CN113756528A

CN113756528A - Wallpaper capable of generating negative ions and preparation method thereof

Info

Publication number: CN113756528A
Application number: CN202110592983.2A
Authority: CN
Inventors: 刘宏宇; 沈卫东
Original assignee: Jiangsu Dongyu Wallpaper Co ltd
Current assignee: Jiangsu Dongyu Wallpaper Co ltd
Priority date: 2021-05-28
Filing date: 2021-05-28
Publication date: 2021-12-07

Abstract

The invention discloses wallpaper capable of generating negative ions and a preparation method thereof, wherein the wallpaper comprises a negative ion diffusion layer and a base layer, and the negative ion diffusion layer is prepared by mixing the following raw materials: 60-70% of PVC resin, 10-20% of anion powder, 1-3% of modified filler, 1-3% of diatomite, 1-3% of nano ceramic powder, 1-3% of aluminum hydroxide, 1-3% of sodium bicarbonate, 1-3% of glass fiber, 1-3% of vermiculite powder and 1-3% of perlite powder, wherein the base layer is made of non-woven fabric. The wallpaper capable of generating negative ions and the preparation method thereof provided by the invention have the advantages that the added water-based negative ions are stirred together with other raw materials and are concentrated into paste, so that the problem of sinking of the water-based negative ions is avoided, the raw materials for manufacturing the wallpaper are uniform in concentration, and the wallpaper provided by the invention can continuously release a large amount of negative oxygen ions, increase the concentration of indoor negative ions and improve the air quality of a room.

Description

Wallpaper capable of generating negative ions and preparation method thereof

Technical Field

The invention relates to the field of wallpaper, and particularly relates to wallpaper capable of generating negative ions and a preparation method thereof.

Background

The existing wallpaper capable of generating negative ions is prepared by dissolving negative ion powder in a water-based printing medium, printing the negative ion powder on the surface of the wallpaper, and printing other colors to prepare the wallpaper, so that the negative oxygen ions of the wallpaper product can be released. There are disadvantages in that the uniformity of color is not good, the printed product is not fine enough, and it is easy to precipitate in an aqueous medium, and the effect is poor, in products which cannot be directly added to the color, such as colored products.

Disclosure of Invention

The invention mainly aims to provide wallpaper capable of generating negative ions and a preparation method thereof, which can effectively solve the problems in the background art.

In order to achieve the purpose, the invention adopts the technical scheme that:

the wallpaper capable of generating negative ions comprises a negative ion diffusion layer and a base layer, wherein the negative ion diffusion layer is formed by mixing the following raw materials in parts by weight: 60-70% of PVC resin, 10-20% of anion powder, 1-3% of modified filler, 1-3% of diatomite, 1-3% of nano ceramic powder, 1-3% of aluminum hydroxide, 1-3% of sodium bicarbonate, 1-3% of glass fiber, 1-3% of vermiculite powder and 1-3% of perlite powder, wherein the base layer is made of non-woven fabric.

Preferably, the negative ion diffusion layer is formed by mixing the following raw materials in parts by weight: 60% of PVC resin, 20% of anion powder, 1-3% of modified filler, 1-3% of diatomite, 1-3% of nano ceramic powder, 1-3% of aluminum hydroxide, 1-3% of sodium bicarbonate, 1-3% of glass fiber, 1-3% of vermiculite powder and 1-3% of perlite powder.

Preferably, the negative ion diffusion layer is formed by mixing the following raw materials in parts by weight: 62% of PVC resin, 18% of anion powder, 2% of modified filler, 2% of diatomite, 2% of nano ceramic powder, 2% of aluminum hydroxide, 3% of sodium bicarbonate, 3% of glass fiber, 3% of vermiculite powder and 3% of perlite powder.

Preferably, the negative ion diffusion layer is formed by mixing the following raw materials in parts by weight: 64% of PVC resin, 16% of anion powder, 3% of modified filler, 3% of diatomite, 1% of nano ceramic powder, 3% of aluminum hydroxide, 3% of sodium bicarbonate, 1% of glass fiber, 3% of vermiculite powder and 3% of perlite powder.

Preferably, the negative ion diffusion layer is formed by mixing the following raw materials in parts by weight: 66% of PVC resin, 14% of anion powder, 2% of modified filler, 2% of diatomite, 2% of nano ceramic powder, 3% of aluminum hydroxide, 3% of sodium bicarbonate, 3% of glass fiber, 2% of vermiculite powder and 3% of perlite powder.

