JP2005253934A - Carrier for activating physiology of organism - Google Patents

Carrier for activating physiology of organism Download PDF

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JP2005253934A
JP2005253934A JP2004114786A JP2004114786A JP2005253934A JP 2005253934 A JP2005253934 A JP 2005253934A JP 2004114786 A JP2004114786 A JP 2004114786A JP 2004114786 A JP2004114786 A JP 2004114786A JP 2005253934 A JP2005253934 A JP 2005253934A
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coating layer
sheet
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active carrier
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Ryohei Uehara
良平 上原
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UEHARA KOGYOSHO KK
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Abstract

<P>PROBLEM TO BE SOLVED: To maintain the life, facilitate the growth, and promote the health of organisms such as human beings, animals, plants, and micro-organisms by activating the physiology of the organisms. <P>SOLUTION: A coating layer 3 is thermal-sprayed on one side surface of a sheet-like base material 2, and the outside is sealed with a coated layer 4 to form a health support card 1. The coating layer 3 is a four-layered structure consisting of a first layer 3a, a second layer 3b, a third layer 3c and a fourth layer 3d. At least eight essential micro-elements among iron (Fe), zinc (Zn), copper (Cu), manganese (Mn), nickel (Ni), cobalt (Co), molybdenum (Mo), selenium (Se), chromium (Cr), tin (Sn), iodine (I), vanadium (V), arsenic (As), fluorine (F) and silicon (Si), and a far-infrared radiation material such as ceramics or tourmaline are used in the first-fourth layers 3a-3d. Either one or a plurality of germanium (Ge), titanium oxide (TiO<SB>2</SB>) and silver (Ag) may be added, if necessary. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

本発明は、生物の生理を活性化して、人や動物,植物,微生物等の生命の維持や成長の促進、健康の増進を図ることのできる生物生理活性用担体に係り、例えば、アクセサリ等の装身具、眼鏡や腕時計、ベルト等の身の回り品、エアコンディショナ、空気清浄機、浄水器、浴槽、鍋釜等の調理用具、食器、壁紙や天井材等の内装建材、絵画やモビール等の室内装飾品、美術品、敷物、ペットの首輪や畜舎,鳥かご,水槽等のペット用品、植木鉢等の植物用品に適用可能な生物生理活性用担体に関する。  The present invention relates to a biophysiologically active carrier capable of activating the physiology of a living organism to maintain life, promote growth, and promote health of humans, animals, plants, microorganisms, etc. Personal accessories such as accessories, glasses and watches, belts, air conditioners, air purifiers, water purifiers, cooking utensils such as bathtubs and pots, tableware, interior building materials such as wallpaper and ceiling materials, interior decorations such as paintings and mobiles The present invention relates to a biophysiologically active carrier applicable to pet articles such as goods, arts, rugs, pet collars and barns, bird cages, aquariums, and plant articles such as flower pots.

ネックレスやブレスレット等の装身具では、材料の一部または全部を磁性体やチタン,酸化チタンで形成して、着用者がこの装身具を身につけることにより、血流量を増加させて、体内細胞を活性化するようにしたものが知られている。しかし、このような磁気装身具やチタン装身具の効能は、血行不良を起因とする肩こりなどの肉体疲労を軽減する程度のものにすぎなかった。  In jewelry such as necklaces and bracelets, some or all of the material is made of magnetic material, titanium, or titanium oxide, and the wearer wears this accessory to increase blood flow and activate internal cells. It is known that However, the effects of such a magnetic accessory and a titanium accessory are only those that reduce physical fatigue such as stiff shoulders caused by poor circulation.

ところで、人間に限らず、動植物や微生物がその生命を維持するには、ミネラルとも呼ばれる複数種類の微量元素が不可欠とされているが、これらの必須微量元素は、生体組織にきわめて微量しか存在しないため、食物からの摂取が欠かせない。しかし、生活の多様化した現代人の多くは、食物から必須微量元素を充分に摂ることができず、加えて、食品添加物の摂取や内外のストレス、生活リズムの崩れ等が重なり、多くの現代病を抱える原因となっている。  By the way, not only human beings, but multiple species of trace elements, also called minerals, are indispensable for animals and plants and microorganisms to maintain their lives, but these essential trace elements are present in very small amounts in living tissues. Therefore, intake from food is indispensable. However, many of the modern people who have diversified their lives cannot get enough essential trace elements from food, and in addition, the intake of food additives, internal and external stress, collapse of life rhythm, etc. It is the cause of having a modern disease.

例えば鉄分(Fe)が欠乏すると、貧血の発症や感染抵抗力の減退を招くことは広く知られており、また近年問題となっている味覚や嗅覚障害、食欲減退等の症状は、亜鉛(Zn)の欠乏が原因といわれている。このように、必須微量元素の不足が原因で発症する病気は、表1に示すごとく少なくない。  For example, it is widely known that iron (Fe) deficiency leads to the onset of anemia and a decrease in infection resistance. In addition, symptoms such as taste, olfactory disturbance, and loss of appetite, which have been problematic in recent years, are zinc (Zn). ) Is said to be the cause. As shown in Table 1, there are not a few diseases that develop due to a shortage of essential trace elements.

そこで、周期表中の少なくとも1つの元素、またはこの元素の化合物でコーティングされた担体材料からなり、前記元素が生体内において元素の形または結合した形で存在するコーテド担体を形成したものが提案されており、このコーテド担体を生体の皮膚につけたときに、生体内の必要元素が欠乏している場合は、その元素が皮膚を通して生体内に吸収され、欠乏元素を補って、生体の診断や治療に役立つとしている。(特許文献1)
特開平6−211697号公報
Therefore, a material comprising a carrier material coated with at least one element in the periodic table or a compound of this element, which forms a coated carrier in which the element exists in the form of an element or a combination in a living body is proposed. When this coated carrier is attached to the skin of a living body, if a necessary element in the living body is deficient, the element is absorbed into the living body through the skin, and the deficient element is compensated to diagnose or treat the living body. Is going to help. (Patent Document 1)
JP-A-6-211697

上述の先行技術では、周期表中の元素のうち、特に、マグネシウム,アルミニウム,クロム,マンガン,鉄,ニッケル,リチウム,カドミウム,バナジウム,チタン,スズ,ストロンチウム,銅,亜鉛,ゲルマニウム,セレン,モリブデン,銀,ビスマス,鉛または金を用いるとしているが、周期表中の元素の少なくとも1つを用いればよいのであれば、鉄や銅などの金属、アルミニウムなどの非鉄金属の表面に、クロムやニッケル,チタンをコーティングした製品、例えばネックレスやブレスレット等のアクセサリがこれに相当し、このような物は旧来から広く知れている。  In the above prior art, among the elements in the periodic table, in particular, magnesium, aluminum, chromium, manganese, iron, nickel, lithium, cadmium, vanadium, titanium, tin, strontium, copper, zinc, germanium, selenium, molybdenum, Silver, bismuth, lead, or gold is used, but if at least one of the elements in the periodic table should be used, the surface of a metal such as iron or copper, non-ferrous metal such as aluminum, chromium, nickel, A product coated with titanium, for example, an accessory such as a necklace or a bracelet, corresponds to this, and such a thing has been widely known for a long time.

また、コーテド担体に1〜2種類程度の元素を用いるのでは、生体の診断や治療にさほど役立つとは考えにくく、仮に役立つとしてもコーティングした元素のみの効果に限られ、生物の生理を充分に活性化するものではない。  In addition, using about one or two kinds of elements in the coated carrier is unlikely to be useful for diagnosis or treatment of living organisms. It does not activate.

