KR101272608B1 - Solar-powered electrical waveform improvement and far-infrared-enabled devices - Google Patents

Abstract

PURPOSE: An apparatus supplying far-infrared ray as an aromatic agent is provided to improve the electrical waveform radiated using sunlight or electricity to straight type through a far-infrared ray generating mineral. CONSTITUTION: A solar cell(11) supplies power by charging inside a battery(12) with condensing sunlight. Emitting unit(15) which radiates lights of red, yellow, and blue at regular intervals. An aromatic agent discharging material(20) installed on the bottom side of a core(13) and forms an aromatic agent vent(21) at regular intervals. A mineral storage tank(30) has far-infrared generating mineral(33) inside. A power source cord receives power from a switch(14), an emitting unit, and an aromatic agent propeller(22). A mineral storage tank is additionally installed to the aromatic agent propeller on the top of the far-infrared ray mineral of the inside diameter. A mineral storage tank combines a fastening material(31) at the external diameter of the upper side and installs a fixture piece on one side of the fastening material. The far-infrared generating mineral is composed of elavan or rare earth metal or a mixture of more than two of these materials.

Description

Solar-powered electrical waveform improvement and far-infrared-enabled devices

The present invention relates to an electric wave improvement and far-infrared ray activator using solar light, and more particularly, when the red, yellow, and blue color is radiated through electricity obtained using sunlight, the wave form is improved from a curve to a straight line. The present invention relates to an electric wave improvement and far-infrared active device using solar light that maintains the freshness of fruits and vegetables and makes colors clear by supplying far-infrared rays generated through the far-infrared-generating minerals to a fragrance.

In general, many medical products or functional beds or various products designed to benefit the human body by substances that emit far infrared rays and anions, which are beneficial to the human body, have been contributed to health promotion. However, these products are a situation that the persistence of far-infrared and anion emissivity is a problem.

Meanwhile, looking at the material composition according to Korean Patent Registration No. 0050154 "Method for Producing Far Infrared and Anion Emission Material", 35-40 wt% of silicon oxide, 23-28 wt% of feldspar, 25-29 wt% of borax, 0.2 of boric acid ~ 0.8% by weight, cornerstone 0.2-0.5% by weight, cobalt 0.4-0.8% by weight, magnesium 1.5-2% by weight, selenium 0.7-1.2% by weight, cryolite 0.14 ~ 0.19% by weight, alumina oxide 0.7-1% by weight, lithium 1.5 It is composed of 2 ~ 2% by weight, zircon 0.3 ~ 0.8% by weight, fluorite 0.14 ~ 0.18% by weight, and colorant 0.2 ~ 0.8% by weight.

In addition, the ingredients are mixed in a mixing vessel for 2 hours, mixed with a heating vessel, dissolved at a temperature of 1300 to 1500 ° C, and solidified to form a pulverized powder with a pulverizer so that far infrared rays and anions can be released.

By the way, the material components used in the conventional methods for producing far-infrared and anion-releasing materials as described above are not only far-infrared and anion-releasing, but the components are mixed in a mixing vessel for 2 hours and put in a heating vessel 1300 It was difficult to expect the desired far-infrared emission and anion emission due to the manufacturing method of dissolving at the temperature of ˜1500 ° C. and coagulating to form a pulverized powder with a pulverizer. Therefore, a medical product or a functional bed or the like was manufactured using the above ingredients. If used to, there is a problem that the persistence of far-infrared and anion emissivity cannot be reliable.

Generally, silicate (SiO₃), which is mainly composed of silica, is widely known as a self-cleaning agent capable of decomposing organic substances in water. Currently, silicates are widely used in high-tech industries such as the semiconductor and bio-industries, to anticorrosive agents in food containers. In particular, Germany, the United States, Japan, etc. have been developed as a rust preventive and used in drinking water piping, and the US F.D.A approved it as a food additive and acknowledges its harmlessness. In 1992, Korea's first silicate rust inhibitor was developed and patent registration number 054129 was announced. Currently, various water treatment agents containing silicates are produced.

