TW201726202A - Multi-infrared resonance device capable of activating an object to radiate infrared energy wave good for the living organism - Google Patents

Abstract

Provided is a multi-infrared resonance device, which makes use of solar energy as a main heat source and an auxiliary heating unit as an auxiliary heat source, and further applies the focused sunlight wave, the infrared radiated from a housing, an IR halogens heating lamp tube, rare earth metallic oxide, and ore to be added and multiplied with each other for resonation, thereby increasing the density of infrared energy wave. When the device is loaded into an object, the molecule vibration frequency of the object is dramatically increased to radiate infrared energy wave good for the living organism, thereby applying the activated object in life to achieve the function of health care.

Description

Multiple infrared resonance device

The invention relates to a multiple infrared resonance device, which uses solar energy as a main heat source, an auxiliary heating unit as an auxiliary heat source, and uses a focused solar wave, a casing, an IR halogen heating lamp, a rare earth metal oxide, or a ore to radiate The infrared rays multiply and resonate to enhance the density of the infrared energy wave, and are loaded into the object to make the molecular vibration frequency of the object jump, radiate the infrared energy wave beneficial to the biological body, and then use the activated object in the life to achieve the health effect. .

About 3% of ultraviolet light, 44% of visible light, and 53% of infrared light in the composition of sunlight, the long-term evolution process, the movement of molecules in the material on the earth, the phenomenon of radiant energy released or absorbed It happens to fall in the infrared energy frequency region. It has been found that when the biological body is subjected to infrared energy wave radiation, the molecular frequency is matched, and the same frequency resonance phenomenon occurs. The biological organism molecules are excited to relatively raise the vibration energy level, and the activity of water molecules, nucleic acids and protein molecules is enhanced. Promote enzyme synthesis, and form a thermal reaction, which causes microvascular expansion, enhanced blood circulation, metabolism of old waste and harmful accumulations in the living organism, thereby improving the body's immunity and the ability of biological cells to regenerate, and achieving self-repair of biological organisms. The role of health care.

Although the above-mentioned infrared rays beneficial to living organisms have been used in the space of daily life for many years, the use of infrared rays is directly added in the process of manufacturing finished products. Materials with infrared energy cannot be more commonly used for living because of the complicated manufacturing process, long cycle, and high cost of manufacturing materials with infrared energy. For example, the patent predecessor: "M266067" multi-purpose nano far infrared energy device; "I496975" far infrared health care equipment manufacturing method, far infrared wall and far infrared floor; "I415647" energy stone manufacturing method.

In addition, far-infrared energy cups, energy stones and other products often cause improper use of the method for a period of time, and the far-infrared energy gradually declines, relying on a device to restore its original performance to avoid waste of utensils. (For example, if the object with far-infrared energy is heated, when the temperature of the object is high, it will contact the cold-cold material, causing the object itself to rapidly cool down, resulting in internal molecular motion failure and energy degradation.)

In addition, at present, the far-infrared function method is used, and only the material with far-infrared radiation is emphasized singly, and the absorption and consumption of far-infrared rays by other components are not dealt with, and the infrared reflected wave and the penetrating wave are not incorporated into the application. Most of the beneficial waste of infrared waves is a waste of effort, resulting in half the regrets. For example, the patent case: "M247808" includes a hot furnace that defines a vertical separation of two-stage far-infrared panel heaters in a multi-stage drying chamber.

The reason is that the present invention is directed to the problems encountered in the generation of infrared rays of existing devices, and actively seeks solutions, and develops an energy loading device by which to overcome existing problems.

In quantum mechanics, each particle has its own corresponding material resonance wave. Therefore, the interaction between atoms in a substance is not harmonious. The larger the difference between the two radiation waves, the more mutual interference occurs. The smaller the frequency difference, the more resonance Combine to create a new radiant wave. Therefore, changing the properties of a substance can change its hidden quantum field, through the resonance principle and absorption frequency. The superimposed radiation waves obtain the energy difference between the two quantum states, reaching the higher frequency of the quake frequency of the quantum field.