Figure 2005253934
Figure 2005253934

そこで本発明は、生物の生理を充分に活性化して、人や動物,植物,微生物等の生命の維持や成長の促進、健康の増進を図ることのできる生物生理活性用担体を提供することを目的としている。  Therefore, the present invention provides a biophysiologically active carrier capable of sufficiently activating the physiology of a living organism, maintaining the life of humans, animals, plants, microorganisms, etc., promoting growth, and promoting health. It is aimed.

上述の目的を達成するため、第1発明の生物生理活性用担体は、基材の表面に、必須微量元素である鉄(Fe),亜鉛(Zn),銅(Cu),マンガン(Mn),ニッケル(Ni),Co(コバルト),モリブデン(Mo),セレン(Se),クロム(Cr),スズ(Sn),ヨウ素(I),バナジウム(V),ヒ素(As),フッ素(F),ケイ素(Si)のうちの少なくとも半数と、遠赤外線放射材とを含むコーティング層を形成する。  In order to achieve the above-described object, the biophysiologically active carrier of the first invention is provided on the surface of the base material with essential trace elements of iron (Fe), zinc (Zn), copper (Cu), manganese (Mn), Nickel (Ni), Co (cobalt), molybdenum (Mo), selenium (Se), chromium (Cr), tin (Sn), iodine (I), vanadium (V), arsenic (As), fluorine (F), A coating layer including at least half of silicon (Si) and a far infrared radiation material is formed.

第1発明に用いる基材として、金属,非鉄金属,合成樹脂,木,石,紙,布地,ガラス等があり、その形状には平面的や立体的なものが含まれる。必須微量元素として用いる種類は、半数を超える8種類〜15種類全部の間で任意であり、粉体または粒体の形で用いるとよい。これらの必須微量元素は、酸化物や窒化物,炭化物,ケイ化物,硼(ほう)化物であってもよい。必須微量元素の配合割合は、表1に示す一日の必要量を参酌して決定するとよい。遠赤外線放射材としては、セラミックスやトルマリン等がある。さらに、セラミックスの種類としては、アルミナ,アルミナ・クロミナ,アルミナ・シリカ,マグネシア・シリカ,フェライト・クロミナ,ジルコニア・シリカ,アルミナ・チタニア等があり、中でもアルミナ・クロミナやアルミナ・シリカ,アルミナ・ジルコニアは遠赤外線の放射量が多いので、使用するに有益である。  As the base material used in the first invention, there are metals, non-ferrous metals, synthetic resins, wood, stones, paper, fabrics, glass, and the like, and shapes thereof include planar and three-dimensional shapes. The kind used as an essential trace element is arbitrary between 8 kinds and all 15 kinds more than half, and it is good to use in the form of a powder or a granule. These essential trace elements may be oxides, nitrides, carbides, silicides, and borides. The blending ratio of essential trace elements may be determined in consideration of the daily required amount shown in Table 1. Examples of the far-infrared radiation material include ceramics and tourmaline. Furthermore, the types of ceramics include alumina, alumina / chromina, alumina / silica, magnesia / silica, ferrite / chromina, zirconia / silica, alumina / titania, among which alumina / chromina, alumina / silica, alumina / zirconia are Since the amount of far-infrared radiation is large, it is useful for use.

第1発明におけるコーティング層は、必須微量元素や遠赤外線放射材を粉体化または粒体化して高温で溶融し、これを基材の表面に溶射したり、あるいは必須微量元素や遠赤外線放射材を、一旦粉粒体にしてこれを焼結したものを用いる。なお、第1発明の生物生理活性用担体をラミネートフィルム等で密封すると、耐久性が高まってより好ましい。  In the first invention, the coating layer is formed by pulverizing or granulating essential trace elements or far-infrared radiation materials at a high temperature and spraying them on the surface of the base material, or essential trace elements or far-infrared radiation materials. Is a powder that is once sintered and then sintered. In addition, it is more preferable that the biophysiologically active carrier of the first invention is sealed with a laminate film or the like because durability is increased.

第1発明の生物生理活性用担体は、例えば、アクセサリ等の装身具,眼鏡や腕時計,ベルト等の身の回り品、エアコンディショナ、空気清浄機、浄水器、浴槽、鍋釜等の調理用具、食器、壁紙や天井材等の内装建材、絵画やモビール等の室内装飾品、美術品、ペットの首輪や畜舎等のペット用品、水槽、植木鉢等、生物が常時使用したり身近な物に用いられる。ポスターやカレンダー,壁紙,敷物等では、物自体を生物生理活性用担体で形成することができる。また、浴槽や水槽,美術品等では、生物生理活性用担体をシート状に形成して、その表面接合して用いる。なお、厚みをさほど持たないポスターやカレンダー,敷物等では、この物自体を生物生理活性用担体で形成することもできる。  The carrier for biophysiological activity of the first invention includes, for example, accessories such as accessories, personal items such as glasses, watches, belts, air conditioners, air purifiers, water purifiers, cooking utensils such as bathtubs and pots, tableware, Interior and building materials such as wallpaper and ceiling materials, interior decorations such as paintings and mobiles, art, pet items such as pet collars and barns, water tanks, flower pots, etc. For posters, calendars, wallpaper, rugs, etc., the objects themselves can be formed from a biophysiologically active carrier. In addition, in a bathtub, a water tank, a work of art, etc., a biophysiologically active carrier is formed into a sheet shape and used after surface joining. For posters, calendars, rugs, and the like that do not have a great thickness, the material itself can be formed of a biophysiologically active carrier.

上記第1発明によれば、必須微量元素と遠赤外線放射材のそれぞれから波動エネルギー(放射エネルギー)が放出され、動物や植物や微生物等の生命の体内に吸収されていく。必須微量元素から放射される波動エネルギーは、8種類〜15種類と多数であるため、対象となる生物が体内に不足する必須微量元素を補足するのに幅広く対応できる。  According to the first aspect of the invention, wave energy (radiant energy) is released from each of the essential trace elements and the far-infrared radiation material, and is absorbed into the body of life such as animals, plants, and microorganisms. The wave energy radiated from the essential trace elements is as many as 8 to 15 types, so that the target organism can widely support supplementing the essential trace elements that are insufficient in the body.

また、遠赤外線放射材から放射される波動エネルギーは、生命の育成光線とも呼ばれる遠赤外線で、人間を含む動物や植物や微生物に対して生理活性作用と成長促進作用があり、これらの生物が体内に吸収することによって、細胞の活性化や新陳代謝の促進,組織再生能力の促進,免疫力の向上効果がある。また遠赤外線は、保温や脱臭,防菌,防湿,水質浄化等の環境改善に役立つ。さらに、必須微量元素と遠赤外線放射材から放射される波動エネルギーは、無機質である空気や水にも直接的または間接的に作用する。  Wave energy radiated from far-infrared radiation materials is far-infrared radiation, also called life-raising light, and has physiological activity and growth-promoting action on animals, plants and microorganisms including humans. By absorbing it, it has the effect of promoting cell activation and metabolism, promoting tissue regeneration ability, and improving immunity. Far-infrared rays are also useful for improving the environment, such as heat retention, deodorization, bacteria prevention, moisture prevention, and water purification. Furthermore, the wave energy radiated from the essential trace elements and the far-infrared radiation material directly or indirectly acts on inorganic air and water.

