CN107468567B - Far infrared ion water - Google Patents

Abstract

The invention belongs to the technical field of cosmetics, and relates to far infrared ionized water. The invention comprises anion water and rose water, and the preparation method comprises the following steps: taking 99 parts of negative ion material and 1 part of emulsifier by mass, adding 800 parts of distilled water, stirring at constant temperature of 40-50 ℃ and at the speed of 2000-2500rpm for 90min to obtain a negative ion water mixed solution, taking 100 parts of rose water by mass, adding the rose water into the mixed solution, stirring at normal temperature for 10-15min to fully fuse the mixture, standing for more than 24 h, and filtering to remove residues to obtain the far infrared ion water. The invention has the effects of oxidation resistance, moisture retention, bacteriostasis, negative ion release and the like.

Description

Far infrared ion water

Technical Field

The invention belongs to the technical field of cosmetics, and relates to far infrared ionized water.

Background

At present, a lot of moisturizing and skin-protecting astringent are available on the market, and some products are prepared by adopting natural substances. However, various lotions on the market have many problems. Firstly, various artificial components or chemical synthetic components are added into the toning lotion, so that the product can stimulate the skin; secondly, the effect is not good enough, a plurality of toning lotions on the market have single functions, and a plurality of functions are provided in propaganda, but only the water replenishing and moisturizing functions are provided actually, and the moisturizing time is not lasting; and thirdly, the market of the lotion is disordered, the propaganda of various products is exaggerated too much, so that the consumers cannot distinguish the advantages and the disadvantages, and the products with low efficiency are often bought at a high price and cannot achieve the effect expected by the consumers.

Disclosure of Invention

The invention aims to solve the problems and provide far infrared ionized water.

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

a far infrared ion water comprises anion water and flos Rosae Rugosae water.

In the far infrared ionized water, the preparation method of the far infrared ionized water comprises the following steps:

taking 99 parts of anion material and 1 part of emulsifier according to the mass parts, adding 800 parts of distilled water, stirring for 90min at the constant temperature of 40-50 ℃ and the constant temperature of 2000-2500rpm to obtain anion water mixed solution,

adding 100 parts by weight of rose water into the mixed solution, stirring at normal temperature for 10-15min to fully fuse the mixture,

standing for more than 24 hours, and filtering and removing slag to obtain the far infrared ionized water.

In the far infrared ion water, 99 parts of anion material and 1 part of emulsifier are taken according to the mass parts, 800 parts of distilled water is added, the mixture is stirred for 90min at the constant temperature of 40-50 ℃, 2000 and 2500rpm, the mixture is kept stand and layered, solids are filtered to obtain the anion water,

100 parts of rose water is taken according to the mass part and added into the anion water, and the mixture is stirred for 10-15min at normal temperature to be fully fused to obtain the far infrared ion water.

In the far infrared ion water, the emulsifier is a nonionic surfactant.

In the far infrared ionized water, the emulsifier comprises one or more of alkylolamide, polyhydric alcohol and alkylphenol polyoxyethylene.

In the far infrared ion water, the preparation method of the negative ion material comprises the following steps:

the gull rock, the tourmaline, the opal, the medical stone and the hexacyclic stone are respectively ground by a nano grinder until the grain diameter is between 100 plus 200 nanometers, and then 35 wt% of gull rock nano powder, 25 wt% of tourmaline nano powder, 20 wt% of opal nano powder, 10 wt% of medical stone nano powder and 10 wt% of hexacyclic stone nano powder are stirred for 30 minutes at normal temperature and 800rpm to prepare the negative ion material.

In the far infrared ion water, the preparation method of the rose water comprises the following steps:

picking fresh roses, putting the fresh roses into a distiller, adding 10 wt% of salt according to the weight of the fresh flowers, adding distilled water which is 10 times of the weight of the fresh flowers, distilling for 6-10 hours, condensing the distillate, then putting the distillate into an oil-water separator, standing for layering, and separating essential oil to obtain the rose water.

In the far infrared ion water, the rose water contains 0.02-0.03 wt% of rose essential oil, 0.02-0.03 wt% of cyclic peptide and 0.02-0.03 wt% of tannin.

A far infrared ion water comprises anion water and flos Rosae Rugosae water.