Therefore, the present invention mainly provides a multi-infrared resonance device, which can simplify the complexity of processing and manufacturing, reduce the man-hour and cost, and can improve the energy of the far-infrared product which is depleted due to improper use, and achieve reactivation, and long-term It can be widely used in various utensils to enhance its popularization and health effects.

The device has a housing unit which is a copper alloy ball shape. The front of the housing unit is provided with a switchable door. A filter focusing unit is disposed above the housing unit, and the outermost layer of the housing unit is plated with a layer of pure gold. In the housing unit, an infrared energy unit, a planar storage unit and an auxiliary heating unit are arranged, and each unit component composed of the device is selected and processed in the material to have the function of infrared radiation or reflection to achieve The multiplication effect of multiple infrared energy resonance causes the molecules of the object loaded with the infrared energy wave to repeatedly obtain the energy difference of the quantum state. When the energy efficiency jumps to the critical state of the material molecule, the object molecules are excited to reach the self. Motion resonance mode, the object can be used to radiate infrared rays for a long time.

101‧‧‧door

102‧‧‧foot stand

103‧‧‧Temperature setting switch

104‧‧‧Time setting switch

105‧‧‧Power cord

201‧‧‧"L" type copper sheet

202‧‧‧Sensor

203‧‧‧Flexible wires in the housing

211‧‧‧Sheet unit

212‧‧‧Filter focusing unit

213‧‧‧Infrared energy unit

214‧‧‧Floor unit

215‧‧‧Auxiliary heating unit

230‧‧‧ Surface of the housing unit 211

240‧‧‧ inside the housing unit 211

Figure 1 is a schematic view of the appearance of the casing of the present invention.

Figure 2 is a schematic view of the interior of the housing of the present invention.

The above and other objects and advantages of the present invention will become more apparent from the aspects of the invention. The present invention provides a multiple infrared resonance device The device comprises a housing unit 211, which is a spherical copper alloy substrate for receiving sunlight light and thermal energy. As a main heat source of the multiple infrared resonance device, the copper alloy substrate of the housing unit 211 comprises copper 92% and The material with radiation infrared is iron oxide (Fe2O3) 3%, yttrium oxide (GeO2) 3%, rare earth metal oxide lanthanum (EuO) 2%, and the semicircular spherical shape of the two inner hollows is coupled into a spherical spherical shell. The surface 230 of the casing unit 211 is plated with a layer of nickel of 3 micrometers thickness, and then a layer of gold of 3 micrometers is plated on the nickel, and the reflection ability of the infrared light by the gold is close to 100%, which can be generated in the casing unit 211. The infrared rays are constantly reflected back into the housing unit 211 to resonate. The inner surface 240 of the shell unit 211 is sandblasted with a particle size of 16mesh, and roughened to increase the area of the shell unit 211 radiating and reflecting infrared light waves, thereby roughening the inner surface of the shell unit 211 with oxygen. And oxidizing treatment of acetylene heating, thereby increasing the infrared light wave radiated by the casing unit 211.

A filter focusing unit 212, which is a convex lens made of non-oxide chalcogenide glass, is disposed above the housing unit 211 for blocking the received solar light wave and blocking the short-wave light above the green light and the blue light. And stacking red light and infrared rays in the housing unit 211 to promote resonance at the same frequency to generate infrared rays with higher energy density and intensity.

An infrared energy unit 213 is a sealed cylindrical quartz glass container filled with ore and metal oxide containing radiation, including tourmaline 20%, graphite 25%, alumina (Al2O3) 15%, and oxidation.矽(SiO2) 10%, iron oxide (Fe2O3) 10%, zirconia (ZrO2) 5%, titanium oxide (TiO2) 5%, cerium oxide (GeO2) 5%, rare earth metal oxide lanthanum (Re2O3) 2%, Rare earth metal oxide lanthanum (Ce2O3) 2%, rare earth metal oxide lanthanum (TbO2) 1%, and pulverized into particles of 200 micron to 300 micron particle size to increase the total surface area of the radiant infrared rays, set in The housing unit 211 is located inside, located at The focus of the filter focusing unit 212 is concentrated at a focus, horizontal position, and fixed by four "L" type copper sheets 201.

