JP2006247301A - Far-infrared ray tunnelling method - Google Patents
Far-infrared ray tunnelling method Download PDFInfo
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- JP2006247301A JP2006247301A JP2005106707A JP2005106707A JP2006247301A JP 2006247301 A JP2006247301 A JP 2006247301A JP 2005106707 A JP2005106707 A JP 2005106707A JP 2005106707 A JP2005106707 A JP 2005106707A JP 2006247301 A JP2006247301 A JP 2006247301A
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Abstract
Description
家庭用の電気洗濯乾燥機は、洗濯後の水分解乾燥時間が長時間で消費電力量が掛かるのが現状であるが、化学熱変換を水36gに対し137キロカロリ−で水分解する熱常識に遠赤外線40テラヘルツ光波エネルギ−を付加し水分解を促進させ乾燥する。 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.
家庭用の電気洗濯乾燥機などに遠赤外線テラヘルツ光波エネルギ−を、アルマイト処理した槽媒体に合成熱転写する技術は、他の電気器具などにも応用が可能で電気エネルギ−を倍加する遠赤外線放射体と洗濯乾燥主槽の相対構成である。 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.
電気洗濯乾燥機は電気エネルギ−が主で、洗濯乾燥機の全体改良構造と温風吹出し効果とステンレス材の洗濯乾燥槽の温度上昇を図り水分解し乾燥を促進している。 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.
一般的に電気洗濯乾燥機は、洗濯槽と乾燥槽が同一で洗濯排水後に温風などで併用槽の温度を上昇などで乾燥に導くもので、吸熱効果がアルミニウム材に比べステンレス材は低く槽の衣類乾燥温度に到達点迄の温度上昇と経過時間で、乾燥効果と消費電力量を解決する課題がある。 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.
洗濯乾燥槽の槽外に一定間隔の洗濯乾燥槽を中心とした外枠側面に遠赤外線放射体テラヘルツ光波発振装置を設け、振動合成熱を放射し被覆アルマイト槽に授受させ、洗濯乾燥槽の内側面と外側面から位相の物性を放射させ衣類乾燥の温度飽和点に上昇させ、外側面放射の合成熱を洗濯乾燥の主槽内に循環吹出しで温度維持し、テラヘルツ波は単細胞菌の殺菌と衣類の乾燥短縮効果と消費電力量の省エネを図ることができる。 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.
遠赤外線テラヘルツ発振装置放射体を、電気洗濯乾燥槽の一定間隔の距離外枠側面に設け、電気洗濯乾燥槽をアルミ合金を被覆処理し電極孔から正電荷の振動合成熱を放射させる熱変換と、酸素族の核外電子配置の電子数を電離と、正電荷に因る酸素の負電荷を等しくさせるイオン的反応で主槽内の含有水を分解する。 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.
遠赤外線光ので40テラヘルツ波を放射する放射体を、電気洗濯乾燥の外枠側面に設けアルマイト被覆処理したアルミ合金の洗濯乾燥槽に向け放射し、洗濯乾燥槽がテラヘルツ波の位相エネルギ−を吸光授受し、吸光物性を槽内と槽外側面から振動波で放出し、槽内に放出された振動波は、酸素の核外電子配置の電子数の解離と、酸素粒子の負電荷は正電荷波を吸光させ、正と負の電荷を等しくしさせ中性電荷で水の存在を失わせる。 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.
電気洗濯乾燥機は主洗濯乾燥槽と、其の乾燥効果を維持する外枠構造体の2槽と化粧枠からなり、化粧枠内の外側槽側面に遠赤外線放射体テラヘルツ波を設け、主な洗濯乾燥槽をアルミ合金をアルマイト処理で槽側表面の電極孔層に向け放射すると、テラヘルツ波位相のエネルギ−を吸光授受し、洗濯乾燥槽の両側に授受した位相のエネルギ−放出し乾燥短縮効果を表す。50%と消使電力量は30%以上を模擬実験では表現した。 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.
