JP2012131763A - Method of utilizing far-infrared ray - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a substance radiating far-infrared rays containing neither heavy metals nor substances having radio activity which are harmful to human body for the purpose of health promotion by sending it by oral dosing to small intestines and radiates far-infrared rays to the surface cells of small intestines to activate them and enhance immunity as the most effective way of acting the far-infrared rays to the human body.SOLUTION: In this method, minute particles of wood charcoal, bamboo charcoal or a mixture of ceramics and wood charcoal or bamboo charcoal which have function of radiating far-infrared rays but are not digested by the human digestive system are suspended in drinking water and dosed orally, so that they radiates far-infrared rays when they pass small intestines to activate the surface cells of small intestines and enhance immunity for the purpose of health promotion.

Description

技術の分野Technology field

本発明は、健康増進を目的として経口服用する遠赤外線放射物質の組成に関する。  The present invention relates to a composition of a far-infrared radiation material that is taken orally for the purpose of promoting health.

波長が８〜１４μｍ域の遠赤外線は育成光線と呼ばれ水分子の分子振動を活発にする性質を有しており、育成光線を生命体に照射することにより、細胞内の水分を共振させ体内熱反応を起こし副作用を与えることなく健康を増進させる効果があることが知られており、伝統的にはサウナや岩盤浴として、最近では遠赤外線放射物質を電気等を用いて加熱するストーブなどにより、育成光線を発生させ皮膚へ照射することで健康促進に利用されてきたが、身体の健康を増進させる育成光線域の遠赤外線の最適な利用方法としては、一時的に強度の強い育成光線を浴びるよりも、軟らかい、すなわち微弱な育成光線を常時浴び続けることが理想的である。
発明者は遠赤外線を健康増進に有効に利用する方法に関し［特許文献１］に示す特許を出願した。既出願特許の主旨は、消化吸収しない遠赤外線放射物質を経口摂取し消化器官である小腸を通過させる間に、広い表面積を有する小腸の表面細胞へ直接遠赤外線である育成光線を作用させ健康増進を図ろうとするものであり、本発明は具体的な遠赤外線放射物質を提供するものである。Far-infrared rays having a wavelength of 8 to 14 μm are called growth rays and have the property of activating molecular vibrations of water molecules. By irradiating the organism with the growth rays, the water in the cells is caused to resonate. It is known that it has the effect of improving health without causing side effects by causing a thermal reaction, traditionally as a sauna or bedrock bath, and recently with a stove that heats far-infrared radiation using electricity etc. It has been used to promote health by generating growth rays and irradiating the skin, but as an optimal method of using far-infrared rays in the growth ray range to promote physical health, a temporarily strong growth ray is used. Ideally, it is softer, that is, it is always weakly exposed to the nurturing light rather than bathing.
The inventor has applied for a patent shown in [Patent Document 1] regarding a method of effectively using far infrared rays for health promotion. The main purpose of the patents already filed is to promote the health by directly applying far-infrared rays to the surface cells of the small intestine with a large surface area while ingesting far-infrared radiation that is not digested and absorbed and passing through the small intestine, which is a digestive organ. The present invention provides a specific far-infrared emitting material.

特願２０１０−２６８８０９  Japanese Patent Application No. 2010-268809 特開２００６−１６９１８４  JP 2006-169184 A

北海道立工業試験場報告Ｎｏ．２９３（１９９４）天然物の遠赤外放射特性 尾谷 賢（木炭の遠赤放射）  Report of Hokkaido Industrial Research Institute 293 (1994) Far-infrared radiation characteristics of natural products Ken Otani (far-red radiation of charcoal) 北海道立林産試験場 物性利用料 発表資料（１９９４）木炭の遠赤外線の利用 梅原 勝雄（低温域遠赤放射）  Hokkaido Forestry Experiment Station Material Usage Fee Presentation Material (1994) Use of Far Infrared Rays of Charcoal Katsuo Umehara (Low Temperature Far Red Radiation) 赤外線技術資料 ジャパンセンサー（株）（遠赤の水透過率）  Infrared Technical Data Japan Sensor Co., Ltd. (far red water transmittance)