生物生理活性用担体の対象が人間や動物の場合に、必須微量元素と遠赤外線放射材から放射される波動エネルギーが細胞を活性化し、毛細血管を拡張して血液の循環を促進して、生命の維持や成長の促進、健康の増進を図る。例えば、水槽内の養魚や鑑賞魚に適用した場合には、魚の生理を活性化して育成を促進したり長生きさせることができる。波動エネルギーは水槽内の水にも作用して、水質を長期間良好に維持するので、魚の育成と長寿命化に一層役立つ。また、生物生理活性用担体の対象が植物の場合には、必須微量元素と遠赤外線放射材から放射される波動エネルギーが植物の生理を活性化し、光合成を促進する。例えば、生け花の花器や観葉植物の鉢に適用した場合には、生け花や観葉植物の育成を促進し、また鮮度を長期間よく保持して長持ちさせることができる。  When the target for biophysiological activity is human or animal, wave energy radiated from essential trace elements and far-infrared emitting material activates cells, expands capillaries and promotes blood circulation. Maintain health, promote growth and promote health. For example, when applied to fish farming and appreciation fish in an aquarium, the physiology of the fish can be activated to promote growth or live longer. Wave energy also acts on the water in the aquarium to maintain good water quality for a long period of time, making it even more useful for fish growth and longer life. In addition, when the target of the biophysiological activity carrier is a plant, the essential trace elements and the wave energy emitted from the far-infrared emitting material activate the physiology of the plant and promote photosynthesis. For example, when it is applied to a flower vase or a pot of houseplants, it is possible to promote the growth of flower arrangements and houseplants, and to keep the freshness for a long period of time so that it can last for a long time.

第2発明の生物生理活性用担体は、上記第1発明のコーティング層を複数積層し、基材側のコーティング層には低融点の元素を配設し、外側のコーティング層に向かうにしたがって、順次高融点の元素を配設する。  The biophysiologically active carrier of the second invention comprises a plurality of the coating layers of the first invention, a low melting point element disposed on the substrate-side coating layer, and sequentially toward the outer coating layer. Arrange high melting point elements.

第2発明の構成によれば、基材側のコーティング層に融点の低い材料を用いることにより、基材と基材側のコーティング層とがよく馴染むので剥離しにくく、且つ錆の発生を抑制できる。さらに、基材から遠ざかるに連れて、融点の高い材料を用いることにより、各層の間の結着性が高まり、全体的な強度も向上する。したがって、製造された生物生理活性用担体をカッター等で所望の大きさに切断する場合に、破損しにくくなる。  According to the configuration of the second invention, by using a material having a low melting point for the coating layer on the base material side, the base material and the coating layer on the base material side are well adapted to each other, so that they are difficult to peel off and the generation of rust can be suppressed. . Furthermore, by using a material having a high melting point as the distance from the base material increases, the binding property between the layers increases and the overall strength also improves. Therefore, when the produced biophysiologically active carrier is cut into a desired size with a cutter or the like, it is difficult to break.

第3発明の生物生理活性用担体は、上記第1発明または第2発明において、基材をシート状に形成する。  The carrier for biophysiological activity of the third invention is the above-mentioned first invention or second invention, wherein the substrate is formed in a sheet shape.

第4発明の生物生理活性用担体は、シート状基材の内部に、必須微量元素である鉄(Fe),亜鉛(Zn),銅(Cu),マンガン(Mn),ニッケル(Ni),Co(コバルト),モリブデン(Mo),セレン(Se),クロム(Cr),スズ(Sn),ヨウ素(I),バナジウム(V),ヒ素(As),フッ素(F),ケイ素(Si)のうちの少なくとも半数と、遠赤外線放射材とを含ませる。  The biophysiologically active carrier according to the fourth aspect of the present invention has an essential trace element of iron (Fe), zinc (Zn), copper (Cu), manganese (Mn), nickel (Ni), Co inside the sheet-like substrate. (Cobalt), molybdenum (Mo), selenium (Se), chromium (Cr), tin (Sn), iodine (I), vanadium (V), arsenic (As), fluorine (F), silicon (Si) And at least half of the far-infrared radiation material.

第4発明では、必須微量元素や遠赤外線放射材を、シート状基材に織り込んだり染みこませる。シート状基材として、金属,非鉄金属,合成樹脂,木,石,紙,布地,ガラス等があり、布地では必須微量元素や遠赤外線放射材が折り込みやすく、またシリコンシート等の合成樹脂や紙は染みこませやすい。必須微量元素と遠赤外線放射材には、それぞれ第1発明と同様のものを用いることができ、外側をラミネートフィルム等で密封すると、より好ましい。  In the fourth invention, the essential trace elements and the far-infrared emitting material are woven or soaked into the sheet-like base material. There are metal, non-ferrous metal, synthetic resin, wood, stone, paper, cloth, glass, etc. as the sheet-like base material. Essential trace elements and far-infrared radiation material are easy to be folded in the cloth, and synthetic resin such as silicon sheet and paper. Is easy to soak. As the essential trace element and the far-infrared emitting material, the same materials as in the first invention can be used, respectively, and it is more preferable that the outside is sealed with a laminate film or the like.

第4発明の応用例と効果は、それぞれ第1発明と同様であり、様々な物に適用することによって、生物の生理を活性化し、生命を維持し、成長を促進し、健康を増進し、あるいは寿命を延ばすのに役立つ。  The application examples and effects of the fourth invention are the same as those of the first invention, respectively. By applying to various things, the physiology of the organism is activated, the life is maintained, the growth is promoted, the health is promoted, Or it helps to extend the life.

第5発明の生物生理活性用担体は、必須微量元素である(Fe),亜鉛(Zn),銅(Cu),マンガン(Mn),ニッケル(Ni),Co(コバルト),モリブデン(Mo),セレン(Se),クロム(Cr),スズ(Sn),ヨウ素(I),バナジウム(V),ヒ素(As),フッ素(F),ケイ素(Si)のうちの少なくとも半数と、遠赤外線放射材とを密封体の内部に封入し、該密封体を外装体の内部に収容して形成する。  The biophysiologically active carrier of the fifth invention is an essential trace element (Fe), zinc (Zn), copper (Cu), manganese (Mn), nickel (Ni), Co (cobalt), molybdenum (Mo), At least half of selenium (Se), chromium (Cr), tin (Sn), iodine (I), vanadium (V), arsenic (As), fluorine (F), silicon (Si), and far-infrared radiation material Are sealed in the inside of the sealing body, and the sealing body is accommodated and formed in the exterior body.

第5発明の必須微量元素と遠赤外線放射材には、それぞれ第1発明と同様のものを用いることができ、外側をラミネートフィルム等で密封すると、より好ましい。密封体や外装体は、軟質材または硬質材のいずれで形成してもよい。また、必須微量元素と遠赤外線放射材は、密封体に収容されるので、粉体や粒体またはこれよりも大きな塊であってもよく、大小不揃いであってもよい。したがって、製作が容易で製造コストを低く抑えることができる。  The essential trace elements and the far-infrared emitting material of the fifth invention can be the same as those of the first invention, respectively, and it is more preferable that the outside is sealed with a laminate film or the like. The sealing body and the exterior body may be formed of either a soft material or a hard material. In addition, since the essential trace elements and the far-infrared emitting material are accommodated in the sealed body, they may be powders, granules, or larger lumps, and may be irregular in size. Therefore, manufacture is easy and manufacturing cost can be kept low.