In the far infrared ion water, 99 parts of anion material and 1 part of emulsifier are taken according to the mass parts, 800 parts of distilled water is added, the mixture is stirred for 90min at the constant temperature of 40-50 ℃, 2000 and 2500rpm, the mixture is kept stand and layered, solids are filtered to obtain the anion water,

taking 100 parts by weight of rose water, adding into the anion water, stirring at normal temperature for 10-15min to obtain far infrared ion water,

the preparation method of the rose water comprises the following steps:

picking fresh roses, putting the fresh roses into a distiller, adding 10 wt% of salt according to the weight of the fresh roses, adding distilled water which is 10 times of the weight of the fresh roses, distilling for 9 hours, condensing the distillate, then putting the distillate into an oil-water separator, standing and layering the distillate, separating essential oil to obtain rose water, the rose water and important byproducts after extracting the rose essential oil, and the rose water has the effects of sterilizing, retaining fragrance, promoting skin blood circulation, promoting metabolism, replenishing water, preserving moisture, moistening and preventing wrinkles and keeping the skin tender and glossy,

the preparation method of the negative ion material comprises the following steps:

the gull rock, the tourmaline, the opal, the medical stone and the hexacyclic stone are respectively ground by a nano grinder until the grain diameter is between 100 plus 200 nanometers, and then 35 wt% of gull rock nano powder, 25 wt% of tourmaline nano powder, 20 wt% of opal nano powder, 10 wt% of medical stone nano powder and 10 wt% of hexacyclic stone nano powder are stirred for 30 minutes at normal temperature and 800rpm to prepare the negative ion material.

Gull stone, english name: health. The main components are CaO and SiO₂And a valence-variable metal Fe; the internal structure has pores of 20-60nm, so that the adsorption material has a strong adsorption function; when water molecules in the air enter the micropores in the gull rock, the water molecules are ionized by a micro electric field generated by the valence-changeable iron to generate natural negative ions, and the concentration of the negative oxygen ions reaches 1700/cm³While the gull rock contains a small amount of TiO₂So that it possesses photoelectrocatalysis action, and can kill harmful bacteria and virus in the air, according to the experiment, gull rock can be used for killing staphylococcus aureus, colibacillus and whiteThe antibacterial rate of the candida and the bacillus subtilis is up to more than 90 percent.

Tourmaline is a natural ore, also called tourmaline, which can release far infrared rays and negative ions, contains various trace elements, can generate 0.06ma bioelectric current, can improve the water quality, is water with alkalescent small molecular groups and is most suitable for people to drink. The water is alkalescent, has antioxidant effect, and is beneficial to human health.

Opals, also called Oupo and opals, belong to the opal group of amorphous materials. The opal has a unique natural nano-scale microporous structure, has a strong adsorption function, and releases natural air anions.

Maifanite, name of traditional Chinese medicine. The name of the study is: quartz dilongite. The medical stone is a compound mineral or medicinal rock which is nontoxic and harmless to organisms and has certain bioactivity. Has effects in removing toxic materials, dispersing pathogen accumulation, removing necrotic tissue, promoting granulation, dispelling cold, eliminating dampness, benefiting liver, invigorating stomach, promoting blood circulation, dispelling blood stasis, inducing diuresis, removing calculus, and prolonging life.

Liuhuan stone is produced in Orotao (2 hundred million and 4 million years). Has clean structure, can emit far infrared ray naturally, has normal emissivity as high as 0.88, and has unique bioelectricity function. The six-ring rock is ancient sedimentary rock with strong adsorptivity, electromagnetic wave resistance, chemotherapy resistance, tumor resistance and AIDS virus resistance, is rich in calcium, magnesium, sodium, potassium, iron, selenium, zinc, strontium, copper, noble metal germanium and other nutrient elements necessary for human bodies, and can permanently release negative ions.

Compared with the prior art, the invention has the advantages that:

1. the far infrared ionized water contains rose water with the functions of moisturizing and contains negative ion materials with the functions of sterilization, bacteriostasis, antioxidation and 4-16um far infrared ray release, each part of functional components are dissolved together under the action of an emulsifier to form a stable homogeneous phase, the functions of each component are fully exerted, and the far infrared ionized water has the effects of antioxidation, moisturizing, bacteriostasis, negative ion release and the like.

2. The emulsifier adopts nonionic surfactant, which not only plays the role of emulsifier, but also reduces the viscosity of the mixed solution.