天然に存在し岩石を構成する二酸化珪素（ＳｉＯ２：石英）をはじめ多くの天然鉱物が遠赤外線を放射するセラミックスとして知られており、その例として天然鉱物を用い、各種症状に対する治療効果を目的とした物質の製造方法として提案されている［特許文献２］がある。本提案は、黒鉛珪石をそのままコロイド状にして服用し、成分の一部のミネラル等を消化吸収させ利用し薬効を得ようとするものであり、効果が本発明の目的とは異なるが、黒鉛珪石は数種類の天然のセラミックスから構成される遠赤外線放射物質でもあるため本発明の遠赤外線放射物質として使用することもできる。しかし、天然鉱物をそのまま経口摂取することについては、鉱物中に微量に含有される重金属等の有害物質に対し十分な検証が必要であり、天然鉱物に代わる遠赤外線放射物質が必要であった。  Many natural minerals, including silicon dioxide (SiO2: quartz), which exists in nature and forms rocks, are known as ceramics that emit far-infrared rays. For example, natural minerals are used to treat various symptoms. There has been proposed [Patent Document 2] as a method for producing such a substance. The present proposal is intended to take graphite silica as a colloid and to obtain a medicinal effect by digesting and absorbing a part of the minerals, etc., and the effect is different from the purpose of the present invention. Since silica is also a far-infrared emitting material composed of several kinds of natural ceramics, it can also be used as the far-infrared emitting material of the present invention. However, ingestion of natural minerals as they are, sufficient verification is required for harmful substances such as heavy metals contained in trace amounts in minerals, and far-infrared radiation materials that replace natural minerals are necessary.

問題を解決するための手段Means to solve the problem

経口飲食しても身体に消化吸収されない遠赤外線放射物質として、木炭または竹炭の微細粒を単味で、または食品添加物として認められているセラミックスと混合して経口服用可能な遠赤外線放射物質として用いることにより、［特許文献１］の遠赤外線利用を図るものである。（セラミックスと木炭または竹炭を混合させた遠赤外線放射物質として、木炭または竹炭よりなる炭素５〜２０重量％、二酸化珪素５０〜７５重量％、アルミナ（Ａｌ２Ｏ３）５〜２０重量％、酸化チタン（ＴｉＯ２）３〜５重量％、の組成において各物質の微細粒を混合し、遠赤外線放射物質として用いる）  As a far-infrared radiation that can be taken orally by mixing fine particles of charcoal or bamboo charcoal with a ceramic that is recognized as a food additive as a far-infrared radiation that is not digested and absorbed by the body even after oral consumption By using it, the far-infrared use of [Patent Document 1] is intended. (Far-infrared emitting material in which ceramic and charcoal or bamboo charcoal are mixed, carbon 5-20 wt% made of charcoal or bamboo charcoal, silicon dioxide 50-75 wt%, alumina (Al2O3) 5-20 wt%, titanium oxide (TiO2 ) Mix fine particles of each substance in a composition of 3 to 5% by weight and use it as a far infrared radiation substance)

発明の効果The invention's effect

木炭または竹炭は［非特許文献１］に示されているように、天然鉱物であるセラミックスとほぼ同等の遠赤外線放射能力を有しており、また、体温程度の温度でも身体に効果を及ぼす遠赤外線を放射する機能があることが［非特許文献２］に示され、経口摂取した場合に体内の消化器官内において遠赤外線を放射することが知られている。  As shown in [Non-patent Document 1], charcoal or bamboo charcoal has a far-infrared radiation ability almost equal to that of ceramics, which are natural minerals. [Non-Patent Document 2] shows that there is a function of emitting infrared rays, and it is known that far-infrared rays are emitted in the digestive organs of the body when ingested orally.