第5発明の生物生理活性用担体は、外側を外装体に被覆される立体的な形状となるため、例えば、アクセサリ等の装身具,眼鏡や腕時計,ベルト等の身の回り品,エアコンディショナ,空気清浄機,浄水器,浴槽,鍋釜等の調理用具,食器,壁紙や天井材等の内装建材,絵画やモビール等の室内装飾品,美術品,ペットの首輪や畜舎,水槽等のペット用品,植木鉢等,生物が常時使用したり身近に使用する物に設けられる。なお、生物生理活性用担体自体を、お守り袋や匂い袋、根付けやキーホルダのマスコットとすることもできる。  The biophysiologically active carrier according to the fifth aspect of the present invention has a three-dimensional shape whose outer surface is covered with an exterior body. For example, accessories such as accessories, personal belongings such as glasses, watches, and belts, air conditioners, and air purifiers. Machines, water purifiers, cooking utensils such as bathtubs and pots, tableware, interior decoration materials such as wallpaper and ceiling materials, interior decorations such as paintings and mobiles, arts, pet supplies such as pet collars and barns, water tanks, flower pots It is provided for things that organisms always use or use nearby. The biophysiologically active carrier itself may be a talisman bag, odor bag, rooting or key holder mascot.

第5発明の応用例と効果は、それぞれ第1発明と同様であり、様々な物に適用することによって、生物の生理を活性化し、生命を維持し、成長を促進し、健康を増進し、あるいは寿命を延ばすのに役立つ。  The application examples and effects of the fifth invention are the same as those of the first invention, respectively. By applying to various things, the physiology of the organism is activated, the life is maintained, the growth is promoted, the health is promoted, Or it helps to extend the life.

第6発明の生物生理活性用担体では、前記第1発明〜第5発明のいずれかにおいて、コーティング層またはシート状基材内部または密封体の内部に、ゲルマニウム(Ge)を含むものとする。  In the carrier for biophysiological activity of the sixth invention, in any one of the first invention to the fifth invention, germanium (Ge) is contained in the coating layer, the sheet-like base material or the sealed body.

第6発明のゲルマニウムは、粉体または粒体もしくはこれよりも粗目に砕いた鉱物の無機ゲルマニウムを用いる。第6発明の応用例と効果は、それぞれ第1発明〜第5発明のいずれかと同様に、様々な物への適用によって、生物の生理を活性化し、生命を維持し、成長を促進し、健康を増進し、あるいは寿命を延ばすのに役立つ。さらに、ゲルマニウムからの波動エネルギーには、生物に対する血行の促進、生体電流の活性化、免疫調整、細胞分化及び新陳代謝の促進、自然治癒力の向上効果がある。したがって、必須微量元素と遠赤外線放射材と相まって、人や動物,植物,微生物等の生物の生理をより活性化し、生命の維持や成長の促進、健康の増進が一層図れる。  The germanium according to the sixth aspect of the invention uses powder, granules, or inorganic inorganic germanium crushed coarsely. Application examples and effects of the sixth invention are the same as any one of the first invention to the fifth invention. By applying to various things, the physiology of the organism is activated, the life is maintained, the growth is promoted, and the health To help improve or extend lifespan. Furthermore, the wave energy from germanium has the effect of promoting blood circulation to living organisms, activation of bioelectric current, immune regulation, promotion of cell differentiation and metabolism, and improvement of natural healing power. Therefore, in combination with the essential trace elements and the far-infrared radiation material, the physiology of organisms such as humans, animals, plants, and microorganisms can be further activated to further maintain life, promote growth, and promote health.

第7発明の生物生理活性用担体では、前記第1発明〜第6発明のいずれかにおいて、コーティング層またはシート状基材内部または密封体の内部に、酸化チタン(TiO2)を含むものとする。  In the biophysiologically active carrier of the seventh invention, in any one of the first invention to the sixth invention, titanium oxide (TiO2) is contained inside the coating layer or the sheet-like base material or inside the sealed body.

第7発明に用いる酸化チタンは二酸化チタンであり、光エネルギー(紫外線)を受けることによって活性酸素を発生させる光触媒として作用する。すなわち、二酸化チタンから発生した活性酸素は、必須微量元素や遠赤外線放射材,ゲルマニウムをより活性化し、これらの反応速度を早めたり波動エネルギーの放射量を増大して、生物に対する生命の維持や成長の促進、健康の増進を増大する。さらにこの光触媒には、空気や水質の浄化、殺菌効果もある。  Titanium oxide used in the seventh invention is titanium dioxide, and acts as a photocatalyst that generates active oxygen by receiving light energy (ultraviolet rays). In other words, active oxygen generated from titanium dioxide activates essential trace elements, far-infrared radiation materials, and germanium, and accelerates their reaction rate or increases the amount of wave energy radiation to maintain and grow life for living organisms. Increase the promotion of health and health. Furthermore, this photocatalyst also has air and water purification and sterilization effects.

第7発明の応用例と効果は、それぞれ第1発明〜第6発明のいずれかと同様に、様々な物への適用によって、生物の生理を活性化し、生命を維持し、成長を促進し、健康を増進し、あるいは寿命を延ばすのに役立つ。さらに第7発明の二酸化チタンは、必須微量元素と遠赤外線放射材と相まって、生物に対する生命の維持や成長の促進、健康の増進を増大する。  Application examples and effects of the seventh invention are the same as any one of the first invention to the sixth invention. By applying to various things, the physiology of the organism is activated, the life is maintained, the growth is promoted, and the health To help improve or extend lifespan. Furthermore, the titanium dioxide of the seventh invention, combined with the essential trace elements and the far-infrared emitting material, increases the maintenance of life, the promotion of growth, and the promotion of health.

なお、酸化チタンは、必須微量元素や遠赤外線放射材,ゲルマニウムの効果をより高めるため、これらよりもできるだけ外側に配置して、光エネルギーをより受けるようにすることが望ましい。  In addition, in order to enhance the effects of essential trace elements, far-infrared radiation materials, and germanium, titanium oxide is preferably disposed as far as possible from these so as to receive light energy more.

第8発明の生物生理活性用担体では、前記第1発明〜第7発明のいずれかにおいて、コーティング層またはシート状基材内部または密封体の内部に、銀(Ag)を含むものとする。  In the biophysiologically active carrier of the eighth invention, in any one of the first to seventh inventions, silver (Ag) is contained in the coating layer, the sheet-like base material, or the sealed body.

第8発明の銀は、粉体または粒体もしくはこれよりも大きな塊状のものが用いられる。第8発明の応用例と効果は、それぞれ第1発明〜第7発明のいずれかと同様に、様々な物への適用によって、生物の生理を活性化し、生命を維持し、成長を促進し、健康を増進し、あるいは寿命を延ばすのに役立つ。また、銀から放射される波動エネルギーは、抗菌・除菌、消臭、保温能力に優れ、血行の促進、免疫調整、細胞分化及び新陳代謝の促進、自然治癒力の向上効果がある。したがって、必須微量元素と遠赤外線放射材,ゲルマニウム,二酸化チタンとともに、人や動物,植物,微生物等の生物の生理をより活性化し、生命の維持や成長の促進、健康の増進が一層図れる。  The silver of the eighth invention is used in the form of powder or granules or a larger lump. The application examples and effects of the eighth invention are the same as any one of the first to seventh inventions. The application to various things activates the physiology of organisms, maintains life, promotes growth, and promotes health. To help improve or extend lifespan. The wave energy radiated from silver is excellent in antibacterial / disinfecting, deodorizing, and heat retaining ability, and has the effect of promoting blood circulation, immune regulation, cell differentiation and metabolism, and improving natural healing power. Therefore, together with the essential trace elements, far-infrared radiation materials, germanium, and titanium dioxide, the physiology of organisms such as humans, animals, plants, and microorganisms can be further activated to further maintain life, promote growth, and promote health.