"He said.

In addition, silicates radiate far-infrared rays and have effects such as deodorization and antibacterial activity, and are also used as additives for adhesive sheets for alleviating various deodorants, muscle pains, bruises, and the like (Japanese Patent Laid-Open Publication No. 1998-179764). The effect of far-infrared rays is to promote the metabolism by activating cellular tissues, and is already known as pain relief, deodorization and antibacterial, and is widely applied to architectural finishing materials, medical devices or bedding.

Your body has a homeostasis that keeps your body's pH at a constant 7.4 weak alkali. Even if the pH changes only 0.1, the body is abnormal, and if the pH rises or falls 0.3, the person loses consciousness or lives are at risk. In recent years, the intake of meat, which is an acidic food, and the intake of vegetables, fruits, etc., which are alkaline foods, have been reduced due to changes in diet, and nutritional imbalance is becoming a problem.

Alkaline foods refers to foods containing more metal elements (Na +, K +, Mg +, Ca +, etc.) than the non-metallic elements.

In addition, the acidic food refers to a food containing more non-metallic elements (S, P, Cl) than the metal element among the food ingredients. In other words, acidic foods or alkaline foods are different from the pH of the food itself.

Acidosis, in which the body fluid is acidified, is caused by CO2 generation by oxidation during metabolism, lactic acid production in the body due to high-intensity exercise, and stress such as nervousness, overwork, and lack of sleep.

The body has a buffer system that maintains a constant body fluid (pH 7.4) for acid-alkali equilibrium, which neutralizes acid and alkalinity. In addition, increasing the amount of carbon dioxide through respiration reduces H + (hydrogen ions) to control pH, and by adjusting the ratio of Na + and K + in the kidneys to release acidic substances to adjust the pH. Acidity is regulated by buffering by chemicals and acid-alkali buffering of calcium in the blood

On the other hand, conventional techniques related to far-infrared rays, unlike the ordinary lamps, such as Patent Publication No. 2004-0008250 (Active Radiation Energy Light Emitting Device and Manufacturing Method), insert a block made of a mixture material of radiation material on the lamp shade. A light emitting device that passes through the wires and is transferred to the lamps;

Gold mining and non-ferrous metal minerals are mined by refining and beneficiation, such as patent registration No. 0319533 (Ore mixed crushed product that emits far-infrared rays). At the same time, mineral ore that emits far-infrared rays, such as biotite, fluorite, etc. is introduced into the kiln, calcined, and pulverized to obtain ore pulverized powder. Separately packaged or mixed with cement to produce dry mortar;

Irradiating the irradiated visible light to the irradiated object obtained by adjusting the wavelength of light with the color of a visible band filter and controlling the energy density as the luminance as in Patent Registration No. 0406650 (Method and system for producing far-infrared radiation); and Filtering the light with an infrared filter to obtain infrared rays of a specific wavelength band, vortexing the infrared rays with an infrared screw, and concentrating and irradiating the irradiated object with visible light irradiation;

Irradiating visible infrared rays and swirling far infrared rays to water to emit far infrared rays, such as Patent Publication No. 2012-0029529 (Method of manufacturing a coolant supplement that radiates far infrared rays and a coolant supplement that radiates far infrared rays produced thereby) Various far-infrared rays, methods and articles using the same are known, such as by preparing magnetized water and mixing the magnetized water with herbal distillate.

However, there is no known device and method for emitting red, yellow, and blue electric rays and far infrared rays.

Document 1. Patent Registration No. 0406650 (registered Nov. 10, 2003) Document 2. Patent Registration No. 0451561 (registered Sep. 23, 2004) Document 3. Patent Publication No. 2004-008250 (published Jan. 28, 2004) Document 4. Patent Registration No. 1094497 (Dec. 8, 2011 registration)

The problem of the present invention, which was devised to solve such a conventional drawback, improves the electric wave emitted by using sunlight or electricity into a straight line and supplies the far-infrared rays generated through the far-infrared minerals to the fragrance such as fruits and vegetables. It aims to maintain freshness and sharpen colors.

