JP2008297492A - Coating material generating negative ion and far-infrared ray - Google Patents
Coating material generating negative ion and far-infrared ray Download PDFInfo
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- JP2008297492A JP2008297492A JP2007147002A JP2007147002A JP2008297492A JP 2008297492 A JP2008297492 A JP 2008297492A JP 2007147002 A JP2007147002 A JP 2007147002A JP 2007147002 A JP2007147002 A JP 2007147002A JP 2008297492 A JP2008297492 A JP 2008297492A
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本発明は、マイナスイオンと遠赤外線発生塗料に関するものである。 The present invention relates to a negative ion and far-infrared ray generating paint.
人の生活空間にマイナスイオンを供給して人の健康を良好に維持させる効果が着目されている。空気中にマイナスイオンが多く存在する場合、その空気を吸うと、人体に沈静的な作用を与え、鎮痛、快眠、鎮咳、制汗、爽快感等、疲労防止等の種々の効果を呈することが知られている。 Attention has been focused on the effect of supplying negative ions to human living spaces to maintain good human health. When there are a lot of negative ions in the air, inhaling the air can give a calm action to the human body and exhibit various effects such as analgesia, pleasant sleep, antitussive, antiperspirant, refreshing feeling, fatigue prevention, etc. Are known.
従来から人工的にマイナスイオンを発生させる高価な装置は存在するが、安価にマイナスイオン効果を得ようとするものとして、マイナスイオン発生組成物を家具、壁紙等の室内装飾材として用いて、その居室空間の空気中の水分子を分解しマイナスイオンを空気中に発生させ、人体に沈静的な作用を与えようとするものがある。 Conventionally, there are expensive devices that artificially generate negative ions. However, in order to obtain the negative ion effect at low cost, the negative ion generating composition is used as an interior decoration material such as furniture and wallpaper. There are some which decompose water molecules in the air of the living room and generate negative ions in the air, thereby giving the human body a static action.
しかしながら、マイナスイオン発生物質として公知の物質は、マイナスイオンが1000/cm3以下と低いものであり充分なマイナスイオン効果を享受できるものではない。しかもこれらを塗料に混ぜて各種建材の表面に塗布するには、塗料そのものの塗装性能即ち塗膜の鏡面光沢度、色と艶の変化、塗膜の外観、促進耐候性などが劣化することを防止しなければならない。
本発明は、これらの問題を解決するマイナスイオンと遠赤外線発生塗料を提供するものである。
However, a substance known as a negative ion generating substance has a low negative ion of 1000 / cm 3 or less and cannot receive a sufficient negative ion effect. In addition, when these are mixed with paint and applied to the surface of various building materials, the coating performance of the paint itself, that is, the specular gloss of the paint film, changes in color and gloss, appearance of the paint film, accelerated weather resistance, etc. Must be prevented.
The present invention provides a negative ion and far-infrared ray generating paint that solves these problems.
本発明のマイナスイオンと遠赤外線発生塗料の特徴とするところは、次の(1)にある。
(1).2〜20μmの遠赤外線と5000/cm3以上のマイナスイオンを放出し、粒度が800〜4000メッシュでトルマリン石と黒鉛珪石からなる天然聖光石粉末を塗料100重量%に対し3〜10重量%混合したことを特徴とする遠赤外線とマイナスイオン発生塗料。
The features of the negative ion and far-infrared ray generating paint of the present invention are the following (1).
(1). 2 ~ 20μm far-infrared rays and negative ions of 5000 / cm 3 or more are emitted, and natural saikolite powder composed of tourmaline stone and graphite silica with particle size of 800 ~ 4000 mesh is mixed with 3 ~ 10% by weight for 100% by weight of paint. Far-infrared and negative ion generating paint characterized by
本発明の遠赤外線とマイナスイオン発生塗料は、壁板、壁紙、コンクリート壁等の各種室内建材の表面に塗料として所望の厚みに効率よく塗ることが出来る。しかも塗料の塗装性能即ち塗膜の鏡面光沢度、色と艶の変化、塗膜の外観、促進耐候性等を劣化させることなく寧ろ遠赤外線による塗膜の抗菌性を高めマイナスイオンによる促進耐候性を高める。そして2〜20μmの遠赤外線と5,000〜30,000/cm3のマイナスイオンを室内に放出して、室内の人体内に吸収されマイナスイオンが体内のプラスイオンと細胞膜を通してイオン交換すると共にこれと遠赤外線の電磁波領域の共鳴による水分の超微細化活性効果により皮下深層及び内蔵等の毛細血管の拡張、血流循環の促進、代謝障害の一掃、細胞組織の活性化、酸素生成の促進とにより、人体本来が持つ治療力を高め自然回復力を高めるのである。
一方室内の空気環境の浄化、防臭、ダニその他の防虫等の効果を奏し、既設或いは新設を問わず快適な生活空間を提供できるものである。
The far infrared ray and negative ion generating paint of the present invention can be efficiently applied to a desired thickness as a paint on the surface of various indoor building materials such as wall boards, wallpaper, and concrete walls. In addition, the antibacterial properties of the paint film by far-infrared rays and the accelerated weather resistance by negative ions are increased without degrading the coating performance of the paint film, that is, the specular gloss of the paint film, changes in color and gloss, appearance of the paint film, accelerated weather resistance, etc. To increase. Then, 2-20 μm far-infrared rays and 5,000-30,000 / cm 3 negative ions are released into the room, absorbed into the human body in the room, and the negative ions exchange with the positive ions in the body through the cell membrane and The effect of ultra-fine water on the basis of resonance in the electromagnetic wave region expands the capillaries such as the subcutaneous deep layer and internal organs, promotes blood circulation, clears metabolic disorders, activates cellular tissues, promotes oxygen generation, It enhances the therapeutic power of and increases the natural recovery power.
