CN114561148A - Negative oxygen ion coating and production process thereof - Google Patents

Abstract

The invention discloses a negative oxygen ion coating, which comprises the following components: 2-8 parts of pine needle extract, 2-8 parts of cactus extract, 2-8 parts of tea extract, 5-12 parts of silane coupling agent, 10-20 parts of water and 3-10 parts of nano tourmaline powder. The nano tourmaline powder contained in the invention can permanently release negative oxygen ions in the air, and can effectively improve the indoor air quality; because the contained pine needle extract, cactus extract and tea extract contain flavonoid and the like, the biological active substances can be continuously released, thereby realizing the functions of sterilization, disinfection, peculiar smell removal, refreshing and consciousness restoration and the like. According to the paint production process, due to the adoption of the stirring and ultrasonic emulsification modes and the combination of optimized process steps, the emulsion with uniform emulsification and good stability can be obtained to be used as the paint, the painting performance of the paint is good, and the paint is not easy to crack, fall off and the like.

Description

Negative oxygen ion coating and production process thereof

Technical Field

The invention relates to the technical field of green environmental protection, in particular to the technical field of production of an environmental-friendly coating, and especially relates to an oxygen anion coating and a production process thereof.

Background

In daily life, ubiquitous air pollution and indoor decoration pollution are at a little harmful to the health of people, so people have strong desire for high-quality air, and more people try to adopt various ways to improve the living environment of the people.

Because the negative oxygen ions can effectively decompose formaldehyde, the formaldehyde purification efficiency is more than or equal to 95 percent (more than 20000 < + >), the toluene purification efficiency is more than or equal to 70 percent, the VOC purification efficiency is more than or equal to 50 percent, the antibacterial disinfection function is more than or equal to 98 percent (at 20000 concentration), and the smoke and the second-hand smoke can be quickly decomposed (the smoke purification time is less than ten minutes), so that the environment-friendly air conditioner is a saving star for improving indoor pollution.

Therefore, a negative oxygen ion coating and a production process thereof are developed.

Disclosure of Invention

In order to solve the technical problems, the invention provides an oxygen anion coating, which comprises the following components: 2-8 parts of pine needle extract, 2-8 parts of cactus extract, 2-8 parts of tea extract, 5-12 parts of silane coupling agent, 10-20 parts of water and 3-10 parts of nano tourmaline powder.

Wherein, the silane coupling agent is one or a combination of more of vinyltriethoxysilane, vinyltrimethoxysilane and vinyltris (beta-methoxyethoxy) silane.

Wherein the particle size of the nano tourmaline powder is 10-200 nm.

The invention also provides a production process of the negative oxygen ion coating, which comprises the following steps:

s1, firstly, manually premixing a certain weight part of water and the nanometer tourmaline powder for later use, and simultaneously, manually premixing a certain weight part of pine needle extract, cactus extract and tea extract for later use;

s2, adding the rest of water in parts by weight into a stirring tank, and starting high-speed stirring;

s3, based on the step S2, adding the silane coupling agent in parts by weight into a stirring tank under a high-speed stirring state, and matching ultrasonic waves to realize uniform mixing and emulsification of the silane coupling agent and water;

s4, based on the step S3, adding the mixed solution of the nano tourmaline powder and the water premixed in the step S1 into a stirring tank, and obtaining an emulsion under the action of high-speed stirring and ultrasound;

s5, based on the step S4, adding the pine needle extract, the cactus extract and the tea extract premixed in the step S1 into a stirring tank, and obtaining the uniformly emulsified negative oxygen ion coating under the action of high-speed stirring and ultrasound.

Wherein, in step S2, the stirring speed is 200-2000 rpm, and the stirring and mixing are performed at normal temperature.

Through the technical scheme, the invention has the following beneficial effects:

1. the coating of the invention can effectively improve the indoor air quality after using the coating because the contained nano tourmaline powder is a polar crystal with a special structure, can generate electric ions for a long time and permanently release air negative oxygen ions, and the negative oxygen ions can effectively decompose pollutants such as formaldehyde and the like;

2. because the pine needle extract, the cactus extract and the tea extract contain a plurality of bioactive substances such as flavonoids and the like, the bioactive substances can be continuously released after the paint is used, so that the functions of sterilization, disinfection, peculiar smell removal, refreshing and the like are realized;

3. according to the paint production process, due to the adoption of the stirring and ultrasonic emulsification modes and the combination of optimized process steps, the emulsion with uniform emulsification and good stability can be obtained to be used as the paint, and the paint has good brushing performance and is not easy to crack, fall off and the like.

Detailed Description

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

Example 1:

the negative oxygen ion coating provided by the embodiment 1 comprises the following components: 2 parts by weight of pine needle extract, 5 parts by weight of cactus extract, 5 parts by weight of tea extract, 8 parts by weight of vinyltriethoxysilane, 15 parts by weight of water and 7 parts by weight of nano tourmaline powder with the particle size of 200 nm.