Preferably, the negative ion diffusion layer is formed by mixing the following raw materials in parts by weight: 68% of PVC resin, 12% of anion powder, 2% of modified filler, 2% of diatomite, 2% of nano ceramic powder, 3% of aluminum hydroxide, 3% of sodium bicarbonate, 3% of glass fiber, 2% of vermiculite powder and 3% of perlite powder.

Preferably, the negative ion diffusion layer is formed by mixing the following raw materials in parts by weight: 70% of PVC resin, 10% of anion powder, 3% of modified filler, 3% of diatomite, 1% of nano ceramic powder, 3% of aluminum hydroxide, 3% of sodium bicarbonate, 1% of glass fiber, 3% of vermiculite powder and 3% of perlite powder.

Preferably, the preparation method of the wallpaper capable of generating the negative ions is characterized by comprising the following steps: the method comprises the following operation steps:

s1: preparing raw materials according to portions;

s2: grinding anion powder, modified filler, diatomite, nano ceramic powder, aluminum hydroxide, sodium bicarbonate, glass fiber, vermiculite powder and perlite powder into fine powder, and sieving with 1800-mesh sieve;

s3: melting PVC resin, sequentially adding anion powder, modified filler, diatomite, nano ceramic powder, aluminum hydroxide, sodium bicarbonate, glass fiber, vermiculite powder and fine perlite powder, and uniformly stirring;

s4: pouring the colloid into a mold, heating at low temperature, keeping the semi-colloid semi-solid state, and performing coining molding;

s5: and (4) placing the non-woven fabric on the top of the sound insulation layer, and carrying out stamping, cooling and forming.

Compared with the prior art, the invention has the following beneficial effects:

in the invention, the formula is simple, the raw materials are convenient to select and purchase, the use cost is low, the performance of the produced wallpaper product is stable, and the wallpaper produced by the invention has high surface smoothness, good smoothness and no peculiar smell; the added water-based negative ions and other raw materials are stirred together and concentrated into paste, so that the problem of water-based negative ions sinking is avoided, the raw material concentration for manufacturing the wallpaper is uniform, and the wallpaper provided by the invention can continuously release a large amount of negative oxygen ions, increase the indoor negative ion concentration and improve the air quality of a room.

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.

The first embodiment is as follows:

the embodiment relates to wallpaper capable of generating negative ions, which comprises a negative ion diffusion layer and a base layer, wherein the negative ion diffusion layer is formed by mixing the following raw materials: 60-70% of PVC resin, 10-20% of anion powder, 1-3% of modified filler, 1-3% of diatomite, 1-3% of nano ceramic powder, 1-3% of aluminum hydroxide, 1-3% of sodium bicarbonate, 1-3% of glass fiber, 1-3% of vermiculite powder and 1-3% of perlite powder, wherein the base layer is made of non-woven fabric.

In the invention, the negative ion diffusion layer is formed by mixing the following raw materials: 60% of PVC resin, 20% of anion powder, 1-3% of modified filler, 1-3% of diatomite, 1-3% of nano ceramic powder, 1-3% of aluminum hydroxide, 1-3% of sodium bicarbonate, 1-3% of glass fiber, 1-3% of vermiculite powder and 1-3% of perlite powder.

In the invention, the negative ion diffusion layer is formed by mixing the following raw materials: 62% of PVC resin, 18% of anion powder, 2% of modified filler, 2% of diatomite, 2% of nano ceramic powder, 2% of aluminum hydroxide, 3% of sodium bicarbonate, 3% of glass fiber, 3% of vermiculite powder and 3% of perlite powder.

In the invention, the negative ion diffusion layer is formed by mixing the following raw materials: 64% of PVC resin, 16% of anion powder, 3% of modified filler, 3% of diatomite, 1% of nano ceramic powder, 3% of aluminum hydroxide, 3% of sodium bicarbonate, 1% of glass fiber, 3% of vermiculite powder and 3% of perlite powder.

In the invention, the negative ion diffusion layer is formed by mixing the following raw materials: 66% of PVC resin, 14% of anion powder, 2% of modified filler, 2% of diatomite, 2% of nano ceramic powder, 3% of aluminum hydroxide, 3% of sodium bicarbonate, 3% of glass fiber, 2% of vermiculite powder and 3% of perlite powder.

In the invention, the negative ion diffusion layer is formed by mixing the following raw materials: 68% of PVC resin, 12% of anion powder, 2% of modified filler, 2% of diatomite, 2% of nano ceramic powder, 3% of aluminum hydroxide, 3% of sodium bicarbonate, 3% of glass fiber, 2% of vermiculite powder and 3% of perlite powder.