A planar storage unit 214 is a cylindrical flat copper alloy substrate, which is composed of copper 92%, and has infrared radiant material (Fe2O3) 3%, cerium oxide (GeO2) 3%, rare earth metal oxide 铕(EuO) 2%, casting molding, and then 16mesh diamond blasting, surface roughening, to increase the area of radiation and reflection of infrared light waves, and then oxidation treatment by oxygen, acetylene heating to increase the planar storage unit 214 The radiated infrared light wave is disposed inside the housing unit 211 at a horizontal position from the bottom of the housing unit 211 to the center of the spherical shape of the housing unit 211 for placing the energy of the multiple infrared resonance. Loaded object.

An auxiliary heating unit 215 is an IR halogen heating lamp tube and is covered with a material of 2 mm to 8 mm granular irradiance ore and metal oxide, including tourmaline 20%, graphite 25%, alumina (Al2O3). 15%, cerium oxide (SiO2) 10%, iron oxide (Fe2O3) 10%, zirconia (ZrO2) 5%, titanium oxide (TiO2) 5%, cerium oxide (GeO2) 5%, rare earth metal oxide lanthanum ( Re2O3) 2%, rare earth metal oxide cerium (Ce2O3) 2%, rare earth metal cerium oxide (TbO2) 1%. Among them, the material with radiation infrared is used as the auxiliary heat storage of IR halogen heating lamp and the auxiliary heat storage of solar heat. When storing heat, it stimulates the infrared radiation material to radiate higher energy density infrared rays, and with IR halogen heating lamp. The emitted infrared rays resonate and resonate with each other inside the casing unit 211. The auxiliary heating unit 215 is disposed inside the housing unit 211 at the bottom of the housing unit 211 at a position below the planar storage unit 214.

A door body 101 is disposed in front of the housing unit 211. The door body 101 is also a part of the housing unit 211, that is, after all the processes of the housing unit 211 are completed, cutting and welding are performed, and welding is performed. It is made up of door shafts and door handles for easy access to objects.

Outside the housing unit 211, the lower horizontal position, taking an arc amount, three sets of tripods 102 assembled by inner and outer teeth screws are arranged, and the filter is focused by fine-tuning the screws of the three sets of tripods 102. Unit 212 can be aligned with the direction of the sun.

Objects loaded with energy from multiple infrared resonances, including metal, ceramic, ore, mineral, plastic, wood, water, etc., can be processed directly or indirectly to improve people. life.

Taking "water" as an example, on a sunny day, the multiple infrared resonance device is placed under the sun, and the container is placed in a closed container, placed on the planar storage unit 214, and the temperature setting switch 103 is adjusted at 95 ° C to adjust the time setting switch 104. In 2 hours, the energy recovery operation time of the overall multiple infrared resonance is 6 hours, wherein every 10 minutes, that is, the screw of the stand 102 is finely adjusted once, so that the filter focusing unit 212 can be aligned with the sunlight direction, since the morning. At 9 o'clock, the solar heat is heated and multi-infrared resonance reaches 11 o'clock in the morning. The power line 105 is connected to the power supply at 11 o'clock in the morning. The auxiliary heating unit 215 starts to assist the heating to the set temperature. After 2 hours, the adjustment time setting switch 104 power off, continued by solar thermal heating and multiple infrared resonance until 3 o'clock in the afternoon, and then take out the closed container containing water, the water in the container has been loaded by the energy of multiple infrared resonance to become small molecule group activated water.