Another problem of the present invention is to improve the electric wave emitted by using sunlight or electricity to water in a straight line, and to transmit various infrared rays generated through the far infrared ray generated through the far-infrared mineral with fragrance, It aims to be able to radiate far infrared rays by supplying it to a lamp.

The present invention provides a solar collector for condensing sunlight to charge the internal battery to supply power;
A core installed at a lower side of the solar dust collecting plate and having a radiating part emitting red, yellow, and blue light at regular intervals;
A fragrance discharge member installed below the core and having a fragrance discharge port formed at regular intervals;
It is installed to the lower side of the fragrance discharge member, characterized in that consisting of a mineral storage tank having a far-infrared generated mineral inside.

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In addition, the present invention is installed on the lower side of the solar collector plate, the core provided with a radiating part for emitting red, yellow and blue light at regular intervals;

A fragrance discharge member installed below the core and having a fragrance discharge port formed at regular intervals;

A mineral storage tank installed under the fragrance discharge member and having far-infrared generated minerals therein;

The switch and the radiator and the fragrance propeller installed in the core is characterized in that it is connected to the power cord for supplying power.

In addition, the core of the present invention is characterized in that the radiating unit and the switch for emitting red, yellow, blue light at four regular intervals in the circumferential direction.

In addition, the mineral storage tank of the present invention is characterized in that to further install a fragrance propeller above the far-infrared mineral of the inner diameter to activate the supply of far-infrared;

Coupling a fastening member to an outer diameter of an upper side, and installing a fixing piece on a portion of the fastening member;

It is the thing which produces the wavelength of 6-16 micrometers which is the most beneficial to a human body (plant), and which consists of mixing any one or two or more of elvan and rare earth metals;

Nano-powdering the elvan and rare earth metals to a size of 20 to 600 nm and using any one or two or more of the elvan and rare earth metals;

2 to 10 parts by weight of epoxy and 5 to 15 parts by weight of the curing agent are mixed with respect to the total weight of the pulverized elvan and rare earth metal, and formed to be integrally fixed by supplying the inner diameter of the mineral storage tank;

2 to 90 parts by weight of the general paint is mixed with respect to the total weight of the powdered ganelite and the rare earth metal, so that far-infrared rays are radiated through the inner diameter of the mineral storage tank.

When radiating red, yellow, and blue colors through electricity obtained by using sunlight, the radiation of the radiating part is improved from a curve to a straight line, and it is possible to save electricity (about 14%) when using electricity. To provide the effect.

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The present invention is to provide an effect of improving the quality of the fruit by increasing the sweetness of the fruit, maintaining the freshness and the color by the far infrared radiation function.

The present invention is to provide the effect of increasing the farmer's income by the activity of far-infrared, when installed near the plantation, such as fruits, vegetables, and the like to help the digestive absorption of nutrition to promote and maintain health to consumers.

The present invention improves the electric wave emitted by using sunlight or electricity to water in a straight line and transmits far-infrared rays generated through the far-infrared ray-generating minerals having the most beneficial wavelength to plants with various kinds of fruits and vegetables. By supplying to crops and living things such as to provide the same effect as installed around the plantation.
In particular, the specific effects of the present invention will be confirmed through the specific contents for carrying out the invention.

1 is a perspective view showing a preferred embodiment of the far infrared active device of the present invention
Figure 2 is a front view of the far infrared active device of the present invention
Figure 3 is a plan view of the far infrared active device of the present invention
Figure 4 is a cross-sectional view showing the inside of the far infrared active device of the present invention;
Figure 5 is an enlarged cross-sectional view of the main portion showing another embodiment of the present invention
6 is a front view showing another embodiment of the far infrared active device of the present invention;
7 is a far-infrared test report for the paper box through the present invention
8 is far-infrared test report for garlic through the present invention
9 is a far-infrared test report for king jujube cherry tomatoes according to the present invention
10 is a far-infrared test report for grapes through the present invention
Figure 11 is a far-infrared test photograph of grapes according to Figure 10 of the present invention
12 is a far-infrared test report for rice through the present invention
Figure 13 is a far-infrared test photograph of rice according to Figure 12 of the present invention

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a preferred embodiment of the far infrared activator of the present invention, Figure 2 is a front view of the far infrared activator of the present invention, Figure 3 is a plan view of the far infrared activator of the present invention, Figure 4 is The cross-sectional view showing the inside of the far infrared active device of the present invention is shown.

