JP2006247301A - Far-infrared ray tunnelling method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem that hot air is mainly used for drying clothes after washing by an electric washing and drying machine for household use, etc., so that it takes more time as compared with a case by drying in the sun and more power consumption is required. <P>SOLUTION: A far-infrared terahertz light wave radiation body is incorporated onto the outer frame side surface of a washing and drying tub in a configuration where the decomposition heat of water indirectly relates to the wash drying by the hot blow. The property of the far-infrared terahertz light wave radiation body is transferred by thermophysical property to a main tub for washing and drying by a tunnelling system. The property is thermally emitted from both the side surfaces of the main tub. Then a thermion exchange reaction and the oscillation wave of terahertz light wave of forty trillions allow the nuclear atomic mass of hydrogen or oxygen to be made into an electron volt, on the basis of an oscillation condition, through the use of a dissociation ionization action concerning the number of electrons in the extranuclear electron arrangement of the hydrogen or oxygen, existence of the water is lost, and then, the clothes are dried by common usage with the decomposition heat. That is, the tunnelling system property transfer is performed concerning thermal energy and the forty trillions of oscillation wave energy with the use of the same impression electric force so as to dry the clothes and promote drying. Power consumption is also saved. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

Detailed Description of the Invention

  Electric washing dryers for home use have a long time for water splitting and drying after washing, and power consumption is long. However, it is common knowledge that chemical heat conversion is performed at 137 kilocalories for 36 g of water. Add far-infrared 40 terahertz light wave energy to accelerate water splitting and dry.

Industrial application fields

  The technology of synthetic thermal transfer of far-infrared terahertz light wave energy to an alumite-treated tank medium for household electric washing and drying machines can be applied to other electric appliances, etc., and far-infrared radiator that doubles electric energy And the relative configuration of the washing and drying main tank.

  The electric washing and drying machine mainly uses electric energy, and promotes drying by water decomposition by improving the overall structure of the washing and drying machine, the effect of blowing hot air, and increasing the temperature of the washing and drying tank made of stainless steel.

Problems to be solved by the invention

  Generally, the electric washing dryer is the same as the washing tub and the drying tub, and after washing drainage, warm air etc. leads to drying by raising the temperature of the combined tub, etc. The stainless steel material has a lower endothermic effect than the aluminum material. There is a problem of solving the drying effect and power consumption with the temperature rise and elapsed time until reaching the clothing drying temperature.

Means for solving the problem

  A far-infrared radiator terahertz light wave oscillator is installed on the side of the outer frame centered on the washing and drying tank at regular intervals outside the washing and drying tank, radiates vibration synthesis heat, and transfers it to the coated alumite tank. The physical properties of the phase are radiated from the side surface and the outer surface to raise the temperature saturation point of clothes drying, and the synthetic heat of the outer surface radiation is maintained by circulating blowing into the main washing drying tank, terahertz waves are The effect of shortening the drying of clothes and energy saving can be achieved.

  A far-infrared terahertz oscillator radiator is provided on the side of the outer frame at a predetermined distance from the electric washing / drying tank, and the electric washing / drying tank is coated with an aluminum alloy so that vibration synthesis heat of positive charges is emitted from the electrode holes. The water contained in the main tank is decomposed by an ionization reaction in which the number of electrons in the oxygen group extranuclear electron configuration is ionized and the negative charge of oxygen due to the positive charge is made equal.

Effect of the invention

  Radiant that emits 40 terahertz waves because of far-infrared light is radiated toward the aluminum alloy washing / drying bath provided on the side of the outer frame of the electric washing / drying treatment and the washing / drying bath absorbs the terahertz wave phase energy. The light absorption properties are emitted from the inside and outside of the tank as vibration waves, and the vibration waves released into the tank are the dissociation of the number of electrons in the outer electron configuration of oxygen and the negative charge of oxygen particles is positive. Absorbs the wave, equalizing the positive and negative charges and losing the presence of water with a neutral charge.

  The electric washing and drying machine consists of a main washing / drying tank, two tanks of an outer frame structure that maintains its drying effect, and a decorative frame. A far-infrared radiator terahertz wave is provided on the side of the outer tank inside the decorative frame. When the aluminum is radiated from the aluminum alloy to the electrode hole layer on the surface of the tank side by anodizing the washing / drying tank, the energy of the terahertz wave phase is absorbed and transferred, and the energy of the phase transferred to both sides of the washing / drying tank is released, thereby reducing drying. Represents. In the simulation experiment, 50% and the power consumption was 30% or more.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 shows a positional relationship between a far-infrared terahertz light wave radiator (A) and a washing / drying tank (B) obtained by anodizing an aluminum alloy.

