CN111217555A - Home decoration coating capable of adsorbing and decomposing formaldehyde and releasing negative oxygen ions - Google Patents

Abstract

The invention relates to the technical field of interior decoration coatings, in particular to a home decoration coating capable of adsorbing and decomposing formaldehyde and releasing negative oxygen ions. In order to prepare the home decoration coating capable of adsorbing and decomposing formaldehyde more efficiently and releasing high-concentration negative oxygen ions, the invention provides the home decoration coating capable of adsorbing and decomposing formaldehyde and releasing negative oxygen ions, which comprises the following components: diatomite powder, volcanic rock powder, aloe freeze-dried powder, hexacyclic ring stone powder, calcium phosphate, hydroxymethyl cellulose, calcium carbonate, bentonite, sierozem powder and nano titanium dioxide. The home decoration coating prepared by the method can release high-concentration negative oxygen ions, has the effects of sterilizing, adsorbing and decomposing formaldehyde, and has good application prospect.

Description

Home decoration coating capable of adsorbing and decomposing formaldehyde and releasing negative oxygen ions

Technical Field

The invention relates to the technical field of interior decoration coatings, in particular to a home decoration coating capable of adsorbing and decomposing formaldehyde and releasing negative oxygen ions.

Background

Data of the Chinese white paper book for indoor air pollution conditions in 2019 show that: the house reject ratio in one year of decoration is 95%, the reject ratio in 2 years of decoration is 65%, the reject ratio in three years of decoration is 55%, an office is an air pollution serious disaster area, the reject ratio is 90%, and the harm caused by indoor decoration pollution is huge, so that high attention is paid to government departments, health organizations and related research institutions. Many problems caused by environmental pollution in decoration need to be solved.

Negative oxygen ion is honored as "air vitamin", and negative oxygen ion can be directly be with pollutants such as formaldehyde, toluene decompose into nontoxic tasteless carbon dioxide and water, alleviates indoor pollution, has apparent influence to air purification, and moreover, medical science research shows that negative oxygen ion makes the oxygen content increase in the blood, is favorable to blood oxygen to carry, absorb and utilize, has the effect that promotes human metabolism, improves human immunity, strengthens human flesh ability, adjusts the balanced effect of organism function. According to the examination, the negative oxygen ions have the effects of inhibiting, relieving and assisting in treating 7 systems of the human body, nearly 30 diseases, and particularly have more obvious health-care effect on the human body. Therefore, the purification of indoor pollution by negative oxygen ions is a new trend.

At present, some environment-friendly wall materials are provided, tourmaline is added into the raw materials of the wall materials, the aim of purifying air is achieved by releasing negative oxygen ions through tourmaline, but the release amount of the negative oxygen ions of the tourmaline is uncertain, so that the purification effects of the wall materials are different, for example, the environment-friendly tourmaline composite home decoration material disclosed by Chinese patent CN 104386982A comprises the following raw materials in parts by weight: tourmaline powder: 2-20 parts of a solvent; slag: 20-80 parts of a solvent; 2-10 parts of activated carbon; adhesive: 5-40 parts; 1-40 parts of auxiliary materials; air entraining agent: 0.1 to 0.3 portion. Research shows that the release amount of negative oxygen ions per cubic centimeter of the most standard tourmaline is only about 6000, the release amount of the negative oxygen ions is small, the purification efficiency is low, and the purification effect is poor.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: how to prepare the home decoration coating which can efficiently adsorb and decompose formaldehyde and release high-concentration negative oxygen ions.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the invention provides a home decoration coating capable of adsorbing and decomposing formaldehyde and releasing negative oxygen ions, which comprises the following components in parts by weight:

coating additive 200-300 parts

80-100 parts of water

The coating additive comprises the following components in parts by weight:

20-30 parts of diatomite powder

10-30 parts of volcanic rock powder

Aloe lyophilized powder 3-10 parts

5-15 parts of hexacyclic ring stone powder

Calcium phosphate powder 8-28 parts

2-9 parts of hydroxymethyl cellulose

10-20 parts of double flying powder

4-15 parts of bentonite

7-16 parts of sierozem powder

1-2 parts of nano titanium dioxide,

the grain diameter of the nano-scale titanium dioxide is 15-20nm,

the mass ratio of the coating additive to the water is 2.5-3: 1.

Specifically, the fineness of the diatomite powder is 300-400 meshes.

Specifically, the fineness of the volcanic rock powder is 400-500 meshes.

Specifically, the aloe freeze-dried powder has pH =4-6 and relative density of 0.98-1.02.

Specifically, the fineness of the hexacyclic stone powder is 800-1000 meshes.

Specifically, the fineness of the calcium phosphate powder is 600-800 meshes.

Specifically, the viscosity of the hydroxymethylcellulose is 20000-30000 mPas.

