KR100570342B1 - A negative ion generator - Google Patents

Abstract

The present invention relates to a new negative ion generating device attached to any household appliances such as air conditioners, refrigerators, TVs, fans, humidifiers, and various household goods such as air cleaners, lights, etc. It generates natural crust anion without generating ozone or nitrogen oxide which is incidentally generated when anion is generated, and contributes to air purification or health promotion by making an anion generator without deterioration of anion generation performance. For that purpose.

Anion generator, ozone-free, silicone rubber, tourmaline, guinea pigs, nano titanium dioxide, nano titanium phosphate compound, needle point

Description

Anion generator {A negative ion generator}

1 is a schematic view showing a negative ion generating device according to the present invention

2A and 2B are a structure and a cross-sectional view of a coated conductor according to the present invention.

3A to 3C are exemplary views of the discharge electrode of the negative ion generator according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10: high voltage generating unit 11: power line

20: coated wire 21: coating material

22: wire 30: flange

40: discharge electrode

The present invention relates to a new anion generator that can be attached to a variety of electronic and electrical appliances, various household goods, or used as an independent type, without generating harmful substances such as ozone and nitrogen oxides.

People spend most of their days indoors, such as offices, schools, hospitals, restaurants, cafes, etc. Indoor air pollution is caused by indoor inflow of air pollutants such as car smoke and fine dust and various VOC substances generated indoors. Even worse than the outdoors, people are equipped with various air purification devices indoors, and the use of negative ion generators, which are effective for air purification and health promotion, is increasing day by day.

Negative ions refer to atomic elements that have a valence electron in the air and bear (-) electrons. They occur mainly in deep mountains, on the shore, and under waterfalls. Or anions may be generated by ionization of radioactive gamma rays or tourmaline in mineral rocks. Artificial methods can use the "Renard" effect to strike fine water droplets, or generate anions by adding moisture and pressure to powders and charcoal of anion-generating minerals.

In general, the anion neutralizes and precipitates nitrogen oxides, sulfur oxides, hydrocarbons, VOC substances, tobacco smoke, and the like to purify the air and remove bacteria and bacteria. In addition, it is known to have effects such as neutralization of various harmful electromagnetic waves, blood purification of human body, cell activation, increased resistance, relieving stress, and learning.

By using the effects of the negative ions attached to a variety of electronic and electrical appliances, household goods, or used as a stand-type air purifier. It may be used by impregnating fibers such as tourmaline, ear-precious stones, and the like, or coating them with wallpaper.

The prior art of the anion is an anion air purifier (Patent Publication 1990-00123). By fixing a plurality of metal electrode pins on a metal plate and applying a negative high voltage, ionization of the air generates ion, which causes anion and ozone and nitrogen oxides incidentally.

The generation of ozone has been continuously proposed and its controversy has been raised over the permissible threshold. Most of the anion generators of the prior art use a pin method (aka needle point method) that is excellent in anion generation efficiency in a plasma method or a discharge electrode fin method.

In the pin (needle point) method, when a negative high voltage is applied to the discharge pin, the high energy emitted to the tip of the pin causes insulation breakdown and corona discharge (aka spark discharge). At this time, the gas becomes a state that is easy to flow the current, the particles of the gas is charged, the atom is composed of the nuclear nucleus and the extranuclear electrons surrounding its outer axis. When the atoms collide with other particles, the extranuclear electrons are transferred to a higher energy level than the ground state. And become free electrons and cations. At this time, when the anion electrons are continuously released at high speed, the anion electrons are accelerated, and gas molecules or cations flow toward the cathode and continue to collide with the cathode to produce anions.

The negative ion generated by the gas discharge generates ozone (O ₃ ) and nitrogen oxide together. Ozone is a strong oxidizing power that has an excellent effect on sterilization or deodorization, but when turned into human skin contact or respiratory tract, it turns into a terrible toxic substance that causes lung or bronchial cell destruction. To take advantage of this sterilization deodorization, countries around the world have established ozone tolerances.

However, even when these standards are used in a confined space, the lack of oxygen or humidity can seriously affect the human body and are controversial. The generation of harmful substances such as ozone and nitrogen oxides ensures safety in use.

The negative ion generator which does not generate ozone or nitrogen oxide by the conventional technique is 特 開平 11-290716 of Japan. The small box is made by cutting the middle of the coated wire between the high voltage generator and the discharge pin, and the porous natural pumice ( It is an advanced technology that generates negative ions by inserting 輕 石 and ionizing electrical energy and discharging them into long discharge pins of the length of a finger, but it must be an advanced technology. It is difficult to use in a product that requires a small lamp and a small negative ion generating device because of its configuration and miniaturization is difficult.