  FIG. 2 is a completed diagram of a far-infrared terahertz light wave radiator that has a concave shape conforming to the circular shape of the washing / drying tank according to the present invention and is capable of physical properties, and radiates phase energy.

  FIG. 3 is a cross-sectional view of an aluminum washing anodized aluminum alloy and an electrode layer added thereto. FIG. 3 is a tank for transferring the phase energy of the terahertz light wave radiation of the far-infrared radiator of FIG. It has the physical property of releasing the phase energy received and received by the tank to both sides of the tank.

  4 shows the relative positional relationship between the tunnel link type and the washing / drying tank in which the far-infrared terahertz light wave radiator of FIG. 1 is provided on the outer frame side surface of the tank, and the aluminum alloy of FIG. Show.

  FIG. 5 shows a support mounting seat for fixing the far-infrared radiator shown in FIG. 2 to the outer frame side surface of the main tank, but FIG. 2 can be incorporated into the outer frame side surface.

The invention's effect

  Far-infrared terahertz light wave emitter Figure 1 and main tank with electrode layer added by anodizing aluminum alloy Compared to the demonstration example of drying time and power consumption, the drying time and power consumption shortening of drying time and power consumption were greatly confirmed.

Use of the invention

  Electric appliances that apply the vertical, horizontal, and oblique forms of electric washing dryers and the phase energy of the far-infrared radiator terahertz wave and the purpose equipment such as drying.

  A product group that enables the application of two energy sources by adding far-infrared terahertz lightwave radiation with the same power consumption.

It is the schematic which shows the tunnel link (1-a) (1-b) positional relationship of a far-infrared phase physical property to a far-infrared terahertz light wave radiator and an aluminum alloy alumite tank. It is a top view, a side view, and a back view of a concave shape of a far-infrared terahertz light wave radiator. It is the figure which fixed the concave radiator to the attachment seat for fixing the far-infrared radiator (1-a) to the main tank (1-b) for washing and drying. The state figure which can be assembled and fixed on the outer frame side surface of the washing / drying main tank of the electric washing / drying machine to form a tunnel link. The attachment seat which incorporates a far-infrared terahertz light wave radiator in the outer frame side of a main tank is shown. An analysis test report of far-infrared terahertz light emitters from Kanagawa AIST. This is a test report of the Tokyo Metropolitan Hygiene Laboratory that sterilized E. coli. This is a test report of the Tokyo Metropolitan Institute of Hygiene that sterilized green algae.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Form which physical property of terahertz light wave tunnels to medium 1-a Far-infrared terahertz light wave radiator 1-b Tank of aluminum alloy alumite processing of tunnel-link medium 2 Far-infrared radiator plan view 3 Far-infrared radiator side view 4 Concave 5 Far infrared radiator back view 6 Back view of far infrared radiator 6 Mounting adjustment bolt 7 Far infrared terahertz light wave radiator 8 Side mounting seat of outer frame of main tank 9 Main tank and outer frame of electric washing and drying etc. Side view 10 Tunnel-type outer frame 11 for main tank Far-infrared terahertz light wave radiator 12 Dewatering hole 13 for washing / drying tank Mounting seat 14 for fixing outer frame side face Outer frame fixing adjustment bolt hole

Claims (4)

  A far-infrared radiator terahertz oscillation device is provided on the outer surface of the washing / drying tank of the electric washing / drying machine at a certain distance, and the electric energy / physical properties of 40 terahertz light waves are tunneled in the washing / drying tank in which the aluminum alloy is anodized. Radiate vibration synthesis heat with positive charge into and out of the main laundry drying tank, charge action on the negative charge of the water component, ionization ionization of the number of electrons in the nuclear electron arrangement and ion exchange reaction to promote drying and save power consumption do.   The main tank for washing and drying electric clothes radiates terahertz light waves with positive charges in and out of the wall of the main tank from the electrode holes of the aluminum alloy anodized tank that received the far-infrared terahertz oscillator radiator energy through the tunnel link. The clothes drying system that radiates the far-infrared physical properties of the terahertz light wave with the same applied electric heat energy is radiated by radiating clothes drying and circulating heat to raise the main tank to the clothes drying temperature position.   Vibrating synthetic heat of far-infrared terahertz light emitters radiating to the outside of the washing / drying tank can be blown into the main tank for washing and drying by wind circulation, further promoting the effect of shortening the drying of clothes, and unicellular fungi in the environment inside and outside the main tank Sterilize.   In the main component of JIS6061 aluminum alloy that coats alumite 30μ to 50μ in a washing / drying tank that tunnels the physical properties of the far-infrared terahertz oscillator radiator, the chemical-containing component has a remarkable composition of silicon and magnesium in 15%, It must be a material that can absorb and absorb the vibration-generated heat of terahertz light waves and can generate radiation heat of far-infrared phase in and out of the washing / drying tank.

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