CN111575858A - Quantum fiber fabric with functional effect - Google Patents

Abstract

A quantum fiber fabric with a functional effect comprises the following raw materials in parts by weight: 10-20 parts of fiber silk, 15-25 parts of anion polypropylene fiber, 10-15 parts of nano bamboo carbon fiber, 10-18 parts of binder, 2-5 parts of dispersant, 2-5 parts of softener, 30-40 parts of polyester cotton fiber and 1-5 parts of nano quantum dot antibacterial material. The quantum fiber fabric with the functional effect is light in weight, good in skin affinity and strong in antibacterial property, and the quantum fiber can generate high-frequency vibration through water molecules when being subjected to high-frequency energy broadcasting, so that microcirculation of an organism is improved, qi and blood systems of a human body are opened, the liver is assisted to remove endotoxin of the organism in the sleeping process at night, the immunity of the organism is enhanced, and the sleeping quality is improved.

Description

Quantum fiber fabric with functional effect

Technical Field

The invention relates to a quantum fiber fabric with a functional effect, and belongs to the technical field of quantum products.

Background

Bedding clothes occupy the first place of the home textile industry, are one of essential living goods for people to stay at home, and people sleep on the bed for more than 1/3 time for a lifetime. The bedding article is good for human health. Plays a vital role, and the existing living state is particularly rich in diseases, so that the selection of a set of good bedding is responsible for the life of the people, and the quality of life of the people is improved.

With the improvement of living standard, people pay more and more attention to health care. The fiber containing quantum can be implanted into bedding and clothes, and can act on human body in sleep state. The quantum has high-frequency energy, vibration waves vibrate for hundreds of millions of times per second, 70% of human bodies are composed of water, the high-frequency energy of the quantum can be spread to generate high-frequency vibration through water molecules, microcirculation of the human bodies is improved, qi and blood systems of the human bodies are dredged, the liver is assisted to remove toxins in the human bodies in the sleeping process at night, immunity of the human bodies is enhanced, and sleeping quality is improved. The quantum implanted bedding has the advantages of long energy time, convenient use and convenient adjustment. The household article is an excellent choice due to various characteristics such as convenient use and the like.

Disclosure of Invention

Aiming at the problems, the technical problem to be solved by the invention is to provide a quantum fiber fabric with a functional effect, which comprises the following raw materials in parts by weight: 10-20 parts of fiber silk, 15-25 parts of anion polypropylene fiber, 10-15 parts of nano bamboo carbon fiber, 10-18 parts of binder, 2-5 parts of dispersant, 2-5 parts of softener, 30-40 parts of polyester cotton fiber and 1-5 parts of nano quantum dot antibacterial material.

Further preferably, the quantum fiber fabric comprises the following raw materials in parts by weight: 15 parts of fiber silk, 20 parts of anion polypropylene fiber, 12 parts of nano bamboo carbon fiber, 15 parts of binder, 3 parts of dispersing agent, 3 parts of softening agent, 35 parts of polyester cotton fiber and 3 parts of nano quantum dot antibacterial material.

A preparation process of a quantum fiber fabric with a functional effect comprises the following steps: step one, preparing a nano quantum dot antibacterial material, dispersing quantum dots in a silver nitrate solution, adding a mixed solution of sodium borohydride and sodium citrate into the solution under an ice bath condition, reacting for 2-3h, adding a silanization reagent, reacting for 1-2h at 45-65 ℃, centrifuging, washing for 2-3 times with water, and drying to obtain the nano quantum dot antibacterial material;

step two, adding 10-18 parts of binder, 2-5 parts of dispersant and 2-5 parts of softener into 120 parts of 100-plus materials at 45-55 ℃ to 10-20 parts of fiber silk, 15-25 parts of anion polypropylene fiber, 10-15 parts of nano bamboo carbon fiber, 30-40 parts of polyester cotton fiber and 1-5 parts of nano quantum dot antibacterial material, mixing and stirring uniformly, and then airing and forming;

step three: and (3) blending the yarn strips to obtain the quantum fiber fabric.

Preferably, the quantum dots in the first step are graphene/titanium dioxide composite quantum dots.

The invention has the beneficial effects that: the quantum fiber fabric with the functional effect is light in weight, good in skin affinity and strong in antibacterial property, and the quantum fiber can generate high-frequency vibration through water molecules when being subjected to high-frequency energy broadcasting, so that microcirculation of an organism is improved, qi and blood systems of a human body are opened, the liver is assisted to remove endotoxin of the organism in the sleeping process at night, the immunity of the organism is enhanced, and the sleeping quality is improved.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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.