木炭は黒一色のため従来は燃料以外には整腸剤代わりに木炭や消し炭を食する民間療法に用いられる程度であったが、従来炭焼きに従事する人々は健康で長命と云われており、現在では健康志向により一部が食用炭として用いられ木炭または竹炭を粉末を練り込んだうどん等の商品も出回わっており、経口摂取しても問題ない物質として評価されている。  Since charcoal is black, it was traditionally used for folk remedies that consumed charcoal and fire extinguisher instead of intestinal other than fuel, but traditionally people engaged in charcoal burning are said to be healthy and long-lived. Some products are used as edible charcoal due to their health consciousness, and products such as udon with powdered charcoal or bamboo charcoal are on the market, and they are evaluated as substances that can be taken orally.

このように木炭および竹炭は経口摂取しても身体に消化吸収されないため栄養分は無いが、微細粒に加工したものを単味、または他の身体に無害で消化吸収されないセラミックスの微細粒と混合したものを経口摂取することにより次の効果が得られる。  In this way, charcoal and bamboo charcoal are not digested and absorbed by the body even if ingested, so there is no nutrient, but the processed fine particles are mixed with simple or fine ceramic particles that are harmless to other bodies and are not digested and absorbed The following effects can be obtained by ingesting things.

現状の体外から遠赤外線を浴びる遠赤外線利用方法では、それなりの器具や場所が必要であり限られた時間での利用という制約があるが、遠赤外線放射物質を経口服用することにより、経口服用した遠赤外線放射物質が排出されるまでの間、すなわち消化器官を通過する間、体内で消化器官の表面細胞が微弱ながらも育成光線を浴び続けることができる遠赤外線放射物質の経口利用は、まさに生物である人にとって遠赤外線の理想的な利用方法であり、体外へ排出される分の遠赤外線放射物質を経口摂取して補うことにより副作用もなく高い健康レベルが維持可能となる。  The far-infrared method of taking far-infrared rays from the outside of the body requires a certain amount of equipment and place, and there is a restriction that it can be used for a limited time, but it was taken orally by taking far-infrared emitting substances orally. Oral use of far-infrared radiation that allows the surface cells of the digestive organ to continue to be exposed to the growing light in the body until the far-infrared radiation is discharged, that is, while passing through the digestive organ This is an ideal method for using far infrared rays for humans, and it is possible to maintain a high level of health without side effects by supplementing them by ingesting far infrared emitting substances that are discharged outside the body.

また、［非特許文献３］に育成光線域の遠赤外線は、水に大変吸収されやすく、水幕の厚さが１ｍｍもあれば、水の吸収波長の遠赤外線はほぼ１００％が水に吸収されてしまうことが示されている。このことは、遠赤外線の利用効率の点からは効果の低減と見做されるが、生物的な見方をすれば存在する水分により育成光線の強度が緩和されることとなり、約テニスコート１面分と言われている広い面積を有する小腸の表面において、接触、接近等により木炭または竹炭の微細粒が放射する育成光線を浴びた小腸の表面細胞の存在は、小腸のそこここにぬるま湯的な癒し状態が出現したことになり、身体の免疫系に大きい影響力を持つ小腸の機能の改善が生体に無理なく図られる効果がある。  In [Non-patent Document 3], far-infrared rays in the growing light range are very easily absorbed by water, and if the thickness of the water curtain is 1 mm, almost 100% of the far-infrared rays at the absorption wavelength of water are absorbed by water. It has been shown to be done. This is considered to be a reduced effect from the viewpoint of the use efficiency of far-infrared rays, but from a biological viewpoint, the intensity of the growing light is alleviated by the moisture present, and about one tennis court On the surface of the small intestine, which is said to have a large area, the presence of surface cells of the small intestine exposed to growth rays emitted by charcoal or bamboo charcoal fine particles by contact, approach, etc. The healing state has emerged, and there is an effect that the function of the small intestine, which has a great influence on the body's immune system, can be improved without difficulty in the living body.

