阅读说明：本技术 一种能释放远红外线、生物电、负氧离子液的制作方法 (Method for preparing liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions ) 是由 孙中宝 于 2021-08-18 设计创作，主要内容包括：本发明公开了一种能释放远红外线、生物电、负氧离子液的制作方法,其能释放远红外线、生物电、负氧离子液,包括负离子触发剂、丙二醇、甘油、超微电气石粉、植物提取物、食盐和水,其能释放远红外线、生物电、负氧离子液的制作方法,包括以下步骤,按照重量份数称取预先浮选提纯的电气石,依次用盐水、去离子水多次洗涤后放置真空干燥炉内干燥,干燥后冷至室温后放入超微粉体粉碎机内粉碎至2500-3200目,得超微电气石颗粒备用。本发明主要成分为超微电气石粉,将电气石研磨至纳米级,雾化后附着与液滴表面更大,与空气的接触面积更大,自极化效率更高,负离子诱生能力更强,并释放远红外线,远红外发射率≥0.90,能够净化空气。(The invention discloses a method for preparing liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions, which comprises a negative ion trigger, propylene glycol, glycerol, ultramicro tourmaline powder, a plant extract, salt and water, and the method for preparing the liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions comprises the following steps of weighing tourmaline which is subjected to flotation purification in advance according to parts by weight, washing the tourmaline for multiple times by saline water and deionized water in sequence, drying the tourmaline in a vacuum drying furnace, cooling the tourmaline to room temperature after drying, and crushing the tourmaline into 2500-valent 3200 meshes in an ultramicro powder crusher to obtain ultramicro tourmaline particles for later use. The main component of the invention is ultramicro tourmaline powder, tourmaline is ground to be nano level, the surface of liquid drops attached after atomization is larger, the contact area with air is larger, the self-polarization efficiency is higher, the anion induction capability is stronger, and far infrared rays are released, the far infrared emissivity is more than or equal to 0.90, and the air can be purified.)

1. The liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions is characterized by comprising, by mass, 25.0-32.0 parts of ultramicro tourmaline powder, 1.2-1.5 parts of negative ion triggers, 35.0-40.0 parts of propylene glycol and 12-15 parts of glycerol respectively, 0.5-0.7 part of salt, 0.5-0.8 part of plant extracts and the balance of water.

2. The liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions according to claim 1, wherein the negative ion trigger is prepared by comparing nano titanium dioxide and water according to a ratio of 1: 5.8-6.0.

3. The liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions according to claim 1, wherein the tourmaline powder comprises at least one of oxy-magnesium tourmaline, fluoro-calcium lithium tourmaline, magnesium calcium tourmaline, calcium magnesium tourmaline and oxy-iron tourmaline.

4. The liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions as claimed in claim 1, wherein the plant extract is one or more of extract mixture of peppermint extract, lemon extract and grapefruit extract.

5. The method for preparing the liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions according to claim 1, wherein the method for preparing the liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions is performed according to the following steps:

s1: weighing tourmaline which is subjected to flotation and purification in advance according to the weight parts, washing the tourmaline for multiple times by using saline water and deionized water in sequence, drying the tourmaline for 0.8 to 1.2 hours at the temperature of between 70 and 75 ℃ in a vacuum drying furnace, cooling the tourmaline to room temperature after drying, and crushing the tourmaline into 2500-3200 meshes in an ultramicro powder crusher to obtain ultramicro tourmaline particles for later use;

s2: placing the tourmaline nanoparticles in S1 into a nanometer grinding machine, grinding for the second time until the diameter of the powder particles is 30-60nm, and then placing into a reduction furnace to reduce under 1.5 standard atmospheric pressures for 35-50min to obtain ultramicro tourmaline micropowder for later use;

s3: mixing propylene glycol, glycerol and water according to the parts by weight, adding the ultrafine tourmaline micropowder in S2, uniformly dispersing in a stirrer, comparing water and salt which account for two fifths of the weight of the mixed solution and the ultrafine tourmaline micropowder, then putting into a sprayer, spraying water mist into the stirrer while stirring, uniformly wetting the mixed material in the stirrer, and adding all the residual water to obtain a negative ion mixed solution for later use;

s4: and (4) filtering the negative ion mixed solution prepared in the step (S3) by using a filtering device, collecting filtrate, and then dripping plant extracts according to the mass fraction to enable the negative ion liquid to have aromatic smell, so as to obtain the liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions.