Example 1:

a preparation process of a quantum fiber fabric with a functional effect comprises the following steps: step one, preparing a nano quantum dot antibacterial material, dispersing quantum dots in a silver nitrate solution, adding a mixed solution of sodium borohydride and sodium citrate into the solution under an ice bath condition, reacting for 2 hours, adding a silanization reagent, reacting for 1 hour at 45 ℃, centrifuging, washing for 2 times with water, and drying to obtain the nano quantum dot antibacterial material;

step two, adding 10 parts of fiber silk, 15 parts of anion polypropylene fiber, 10 parts of nano bamboo carbon fiber, 30 parts of polyester cotton fiber and 1 part of nano quantum dot antibacterial material into 100 parts of water at 45 ℃, mixing and stirring uniformly, and then airing and forming;

step three: and (3) blending the yarn strips to obtain the quantum fiber fabric.

Example 2:

a preparation process of a quantum fiber fabric with a functional effect comprises the following steps: step one, preparing a nano quantum dot antibacterial material, dispersing quantum dots in a silver nitrate solution, adding a mixed solution of sodium borohydride and sodium citrate into the solution under an ice bath condition, reacting for 3 hours, adding a silanization reagent, reacting for 2 hours at 65 ℃, centrifuging, washing for 3 times with water, and drying to obtain the nano quantum dot antibacterial material;

step two, adding 18 parts of binder, 5 parts of dispersant and 5 parts of softener into 120 parts of water at 55 ℃ by using 20 parts of fiber silk, 25 parts of anion polypropylene fiber, 15 parts of nano bamboo carbon fiber and 40 parts of polyester cotton fiber as well as 5 parts of nano quantum dot antibacterial materials, mixing and stirring uniformly, and then airing and forming;

step three: and (3) blending the yarn strips to obtain the quantum fiber fabric.

Example 3:

a preparation process of a quantum fiber fabric with a functional effect comprises the following steps: step one, preparing a nano quantum dot antibacterial material, dispersing quantum dots in a silver nitrate solution, adding a mixed solution of sodium borohydride and sodium citrate into the solution under an ice bath condition, reacting for 2.5 hours, adding a silanization reagent, reacting for 1.5 hours at 60 ℃, centrifuging, washing for 3 times with water, and drying to obtain the nano quantum dot antibacterial material;

step two, adding 13 parts of binder, 4 parts of dispersant and 4 parts of softener into 110 parts of water at 50 ℃ to 15 parts of fiber silk, 20 parts of anion polypropylene fiber, 12 parts of nano bamboo carbon fiber, 35 parts of polyester cotton fiber and 3 parts of nano quantum dot antibacterial material, mixing and stirring uniformly, and then airing and forming;

step three: and (3) blending the yarn strips to obtain the quantum fiber fabric.

Compare the quantum fiber surface fabric of this application with ordinary dacron cotton fiber surface fabric.

Therefore, the quantum fiber fabric has better performances than the common polyester cotton fiber fabric.

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 (4)

1. The utility model provides a quantum fiber surface fabric with functional effect which characterized in that: the fiber fabric comprises the following raw materials in parts by weight: 10-20 parts of fiber silk, 15-25 parts of anion polypropylene fiber, 10-15 parts of nano bamboo carbon fiber, 10-18 parts of binder, 2-5 parts of dispersant, 2-5 parts of softener, 30-40 parts of polyester cotton fiber and 1-5 parts of nano quantum dot antibacterial material.

2. The quantum fiber fabric with the functional effect as claimed in claim 1, wherein: the quantum fiber fabric comprises the following raw materials in parts by weight: 15 parts of fiber silk, 20 parts of anion polypropylene fiber, 12 parts of nano bamboo carbon fiber, 15 parts of binder, 3 parts of dispersing agent, 3 parts of softening agent, 35 parts of polyester cotton fiber and 3 parts of nano quantum dot antibacterial material.

3. A preparation process of a quantum fiber fabric with a functional effect is characterized by comprising the following steps: the specific preparation process comprises the following steps: step one, preparing a nano quantum dot antibacterial material, dispersing quantum dots in a silver nitrate solution, adding a mixed solution of sodium borohydride and sodium citrate into the solution under an ice bath condition, reacting for 2-3h, adding a silanization reagent, reacting for 1-2h at 45-65 ℃, centrifuging, washing for 2-3 times with water, and drying to obtain the nano quantum dot antibacterial material;

step two, adding 10-18 parts of binder, 2-5 parts of dispersant and 2-5 parts of softener into 120 parts of 100-plus materials at 45-55 ℃ to 10-20 parts of fiber silk, 15-25 parts of anion polypropylene fiber, 10-15 parts of nano bamboo carbon fiber, 30-40 parts of polyester cotton fiber and 1-5 parts of nano quantum dot antibacterial material, mixing and stirring uniformly, and then airing and forming;

step three: and (3) blending the yarn strips to obtain the quantum fiber fabric.

4. The preparation process of the quantum fiber fabric with the functional effect, according to claim 3, is characterized in that: the quantum dots in the first step are graphene/titanium dioxide composite quantum dots.