本発明の生物生理活性用担体によれば、人や動物,植物,微生物の生理を活性化し、細胞の活性化や新陳代謝の促進,組織再生能力の促進,免疫力の向上を図って、これら生物の生命を良好に維持したり、成長を促進したり、健康を増進したり、あるいは寿命を延ばすことができるようになる。さらに本発明は、保温や脱臭,防菌,防湿,水質浄化等の環境改善にも役立つ。  According to the biophysiological activity carrier of the present invention, the physiology of humans, animals, plants, and microorganisms is activated, the activation of cells, the promotion of metabolism, the promotion of tissue regeneration, and the improvement of immunity are achieved. You will be able to maintain good life, promote growth, improve health, or extend lifespan. Furthermore, the present invention is also useful for improving the environment such as heat retention, deodorization, sterilization, moisture prevention, and water purification.

以下、本発明の生物生理活性用担体を、着用者の健康維持や増進を主目的としたカードに適用した第1形態例を図1及び図2に基づいて説明する。図中、図1はカードの一部拡大断面図、図2は同じくカードの斜視図である。なお、以下の表2〜表5に示す試験結果は、外部の検査機関に依頼して得たデータである。  Hereinafter, a first embodiment in which the biophysiologically active carrier of the present invention is applied to a card whose main purpose is to maintain and enhance the health of the wearer will be described with reference to FIGS. 1 is a partially enlarged cross-sectional view of the card, and FIG. 2 is a perspective view of the card. The test results shown in Tables 2 to 5 below are data obtained by requesting an external inspection organization.

健康維持や増進を目的としたカード(以下、健康維持カードという)1は、定期券やクレジットカード程度の大きさで、ボール紙等の厚紙や金属薄板等で形成されるシート状基材2と、該シート状基材2の一側面に積層されるコーティング層3と、シート状基材2及びコーティング層3の外側全体を密封して被う被覆層4とからなっている。コーティング層3は、シート状基材2側から順に、第1層3a、第2層3b、第3層3c、第4層3dの4層構造となっており、コーティング層3の表面層となる第4層3dの外面には、このカード1が健康の増進や維持を目的としていることを示す文字5aや図柄5bが描かれている。  A card (hereinafter referred to as a health maintenance card) 1 for the purpose of maintaining and improving health is a size of a commuter pass or a credit card, and a sheet-like base material 2 formed of cardboard or a thin metal sheet, etc. The coating layer 3 is laminated on one side surface of the sheet-like substrate 2, and the coating layer 4 that covers and covers the entire outside of the sheet-like substrate 2 and the coating layer 3. The coating layer 3 has a four-layer structure of a first layer 3 a, a second layer 3 b, a third layer 3 c, and a fourth layer 3 d in order from the sheet-like substrate 2 side, and becomes a surface layer of the coating layer 3. On the outer surface of the fourth layer 3d, there are drawn characters 5a and symbols 5b indicating that the card 1 is intended to promote and maintain health.

シート状基材2には、健康維持カード1よりも大きなボール紙等の厚紙や金属薄板等用いられ、その一側面にコーティング層3を溶射したのち、シート状基材2を所要の大きさに切断し、それぞれを被覆層4で密封して健康維持カード1を得る。  The sheet-like substrate 2 is made of cardboard or a metal sheet larger than the health maintenance card 1, and after the coating layer 3 is sprayed on one side, the sheet-like substrate 2 is made to a required size. It cut | disconnects and each is sealed with the coating layer 4, and the health maintenance card | curd 1 is obtained.

第1層3a〜第4層3dには、鉄(Fe),亜鉛(Zn),銅(Cu),マンガン(Mn),ニッケル(Ni),Co(コバルト),モリブデン(Mo),セレン(Se),クロム(Cr),スズ(Sn),ヨウ素(I),バナジウム(V),ヒ素(As),フッ素(F),ケイ素(Si)の少なくとも半数を越える8種類の必須微量元素と、セラミックスやトルマリン等の遠赤外線放射材とを使用し、必要に応じてゲルマニウム(Ge)や酸化チタン(TiO2),銀(Ag)のいずれか1つまたは複数を追加して、シート状基材2の一側面へ4層に溶射することにより、前述のコーティング層3を構成する。なお、各必須微量元素の配合割合は、体温の上昇と血流量の増加、生体免疫機能の向上のいずれかを目的にするかによって異なるが、表1に示す一日の必要量を参酌して決定される。  The first layer 3a to the fourth layer 3d include iron (Fe), zinc (Zn), copper (Cu), manganese (Mn), nickel (Ni), Co (cobalt), molybdenum (Mo), selenium (Se ), Chromium (Cr), Tin (Sn), Iodine (I), Vanadium (V), Arsenic (As), Fluorine (F), Silicon (Si), more than 8 essential trace elements and ceramics Or far-infrared radiation material such as tourmaline, and any one or more of germanium (Ge), titanium oxide (TiO2), and silver (Ag) is added as necessary. The aforementioned coating layer 3 is formed by spraying four layers on one side. In addition, the blending ratio of each essential trace element varies depending on whether the purpose is to increase body temperature, increase blood flow, or improve biological immunity function, but taking into account the daily requirements shown in Table 1. It is determined.

コーティング層3の材料は、シート状基材2側に融点の低いものを用い、シート状基材2から遠ざかるにしたがって、融点の高いものを用いる。例えば、第1層3aや第2層3a、3bに、低融点の亜鉛やスズを用いることにより、シート状基材2とよく馴染んで剥離しにくくなり、錆の発生を抑制できる。また、シート状基材2から遠ざかるに連れて、融点の高い材料を用いることにより、各層の間の結着性が高まり、全体的な強度も向上する。したがって、カード1をカッター等で所要の大きさに切断する場合に、破損しにくくなる。また、表面層である第4層3dには、銅(Cu)や銀(Ag)を化粧材として用いると、質感が高まってかつ美麗である。  As the material of the coating layer 3, a material having a low melting point is used on the sheet-like substrate 2 side, and a material having a high melting point is used as the distance from the sheet-like substrate 2 increases. For example, by using low melting point zinc or tin for the first layer 3a or the second layer 3a, 3b, it becomes well adapted to the sheet-like substrate 2 and hardly peels off, and the generation of rust can be suppressed. Moreover, by using a material having a high melting point as the distance from the sheet-like base material 2 increases, the binding property between the layers increases and the overall strength also improves. Therefore, when the card 1 is cut into a required size with a cutter or the like, it is difficult to break. In addition, when copper (Cu) or silver (Ag) is used as a decorative material for the fourth layer 3d as the surface layer, the texture is enhanced and beautiful.

光触媒を目的とする酸化チタンは、触媒効果を高めるために、外光を受けやすい最外層の第4層3dに用いることが望ましい。被覆層4には、透明で且つ防水性のある合成樹脂製のラミネートフィルムを用い、このラミネートフィルムでシート状基材2とコーティング層3の外側全体を密封して覆うことにより、内部への水分の浸入を防ぎながら、コーティング層3表面の文字5aや図柄5bも容易に読み取れる。  Titanium oxide for the purpose of photocatalyst is desirably used for the outermost fourth layer 3d that is susceptible to external light in order to enhance the catalytic effect. The covering layer 4 is made of a transparent and waterproof synthetic resin laminate film, and the laminate film covers and seals the entire outside of the sheet-like substrate 2 and the coating layer 3 to provide moisture to the inside. The character 5a and the pattern 5b on the surface of the coating layer 3 can be easily read while preventing the intrusion.