3. The product has simple preparation process and low cost.

Detailed Description

The reagents used in the following examples, unless otherwise specified, were purchased from conventional biochemical reagent stores.

Example 1

A far infrared ion water comprises anion water and flos Rosae Rugosae water

Taking 99 parts of negative ion material and 1 part of emulsifier according to the mass parts, adding 800 parts of distilled water, stirring at constant temperature of 40-50 ℃ and 2000rpm for 90min to obtain a negative ion water mixed solution, taking 100 parts of rose water according to the mass parts, adding the rose water into the mixed solution, stirring at normal temperature for 15min to fully fuse the mixture, standing for 24 h, and filtering to remove residues to obtain the far infrared ion water.

The emulsifier is nonionic surfactant, and comprises one or more of alkylolamide, polyalcohol and alkylphenol polyoxyethylene. In this example, the nonionic surfactant is 6501.

The preparation method of the negative ion material comprises the following steps:

the gull rock, the tourmaline, the opal, the medical stone and the hexacyclic stone are respectively ground by a nano grinder until the grain diameter is between 100 plus 200 nanometers, and then 35 wt% of gull rock nano powder, 25 wt% of tourmaline nano powder, 20 wt% of opal nano powder, 10 wt% of medical stone nano powder and 10 wt% of hexacyclic stone nano powder are stirred for 30 minutes at normal temperature and 800rpm to prepare the negative ion material.

The preparation method of the rose water comprises the following steps:

picking fresh roses, putting the fresh roses into a distiller, adding 10 wt% of salt according to the weight of the fresh flowers, adding distilled water which is 10 times of the weight of the fresh flowers, distilling for 6-10 hours, condensing the distillate, then putting the distillate into an oil-water separator, standing for layering, and separating essential oil to obtain the rose water. The rose water contains 0.02-0.03 wt% of rose essential oil, 0.02-0.03 wt% of cyclic peptide and 0.02-0.03 wt% of tannin.

Example 2

A far infrared ion water comprises anion water and flos Rosae Rugosae water

Taking 99 parts of negative ion material and 1 part of emulsifier according to the mass parts, adding 800 parts of distilled water, stirring at constant temperature of 45 ℃ and 2500rpm for 90min to obtain negative ion water mixed solution, taking 100 parts of rose water according to the mass parts, adding the rose water into the mixed solution, stirring at normal temperature for 10min to fully fuse the mixture, standing for 26 h, and filtering to remove residues to obtain far infrared ion water.

The emulsifier is nonionic surfactant, and comprises one or more of alkylolamide, polyalcohol and alkylphenol polyoxyethylene. In this example, the nonionic surfactant is peregal O.

The preparation method of the negative ion material comprises the following steps:

the gull rock, the tourmaline, the opal, the medical stone and the hexacyclic stone are respectively ground by a nano grinder until the grain diameter is between 100 plus 200 nanometers, and then 35 wt% of gull rock nano powder, 25 wt% of tourmaline nano powder, 20 wt% of opal nano powder, 10 wt% of medical stone nano powder and 10 wt% of hexacyclic stone nano powder are stirred for 30 minutes at normal temperature and 800rpm to prepare the negative ion material.

The preparation method of the rose water comprises the following steps:

picking fresh roses, putting the fresh roses into a distiller, adding 10 wt% of salt according to the weight of the fresh flowers, adding distilled water which is 10 times of the weight of the fresh flowers, distilling for 8 hours, condensing distillate, then putting the distillate into an oil-water separator, standing for layering, and separating essential oil to obtain rose water. The rose water contains 0.025 wt% rose essential oil, 0.025 wt% cyclic peptide and 0.025 wt% tannin.

Example 3

A far infrared ion water comprises anion water and flos Rosae Rugosae water.

Taking 99 parts of negative ion material and 1 part of emulsifier according to the mass parts, adding 800 parts of distilled water, stirring for 90min at the constant temperature of 40-50 ℃ and the constant temperature of 2000-2500rpm, standing for layering, filtering out solids to obtain negative ion water, taking 100 parts of rose water according to the mass parts, adding the rose water into the negative ion water, and stirring for 10-15min at normal temperature to fully fuse to obtain the far infrared ion water.