Specifically, the fineness of the double-flying powder is 800-1000 meshes.

Specifically, the fineness of the bentonite is 300-400 meshes.

Specifically, the fineness of the sierozem powder is 300-400 meshes.

The invention has the beneficial effects that:

(1) the home decoration coating prepared by the invention can release high-concentration negative oxygen ions, the concentration of the negative oxygen ions is as high as 6 ten thousand per cubic centimeter, and the generated negative oxygen ions can directly decompose pollutants such as formaldehyde, toluene and the like into nontoxic and tasteless carbon dioxide and water, so that the indoor pollution is relieved, and the air purification is obviously influenced;

(2) the diatomite powder can generate a waterfall effect by absorbing and releasing water, water molecules are decomposed into positive and negative ions, the positive and negative ion groups are formed by wrapping the water molecules, and then the water molecules are used as carriers and float around in the air, so that the diatomite powder has a certain sterilization capability and an effect of generating negative oxygen ions. The positive and negative ion groups generated by the diatomite powder are floated in the air and meet with allergic substances and other harmful substances such as bacteria, mould, formaldehyde and the like, and can be immediately surrounded and isolated. Then, the hydroxyl ions with the most active performance in the positive and negative ion groups and the harmful substances carry out violent chemical reaction, and finally, the hydroxyl ions and the harmful substances are thoroughly decomposed into harmless substances such as water molecules and the like;

(3) the home decoration coating prepared by the invention has synergistic effect among the components, the diatomite powder and the bentonite can efficiently absorb formaldehyde and moisture in the air, and the formaldehyde is decomposed into harmless CO by negative oxygen ions generated by the hexacyclic ring stone powder or the diatomite powder₂And water, in addition, bentonite, calcium phosphate and other components can lock water in the air or generated by formaldehyde decomposition, the locked water can participate in the diatomite powder to wrap water molecules to form positive and negative ion groups again, so that more negative oxygen ions are generated, and then the water molecules are used as carriers and float in the air to continuously sterilize and decompose formaldehyde;

(4) the home decoration paint prepared by the invention contains nano titanium dioxide, can eliminate peculiar smell and absorb and decompose harmful chemical substances in air for a long time, can keep indoor wall surfaces clean for a long time, and can not cause the wall surfaces to yellow even if smokers at home use.

Detailed Description

The present invention will now be described in further detail with reference to examples.

Example 1

Uniformly mixing 20 parts of diatomite powder, 10 parts of volcanic rock powder, 3 parts of aloe freeze-dried powder, 5 parts of hexacyclic ring stone powder, 8 parts of calcium phosphate, 2 parts of hydroxymethyl cellulose, 10 parts of calcium carbonate, 4 parts of bentonite, 7 parts of sierozem powder and 1 part of nano titanium dioxide, adding the mixture into 24 parts of water, and uniformly stirring to obtain a home coating;

wherein, the particle size of the nano-scale titanium dioxide adopted in the example 1 is 15nm, the fineness of the diatomite powder is 300 meshes, the fineness of the volcanic rock powder is 400 meshes, the pH =4 of the aloe freeze-dried powder, the relative density is 0.98, the fineness of the hexacyclic ring stone powder is 800 meshes, the fineness of the calcium phosphate powder is 600 meshes, the viscosity of the hydroxymethyl cellulose is 20000mPa s, the fineness of the double-flying powder is 800 meshes, the fineness of the bentonite is 300 meshes, and the fineness of the ash calcium powder is 300 meshes.

1kg of the home coating prepared from the raw material according to example 1 was uniformly spread out, sealed for 24 hours, and detected every 1 hour by an AIC-1000 negative oxygen ion detector manufactured by Alphalab, USA, 20 data were taken each time, and the average value of the data was 41323/cm.

Example 2

Uniformly mixing 30 parts of diatomite powder, 30 parts of volcanic rock powder, 10 parts of aloe freeze-dried powder, 15 parts of hexacyclic ring stone powder, 28 parts of calcium phosphate, 9 parts of hydroxymethyl cellulose, 20 parts of calcium carbonate, 15 parts of bentonite, 16 parts of sierozem powder and 2 parts of nano titanium dioxide, adding the mixture into 58 parts of water, and uniformly stirring to obtain a home coating;

wherein, the particle size of the nano-scale titanium dioxide adopted in the example 2 is 20nm, the fineness of the diatomite powder is 400 meshes, the fineness of the volcanic rock powder is 500 meshes, the pH =6 of the aloe freeze-dried powder, the relative density is 1.02, the fineness of the hexacyclic ring stone powder is 1000 meshes, the fineness of the calcium phosphate powder is 800 meshes, the viscosity of the hydroxymethyl cellulose is 30000mPa · s, the fineness of the calcium carbonate powder is 1000 meshes, the fineness of the bentonite is 400 meshes, and the fineness of the ash calcium powder is 400 meshes.