Technical Field

The invention relates to the technical field of atomized liquid, in particular to a preparation method of liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions.

Background

Atomization refers to the operation of dispersing a liquid into tiny droplets through a nozzle or with a high velocity gas stream. The atomized plurality of discrete droplets may trap particulate matter in the gas. The liquid atomization method includes pressure atomization, rotary disc atomization, gas atomization, sound wave atomization and the like. The liquid is converted into small drops by a special device and sprayed out in a mist form.

Many existing atomized liquids are mainly atomized into ultrafine droplets to be dispersed, and can be inhaled or suspended in air to improve air humidity and air dust, but many atomization only atomize water into the droplets alone, and cannot achieve good air quality improvement, such as negative oxygen ion content and the like, so that an atomized liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions by using an electrode method is provided.

Disclosure of Invention

Based on the technical problems in the background art, the invention provides a preparation method of a liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions.

The liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions comprises, by mass, 25.0-32.0 parts of ultramicro tourmaline powder, 1.2-1.5 parts of negative ion trigger, 35.0-40.0 parts of propylene glycol and 12-15 parts of glycerol respectively, 0.5-0.8 part of plant extract and the balance of water.

As a further scheme of the invention, the negative ion trigger is prepared by comparing nano titanium dioxide and water according to the proportion of 1: 5.8-6.0.

As a further aspect of the present invention, the tourmaline powder includes at least one of oxy-magnesium tourmaline, fluoro-calcium lithium tourmaline, magnesium calcium tourmaline, calcium magnesium tourmaline, and oxy-iron tourmaline.

As a further aspect of the present invention, the plant extract may be any one or more of a mint extract, a lemon extract, or a grapefruit extract.

A method for preparing liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions is carried out according to the following steps:

s1: weighing tourmaline which is subjected to flotation and purification in advance according to the weight parts, washing the tourmaline for multiple times by using saline water and deionized water in sequence, drying the tourmaline for 0.8 to 1.2 hours at the temperature of between 70 and 75 ℃ in a vacuum drying furnace, cooling the tourmaline to room temperature after drying, and crushing the tourmaline into 2500-3200 meshes in an ultramicro powder crusher to obtain ultramicro tourmaline particles for later use;

s2: placing the tourmaline nanoparticles in S1 into a nanometer grinding machine, grinding for the second time until the diameter of the powder particles is 30-60nm, and then placing into a reduction furnace to reduce under 1.5 standard atmospheric pressures for 35-50min to obtain ultramicro tourmaline micropowder for later use;

s3: mixing propylene glycol, glycerol and water according to the parts by weight, adding the ultrafine tourmaline micropowder in S2, uniformly dispersing in a stirrer, comparing water and salt which account for two fifths of the weight of the mixed solution and the ultrafine tourmaline micropowder, then putting into a sprayer, spraying water mist into the stirrer while stirring, uniformly wetting the mixed material in the stirrer, and adding all the residual water to obtain a negative ion mixed solution for later use;

s4: and (4) filtering the negative ion mixed solution prepared in the step (S3) by using a filtering device, collecting filtrate, and then dripping plant extracts according to the mass fraction to enable the negative ion liquid to have aromatic smell, so as to obtain the liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions.

The beneficial effects of the invention are as follows:

1. the main components of the atomized liquid are ultramicro tourmaline powder and a negative oxygen ion trigger, tourmaline is ground to be nano-scale, the atomized tourmaline is larger in attachment to the surface of liquid drops, larger in contact area with air, higher in self-polarization efficiency and stronger in negative ion induction capability, and releases far infrared rays, the far infrared emissivity is more than or equal to 0.90, air can be purified, and meanwhile, the negative oxygen ion trigger can effectively decompose organic harmful gases and harmful substances such as bacteria in the air under the action of ultraviolet rays, natural light or fluorescent light and other light rays, degrade pollutants such as formaldehyde, benzene, ammonia, TVOC and the like, so that indoor air is fresh and healthy;

3. propylene glycol, glycerine can stabilize the effect of ultramicro tourmaline powder and negative oxygen ion trigger in preparation and storage, simultaneously when atomizing, can promote the dissolution and the comparison efficiency of atomized liquid, improve the dissolution effect after the atomized liquid is compared, in addition plant extract, multiplicable fragrant taste, for example peppermint, lemon etc. have the effect of refreshing oneself, better cooperation atomized liquid atomizing is used, makes the air quality around promote.

Drawings

FIG. 1 is a liquid formula table of a method for preparing a liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions.