The battery 12 is installed therein, and forms a solar light collecting plate 11 composed of a plurality of light collecting plates for collecting electricity by collecting solar light to the upper side of the battery 12, the solar dust collecting plate 11 Silver is formed in a circular shape so as to be exposed to the uppermost side to facilitate the absorption of sunlight.

The core 13 is installed below the solar dust collecting plate 11, and the radiating unit 15 capable of emitting red, yellow, and blue light (waveform) at regular intervals is provided on the core 13. Install.

The radiating part 15 is to be installed in three of each of four places at equal intervals in the circumferential direction of the core 13, respectively, the other one to install the switch 14 to turn on or off the driving Will be installed so that.

A fragrance discharge member 20 is installed below the core 13 on which the switch 14 and the radiator 15 are installed;

The fragrance discharge member 20 is preferably molded into a plastic injection molding, and is formed to have a fragrance discharge port 21 at regular intervals in the longitudinal direction, so that the fragrance discharge member 20 can be evenly radiated on the entire surface of 360 ° in the circumferential direction. do.

The mineral storage tank 30 is installed on the lower side of the perfume discharge member 20, and the fastening member 32 is coupled and separated by folding at the center at the outer diameter of the upper side. Make sure it is connected and installed in the required location.

The mineral storage tank 30 forms a ventilation structure 31 at regular intervals and stores the far-infrared ray-generating mineral 33 therein to discharge far-infrared rays through the fragrance propeller 22 on the upper side to the fragrance outlet 21. To install it.

The far-infrared-generating mineral 33 generates a wavelength of 6 to 16 µm that is most beneficial to a human body (plant), and is composed of elvan and rare earth metals.

The ganbanite is a natural stone produced by mixing evenly the clays of white spots and quartz crystals that have been erupted and dissolved by volcanic activity from the end of the Mesozoic era to the early stage of the Neo-Saengdae (70 million years ago to 50 million years ago), Its main ingredients are silicic anhydride (SiO₂) and aluminum oxide (Al₂O₃). It contains ferric oxide (Fe₂O₃) and 45 kinds of minerals, which are essential for human body and living cells, to maintain vitality of cells such as biological development and physiological functions. Function The chemical composition is KAl3 (SO4) 2 (OH) 6, which is represented by hexagonal plate-like or stretched crystals, which are usually in the form of blocks or granules, with solids 3.5-4 and specific gravity 2.6- 2.9, produced from volcanic rock zones affected by hydrothermal alteration.

The rare earth metal is 15 elements from atomic number 57 to 71. In other words, lanthanum (La: lanthanum), cerium (Ce: cerium), praseodymium (Pr: praseodymium), neodymium (Nd: neodymium), promium (Pm: promethium), samarium (Sm: samarium), and europium (Eu: europium) , Gadolinium (Gd: gadolinium), terbium (Tb: terbium), dysprosium (Dy: dysprosium), holmium (Ho: holmium), erbium (Er: erbium), thulium (Tm: thulium), ytterbium (Yb: ytterbium), Lutetium (Lu) belongs to this, and 17 elements are added to scandium (Sc) of atomic number 21 and yttrium (Y: 39) with very similar properties.

The elvan and rare earth metals constituting the far-infrared ray-generating mineral 33 are preferably used in powder form, preferably heat-treated to be used, and nano-powdered in a size of 20 to 600 nm.

The far-infrared ray-generating mineral 33 used for powdering is preferably used by mixing any one or two or more of elvan and rare earth metals.