The preparation method of the rose water comprises the following steps:

picking fresh rose, putting into a distiller, adding 10 wt% of salt according to the weight of fresh flower, adding distilled water 10 times of the weight of fresh flower, distilling for 9 hr, condensing the distillate, standing in an oil-water separator for layering, separating essential oil to obtain rose water,

the preparation method of the negative ion material comprises the following steps:

the gull rock, the tourmaline, the opal, the medical stone and the hexacyclic stone are respectively ground by a nano grinder until the grain diameter is between 100 plus 200 nanometers, and then 35 wt% of gull rock nano powder, 25 wt% of tourmaline nano powder, 20 wt% of opal nano powder, 10 wt% of medical stone nano powder and 10 wt% of hexacyclic stone nano powder are stirred for 30 minutes at normal temperature and 800rpm to prepare the negative ion material.

In this example, the emulsifier is a nonionic surfactant Span-20.

Example 4

A far infrared ion water comprises anion water and flos Rosae Rugosae water.

The preparation method of the far infrared ionized water comprises the following steps:

taking 99 parts of negative ion material and 1 part of emulsifier by mass, adding 800 parts of distilled water, stirring at constant temperature of 40-50 ℃ and at the speed of 2000-2500rpm for 90min to obtain a negative ion water mixed solution, taking 100 parts of rose water by mass, adding the rose water into the mixed solution, stirring at normal temperature for 10-15min to fully fuse the mixture, standing for more than 24 h, standing for 25 h in the embodiment, and filtering to remove residues to obtain the far infrared ion water.

The emulsifier is nonionic surfactant, and comprises one or more of alkylolamide, polyalcohol and alkylphenol polyoxyethylene. In this example, the nonionic surfactant is peregal O.

The preparation method of the negative ion material comprises the following steps:

the gull rock, the tourmaline, the opal, the medical stone and the hexacyclic stone are respectively ground by a nano grinder until the grain diameter is between 100 plus 200 nanometers, and then 35 wt% of gull rock nano powder, 25 wt% of tourmaline nano powder, 20 wt% of opal nano powder, 10 wt% of medical stone nano powder and 10 wt% of hexacyclic stone nano powder are stirred for 30 minutes at normal temperature and 800rpm to prepare the negative ion material.

The preparation method of the rose water comprises the following steps:

picking fresh roses, putting the fresh roses into a distiller, adding 10 wt% of salt according to the weight of the fresh flowers, adding distilled water which is 10 times of the weight of the fresh flowers, distilling for 8 hours, condensing distillate, then putting the distillate into an oil-water separator, standing for layering, and separating essential oil to obtain rose water. The rose water contains 0.025 wt% rose essential oil, 0.025 wt% cyclic peptide and 0.025 wt% tannin.

Comparative example 1

Taking 99 parts of negative ion material and 1 part of emulsifier according to the mass parts, adding 800 parts of distilled water, stirring at constant temperature of 40-50 ℃ and 2000rpm for 90min to obtain a negative ion water mixed solution, taking 100 parts of lavender flower water according to the mass parts, adding into the mixed solution, stirring at normal temperature for 15min to enable the mixture to be fully fused, standing for 24 h, and filtering to remove residues to obtain the far infrared ion water.

The emulsifier is 6501.

The preparation method of the negative ion material comprises the following steps:

the gull rock, the tourmaline, the opal, the medical stone and the hexacyclic stone are respectively ground by a nano grinder until the grain diameter is between 100 plus 200 nanometers, and then 35 wt% of gull rock nano powder, 25 wt% of tourmaline nano powder, 20 wt% of opal nano powder, 10 wt% of medical stone nano powder and 10 wt% of hexacyclic stone nano powder are stirred for 30 minutes at normal temperature and 800rpm to prepare the negative ion material.

The preparation method of the lavender flower water comprises the following steps:

picking fresh lavender flowers, putting the picked fresh lavender flowers into a distiller, adding 10 wt% of salt according to the weight of the fresh flowers, adding distilled water which is 10 times of the weight of the fresh flowers, distilling for 6-10 hours, condensing distillate, then putting the condensate into an oil-water separator, standing for layering, and separating essential oil to obtain lavender flower water.

Comparative example 2

Taking 99 parts of negative ion material and 1 part of emulsifier according to the mass parts, adding 800 parts of distilled water, stirring at constant temperature of 40-50 ℃ and 2000rpm for 90min to obtain a negative ion water mixed solution, taking 100 parts of chamomile flower water according to the mass parts, adding the chamomile flower water into the mixed solution, stirring at normal temperature for 15min to fully fuse the mixture, standing for 24 h, and filtering to remove residues to obtain the far infrared ion water.