以下、この発明の実施例を図に基き説明する。
図1は、遠赤外線テラヘルツ光波放射体(A)と、アルミ合金をアルマイト処理した洗濯乾燥槽(B)との位置関係を示す。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.
図2は、この発明に係わる洗濯乾燥槽円形に則した凹形状し、物性トンネリンクが可能な遠赤外線テラヘルツ光波放射体の完成図で位相のエネルギ−を放射する。 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.
図3は、電気洗濯乾燥槽部のでアルミ合金をアルマイト処理し電極層を付加した断面図図2の遠赤外線放射体のテラヘルツ光波放射の位相エネルギ−をトンネリンク授受する槽で、主の洗濯乾燥槽が授受した位相のエネルギ−を槽側面の両側に放出する物性をもつ。 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.
図4は、図1の遠赤外線テラヘルツ光波の放射体を槽部の外枠側面に設け、図2のアルミ合金をアルマイト処理し電極層を付加した洗濯乾燥槽とトンネリンク方式の相対位置関係を示す。 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.
図5は、図2遠赤外線放射体を主槽の外枠側面に固定する支持取付座であるが、外枠側面体に図2を組込み加工も可能である。 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.
遠赤外線テラヘルツ光波放射体図1と、アルミ合金のアルマイト処理で電極層を付加した主槽図2に衣類を投入状態で、トンネリンク方式の乾燥効果を実験確認すると、市販の電気洗濯乾燥機の乾燥時間と消費電力量の実証例に比べると、乾燥時間と消費電量の乾燥時間短縮と省エネが大幅に確認された。 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.
電気洗濯乾燥機の縦・横・斜め形態や遠赤外線放射体テラヘルツ波の位相エネルギ−を応用する電気製品類および乾燥などの目的装置。 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.
同一の消費電力量で遠赤外線テラヘルツ光波放射が付加で、2ツのエネルギ−の応用が可能になる製品群。 A product group that enables the application of two energy sources by adding far-infrared terahertz lightwave radiation with the same power consumption.
1 テラヘルツ光波の物性が媒体にトンネリンクする形態
1−a 遠赤外線テラヘルツ光波放射体
1−b トンネリンク媒体のアルミニウム合金アルマイト処理の槽
2 遠赤外線放射体平面図
3 遠赤外線放射体側面図
4 凹形の遠赤外線放射体矢視面図
5 遠赤外線放射体裏面図
6 取付け調整ボルト
7 遠赤外線テラヘルツ光波放射体
8 主槽の外枠側面取付け座
9 電機洗濯乾燥の主槽および外枠など全体の側面図
10 主槽へトンネリンク方式の外枠
11 遠赤外線テラヘルツ光波放射体
12 洗濯乾燥槽の脱排水孔
13 外枠側面固定の取付け座
14 外枠固定取付け調整ボルト孔DESCRIPTION OF
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JP2005106707A JP2006247301A (en) | 2005-03-07 | 2005-03-07 | Far-infrared ray tunnelling method |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107460006A (en) * | 2017-08-14 | 2017-12-12 | 张达积 | Biomass steam decomposes hydrogen producer |
CN113915960A (en) * | 2021-11-05 | 2022-01-11 | 俄家齐 | Low-temperature vacuum drying device for transformer and operation method |
-
2005
- 2005-03-07 JP JP2005106707A patent/JP2006247301A/en active Pending
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107460006A (en) * | 2017-08-14 | 2017-12-12 | 张达积 | Biomass steam decomposes hydrogen producer |
CN107460006B (en) * | 2017-08-14 | 2024-05-31 | 张达积 | Hydrogen gas producer by decomposing biomass steam |
CN113915960A (en) * | 2021-11-05 | 2022-01-11 | 俄家齐 | Low-temperature vacuum drying device for transformer and operation method |
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