The production process of the negative oxygen ion coating provided in this embodiment 1 includes the following steps:

s1, firstly, manually premixing a certain weight part of water and the nanometer tourmaline powder for later use, and simultaneously, manually premixing a certain weight part of pine needle extract, cactus extract and tea extract for later use;

s2, adding the rest of water in parts by weight into a stirring tank, and starting high-speed stirring at a stirring speed of 1800 revolutions per hour;

s3, based on the step S2, adding the silane coupling agent in parts by weight into a stirring tank under a high-speed stirring state, and matching ultrasonic waves to realize uniform mixing and emulsification of the silane coupling agent and water at normal temperature;

s4, based on the step S3, adding the mixed solution of the nano tourmaline powder and the water premixed in the step S1 into a stirring tank, and obtaining an emulsion under the action of high-speed stirring and ultrasound;

s5, based on the step S4, adding the pine needle extract, the cactus extract and the tea extract premixed in the step S1 into a stirring tank, and obtaining the uniformly emulsified negative oxygen ion coating under the action of high-speed stirring and ultrasound.

Example 2:

the negative oxygen ion coating provided by the embodiment 2 comprises the following components: 5 parts by weight of pine needle extract, 8 parts by weight of cactus extract, 2 parts by weight of tea extract, 12 parts by weight of vinyl trimethoxy silane, 10 parts by weight of water and 10 parts by weight of nano tourmaline powder with the particle size of 10 nm.

The production process of the negative oxygen ion coating provided in this embodiment 2 includes the following steps:

s1, firstly, removing a certain weight of water and manually premixing the water and the nano tourmaline powder for later use, and simultaneously, manually premixing the pine needle extract, the cactus extract and the tea extract for later use;

s2, adding the rest of water in parts by weight into a stirring tank, and starting high-speed stirring at the stirring speed of 1000 revolutions per hour;

s3, based on the step S2, adding the silane coupling agent in parts by weight into a stirring tank under a high-speed stirring state, and matching ultrasonic waves to realize uniform mixing and emulsification of the silane coupling agent and water at normal temperature;

s4, based on the step S3, adding the mixed solution of the nano tourmaline powder and the water premixed in the step S1 into a stirring tank, and obtaining an emulsion under the action of high-speed stirring and ultrasound;

s5, based on the step S4, adding the pine needle extract, the cactus extract and the tea extract premixed in the step S1 into a stirring tank, and obtaining the uniformly emulsified negative oxygen ion coating under the action of high-speed stirring and ultrasound.

Example 3:

the negative oxygen ion coating provided by the embodiment 3 comprises the following components: 8 parts of pine needle extract, 2 parts of cactus extract, 5 parts of tea extract, 7 parts of vinyltrimethoxysilane and vinyltris (beta-methoxyethoxy) silane, 20 parts of water and 3 parts of nano tourmaline powder with the particle size of 10 nm.

The production process of the negative oxygen ion coating provided in this embodiment 3 includes the following steps:

s1, firstly, removing a certain weight of water and manually premixing the water and the nano tourmaline powder for later use, and simultaneously, manually premixing the pine needle extract, the cactus extract and the tea extract for later use;

s2, adding the rest of water in parts by weight into a stirring tank, and starting high-speed stirring at a stirring speed of 2000 revolutions per hour;

s3, based on the step S2, adding the silane coupling agent in parts by weight into a stirring tank under a high-speed stirring state, and matching ultrasonic waves to realize uniform mixing and emulsification of the silane coupling agent and water at normal temperature;

s4, based on the step S3, adding the mixed solution of the nano tourmaline powder and the water premixed in the step S1 into a stirring tank, and obtaining an emulsion under the action of high-speed stirring and ultrasound;

s5, based on the step S4, adding the pine needle extract, the cactus extract and the tea extract premixed in the step S1 into a stirring tank, and obtaining the uniformly emulsified negative oxygen ion coating under the action of high-speed stirring and ultrasound.

Example 4:

the negative oxygen ion coating provided by the embodiment 4 comprises the following components: 5 parts of pine needle extract, 5 parts of cactus extract, 5 parts of tea extract, 8 parts of vinyl tri (beta-methoxyethoxy) silane, 10 parts of water and 10 parts of nano tourmaline powder with the particle size of 50 nm.

The production process of the negative oxygen ion coating provided in this embodiment 4 includes the following steps:

s1, firstly, removing a certain weight of water and manually premixing the water and the nano tourmaline powder for later use, and simultaneously, manually premixing the pine needle extract, the cactus extract and the tea extract for later use;

s2, adding the rest of water in parts by weight into a stirring tank, and starting high-speed stirring at a stirring speed of 800 revolutions per hour;

s3, based on the step S2, adding the silane coupling agent in parts by weight into a stirring tank under a high-speed stirring state, and matching ultrasonic waves to realize uniform mixing and emulsification of the silane coupling agent and water at normal temperature;

s4, based on the step S3, adding the mixed solution of the nano tourmaline powder and the water premixed in the step S1 into a stirring tank, and obtaining an emulsion under the action of high-speed stirring and ultrasound;

s5, based on the step S4, adding the pine needle extract, the cactus extract and the tea extract premixed in the step S1 into a stirring tank, and obtaining the uniformly emulsified negative oxygen ion coating under the action of high-speed stirring and ultrasound.