The emulsifier is 6501.

The preparation method of the negative ion material comprises the following steps:

the gull rock, the tourmaline, the opal, the medical stone and the hexacyclic stone are respectively ground by a nano grinder until the grain diameter is between 100 plus 200 nanometers, and then 35 wt% of gull rock nano powder, 25 wt% of tourmaline nano powder, 20 wt% of opal nano powder, 10 wt% of medical stone nano powder and 10 wt% of hexacyclic stone nano powder are stirred for 30 minutes at normal temperature and 800rpm to prepare the negative ion material.

The preparation method of the chamomile flower water comprises the following steps:

picking fresh chamomile flowers, putting the picked fresh chamomile flowers into a distiller, adding 10 wt% of salt according to the weight of the fresh flowers, adding distilled water which is 10 times of the weight of the fresh flowers, distilling for 6-10 hours, condensing the distillate, then putting the distillate into an oil-water separator, standing for layering, and separating essential oil to obtain chamomile flower water.

Analysis of results

And (5) stability inspection.

Stability examination of the far infrared ionized water of examples 1 to 4 gave the following results.

It was shown that the far infrared ionized water of examples 1 to 4 meets the stability requirement.

And (5) inspecting the water loss rate.

Examples 1 to 4, comparative examples 1 to 2, deionized water and 1 wt% glycerin were tested using the world recognized CORNEOMETER (skin tester) -capacitance method. The result is expressed by a set humidity measurement value (abbreviated as MMV). The MMV is a number from 0 to 150.

Test items	2h (Water loss%)	4h (Water loss%)	6h (Water loss%)	8h (water loss%)
					Deionized water	14	11	7	6.5
Glycerol	10	7.5	4.5	4
					Example 1	4.5	4	3.6	3.2
Example 2	4.5	4.1	3.6	3.3
					Example 3	4.5	4	3.7	3.3
Example 4	4.4	4	3.5	3.1
					Comparative example 1	5.5	5	4	3.5
Comparative example 2	5.2	4.8	4.3	3.8

From the results, the water loss rate of examples 1-4 is significantly less than that of deionized water, while the water loss rate of comparative examples 1-2 is relatively higher than that of examples 1-4 by about 20%, since the technical characteristics of comparative examples 1-2 are substantially the same as those of example 4 except that the example 4 uses rose water, while the comparative examples 1 and 2 use lavender water and chamomile water, respectively, it can be seen that the moisturizing effect of rose water is better in practical application.

And (5) negative ion release investigation.

Examples 1 to 4, comparative examples 1 to 2, deionized water and 1 wt% glycerin each 10ml were sprayed on a mask paper and air-dried, and placed in a sealed glass box of 60cm by 60cm, respectively, to perform a negative ion release test. The results are given in the table below.

From the results, the deionized water and the glycerin aqueous solution have no negative ion release, while the negative ion release values of examples 1 to 4 are both more than or equal to 1500/c in average value in 24 hoursm³It is demonstrated that the present invention has an anion releasing function, and the average anion releasing values of comparative examples 1 to 2 in 24 hours are each 1500 pieces/cm or more³The description shows that the rose water also has the negative ion release function, but compared with the example 4, the negative ion release value is reduced by about 15 percent, and the synergistic capability of the rose water and the negative ion water is stronger.

And (5) testing the antibacterial activity.

The test strains are staphylococcus aureus, bacillus subtilis and escherichia coli. The culture medium is beef extract peptone culture medium. Colonies were counted by plate dilution plating. The experimental group 1 was added with the products prepared in examples 1-4 and comparative examples 1-2 based on the control group, each of which was repeated 3 times, while 2 groups were set, and the control group had only liquid medium and strain.

The results show that the products prepared in examples 1-4 and comparative examples 1-2 all have obvious inhibitory action on staphylococcus aureus, bacillus subtilis and escherichia coli, and the effect is obviously better than that of a control group. In addition, the number of the colonies of the comparative examples 1 to 2 is 20 to 50% higher than that of the example 4, and it can be seen that the combination bacteriostasis effect of the rose water and the anion water is better.

And (5) performing an antioxidant test.