1kg of home decoration coating prepared by using the raw material of example 2 is uniformly spread out, sealed for 24 hours, detected every 1 hour by using an AIC-1000 negative oxygen ion detector manufactured by Alphalab, America, 20 data are taken each time, and the average value of the data is 60143/cm for carrying out cultivation.

Example 3

Uniformly mixing 25 parts of diatomite powder, 15 parts of volcanic rock powder, 6 parts of aloe freeze-dried powder, 10 parts of hexacyclic ring stone powder, 15 parts of calcium phosphate, 5 parts of hydroxymethyl cellulose, 15 parts of calcium carbonate, 10 parts of bentonite, 10 parts of sierozem powder and 2 parts of nano titanium dioxide, adding the mixture into 38 parts of water, and uniformly stirring to obtain a home coating;

wherein, the particle size of the nano-scale titanium dioxide adopted in the embodiment 3 is 15nm, the fineness of the diatomite powder is 300 meshes, the fineness of the volcanic rock powder is 350 meshes, the pH =4 of the aloe freeze-dried powder, the relative density is 0.98, the fineness of the hexacyclic ring stone powder is 800 meshes, the fineness of the calcium phosphate powder is 600 meshes, the viscosity of the hydroxymethyl cellulose is 25000mPa · s, the fineness of the calcium carbonate powder is 800 meshes, the fineness of the bentonite is 300 meshes, and the fineness of the ash calcium powder is 300 meshes.

1kg of home decoration coating prepared by using the raw material in example 3 is uniformly spread out, sealed for 24 hours, detected every 1 hour by using an AIC-1000 negative oxygen ion detector manufactured by Alphalab in America, 20 data are taken each time, and the average value of the data is 53572/cm for carrying out cultivation.

Example 4

Uniformly mixing 20 parts of diatomite powder, 30 parts of volcanic rock powder, 10 parts of aloe freeze-dried powder, 15 parts of hexacyclic ring stone powder, 25 parts of calcium phosphate, 9 parts of hydroxymethyl cellulose, 20 parts of calcium carbonate, 15 parts of bentonite, 16 parts of sierozem powder and 2 parts of nano titanium dioxide, adding the mixture into 65 parts of water, and uniformly stirring to obtain a home coating;

wherein, the particle size of the nano-scale titanium dioxide adopted in the example 4 is 20nm, the fineness of the diatomite powder is 350 meshes, the fineness of the volcanic rock powder is 400 meshes, the pH =4 of the aloe freeze-dried powder, the relative density is 0.98, the fineness of the hexacyclic ring stone powder is 700 meshes, the fineness of the calcium phosphate powder is 600 meshes, the viscosity of the hydroxymethyl cellulose is 20000mPa s, the fineness of the double flying powder is 800 meshes, the fineness of the bentonite is 350 meshes, and the fineness of the ash calcium powder is 300 meshes.

1kg of the home decoration coating prepared by using the raw material in example 4 was uniformly spread out, sealed for 24 hours, detected every 1 hour by an AIC-1000 negative oxygen ion detector manufactured by Alphalab USA, and 20 data were taken each time, so that the average value of the data was 58762/cm for carrying out cultivation.

Comparative example 1

Uniformly mixing 20 parts of diatomite powder, 10 parts of volcanic rock powder, 3 parts of aloe freeze-dried powder, 5 parts of hexacyclic ring stone powder, 2 parts of hydroxymethyl cellulose, 10 parts of calcium carbonate, 4 parts of bentonite, 7 parts of sierozem powder and 1 part of nano titanium dioxide, adding the mixture into 21 parts of water, and uniformly stirring to obtain a home coating;

wherein, the particle size of the nano-scale titanium dioxide adopted in the comparative example 1 is 15nm, the fineness of the diatomite powder is 300 meshes, the fineness of the volcanic rock powder is 400 meshes, the pH =4 of the aloe freeze-dried powder, the relative density is 0.98, the fineness of the hexacyclic ring stone powder is 800 meshes, the viscosity of hydroxymethyl cellulose is 20000mPa s, the fineness of the double flying powder is 800 meshes, the fineness of the bentonite is 300 meshes, and the fineness of the sierozem powder is 300 meshes.

1kg of the home decoration coating prepared by using the raw material according to the comparative example 1 is uniformly spread out, sealed for 24 hours, detected every 1 hour by using an AIC-1000 negative oxygen ion detector produced by Alphalab, America, 20 data are taken every time, and the average value of the data is 40837/cm cultivation.