The far-infrared-generating mineral 33 is fixed to be integrally fixed by supplying 2 to 10 parts by weight of epoxy and 5 to 15 parts by weight of the curing agent to the inner diameter of the mineral storage tank 30 based on the total weight of the powdered elvan and the rare earth metal. It is preferable to form.

5 is an enlarged cross-sectional view showing a main portion of another embodiment of the present invention, in which the mineral storage tank 30 is not filled with the far-infrared ray-generating material 33 integrally with the inner diameter, and the entire powdered elvan and rare earth metals. By mixing 2 to 90 parts by weight of the general paint with respect to the weight it is possible to form so that far infrared rays are radiated through the inner diameter of the mineral storage tank (30).

6 is a front view showing another embodiment of the far-infrared active device of the present invention, since the solar collector plate 11 is not used, or when used in a vinyl house or indoors, sunlight cannot be supplied to the power cord ( 40 is connected to be able to drive the radiator 15 and the fragrance propeller 21 by receiving electricity.

The electric waveform improvement far infrared active device 10 using the solar light of the present invention having such a configuration is installed on the floor at regular intervals when installed in an orchard or a place for growing crops and around garbage and various wastes contaminated. It installs, or it installs in predetermined height using the fixing piece 34.

When installed outdoors, the solar collector plate 11 is installed on the upper side and the electricity generated by collecting the solar light is charged and stored in the battery 12, to supply power to use,

When the switch 14 is "on", red, yellow, and blue colors are radiated outward from the three radiators 15, and the emitted waveforms are radiated in a curved wave.

Since the air is supplied upward while the air freshener propeller 22 in the mineral storage tank 30 is driven, the air freshener outlet of the air freshener discharge member 20 after raising the far infrared light generated from the far infrared ray-generating mineral 33. 21) to radially and uniformly radiate.

The far-infrared rays generated from the far-infrared generating mineral 33 are radiated through the air freshener outlet 21 to radiate the curved wave emitted from the radiating portion 15 as a straight wave.

In addition, when the far-infrared ray activator 10 is installed in a room such as a crop cultivation facility such as a vinyl house, it is impossible to produce electricity through the solar dust collecting plate 11, so that the power cord 40 is connected and used to receive electricity. Will be done.

The far-infrared-generating mineral 33 generates a wavelength of 6 to 16 µm that is most beneficial to a human body (plant), and is composed of elvan and rare earth metals; If the wavelength is 6㎛ or less, there is a disadvantage in that the absorption capacity and air purification ability of the human body or fruits and vegetables is lowered, and when 16㎛ or more, it is preferably 10㎛ because it does not provide the far infrared effect to the human body or fruits and vegetables.

The elvan and rare earth metals constituting the far-infrared ray-generating mineral 33 are preferably used in powder form, preferably heat-treated to be used, and nano-powdered in a size of 20 to 600 nm; In the case of 20 nm or less, the ability to generate far-infrared rays is lowered, and in the case of 600 nm or more, the processing cost is high, and thus the economical efficiency is low.

The far-infrared-generating mineral 33 is fixed to be integrally fixed by supplying 2 to 10 parts by weight of epoxy and 5 to 15 parts by weight of the curing agent to the inner diameter of the mineral storage tank 30 based on the total weight of the powdered elvan and the rare earth metal. Form; When the epoxy content is less than 2 parts by weight, the mixing performance is lowered, and when 10 parts by weight or more, far infrared rays are not generated normally. When the amount of the curing agent is 5 parts by weight or less, the mutual mixing power is lowered, and when the amount is 15 parts by weight or more, the mixing is performed. Since the phenomenon occurs that is not integrally coupled to the inner diameter of the mineral storage tank 30 after being separated is preferably 10 parts by weight.

The far-infrared ray-generating material 33 is provided so as not to be separated when moved by providing a state fixed to the inside of the mineral storage tank 30 integrally, and serves to help the far-infrared radiation is normally radiated by the ventilation structure (31) will be.