211‧‧‧Sheet unit

212‧‧‧Filter focusing unit

213‧‧‧Infrared energy unit

214‧‧‧Floor unit

215‧‧‧Auxiliary heating unit

Claims (10)

A multiple infrared resonance device comprises: a housing unit, which is a spherical copper alloy substrate, comprising a solar energy source for receiving sunlight and thermal energy as a main heat source of the multiple infrared resonance device; and a filter focusing unit for including non-oxidation a convex lens made of sulfur-based glass, disposed at a position above the housing unit for blocking the received sunlight, blocking short-wave light of green light or blue light, and collecting and accumulating red light and infrared light; The energy unit is a sealed cylindrical quartz glass container, which is composed of ore and metal oxide filled with radiation infrared rays, and is disposed above the inside of the housing unit at a focus of the sun light convergence of the filter focusing unit. a horizontal storage unit, which is a cylindrical flat surface roughened and oxidized copper alloy plate disposed inside the housing unit at a bottom of the housing unit to a center of the spherical unit of the housing unit a horizontal position at 1/2 for placing an object loaded with energy of multiple infrared resonances; and an auxiliary heating unit, I The R halogen heats the lamp tube and is surrounded by a granular orbital ore and metal oxide of 2 mm to 8 mm, disposed inside the casing unit, at the bottom of the casing unit, below the plane storage unit position. The multiple infrared resonance device according to claim 1, wherein the copper alloy substrate of the housing unit comprises copper 92% and radiant infrared material iron oxide (Fe2O3) 3%, yttrium oxide (GeO2) 3%, rare earth Metal oxide bismuth (EuO) 2%. The multiple infrared resonance device of claim 1, wherein the spherical surface of the housing unit is plated with a layer of nickel having a thickness of 3 microns, and then a layer of gold having a thickness of 3 microns is plated on the nickel. The multiple infrared resonance device of claim 1, wherein the inner surface of the spherical unit of the housing unit, It includes roughening treatment by sand blasting and oxidation treatment including heating. The multiple infrared resonance device of claim 1, wherein the filter focusing unit comprises a colored glass, a cellophane, a dyed film, and a colored solution. The multiple infrared resonance device according to claim 1, wherein the infrared energy unit has a material for irradiating infrared rays of ore and metal oxide, including tourmaline 20%, graphite 25%, alumina (Al2O3) 15%, and cerium oxide. (SiO2) 10%, iron oxide (Fe2O3) 10%, zirconia (ZrO2) 5%, titanium oxide (TiO2) 5%, cerium oxide (GeO2) 5%, rare earth metal oxide lanthanum (Re2O3) 2%, rare earth Metal oxide lanthanum (Ce2O3) 2%, rare earth metal oxide lanthanum (TbO2) 1%. The multiple infrared resonance device according to claim 1, wherein the infrared energy unit, the material of the ore or metal oxide that radiates infrared rays, is in the form of particles having a particle size of 200 μm to 300 μm. The multiple infrared resonance device according to claim 1, wherein the copper alloy plate substrate of the planar storage unit is 92% copper, and the material of the infrared ray (Fe2O3) 3%, yttrium oxide (GeO2) 3 %, rare earth metal oxide lanthanum (EuO) 2%. The multiple infrared resonance device according to claim 1, wherein the auxiliary heating unit has a material for irradiating infrared rays of ore and metal oxide, including tourmaline 20%, graphite 25%, alumina (Al2O3) 15%, and cerium oxide. (SiO2) 10%, iron oxide (Fe2O3) 10%, zirconia (ZrO2) 5%, titanium oxide (TiO2) 5%, cerium oxide (GeO2) 5%, rare earth metal oxide lanthanum (Re2O3) 2%, rare earth Metal oxide lanthanum (Ce2O3) 2%, rare earth metal lanthanum oxide (TbO2) 1%. A method for producing small molecule activated water by multiple infrared resonance, comprising: providing a multiple infrared resonance device according to claim 1 and placing it under the sun; and accommodating and placing the water in the container In the multiple infrared resonance device; the energy recovery operation time of the overall multiple infrared resonance is 6 hours; the solar heat is heated at 9:00 in the morning and the multiple infrared resonance reaches 11:00 in the morning, and the solar heat is heated at 11:00 in the morning and includes IR halogen. The heating lamp is auxiliary heated to 95 ° C and multi-infrared resonance to 1 pm, at 1 pm, the solar heat is heated and the multiple infrared resonances until 3 pm.