このように構成される健康維持カード1は、コーティング層3の第1層3a〜第4層3dに用いた必須微量元素や遠赤外線放射材、あるいはゲルマニウム,酸化チタン,銀のそれぞれから人体に有益な微量のエネルギーを放射する。各波動エネルギーは、衣服や身の回り品の比較や合成樹脂材料を透過するため、着用者が健康維持カード1を直接身につけたり、肌着の上やポケット等のいずれの部位に身につけても体内に吸収されていく。着用者の体内に取り込まれた必須微量元素の波動エネルギーは、着用者に不足する元素を補うのはもちろんのこと、遠赤外線放射材やゲルマニウム,酸化チタン,銀からの波動エネルギーと相まって、体温の上昇や血流量の増加、生体免疫機能を向上して、着用者の健康を維持したり健康を増進する。  The health maintenance card 1 configured as described above is beneficial to the human body from the essential trace elements and far-infrared radiation materials used in the first layer 3a to the fourth layer 3d of the coating layer 3, or germanium, titanium oxide, and silver. Radiates a small amount of energy. Each wave energy passes through clothing and personal items, and through synthetic resin materials, so the wearer can wear the health maintenance card 1 directly or put it on any part of the body such as an underwear or pocket. It will be absorbed. The wave energy of the essential trace elements taken into the wearer's body not only compensates for the elements that the wearer lacks, but also combines with the wave energy from far-infrared radiation materials, germanium, titanium oxide, and silver. Increases, increases blood flow, improves biological immunity, maintains wearer's health and promotes health.

次に、上記形態例の健康維持カード1に基づいて行った試験例を具体的に説明する。本試験例は以下のA、B、Cの3タイプを試験した。タイプA〜Cのいずれも、シート状基材2を厚紙とし、コーティング層3に必須微量元素とセラミックスとを共通して用い、第1層3a〜第4層3dの各層の厚さを50μm〜100μmの範囲とし、被覆層4として、シート状基材2とコーティング層3の外側全体を合成樹脂製のラミネートフィルムで被覆した。  Next, an example of a test performed based on the health maintenance card 1 of the above embodiment will be specifically described. In this test example, the following three types A, B, and C were tested. In any of the types A to C, the sheet-like substrate 2 is a thick paper, the essential trace elements and ceramics are commonly used for the coating layer 3, and the thickness of each of the first layer 3a to the fourth layer 3d is 50 μm to The entire outside of the sheet-like substrate 2 and the coating layer 3 was covered with a synthetic resin laminate film as the covering layer 4.

また、各タイプA〜Cのコーティング層3の成分配合は以下の通りである。
(タイプA)
第1層3a:亜鉛(Zn)
第2層3b:鉄(Fe),マンガン(Mn),ニッケル(Ni),Co(コバルト),モ リブデン(Mo),セレン(Se),クロム(Cr),スズ(Sn),ヨウ 素(I),バナジウム(V),ヒ素(As),フッ素(F),ケイ素(Si ),ゲルマニウム(Ge),酸化チタン(TiO2)
第3層3c:セラミックスとしてジルコニアとアルミナ・クロミナ、ゲルマニウム(Ge )
第4層3d:銅(Cu),酸化チタン(TiO2)
(タイプB)
第1層3a:亜鉛(Zn)
第2層3b:鉄(Fe),マンガン(Mn),ニッケル(Ni),Co(コバルト),モ リブデン(Mo),セレン(Se),クロム(Cr),スズ(sn),ヨウ 素(I),バナジウム(V),ヒ素(As),フッ素(F),ケイ素(Si ),ゲルマニウム(Ge),酸化チタン(TiO2)
第3層3c:ゲルマニウム(Ge)
第4層3d:銅(Cu)
(タイプC)
第1層3a:亜鉛(Zn)
第2層3b:鉄(Fe),マンガン(Mn),ニッケル(Ni),Co(コバルト),モ リブデン(Mo),セレン(Se),クロム(Cr),スズ(Sn),ヨウ 素(I),バナジウム(V),ヒ素(As),フッ素(F),ケイ素(Si ),酸化チタン(TiO2)
第3層3c:セラミックスとしてジルコニアとアルミナ・クロミナ
第4層3d:銅(Cu)
Moreover, the component mixing | blending of each type AC coating layer 3 is as follows.
(Type A)
First layer 3a: zinc (Zn)
Second layer 3b: iron (Fe), manganese (Mn), nickel (Ni), Co (cobalt), molybdenum (Mo), selenium (Se), chromium (Cr), tin (Sn), iodine (I ), Vanadium (V), arsenic (As), fluorine (F), silicon (Si), germanium (Ge), titanium oxide (TiO2)
Third layer 3c: zirconia, alumina / chromina, and germanium (Ge) as ceramics
Fourth layer 3d: copper (Cu), titanium oxide (TiO2)
(Type B)
First layer 3a: zinc (Zn)
Second layer 3b: iron (Fe), manganese (Mn), nickel (Ni), Co (cobalt), molybdenum (Mo), selenium (Se), chromium (Cr), tin (sn), iodine (I ), Vanadium (V), arsenic (As), fluorine (F), silicon (Si), germanium (Ge), titanium oxide (TiO2)
Third layer 3c: germanium (Ge)
Fourth layer 3d: Copper (Cu)
(Type C)
First layer 3a: zinc (Zn)
Second layer 3b: iron (Fe), manganese (Mn), nickel (Ni), Co (cobalt), molybdenum (Mo), selenium (Se), chromium (Cr), tin (Sn), iodine (I ), Vanadium (V), arsenic (As), fluorine (F), silicon (Si), titanium oxide (TiO2)
Third layer 3c: Zirconia and alumina / chromina as ceramics Fourth layer 3d: Copper (Cu)

このように構成される3タイプの健康維持カード1を用いて、それぞれ熱特性試験と血流量試験と生体免疫機能試験とを行った。いずれの試験も、被験者は32歳の健常な女性である。まず、熱特性試験では、上衣を着用した被験者が室温25℃の部屋で椅子に腰掛けて、安静状態を10分間保ったのち、レーザドップラ血流計を用いて被験者の血流量を20分間測定した。次に、被験者の胸部に直接健康維持カード1のタイプA〜Cを装着し、レーザドップラ血流計で被験者の血流速度と血流量の変化を20分間測定、表2〜表4を得た。  Using the three types of health maintenance cards 1 configured as described above, a thermal characteristic test, a blood flow test, and a biological immune function test were performed, respectively. In both tests, the subject is a 32 year old healthy woman. First, in a thermal property test, a subject wearing a garment sat on a chair in a room at room temperature of 25 ° C. and kept at rest for 10 minutes, and then the blood flow of the subject was measured for 20 minutes using a laser Doppler blood flow meter. . Next, the types A to C of the health maintenance card 1 were directly attached to the subject's chest, and the changes in the blood flow velocity and the blood flow of the subject were measured for 20 minutes with a laser Doppler blood flow meter. Tables 2 to 4 were obtained. .

Figure 2005253934
Figure 2005253934

Figure 2005253934
Figure 2005253934

表2は、レーザドップラ血流計で測定したデータをコンピュータ処理して、血流速度と血流量に数値化し、また表3は、表2の血流速度と血流量の平均値の比較を示したもので、血流速度と血流量のいずれも、タイプA〜Cが未装着よりも高い数値を示した。  Table 2 is a computer process of data measured with a laser Doppler blood flow meter and digitized into blood flow velocity and blood flow. Table 3 shows a comparison of the average values of blood flow velocity and blood flow in Table 2. Therefore, both the blood flow velocity and the blood flow volume were higher in the types A to C than in the case of no wearing.

生体免疫機能試験では、波動測定器としてQRS(Quantum Resonance Spectrometer)を用い、タイプA〜Cの波動エネルギーの放射量である波動値を測定した。表4は、健康維持カード1を単体で測定した波動値を示している。  In the biological immunity function test, QRS (Quantum Resonance Spectrometer) was used as a wave measuring device, and a wave value, which is a radiation amount of wave energy of types A to C, was measured. Table 4 shows the wave values obtained by measuring the health maintenance card 1 alone.