小腸の機能改善により免疫力が向上し基礎体温が上昇することにより、疾病に罹患し難くなり健康増進に寄与するとともに、基礎体温の上昇は身体の栄養分の消費量が向上していることを示し、肥満防止にも効果がある。  Improving immunity and raising basal body temperature by improving the function of the small intestine makes it harder to suffer from diseases and contributes to health promotion, and an increase in basal body temperature indicates an increase in the consumption of nutrients in the body. Also effective in preventing obesity.

近年、各種のアレルギー症や花粉症という症状が多く見られるようになった。このような症状は小腸を含む身体の免疫機構が関係していると考えられており、小腸の表面細胞が遠赤外線を浴びることにより小腸の働きが活性化するため、このような症状を緩和する効果が期待できる。  In recent years, many symptoms such as various allergies and hay fever have been seen. These symptoms are thought to be related to the immune system of the body including the small intestine, and the action of the small intestine is activated when the surface cells of the small intestine are exposed to far-infrared rays. The effect can be expected.

本発明にて示す木炭または竹炭を微細粒に加工したものを単味で、または他の身体に無害な遠赤外線放射物質であるセラミックス微細粒と混合したものを水と混合し、一定時間放置すると木炭または竹炭の微細粒やセラミックスの微細粒は分離し底部に沈降するが、上澄み水はアルカリ飲料水となっており、身体に吸収されやすい飲料水として利用することも可能である。  When the charcoal or bamboo charcoal shown in the present invention is processed into fine particles, or mixed with fine ceramic particles that are harmless to other bodies and far infrared radiation, mixed with water, and left for a certain period of time Fine particles of charcoal or bamboo charcoal and fine particles of ceramics separate and settle to the bottom, but the supernatant water is alkaline drinking water and can be used as drinking water that is easily absorbed by the body.

本発明の効果として遠赤外線放射物質の経口摂取による健康増進を図るためには、長期にわたり微量ではあるが遠赤外線放射物質を摂り続けるために、摂取する遠赤外線放射物質は食品同様の安全性が要求され、それに該当する物質として木炭または竹炭、及び食品添加物として従来より使用されているＳｉＯ２、ＴｉＯ２等のセラミックスと木炭または竹炭の混合物を提示したが、それらを実際に用いるにあたっては、口に含んだ場合の舌触り、歯触りの感触があまりじゃりつかないように、粒径が１０μｍ以下望ましくは５μｍ以下となるように粒度合を調整して用いる。  As an effect of the present invention, in order to promote health by ingestion of far-infrared emitting materials, in order to continue to take far-infrared emitting materials for a long time, ingesting far-infrared emitting materials is as safe as food. Presented is a required mixture of charcoal or bamboo charcoal, and a ceramic or charcoal or bamboo charcoal such as SiO2 or TiO2 that has been used as a food additive in the past. When included, the particle size is adjusted so that the particle size is 10 μm or less, preferably 5 μm or less, so that the touch of the tongue and the feel of the teeth is not too much.

提示した遠赤外線放射物質の利用方法としては、提示した遠赤外線放射物質を色々な食品に練り込み、加工食品として経口摂取しても構わない。  As a method of using the presented far-infrared emitting substance, the presented far-infrared emitting substance may be kneaded into various foods and taken orally as processed foods.

体外へ排出される量を毎日一定量を続けて服用することにより効果が得られるため、あらかじめ一定量の遠赤外線放射物質を飲料水と共に携帯できるように容器に詰めておき、飲用に際して容器をよく振蕩させ、沈殿した遠赤外線放射物質の微細粒を飲料水とよく混合し、混濁状態にしたものを飲用する。  The effect is obtained by taking a certain amount of the amount discharged outside the body every day, so pack a certain amount of far-infrared emitting material in advance so that it can be carried with drinking water, and use the container well for drinking Shake and mix fine particles of precipitated far-infrared emitting material well with drinking water, and drink turbid state.