The negative ion generators described in the related art have disadvantages in that harmful substances such as ozone or nitrogen oxides are generated incidentally when negative ions are generated, and the ionization of the discharge pins is reduced due to contamination of the discharge pins, and the high pressure generator is discharged from the high pressure generator. The metal wires connected are deteriorated due to deterioration evaporation due to high pressure discharge, and thus problems such as anion emission reduction are not solved.

The present invention is to provide an anion generating device that generates anions without generating ozone or nitrogen oxide by combining various materials and devices to solve these disadvantages and problems.

More specifically, by converting 220V AC into 3 ~ 12V DC electricity according to the intended use, it is equipped with a high voltage generator of 2500V-6000V, and the conductor metal wire connected to the discharge electrode pin in the high voltage generator and the silicon surrounding the conductor metal wire A coating solution of tourmaline and many other anion generating minerals or a fine powder is coated on the inner diameter wall of the rubber coating, and a nano titanium dioxide or nano titanium phosphate compound solution is coated on the discharge electrode pin.

By combining these materials and devices, a large amount of negative ions are released to a long distance without the generation of harmful substances such as ozone or nitrogen oxides, the air residence time is longer than that of the prior art, and the amount of negative ions generated by contamination of the discharge pins is reduced. Without this purpose, a large amount of sustained cluster anion is generated.

The present invention, in the negative ion generator for generating a negative high voltage in the high-pressure generating unit to generate negative ions through the discharge electrode, it is connected to the coated conductor for transmitting a negative high voltage of the high-pressure generator and the end of the coated conductor It consists of a discharge electrode that emits negative ions,

The coated wire is formed of a metal wire coated with an anion radiating material to convert electrical energy into thermal energy to release anions through a discharge electrode, and a coating material coated with an anion radiating material coated on an inner wall thereof. .

The metal wire is an anion emitting material, coating a tourmaline solution in nano or micron units, or an anion-generating minerals such as jewels, Uranite, Horun Health, Meteorite, Elvan, Geumstone, Cirrus, Biotite, and Dragonite. A single or two or more substances and a tourmaline solution are mixed and coated with anion generating and far infrared radiation minerals.

The conductive wire of the cladding wire is characterized by a multi-wire structure formed by coating a plurality of strands of metal wire on the cladding material, and is characterized by using a conductive wire of an aluminum alloy material having high conductivity and high heat resistance.

In addition, the coating material is a silicone rubber coating material, characterized in that the coating on the inner wall of the tourmaline and the anion and far-infrared-generating minerals, such as the jewels, or the ultra-fine powder, such as bincho charcoal mixed or selected as a single material. .

In addition, the discharge electrode may select any discharge electrode structure capable of emitting anion such as a structure of a plurality of radiation pins, a single needle structure, or a plurality of fine wire bundle structures.

In addition, the discharge electrode is characterized by coating the nano-titanium oxide in response to visible light or ultraviolet light, or titanium oxide compound in response to water or air.

In addition, the high-pressure generator is characterized in that the high-pressure generator is not affected by the environment of the external high temperature by impregnating and sealing the steel insulator ceramic when the transformer, rectifier circuit, condenser, high-pressure amplifier circuit and the like.

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

1 is a block diagram of an anion generator according to the present invention. As shown therein, the high voltage generator 10 amplifies and generates the input power at a high voltage, the coated wire 20 for transmitting the negative high voltage of the high voltage generator 10, and the coated wire 20. It is composed of a discharge electrode 40 which is connected to the end of and emits negative ions. In the drawing, reference numeral 11 is a power input line, and 30 is a flange portion for fixing and coupling the discharge electrode 40 to the end of the coated conductor 20.

The metal of the coated conductor 20 connected to the discharge electrode 40 in the high-pressure generator 10 is used as an aluminum alloy material having high conductivity and high heat resistance, which causes the metal conductor 22 to deteriorate due to high pressure discharge. This prevents the current density from falling.

When the transformer, rectifier circuit, condenser, high pressure amplifier circuit, etc. are placed in the high pressure generator 10, the steel insulator ceramic is impregnated and sealed to prevent the high pressure generator from being affected by the environment such as high heat outside. Depending on the use of the negative ion generator, the circuit of the high pressure generator can be added or subtracted. Here, the internal circuit configuration of the high-voltage generator 10 is well known as a well-known technique, and thus the configuration and description thereof will be omitted. It is obvious that the negative high voltage is connected to the discharge electrode, and the positive terminal is grounded to generate negative ions by the negative high voltage. Therefore, in the present invention, the high-pressure generating part 10 is packaged in a case to package the high-pressure generating part 10, and impregnated and sealed a steel insulator ceramic such as silicon, feldspar, and mica, and constitutes a unit as a single part. do.