The mineral storage tank 30 is a mineral storage tank 30 by mixing 2 to 90 parts by weight of general paint with respect to the total weight of the powdered agglomerates and rare earth metals, the far infrared ray-generating minerals 33 are not integrally filled in the inner diameter. It is formed so that far infrared rays are radiated through the inner diameter of; In the case of 2 parts by weight or less, the generation of far infrared rays is reduced, and in the case of 90 parts by weight or more, since it is impossible to provide the inner diameter of the mineral storage tank 30 through the fill, it is preferably 25 parts by weight.

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In addition, when the electric wave (wave) analyzer is installed around the far-infrared active device 10, the wave of the radiating unit 15 is changed from a curve to a straight line, thereby achieving an electric saving effect of 14%.

In addition, when installed in a crop cultivation facility, such as a plastic house, the sugar content of the fruit is increased, the freshness is maintained, and the color becomes clear.

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On the other hand, it is installed in a container containing water so that the nutrition of the far-infrared active device 10 extends, and after the water is produced and supplied, it sprays water on various crops with a sprayer or the like to install it around. The same effect can be provided.

Far-infrared wavelength technology through the far-infrared activator 10 activates molecular motion by rotating the atoms of all objects, the rotational motion is reduced by the harmful element (resistance) depending on the object.

The rotational movement (molecular movement) causes the strong rotational movement to reduce resistance (harmful factors), improve purity, and neutralize toxicity and odor.

In the far-infrared activator 10 according to the present invention, the red radiation emitted from the radiator 15 provides the component activation function, the yellow radiation provides the immune function activation, and the blue radiation increases the power. Far-infrared rays generated from the far-infrared-generating mineral 33 are transmitted through the deep resonance of trash, polluted various wastes, crops, fruits, vegetables, etc. to activate the natural energy of the living body, and the energy is intrinsic energy. Activate to maintain energy equilibrium and improve purity.

In this regard, the results provided by installing the far-infrared active device 10 of the present invention will be specifically confirmed through numerical values according to a test report.

end. The far infrared activator 10 was installed, and a paper box (agricultural product box) was installed in the vicinity to be exposed to the radiator 15 and the far infrared, and as a result of the experiment, as shown in FIG. 7, the test of KFIA-Fi-1005. As a result of measurement by the method, the emissivity (5 to 20 µm) was 0.884 and the radiation energy (W / m 3 · µm, 37 ° C) was 3.41 × 10 ² .

I. After installing the far infrared activator 10 to grow the garlic to be exposed to the radiating unit 15 and the far infrared, and then harvested and tested, as shown in Figure 8, as measured by the test method of KFIA-Fi-1005, Emissivity (5-20 micrometers) was 0.832, and radiation energy (W / m <3> * micrometer, 37 degreeC) was 3.21x10 <^2> .

All. When the far infrared activator 10 was installed and harvested and tested by jujube jujube tomato to be exposed to the radiating unit 15 and far infrared rays, as shown in FIG. 9, as measured in the test method of KFIA-Fi-1005, Emissivity (5-20 micrometers) was 0.813, and radiation energy (W / m <3> * micrometer, 37 degreeC) was 3.13x10 <^2> .

la. As a result of experiments by harvesting the grapes to be exposed to the radiation unit 15 and the far infrared ray by installing the far infrared activator 10, as shown in FIG. 10, as a result of measuring by the test method of KFIA-Fi-1005, the emissivity (5 -20 micrometers) was 0.789, and the radiation energy (W / m <3> * micrometer, 37 degreeC) was 3.04x10 <^2> .

In addition, the upper picture shown in Figure 11 is a result of measuring the general grapes with a far infrared wave meter, it can be seen that the yellow color at the center portion, the following picture is a functional grape cultivated using the present invention with a far infrared wave meter As a result of the measurement, it can be seen that the emissivity is even and high in the whole plane.

hemp. As a result of experiments by harvesting the rice to be exposed to the radiator 15 and the far infrared by installing the far infrared activator 10, as shown in Figure 12, as measured by the test method of KFIA-Fi-1005, emissivity (5 -20 micrometers) was 0.875, and the radiation energy (W / m <3> * micrometer, 37 degreeC) was 3.37x10 <^2> .