Claims (8)

消化器官において消化吸収されず、人体に有害な重金属や放射能を有する物質を含まない遠赤外線放射物質として炭素の微細粒を経口服用することを特徴とする遠赤外線放射物質の利用方法。  A method of using a far-infrared radiation material, characterized by orally taking fine particles of carbon as a far-infrared radiation material that is not digested and absorbed in the digestive tract and does not contain heavy metals harmful to the human body or a radioactive material. 請求項１の炭素が木炭または竹炭であることを特徴とする遠赤外線放射物質の利用方法。  The carbon of Claim 1 is charcoal or bamboo charcoal, The utilization method of a far-infrared radiation material characterized by the above-mentioned. 請求項２の炭素の微細粒と、人体に有害な重金属や放射能を有する物質を含まず、併せ人体の消化器官で消化吸収されない物質からなるセラミックスの微細粒が混合されてなる遠赤外線放射物質を、経口服用することを特徴とする遠赤外線放射物質の利用方法。  A far-infrared radiation material comprising a mixture of the fine carbon particles of claim 2 and ceramic fine particles which do not contain heavy metals harmful to the human body or substances having radioactivity and which are not digested and absorbed by the digestive organs of the human body. A method for using a far-infrared emitting material, characterized in that it is taken orally. 請求項３の物質組成として、木炭または竹炭よりなる炭素５〜２０重量％、ＳｉＯ２ ５０〜７５重量％、Ａｌ２Ｏ３ ５〜２０重量％、ＴｉＯ２ ３〜５重量％の組成からなることを特徴とする遠赤外線放射物質。  The material composition according to claim 3 is composed of 5 to 20% by weight of carbon made of charcoal or bamboo charcoal, 50 to 75% by weight of SiO2, 5 to 20% by weight of Al2O3, and 3 to 5% by weight of TiO2. Infrared radiation material. 請求項２の木炭および竹炭の微細粒を、飲料水と混合したものを携帯するに便利なように容器に詰め、飲用摂取することを特徴とする遠赤外線放射物質の利用方法。  A method for using a far-infrared emitting material, wherein the fine particles of charcoal and bamboo charcoal mixed with drinking water are packed in a container so as to be convenient for carrying and drinking. 請求項５の飲料水と木炭および竹炭の微細粒との混合割合が飲料水１に対し木炭及び竹炭が０．０２〜１．０重量％、望ましくは飲料水１に対し木炭及び竹炭が０．０５〜０．２５重量％、であることを特徴とする遠赤外線放射物質の利用方法。  The mixing ratio of the drinking water of claim 5 and the fine particles of charcoal and bamboo charcoal is 0.02 to 1.0% by weight of charcoal and bamboo charcoal with respect to drinking water 1, and preferably charcoal and bamboo charcoal are 0. A method for using a far-infrared emitting material, characterized by being from 0.5 to 0.25% by weight. 請求項３の遠赤外線放射物質を、飲料水と混合したものを携帯するに便利なように容器に詰め、飲用摂取することを特徴とする遠赤外線放射物質の利用方法。  A method for using a far-infrared emitting material, wherein the far-infrared emitting material according to claim 3 is packed in a container so as to be convenient for carrying a mixture of drinking water and taken for drinking. 請求項７の飲料水と遠赤外線放射物質との混合割合が飲料水１に対し遠赤外線放射物質０．０２〜１．０重量％、望ましくは飲料水１に対し遠赤外線放射物質が０．０５〜０．２５重量％、であることを特徴とする遠赤外線放射物質の利用方法。  The mixing ratio of the drinking water and the far-infrared emitting material according to claim 7 is 0.02 to 1.0% by weight of the far-infrared emitting material with respect to the drinking water 1, preferably 0.05 to 0.5% with respect to the drinking water 1. A method for using a far-infrared emitting material, which is ˜0.25% by weight.