In the high voltage generating portion, the covering wire 20 of the (-) pole goes out toward the discharge electrode 40, and the tip of the covering wire is sealed with the flange part with the (+) pole in the ground state (earth).

2A and 2B are views illustrating the structure of the coated lead of the anion generator according to the present invention, the coated lead 20 may be composed of a single conductor, but a plurality of conductors made of several strands to increase anion generating effect ( 22) is used by covering it with the coating | covering material 21. In addition, each of the conductive wires 22 may be formed by coating a tourmaline solution in nano or micron units. In addition, mineral coating materials such as yangyangseok, uiwangseok, horun health, meteorite, ganban stone, diamond stone, biotite, biotite, yongwangseok and other anion-generating minerals. Most preferably, the tourmaline solution and the mineral solution are mixed and coated. When the tourmaline solution and the mineral are mixed, for example, 70% of the tourmaline solution may be mixed with 30% of the anti-alcohol and coated with the mixed solution. In the coating method, a metal wire is put in a solution, coated, dried, and then coated again several times to be coated with a thin film.

On the inner diameter wall of the silicone rubber cladding material 21, a tourmaline and nine minerals such as gemstones or extremely fine powders such as binchotan are mixed or selected as a single material, and the metal conductors 22 are loosely bound. In addition, the conductor inner line 22 and the cover member 21 are combined to create a space through which air can flow. In addition, the carbon fibers coated with the materials may be slightly loosely inserted between the conductive wires 22 and the covering material 21.

The coating material 21 uses a silicone rubber coating, and has an inorganic property of siloxane bond (Si-o), which is a molecular structure, and silicic acid (Sio2), which is a main component of nine minerals including tourmaline, which is a coating material of the inner diameter wall of the coating material 21. ) Fusion with compounds is easy. Silicone rubber is a material with excellent heat resistance and chemical stability.

The materials coated on the inner wall of the conductive wire 22 and the coating material 21 all emit about 2,400 to 8,000 anions per 個 / cc of pulverization vibration, and emit far infrared rays having a long wavelength. Ionize. In particular, tourmaline is a tourmaline having a permanent polar body, which is excellent in ionization with water molecules and emits far-infrared radiation of high emissivity, and its properties are enhanced by heat and pressure.

3A to 3C are exemplary views of the discharge electrode of the negative ion generator according to the present invention. As shown here, the discharge electrode 40 is made of a plurality of alloys of copper, silver, aluminum, tungsten, stainless steel, nickel, manganese, but fine multi needle point (FIG. 3A, 3B) A mono needle point of appropriate size (FIG. 3C) is assumed. That is, as shown in Figure 3a, it may be configured as a radiation pin structure in which a plurality of discharge electrode pins are arranged in a radial manner, may be configured by arranging fine conductors in a bundle form as shown in Figure 3b, one needle shape as shown in Figure 3c It can also be configured as. Small, multi-needle points can replace metal fibers and allow for maximum discharge pins.

Meanwhile, in the present invention, the discharge electrode 40 is coated with nano titanium oxide which reacts with visible light or ultraviolet light, or titanium oxide compound which reacts with water or air. The metal discharge electrode 40 is easy to coat titanium oxide, is well fused, and has excellent photocatalytic effect during discharge.

Titanium oxide is a photocatalyst that shows strong redox power when it is exposed to visible light or ultraviolet rays. It oxidizes and decomposes nitrogen oxides, SOx, and hydrocarbons to purify the air, has strong sterilization and antibacterial properties, and also has antifouling function. Titanium phosphate compounds also function similarly to titanium oxide.

The photocatalyst is a metal oxide semiconductor that is irradiated with ultraviolet rays to remove contaminants and remove odors. TiO ₂ is widely used. When ultraviolet rays having a wavelength in the 300-400 nm band irradiated by sunlight or fluorescent light are irradiated onto the TiO ₂ coated surface, electrons are transferred to the conduction band to form electrons and holes. These electrons and holes have very strong oxidation and reducing power Since it reacts with water vapor and oxygen in the air, it generates strong OH Radical H Radical and oxidizes and decomposes all polluted organic substances and nitrogen oxides and removes bad smell.