In the invention, the negative ion diffusion layer is formed by mixing the following raw materials: 70% of PVC resin, 10% of anion powder, 3% of modified filler, 3% of diatomite, 1% of nano ceramic powder, 3% of aluminum hydroxide, 3% of sodium bicarbonate, 1% of glass fiber, 3% of vermiculite powder and 3% of perlite powder.

The second embodiment is as follows:

the embodiment relates to a preparation method of wallpaper capable of generating negative ions, which is characterized by comprising the following steps: the method comprises the following operation steps:

s1: preparing raw materials according to portions;

The invention has simple formula, convenient raw material selection and low use cost, and the produced wallpaper product has stable performance, and the wallpaper produced by the invention has high surface smoothness, good smoothness and no peculiar smell; the added water-based negative ions and other raw materials are stirred together and concentrated into paste, so that the problem of water-based negative ions sinking is avoided, the raw material concentration for manufacturing the wallpaper is uniform, and the wallpaper provided by the invention can continuously release a large amount of negative oxygen ions, increase the indoor negative ion concentration and improve the air quality of a room.

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

1. The utility model provides a wall paper that can produce anion, includes anion diffusion layer and basic unit, its characterized in that: the negative ion diffusion layer is formed by mixing the following raw materials in parts by weight: 60-70% of PVC resin, 10-20% of anion powder, 1-3% of modified filler, 1-3% of diatomite, 1-3% of nano ceramic powder, 1-3% of aluminum hydroxide, 1-3% of sodium bicarbonate, 1-3% of glass fiber, 1-3% of vermiculite powder and 1-3% of perlite powder, wherein the base layer is made of non-woven fabric.

2. The wallpaper capable of generating negative ions according to claim 1, wherein: the negative ion diffusion layer is formed by mixing the following raw materials in parts by weight: 60% of PVC resin, 20% of anion powder, 1-3% of modified filler, 1-3% of diatomite, 1-3% of nano ceramic powder, 1-3% of aluminum hydroxide, 1-3% of sodium bicarbonate, 1-3% of glass fiber, 1-3% of vermiculite powder and 1-3% of perlite powder.

3. The wallpaper capable of generating negative ions according to claim 1, wherein: the negative ion diffusion layer is formed by mixing the following raw materials in parts by weight: 62% of PVC resin, 18% of anion powder, 2% of modified filler, 2% of diatomite, 2% of nano ceramic powder, 2% of aluminum hydroxide, 3% of sodium bicarbonate, 3% of glass fiber, 3% of vermiculite powder and 3% of perlite powder.

4. The wallpaper capable of generating negative ions according to claim 1, wherein: the negative ion diffusion layer is formed by mixing the following raw materials in parts by weight: 64% of PVC resin, 16% of anion powder, 3% of modified filler, 3% of diatomite, 1% of nano ceramic powder, 3% of aluminum hydroxide, 3% of sodium bicarbonate, 1% of glass fiber, 3% of vermiculite powder and 3% of perlite powder.

5. The wallpaper capable of generating negative ions according to claim 1, wherein: the negative ion diffusion layer is formed by mixing the following raw materials in parts by weight: 66% of PVC resin, 14% of anion powder, 2% of modified filler, 2% of diatomite, 2% of nano ceramic powder, 3% of aluminum hydroxide, 3% of sodium bicarbonate, 3% of glass fiber, 2% of vermiculite powder and 3% of perlite powder.

6. The wallpaper capable of generating negative ions according to claim 1, wherein: the negative ion diffusion layer is formed by mixing the following raw materials in parts by weight: 68% of PVC resin, 12% of anion powder, 2% of modified filler, 2% of diatomite, 2% of nano ceramic powder, 3% of aluminum hydroxide, 3% of sodium bicarbonate, 3% of glass fiber, 2% of vermiculite powder and 3% of perlite powder.

7. The wallpaper capable of generating negative ions according to claim 1, wherein: the negative ion diffusion layer is formed by mixing the following raw materials in parts by weight: 70% of PVC resin, 10% of anion powder, 3% of modified filler, 3% of diatomite, 1% of nano ceramic powder, 3% of aluminum hydroxide, 3% of sodium bicarbonate, 1% of glass fiber, 3% of vermiculite powder and 3% of perlite powder.

8. The method for preparing wallpaper capable of generating negative ions according to claim 1, wherein the wallpaper comprises: the method comprises the following operation steps:

s1: preparing raw materials according to portions;