Comparative example 2

Uniformly mixing 20 parts of diatomite powder, 10 parts of volcanic rock powder, 3 parts of aloe freeze-dried powder, 5 parts of hexacyclic ring stone powder, 8 parts of calcium phosphate, 2 parts of hydroxymethyl cellulose, 10 parts of calcium carbonate powder, 7 parts of ash calcium powder and 1 part of nano titanium dioxide, adding the mixture into 22 parts of water, and uniformly stirring to obtain a home coating;

wherein, the particle size of the nano-scale titanium dioxide adopted in the comparative example 2 is 15nm, the fineness of the diatomite powder is 300 meshes, the fineness of the volcanic rock powder is 400 meshes, the pH =4 of the aloe freeze-dried powder, the relative density is 0.98, the fineness of the hexacyclic ring stone powder is 800 meshes, the fineness of the calcium phosphate powder is 600 meshes, the viscosity of the hydroxymethyl cellulose is 20000mPa s, the fineness of the calcium carbonate powder is 800 meshes, and the fineness of the ash calcium powder is 300 meshes.

Uniformly spreading 1kg of home decoration coating prepared by using the raw material according to the comparative example 2, sealing for 24h, detecting every 1h by using an AIC-1000 negative oxygen ion detector produced by Alphalab, America, and taking 20 data each time to obtain the average value of 40809 data/cm for carrying out cultivation.

Comparative example 3

Uniformly mixing 20 parts of diatomite powder, 10 parts of volcanic rock powder, 3 parts of aloe freeze-dried powder, 5 parts of hexacyclic ring stone powder, 2 parts of hydroxymethyl cellulose, 10 parts of calcium carbonate powder, 7 parts of sierozem powder and 1 part of nano titanium dioxide, adding the mixture into 19 parts of water, and uniformly stirring to obtain a home coating;

wherein, the particle size of the nano-scale titanium dioxide adopted in the comparative example 3 is 15nm, the fineness of the diatomite powder is 300 meshes, the fineness of the volcanic rock powder is 400 meshes, the pH of the aloe freeze-dried powder is =4, the relative density is 0.98, the fineness of the hexacyclic ring stone powder is 800 meshes, the viscosity of hydroxymethyl cellulose is 20000mPa s, the fineness of the double-flying powder is 800 meshes, and the fineness of the sierozem powder is 300 meshes.

Uniformly spreading 1kg of home decoration coating prepared by using the raw material according to the comparative example 3, sealing for 24h, detecting every 1h by using an AIC-1000 negative oxygen ion detector produced by Alphalab, America, and taking 20 data each time to obtain the average value of 36722/cm for carrying out the cultivation.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. The home coating capable of adsorbing and decomposing formaldehyde and releasing negative oxygen ions is characterized by comprising the following components in parts by weight:

coating additive 200-300 parts

80-100 parts of water

The coating additive comprises the following components in parts by weight:

20-30 parts of diatomite powder

10-30 parts of volcanic rock powder

Aloe lyophilized powder 3-10 parts

5-15 parts of hexacyclic ring stone powder

Calcium phosphate powder 8-28 parts

2-9 parts of hydroxymethyl cellulose

10-20 parts of double flying powder

4-15 parts of bentonite

7-16 parts of sierozem powder

1-2 parts of nano titanium dioxide,

the grain diameter of the nano-scale titanium dioxide is 15-20nm,

the mass ratio of the coating additive to the water is 2.5-3: 1.

2. The home coating material of claim 1, which adsorbs and decomposes formaldehyde and releases negative oxygen ions, wherein: the fineness of the diatomite powder is 300-400 meshes.

3. The home coating material of claim 1, which adsorbs and decomposes formaldehyde and releases negative oxygen ions, wherein: the fineness of the volcanic rock powder is 400-500 meshes.

4. The home coating material of claim 1, which adsorbs and decomposes formaldehyde and releases negative oxygen ions, wherein: the aloe freeze-dried powder has pH =4-6 and relative density of 0.98-1.02.

5. The home coating material of claim 1, which adsorbs and decomposes formaldehyde and releases negative oxygen ions, wherein: the fineness of the hexacyclic ring stone powder is 800-1000 meshes.

6. The home coating material of claim 1, which adsorbs and decomposes formaldehyde and releases negative oxygen ions, wherein: the fineness of the calcium phosphate powder is 600-800 meshes.

7. The home coating material of claim 1, which adsorbs and decomposes formaldehyde and releases negative oxygen ions, wherein: the viscosity of the hydroxymethyl cellulose is 20000-30000 mPas.

8. The home coating material of claim 1, which adsorbs and decomposes formaldehyde and releases negative oxygen ions, wherein: the fineness of the double-flying powder is 800-1000 meshes.

9. The home coating material of claim 1, which adsorbs and decomposes formaldehyde and releases negative oxygen ions, wherein: the fineness of the bentonite is 300-400 meshes.

10. The home coating material of claim 1, which adsorbs and decomposes formaldehyde and releases negative oxygen ions, wherein: the fineness of the sierozem powder is 300-400 meshes.