In addition, the upper picture shown in Figure 13 is a result of measuring the general rice by far-infrared wave measuring device, it can be seen that the blue color appears very low in the central part, the following picture is far infrared to the functional rice cultivated using the present invention As a result of measuring with a wave meter, it can be seen that the emissivity is even and high in the whole surface.

bar. By installing the far-infrared active device 10, it can be applied to various materials such as building materials, such as cement and sand, and various finished products such as furniture, home appliances, or directly consumed meat, fish, herbs, and poultry.

10: far infrared active device 11: solar collector
12: battery 13: core
14 switch 15 radiator
20: fragrance discharge member 21: fragrance discharge port
22: fragrance propeller 30: mineral storage tank
31: ventilation structure 32: fastening member
33: far-infrared-generating mineral 34: fixed piece
40: power cord

Claims (9)

A solar dust collecting plate 11 which collects sunlight and charges the battery 12 to supply power;
A core 13 installed below the solar collector plate 11 and having a radiating unit 15 emitting red, yellow and blue light at regular intervals;
A fragrance discharge member 20 installed below the core 13 and having a fragrance discharge port 21 formed at regular intervals;
An electric wave improvement and far-infrared activator using solar light, characterized in that it consists of a mineral storage tank (30) having a far-infrared-generating mineral (33) therein installed below the fragrance discharge member (20).
A core 13 installed below the solar collector plate 11 and provided with a radiating unit 15 emitting red, yellow, and blue light at regular intervals;
A fragrance discharge member 20 installed below the core 13 and having a fragrance discharge port 21 formed at regular intervals;
A mineral storage tank 30 installed below the fragrance discharge member 20 and having a far-infrared ray-generating mineral 33 therein;
Electrical wave improvement and far-infrared light using solar light, characterized in that the switch 14 and the radiator 15 and the fragrance propeller 22 installed in the core 13 is connected to the power supply cord 40 for supplying power Activator.
The method of claim 1,
The core 13 is to improve the electrical waveform using the solar, characterized in that the radiation unit 15 and the switch 14 for emitting red, yellow, blue light at regular intervals in the circumferential direction Far infrared activator.
The method of claim 1,
The mineral storage tank 30 is an electric wave improvement and far-infrared activator using solar light, characterized in that to further provide a far-infrared propeller (22) above the far-infrared mineral (33) of the inner diameter to activate the supply of far infrared rays.
The method of claim 1,
The mineral storage tank 30 is coupled to the fastening member 32 to the outer diameter of the upper side, and improving the electrical waveform using solar light, characterized in that the fixing piece 34 is installed on a portion of the fastening member 32. And far infrared activators.
The method of claim 1,
The far-infrared ray-generating mineral 33 generates a wavelength of 6 to 16 μm that is most beneficial to a human body (plant), and is formed by mixing any one or two or more of elvan and rare earth metals. Waveform enhancement and far infrared activator.
The method of claim 1,
The far-infrared ray-generating mineral 33 is nano-powdered to a size of 20 to 600nm of elvan and rare earth metals, and any one or a mixture of two or more of elvan and rare earth metals is used to improve electrical waveforms using solar light. Far infrared activator.
The method of claim 1,
The far-infrared-generating mineral 33 is fixed to be integrally fixed by supplying 2 to 10 parts by weight of epoxy and 5 to 15 parts by weight of the curing agent to the inner diameter of the mineral storage tank 30 based on the total weight of the powdered elvan and the rare earth metal. Electrical waveform improvement and far-infrared active device using solar light, characterized in that to form.
The method of claim 1,
The far-infrared ray-generating mineral 33 is formed by mixing 2 to 90 parts by weight of general paint with respect to the total weight of the pulverized elvan and rare earth metals so that far-infrared rays are radiated through the paint on the inner diameter of the mineral storage tank 30. Electric wave wave improvement and far-infrared active device using sunlight.

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