Taking apples which are intact and have no rot, and uniformly cutting into 8 parts. 4 sealed glass boxes of 60cm by 60cm were made. Set 2 groups, control group: 1/4 parts of apples were placed in a glass sealed box without any treatment, experimental groups: 100ml of each of the products prepared in examples 1 to 4 and comparative examples 1 to 2 was uniformly sprayed on the inner walls of 3 sealed glass boxes and dried, and 1/8 parts of apples were put into each glass sealed box, and each was repeated 3 times.

The results show that the products prepared in examples 1-4 and comparative examples 1-2 have antioxidant effect on the cut surface of apple, and the effect is obviously better than that of the control group.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (6)

1. A far infrared ion water is characterized in that the far infrared ion water comprises anion water and rose water,

the preparation method of the far infrared ionized water comprises the following steps:

taking 99 parts of anion material and 1 part of emulsifier according to the mass parts, adding 800 parts of distilled water, stirring for 90min at the constant temperature of 40-50 ℃ and the constant temperature of 2000-2500rpm to obtain anion water mixed solution,

adding 100 parts by weight of rose water into the mixed solution, stirring at normal temperature for 10-15min to fully fuse the mixture,

standing for more than 24 hours, filtering and deslagging to obtain far infrared ionized water,

the preparation method of the rose water comprises the following steps:

picking fresh rose, putting into a distiller, adding 10 wt% of salt according to the weight of fresh flower, adding distilled water 10 times of the weight of fresh flower, distilling for 6-10 hr, condensing the distillate, standing in an oil-water separator for layering, separating essential oil to obtain rose water,

the preparation method of the negative ion material comprises the following steps:

the gull rock, the tourmaline, the opal, the medical stone and the hexacyclic stone are respectively ground by a nano grinder until the grain diameter is between 100 plus 200 nanometers, and then 35 wt% of gull rock nano powder, 25 wt% of tourmaline nano powder, 20 wt% of opal nano powder, 10 wt% of medical stone nano powder and 10 wt% of hexacyclic stone nano powder are stirred for 30 minutes at normal temperature and 800rpm to prepare the negative ion material.

2. The far infrared ionized water of claim 1,

taking 99 parts of anion material and 1 part of emulsifier according to the mass parts, adding 800 parts of distilled water, stirring for 90min at the constant temperature of 40-50 ℃ and the constant temperature of 2000-2500rpm, standing for layering, filtering out solids to obtain anion water,

100 parts of rose water is taken according to the mass part and added into the anion water, and the mixture is stirred for 10-15min at normal temperature to be fully fused to obtain the far infrared ion water.

3. The far infrared ionized water of claim 1 or 2, wherein the emulsifier is a nonionic surfactant.

4. The far-infrared ionized water of claim 3, wherein the emulsifier comprises one or more of alkylolamides, polyols and alkylphenol ethoxylates.

5. The far-infrared ionized water of claim 1, wherein the rose water contains 0.02-0.03 wt% of rose essential oil, 0.02-0.03 wt% of cyclic peptide, and 0.02-0.03 wt% of tannin.

6. A far infrared ion water is characterized in that the far infrared ion water consists of anion water and rose water,

taking 99 parts of anion material and 1 part of emulsifier according to the mass parts, adding 800 parts of distilled water, stirring for 90min at the constant temperature of 40-50 ℃ and the constant temperature of 2000-2500rpm, standing for layering, filtering out solids to obtain anion water,

taking 100 parts by weight of rose water, adding into the anion water, stirring at normal temperature for 10-15min to obtain far infrared ion water,

the preparation method of the rose water comprises the following steps:

picking fresh rose, putting into a distiller, adding 10 wt% of salt according to the weight of fresh flower, adding distilled water 10 times of the weight of fresh flower, distilling for 9 hr, condensing the distillate, standing in an oil-water separator for layering, separating essential oil to obtain rose water,

the preparation method of the negative ion material comprises the following steps:

the gull rock, the tourmaline, the opal, the medical stone and the hexacyclic stone are respectively ground by a nano grinder until the grain diameter is between 100 plus 200 nanometers, and then 35 wt% of gull rock nano powder, 25 wt% of tourmaline nano powder, 20 wt% of opal nano powder, 10 wt% of medical stone nano powder and 10 wt% of hexacyclic stone nano powder are stirred for 30 minutes at normal temperature and 800rpm to prepare the negative ion material.