and dispersant in water to obtain a suspension, heat it to 80°C, and then perform ultrasonic treatment on the suspension. The ultrasonic time is 30min, and the power is 500W, and then chitosan is added. and plant extracts are mixed to obtain the antibacterial, anti-mite and anti-viral finishing agent.

Embodiment 3

[0064] This embodiment provides an antibacterial, anti-mite and anti-virus finishing agent, which specifically includes the following components by weight:

[0065]

[0066] Its preparation method is:

[0067] Mix the metal ion-doped photocatalyst and dispersant in water to obtain a suspension, heat it to 80°C, and then perform ultrasonic treatment on the suspension. The ultrasonic time is 30min, and the power is 500W, and then chitosan is added. and plant extracts are mixed to obtain the antibacterial, anti-mite and anti-viral finishing agent.

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Abstract

The invention provides an anti-bacterial, anti-mite and anti-viral finishing agent, a plush shell fabric and a preparation method and application of the plush shell fabric. The anti-bacterial, anti-mite and anti-viral finishing agent includes a metal-ion-doped photocatalyst, a plant extract, chitosan and a dispersing agent, and the plush shell fabric functionally treats a fabric in the after-treatment process through the anti-bacterial and anti-viral finishing agent. Metal ions, the photocatalyst, the plant extract and the chitosan in the anti-bacterial, anti-mite and anti-viral finishing agent synergistically cooperate, the anti-bacterial ratio of the plush shell fabric against bacteria such as escherichia coli, staphylococcus aureus and candida albicans can be increased, the resistance of the plush shell fabric to viruses such as H1N1 and H3N2 is improved, the mould-proof grade of the shell fabric is zero, and the shell fabric has a good expelling effect on mites and can be widely applied to manufacturing of plush toys, clothing, woollen blankets, plush mats, plush four-piece suits and the like.

Description

technical field [0001] The invention belongs to the technical field of textiles, and relates to a plush fabric and a preparation method thereof, in particular to an antibacterial, anti-mite and anti-virus finishing agent, an anti-bacterial, anti-mite, anti-mildew and anti-virus plush fabric, a preparation method and application thereof. Background technique [0002] At present, there are many kinds of toys, such as plush toys, plastic toys, metal toys, etc., among which plush toys are the best-selling. Plush toys are mostly prepared from textile fabrics composed of fibers. Due to the porous shape of fibers and the chemical structure of polymers, they are conducive to the attachment of microorganisms and become good parasites for the survival and reproduction of microorganisms. In addition to the harm to the human body, parasites can also pollute the fiber. However, the improvement of plush toys is mainly reflected in the style, fabric, and function. The improvement of the fa...

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

Patent Timeline
14 Jul 2020
Publication
CN111411510A
IPC
D06M11/46; D06M11/48; D06M11/83; D06M15/03; D06M15/564; D06M13/00; D06M15/00
CPC
D06M11/46; D06M11/48; D06M11/83; D06M15/03; D06M15/564; D06M13/00; D06M15/00; D06M16/00
Inventors
陈广川; 于红光