Example 5:

the negative oxygen ion coating provided by the embodiment 5 comprises the following components: 2 parts by weight of pine needle extract, 8 parts by weight of cactus extract, 8 parts by weight of tea extract, 5 parts by weight of vinyltriethoxysilane + vinyltris (beta-methoxyethoxy) silane mixture, 10 parts by weight of water, and 3 parts by weight of nano tourmaline powder with the particle size of 150 nm.

The production process of the negative oxygen ion coating provided in this embodiment 5 includes the following steps:

s1, firstly, removing a certain weight of water and manually premixing the water and the nano tourmaline powder for later use, and simultaneously, manually premixing the pine needle extract, the cactus extract and the tea extract for later use;

s2, adding the rest of water in parts by weight into a stirring tank, and starting high-speed stirring at the stirring speed of 1000 revolutions per hour;

s3, based on the step S2, adding the silane coupling agent in parts by weight into a stirring tank under a high-speed stirring state, and matching ultrasonic waves to realize uniform mixing and emulsification of the silane coupling agent and water at normal temperature;

s4, based on the step S3, adding the mixed solution of the nano tourmaline powder and the water premixed in the step S1 into a stirring tank, and obtaining an emulsion under the action of high-speed stirring and ultrasound;

s5, based on the step S4, adding the pine needle extract, the cactus extract and the tea extract premixed in the step S1 into a stirring tank, and obtaining the uniformly emulsified negative oxygen ion coating under the action of high-speed stirring and ultrasound.

Example 6:

the negative oxygen ion coating provided by the embodiment 6 comprises the following components: 8 parts of pine needle extract, 8 parts of cactus extract, 8 parts of tea extract, 12 parts of a mixture of vinyltriethoxysilane, vinyltrimethoxysilane and vinyltris (beta-methoxyethoxy) silane, 10 parts of water and 10 parts of nano tourmaline powder with the particle size of 20 nm.

The production process of the negative oxygen ion coating provided in this embodiment 6 includes the following steps:

s1, firstly, removing a certain weight of water and manually premixing the water and the nano tourmaline powder for later use, and simultaneously, manually premixing the pine needle extract, the cactus extract and the tea extract for later use;

s2, adding the rest of water in parts by weight into a stirring tank, and starting high-speed stirring at a stirring speed of 1500 revolutions per hour;

s3, based on the step S2, adding the silane coupling agent in parts by weight into a stirring tank under a high-speed stirring state, and matching ultrasonic waves to realize uniform mixing and emulsification of the silane coupling agent and water at normal temperature;

s4, based on the step S3, adding the mixed solution of the nano tourmaline powder and the water premixed in the step S1 into a stirring tank, and obtaining an emulsion under the action of high-speed stirring and ultrasound;

s5, based on the step S4, adding the pine needle extract, the cactus extract and the tea extract premixed in the step S1 into a stirring tank, and obtaining the uniformly emulsified negative oxygen ion coating under the action of high-speed stirring and ultrasound.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to the above-described embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. The negative oxygen ion coating is characterized by comprising the following components: 2-8 parts of pine needle extract, 2-8 parts of cactus extract, 2-8 parts of tea extract, 5-12 parts of silane coupling agent, 10-20 parts of water and 3-10 parts of nano tourmaline powder.

2. The negative oxygen ion coating of claim 1, wherein the silane coupling agent is one or more of vinyltriethoxysilane, vinyltrimethoxysilane, and vinyltris (β -methoxyethoxy) silane.

3. The negative oxygen ion coating of claim 1, wherein the particle size of the nano tourmaline powder is 10-200 nm.

4. The production process of the negative oxygen ion coating of claim 1, characterized by comprising the following steps:

s1, firstly, manually premixing a certain weight part of water and the nanometer tourmaline powder for later use, and simultaneously, manually premixing the pine needle extract, the cactus extract and the tea extract for later use;

s2, adding the rest of water in parts by weight into a stirring tank, and starting high-speed stirring;

s3, based on the step S2, adding the silane coupling agent in parts by weight into a stirring tank under a high-speed stirring state, and matching ultrasonic waves to realize uniform mixing and emulsification of the silane coupling agent and water;

s4, based on the step S3, adding the mixed solution of the nano tourmaline powder and the water premixed in the step S1 into a stirring tank, and obtaining an emulsion under the action of high-speed stirring and ultrasound;

s5, based on the step S4, adding the pine needle extract, the cactus extract and the tea extract premixed in the step S1 into a stirring tank, and obtaining the uniformly emulsified negative oxygen ion coating under the action of high-speed stirring and ultrasound.

5. The production process as claimed in claim 4, wherein in step S2, the stirring rate is 200-2000 rpm, and the stirring and mixing are performed at normal temperature.