Detailed Description

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

Example 1

Referring to fig. 1, the liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions comprises, by mass, 28.0-30.0 parts of ultramicro tourmaline powder, 1.3-1.4 parts of negative ion trigger, 38 parts of propylene glycol and 14 parts of glycerol respectively, 0.5-0.7 part of salt, 0.6 part of plant extract and the balance of water, the negative ion trigger is prepared by comparing nano titanium dioxide and water according to a ratio of 1:5.8, the ultramicro tourmaline powder is a mixture of at least two of fluoro-calc-magnesium tourmaline, fluoro-calc-lithium tourmaline, magnesium-calcium tourmaline, calcium-magnesium tourmaline and oxy-iron tourmaline, and the plant extract can be a mixture of extracts of mint extract and lemon extract.

Example 2

A liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions comprises a negative ion trigger, propylene glycol, glycerol, ultramicro tourmaline powder, plant extracts, salt and water in parts by mass, wherein the ultramicro tourmaline powder is 29-32 parts, the negative ion trigger is 1.2-1.3 parts, the propylene glycol and the glycerol are respectively 10 parts and 15 parts, the salt is 0.5-0.7 part, the plant extracts are 0.5 part, and the balance is water, the negative ion trigger is formed by comparing nano titanium dioxide and the water according to the ratio of 1:6.0, the ultramicro tourmaline powder is a mixture of at least two of oxy-magnesium tourmaline, fluoro-calcium-lithium tourmaline and oxy-iron tourmaline, and the plant extracts can be extracts of mint and lemon extracts;

example 3

A liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions comprises a negative ion trigger, triethylene glycol, (2-hydroxyl propoxy) -1-propanol, propylene glycol, ultramicro tourmaline powder, additives, salt and water, wherein the total weight of the triethylene glycol, (2-hydroxyl propoxy) -1-propanol and the propylene glycol is 68-72 parts, the weight of the ultramicro tourmaline powder is 25.0 parts, the weight of the salt is 0.5-0.7 part, the salt can be replaced by a potassium agent or used by mixing with the potassium agent, the weight of the plant extract is 0.7 part, the balance is water, the additives can be liquid medicine, plant extracted essential oil or negative ion initiators such as aluminum silicate, ferric silicate, sodium metaaluminate and the like, and the liquid mainly plays an auxiliary role in the internal main components of atomized liquid.

The atomized liquid formulations of examples 1 to 3 can be prepared by the following preparation methods, wherein one preparation method of the liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions comprises the following steps:

s1: weighing tourmaline which is subjected to flotation and purification in advance according to the weight parts, washing the tourmaline for multiple times by using saline water and deionized water in sequence, drying the tourmaline for 0.8 to 1.2 hours at the temperature of between 70 and 75 ℃ in a vacuum drying furnace, cooling the tourmaline to room temperature after drying, and crushing the tourmaline into 2500-3200 meshes in an ultramicro powder crusher to obtain ultramicro tourmaline particles for later use;

s2: placing the tourmaline nanoparticles in S1 into a nanometer grinding machine, grinding for the second time until the diameter of the powder particles is 30-60nm, and then placing into a reduction furnace to reduce under 1.5 standard atmospheric pressures for 35-50min to obtain ultramicro tourmaline micropowder for later use;

s3: mixing propylene glycol, glycerol and water according to the parts by weight, adding the ultrafine tourmaline micropowder in S2, uniformly dispersing in a stirrer, comparing water and salt which account for two fifths of the weight of the mixed solution and the ultrafine tourmaline micropowder, then putting into a sprayer, spraying water mist into the stirrer while stirring, uniformly wetting the mixed material in the stirrer, and adding all the residual water to obtain a negative ion mixed solution for later use;

s4: and (4) filtering the negative ion mixed solution prepared in the step (S3) by using a filtering device, collecting filtrate, and then dripping plant extracts according to the mass fraction to enable the negative ion liquid to have aromatic smell, so as to obtain the liquid capable of releasing far infrared rays, bioelectricity and negative oxygen ions.

All the atomized liquids in the embodiments 1 to 3 are subjected to micro-nano ultrasonic atomization, so that the atomized liquids are dispersed into micro-nano atomized liquids, the generation of sodium ions, potassium ions and the like in the micro-nano atomized liquids can improve the generation probability of bioelectricity, the atomized liquids can improve liquid drop substances in air to release infrared rays, bioelectricity and negative oxygen ions, and the air quality is effectively improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.