Figure 2005253934
Figure 2005253934

物質自体が持つ波動値は、一般に水道水で0、ミネラル水で28〜30程度であり、波動エネルギーの放射量が格段に多いといわれるトルマリン鉱石でも20、000台の数値であるのに対し、健康維持カード1のタイプA〜Cをそれぞれ単体で測定した波動値は、コーティング層3の厚さが数100μm程度であるにもかかわらず、20,000台前後とトルマリン鉱石に比べても遜色のない高い値が得られた。  The wave value of the substance itself is generally 0 for tap water and 28-30 for mineral water, while the tourmaline ore, which is said to have much more radiation energy, has a numerical value of 20,000 units. The wave values obtained by measuring each of the types A to C of the health maintenance card 1 alone are inferior to 20,000 units and tourmaline ores even though the thickness of the coating layer 3 is about several hundred μm. Not high values were obtained.

このように、健康維持カード1のタイプA〜Cを装着した場合は、未装着の場合よりも全ての項目で勝った結果となり、健康維持カード1の装着によって、コーティング層3の第1層3a〜第4層3dに用いた必須微量元素やセラミックス(遠赤外線放射材),ゲルマニウム,酸化チタン,銀から放射される波動エネルギーが被験者の体内に吸収されて、生体免疫機能を高めることが確認できた。  As described above, when the types A to C of the health maintenance card 1 are installed, the result is that all items are better than when the health maintenance card 1 is not installed, and the first layer 3a of the coating layer 3 is obtained by mounting the health maintenance card 1. ~ It can be confirmed that wave energy radiated from essential trace elements and ceramics (far-infrared radiation material), germanium, titanium oxide, and silver used in the fourth layer 3d is absorbed in the body of the subject and enhances the bioimmune function. It was.

次に、本発明をお守りに適用した第2形態例を図3に基づいて説明する。
本形態例のお守り10は、本発明の外装体となる巾着袋11と、該巾着袋11に収容される密封体12と、該密封体12内に収容される複数種類の必須微量元素13と、セラミックス(本発明の遠赤外線放射材)14,ゲルマニウム15,酸化チタン16,銀17とからなっている。
Next, the 2nd form example which applied this invention to the charm is demonstrated based on FIG.
The amulet 10 of the present embodiment includes a drawstring bag 11 serving as an exterior body of the present invention, a sealing body 12 accommodated in the drawstring bag 11, and a plurality of types of essential trace elements 13 accommodated in the sealing body 12 , Ceramics (far-infrared radiation material of the present invention) 14, germanium 15, titanium oxide 16, and silver 17.

密封体12には、必須微量元素13を密閉するために、可撓性の合成樹脂製シート等が用いられ、また必須微量元素13には、鉄(Fe),亜鉛(Zn),銅(Cu),マンガン(Mn),ニッケル(Ni),Co(コバルト),モリブデン(Mo),セレン(Se),クロム(Cr),スズ(Sn),ヨウ素(I),バナジウム(V),ヒ素(As),フッ素(F),ケイ素(Si)の15種類全部か、少なくとも半数を越える8種類以上が用いられる。また、必須微量元素13とセラミックス(遠赤外線放射材)14,ゲルマニウム15,酸化チタン16,銀17は、粉体または粒体またはこれよりも大きな塊が用いられる。  In order to seal the essential trace element 13, a flexible synthetic resin sheet or the like is used for the sealing body 12, and the essential trace element 13 includes iron (Fe), zinc (Zn), copper (Cu ), Manganese (Mn), nickel (Ni), Co (cobalt), molybdenum (Mo), selenium (Se), chromium (Cr), tin (Sn), iodine (I), vanadium (V), arsenic (As ), Fluorine (F), silicon (Si), or at least eight or more than half. The essential trace element 13, ceramics (far-infrared emitting material) 14, germanium 15, titanium oxide 16, and silver 17 are powders, granules, or larger lumps.

このように構成されるお守り10は、例えば衣服のポケットに収容したり首から下げて身につけることにより、お守りとしての本来の役割を担いながら、体温の上昇や血流量の増加、生体免疫機能を向上するので、着用者の健康維持や健康を増進するのに役立つ。  The amulet 10 configured as described above is housed in a pocket of clothes or worn by being lowered from the neck, for example. It helps improve wearer's health and improve health.

なお、本発明の生物生理活性用担体を、装身具や身の回り品として体の部分的な健康維持や健康増進を目的に用いる場合に、その因果関係を医学的な立証以外で証明することは困難である場合が多い。したがって、必須微量元素を少種類で用いるよりは、できるだけ多くの種類を用いることが、着用者の健康維持や健康増進に有効な効果を期待でき、商品的にも汎用性が高まるので好ましい。  In addition, when the carrier for biophysiological activity of the present invention is used for the purpose of maintaining or promoting partial health of the body as an accessory or personal belonging, it is difficult to prove the causal relationship other than by medical verification. There are many cases. Therefore, it is preferable to use as many types as possible rather than using a small number of essential trace elements, since an effect effective for maintaining the health and promoting health of the wearer can be expected and versatility is enhanced in terms of products.

また本発明は、形態例で示した健康維持や増進を主目的としたカードやお守りに限らず、ネックレスやブレスレット,ペンダント,イヤリング,ブローチ等の装身具、眼鏡,ベルト,キーホルダー,名刺や定期券,プリペイドカードやクレジットカードといった身の回り品のほか、エアコンディショナや空気清浄機、浄水器、浴槽、鍋釜等の調理用具、食器、壁紙や天井材等の内装建材、絵画やモビール等の室内装飾品、美術品、敷物、ペットの首輪や畜舎等のペット用品、水槽、植木鉢等に幅広く適用が可能である。  In addition, the present invention is not limited to cards and amulets whose main purpose is to maintain and enhance health as shown in the form examples, but also accessories such as necklaces, bracelets, pendants, earrings, brooches, glasses, belts, key chains, business cards and commuter passes, In addition to personal items such as prepaid cards and credit cards, air conditioners, air purifiers, water purifiers, cooking utensils such as bathtubs and pots, tableware, interior building materials such as wallpaper and ceiling materials, and interior decorations such as paintings and mobiles It can be widely applied to works of art, rugs, pet items such as pet collars and barns, water tanks, flower pots, etc.

生物生理活性用担体の基材には、金属や非鉄金属,合成樹脂,木,石,紙,布地のいずれか1つまたは複数を併用することができる。基材が、紙や布地は薄く軟質なシート状の場合に、コーティング層を多層に結着したり、内部に含ませることによって、使用に堪えるだけの剛性力が得られる。また、合成樹脂製のシート状基板は、必須微量元素との結着性が低いため、シート状基板とコーティング層との間にアンダーコートを介装するとよい。アンダーコートには、例えば、ステンレス鋼の粉末を主原料とする結合材を用いることにより、シート状基板とコーティング層との結着力が高まる。  Any one or more of metal, non-ferrous metal, synthetic resin, wood, stone, paper, and fabric can be used in combination for the base material of the biophysiologically active carrier. When the substrate is a thin and soft sheet of paper or fabric, the coating layer can be bound in multiple layers or included inside to obtain a rigidity sufficient to withstand use. Moreover, since the sheet-like board | substrate made from a synthetic resin has low binding property with an essential trace element, it is good to interpose an undercoat between a sheet-like board | substrate and a coating layer. For example, the binding force between the sheet-like substrate and the coating layer is increased by using a binder mainly made of stainless steel powder for the undercoat.