In the negative ion generator of the present invention configured as described above, 220V AC power is applied from the power supply line 11 to the high voltage generator 10, and the transformer and rectifier circuit built in the high voltage generator 10 are 3-12V DC. The high voltage amplification circuit connected thereto converts the negative voltage or the negative pulse voltage of 2500-6000V through the sheathed conductive wire 20 toward the discharge electrode 40.

At this time, the anion and the far-infrared radiating material coated on the inner diameter wall of the conductive wire 22 and the cladding material 21 perform rapid heat dissipation by high-voltage electric energy and are converted into thermal energy and are rapidly released through the discharge electrode 40.

In the high-energy process by the spark (flame) discharge of the prior art, a one-to-one conversion occurs, and the ion-converted energy is discharged at high speed through the discharge electrode 40 due to the characteristics of the anion and the far-infrared radiating materials. It combines with molecules to produce large amounts of cluster anions. That is, as the heat radiation is generated by the material coated on the conductive wire and the coating material, negative ions are generated and emitted through the discharge electrode, so that negative ions are generated without generating ozone or nitrogen oxide as in the prior art.

There is an anion generation method that does not generate ozone or nitrogen oxide at all. It is a method developed by a person named Yamanoi of Japan that generates anion by radiating an electron beam of (-) electrode into the air without setting a positive electrode. Like the "Yamanoi" method, the present invention does not generate any pollutants such as ozone or nitrogen oxide, and has a great advantage in manufacturing the material to simply coat the material without the need for complicated equipment to install an electron beam like the Yamanoi method. .

Titanium oxide and the like coated on the discharge electrode 40 also oxidizes and decomposes pollutants precipitated as anions and other contaminants, thereby reducing the amount of neutralizing and settling of pollutants in which the anions are cations. It also acts to increase the residual rate of air.

In addition, during discharge, airborne contaminants are charged and quickly adhere to the electrode pins, which prevents adhesion due to the antifouling function of the photocatalyst, and reduces ionization by preventing the deposition of pollutants on the electrode pins. To prevent.

The present invention does not generate harmful substances such as ozone or nitrogen oxides when anion is generated, and continuously generates a large amount of natural anions, and the structure is simple and inexpensive, so that various applications (applications) are possible, and thus anion is required. It can be easily attached or used as a stand-alone device, and the structure of the device is not affected by the external environment such as high heat, so it can be used at ease.

Claims (9)

In the negative ion generator which generates negative high voltage in the high pressure generator to generate negative ions through the discharge electrode, It is made of a coated lead for transmitting a negative high voltage of the high-pressure generator and a discharge electrode connected to the end of the coated lead to emit anions, The coated wire is coated with anion and far-infrared radiation material to convert electrical energy into thermal energy so that the anion is released through the discharge electrode, and the anion and far-infrared radiation material is coated on the inner wall to coat the lead. Anion generator, characterized in that the coating material (21). The method of claim 1, wherein the metal lead 22, Anion generator, characterized in that made of aluminum alloy having high conductivity and high heat resistance. The method of claim 1, wherein the metal lead, As anions and far-infrared radiating materials, tourmaline solution in nano or micron units Anion and far-infrared radioactive minerals, such as jewels, Uranite, Horun Health, Meteorite, Elvanite, Diamond Stone, Cirrus, Biotite, Dragon Oyrite, or a mixture of two or more minerals, or Anion generator, characterized in that for coating the mixed solution mixed with the tourmaline solution and the mineral solution. 2. The negative ion generator as set forth in claim 1, wherein the metal conductive wire of the coated wire has a multi-wire structure formed by coating a plurality of wires on the coating material. The method of claim 1, wherein the coating material, A silicone rubber coating material is used, and an anion generator is characterized by coating a mixture or a single substance with tourmaline, anions such as the jewel, and far-infrared-generating minerals such as jewels, or ultrafine powder such as binchotan. The method of claim 1, wherein the coated wire, The negative ion generator characterized in that the carbon fiber coated with the anion and far-infrared material is loosely inserted between the plurality of metal conductors and the coating material. The method of claim 1, wherein the discharge electrode, An ion generator, characterized in that the optional discharge electrode structure can be selectively configured such that the structure of the plurality of radiation pins, the structure of a single needle, or a plurality of fine wire bundle structure. The method of claim 1, wherein the discharge electrode, An anion generator characterized by coating nano titanium oxide reacting to visible light or ultraviolet light or titanium oxide reacting to water or air. The method of claim 1, wherein the high pressure generating unit, An anion generator characterized in that the high pressure generator is constructed so as not to be influenced by the environment of external high heat by impregnating and sealing the steel insulator ceramic when the transformer, rectifier circuit, capacitor, and high pressure amplifier circuit are installed.

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