コーティング層は、第1形態例で示した4層以外の層数であってもよい。必須微量元素や遠赤外線放射材,ゲルマニウム,酸化チタン,銀は、どの層にどれを用いると必ずしも決められているわけではなく、シート状基材の材質や製造方法などの条件によって適宜変更することができ、また、平面的形状または立体的形状の基材の外面に、溶射または塗布によって結着することができる。  The number of coating layers may be other than the four layers shown in the first embodiment. Indispensable trace elements, far-infrared radiation materials, germanium, titanium oxide, and silver are not necessarily determined as to which layer to use, but they should be changed appropriately according to the conditions such as the material of the sheet-like substrate and the manufacturing method. And can be bonded to the outer surface of a planar or three-dimensional substrate by thermal spraying or coating.

本発明の生物生理活性用担体が、キーホルダのマスコット人形など、装身具の外装体が内部に空洞を持つ立体的なものの場合には、外装体の内部に、必須微量元素や遠赤外線放射材やゲルマニウム,酸化チタン,銀等を封入した密封体を収容してもよく、あるいは、装身具の外装体が必須微量元素を密封できる構造のものであれば、密封体と外装体とを兼用することもできる。封入体またはこれに代わる外装体は、粉粒体の漏出防止と防水,防塵構造となっていればよく、可撓性材料と剛性材料のいずれを用いてもよい。  When the biophysiologically active carrier of the present invention is a three-dimensional body having a hollow interior, such as a key holder mascot doll, an essential trace element, a far-infrared radiation material, or germanium is placed inside the exterior body. , Titanium oxide, silver or the like may be sealed, or the exterior body of the accessory can be used both as a sealed body and an exterior body as long as the essential trace elements can be sealed. . The enclosing body or the exterior body that replaces the encapsulated body only needs to have a structure for preventing leakage of the granular material, a waterproof and dust-proof structure, and either a flexible material or a rigid material may be used.

本発明の第1形態例を示す健康維持カードの一部拡大断面図  The partially expanded sectional view of the health maintenance card | curd which shows the 1st form example of this invention 図1の健康維持カードの斜視図  1 is a perspective view of the health maintenance card of FIG. 本発明の第2形態例を示すお守りの分解斜視図  An exploded perspective view of an amulet showing a second embodiment of the present invention

符号の説明Explanation of symbols

1…健康維持カード(本発明の生物生理活性用担体)、2…シート状基材、3…コーティング層、3a…第1層、3b…第2層、3c…第3層、3d…第4層、4…被覆層、5a…文字、5b…図柄、10…お守り(本発明の生物生理活性用担体)、11…巾着袋(本発明の外装体)、12…密封体、13…複数種類の必須微量元素、14…セラミックス(本発明の遠赤外線放射材),15…ゲルマニウム、16…酸化チタン、17…銀  DESCRIPTION OF SYMBOLS 1 ... Health maintenance card | curd (carrier for biophysiological activity of this invention), 2 ... Sheet-like base material, 3 ... Coating layer, 3a ... 1st layer, 3b ... 2nd layer, 3c ... 3rd layer, 3d ... 4th Layers 4, coating layers, 5 a, letters, 5 b, symbols, 10, amulet (carrier for biophysiological activity of the present invention), 11, drawstring bags (exterior body of the present invention), 12, sealed body, 13, multiple types 14 essential ceramic elements, 14 ... ceramics (far-infrared radiation material of the present invention), 15 ... germanium, 16 ... titanium oxide, 17 ... silver

Claims (8)

基材の表面に、必須微量元素である鉄,亜鉛,銅,マンガン,ニッケル,コバルト,モリブデン,セレン,クロム,スズ,ヨウ素,バナジウム,ヒ素,フッ素,ケイ素のうちの少なくとも半数と、遠赤外線放射材とを含むコーティング層を形成してなる生物生理活性用担体。  At least half of the essential trace elements of iron, zinc, copper, manganese, nickel, cobalt, molybdenum, selenium, chromium, tin, iodine, vanadium, arsenic, fluorine, silicon and far-infrared radiation on the surface of the substrate A biophysiologically active carrier formed by forming a coating layer containing a material. 前記コーティング層を複数積層し、基材側のコーティング層には低融点の元素を配設し、外側のコーティング層に向かうにしたがって、順次高融点の元素を配設したことを特徴とする請求項1に記載の生物生理活性用担体。  A plurality of the coating layers are laminated, a low melting point element is disposed in the coating layer on the substrate side, and a high melting point element is sequentially disposed toward the outer coating layer. 2. The biophysiologically active carrier according to 1. 前期基材がシート状であることを特徴とする請求項1または2に記載の生物生理活性用担体。  The biophysiologically active carrier according to claim 1 or 2, wherein the base material is in the form of a sheet. シート状基材の内部に、必須微量元素である鉄,亜鉛,銅,マンガン,ニッケル,コバルト,モリブデン,セレン,クロム,スズ,ヨウ素,バナジウム,ヒ素,フッ素,ケイ素のうちの少なくとも半数と、遠赤外線放射材とを含ませてなる生物生理活性用担体。  At least half of the essential trace elements of iron, zinc, copper, manganese, nickel, cobalt, molybdenum, selenium, chromium, tin, iodine, vanadium, arsenic, fluorine, silicon, A biophysiologically active carrier comprising an infrared radiation material. 必須微量元素である鉄,亜鉛,銅,マンガン,ニッケル,コバルト,モリブデン,セレン,クロム,スズ,ヨウ素,バナジウム,ヒ素,フッ素,ケイ素のうちの少なくとも半数と、遠赤外線放射材とを密封体の内部に封入し、該密封体を外装体の内部に収容してなる生物生理活性用担体。  At least half of the essential trace elements of iron, zinc, copper, manganese, nickel, cobalt, molybdenum, selenium, chromium, tin, iodine, vanadium, arsenic, fluorine, and silicon and the far-infrared emitting material are sealed. A biophysiologically active carrier encapsulated inside and containing the sealed body inside an exterior body. 前記コーティング層または前記シート状基材内部または前記密封体内部に、ゲルマニウムが含まれていることを特徴とする請求項1〜5のいずれかに記載の生物生理活性用担体。  The carrier for biophysiological activity according to any one of claims 1 to 5, wherein germanium is contained in the coating layer, the sheet-like base material, or the sealed body. 前記コーティング層または前記シート状基材内部または前記密封体内部に、酸化チタンが含まれていることを特徴とする請求項1〜6のいずれかに記載の生物生理活性用担体。  The biophysiologically active carrier according to any one of claims 1 to 6, wherein titanium oxide is contained in the coating layer, the sheet-like base material, or the sealed body. 前記コーティング層または前記シート状基材内部または前記密封体内部に、銀が含まれていることを特徴とする請求項1〜7のいずれかに記載の生物生理活性用担体。  The biophysiologically active carrier according to any one of claims 1 to 7, wherein silver is contained in the coating layer, the sheet-like base material, or the sealed body.
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2505680A1 (en) 2011-03-30 2012-10-03 MEDIKA S.r.l. Copper metal alloy
CN104983506A (en) * 2015-06-10 2015-10-21 上海富蓝医药生物科技有限公司 Shoulder health care protecting band
CN110256061A (en) * 2019-08-04 2019-09-20 娄底市远程精密结构陶瓷有限责任公司 A kind of biology speciality ceramics and preparation method thereof

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2505680A1 (en) 2011-03-30 2012-10-03 MEDIKA S.r.l. Copper metal alloy
WO2012131574A1 (en) 2011-03-30 2012-10-04 Medika S.R.L. Copper metal alloy
CN104983506A (en) * 2015-06-10 2015-10-21 上海富蓝医药生物科技有限公司 Shoulder health care protecting band
CN110256061A (en) * 2019-08-04 2019-09-20 娄底市远程精密结构陶瓷有限责任公司 A kind of biology speciality ceramics and preparation method thereof

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