On the other hand, there are effects such as purification of indoor air environment, deodorization, mite and other insect repellents, and a comfortable living space can be provided regardless of whether existing or new.
本発明において、前記マイナスイオンと遠赤外線を発生する前記天然聖光石とは、トルマリン石と黒鉛珪石からなる学名ホルンヘルスで、成分は、次のとうりである。
SiO2:66.20±2.00%,
TiO2:0.44±0.02%,
Al2O3:13.00±0.70%,
Fe2O3:2.95±0.13%,
CaO:2.45±0.14%,
MgO:4.99±0.25%,
K2O:3.16±0.17%,
Na2O:4.06±0.21%
この成分の天然聖光石によりマイナスイオンと、放射率92%以上の遠赤外線を正常に放射維持するものである。
この天然聖光石は、ボールミル、ロッドミル等による破砕、摩砕により800〜4000メッシュにすることにより各種建材の表面に塗料として0.1〜0.3mm等の薄厚の所望厚にまで効率よく均厚に塗ることが出来る。しかも塗料中の混入量は、塗料100重量%に対し3〜10重量%であり、この範囲とすることにより長期の貯蔵中に天然聖光石粉末が沈降分離することが無い。そして各種建材の表面に塗装した際、5,000〜30,000/cm3のマイナスイオンを確実に発生させることが出来ると同時に塗料の塗装性能即ち塗膜の鏡面光沢度、色と艶の変化、塗膜の外観、促進耐候性等を劣化させることが無く寧ろ遠赤外線による塗膜の抗菌性を高めマイナスイオンによる促進耐候性を高める。一方3重量%未満は充分なマイナスイオンの発生効果が得られず、10重量%を超えると前記塗料の塗装性能とくに表面性状を劣化させるため好ましくない。極端に多いと貯蔵中に天然聖光石粉末が沈降分離する。
尚、水生塗料を用いて塗装する際は、指定量の加水例えば塗料の含有水分の1.5〜2.5倍の水分を加水して刷毛塗り時の塗装性を良好にし、薄膜を形成させることもできる。
本発明におけるマイナスイオンとは負に電荷を帯びた基であるが、中でも人体に関係のあるCl-、OH-、CO32-、HCO3-、Br-、I-等であり、これらは細胞膜を通してNa+、K+、Ca2+、Mg2+等のプラスイオンとイオン交換されるものである。
In the present invention, the natural holy stone that generates negative ions and far-infrared rays is a horn health made of tourmaline stone and graphite silica, and the components are as follows.
SiO2: 66.20 ± 2.00%,
TiO2: 0.44 ± 0.02%,
Al2O3: 13.00 ± 0.70%,
Fe2O3: 2.95 ± 0.13%,
CaO: 2.45 ± 0.14%,
MgO: 4.99 ± 0.25%,
K2O: 3.16 ± 0.17%,
Na2O: 4.06 ± 0.21%
This component's natural sacred stone keeps negative ions and far-infrared rays with an emissivity of 92% or more normal.
This natural sacred stone is efficiently and evenly applied to the desired thickness of 0.1-0.3mm as a paint on the surface of various building materials by crushing with a ball mill, rod mill, etc., and grinding to 800-4000 mesh. I can do it. Moreover, the mixing amount in the paint is 3 to 10% by weight with respect to 100% by weight of the paint. By setting this range, the natural sacred stone powder does not settle and separate during long-term storage. When coated on the surface of various building materials, negative ions of 5,000 to 30,000 / cm 3 can be reliably generated, and at the same time, the coating performance of the paint, that is, the specular gloss of the paint film, changes in color and gloss, Rather than deteriorating the appearance, accelerated weather resistance, etc., the antibacterial property of the paint film by far-infrared rays is increased and the accelerated weather resistance by negative ions is increased. On the other hand, if it is less than 3% by weight, a sufficient effect of generating negative ions cannot be obtained, and if it exceeds 10% by weight, the coating performance of the paint, particularly the surface properties, is deteriorated. If it is extremely large, natural sacred stone powder settles and separates during storage.
When painting with an aquatic paint, a specified amount of water, for example, 1.5 to 2.5 times the water content of the paint, can be added to improve the paintability during brush coating, and a thin film can be formed.
The negative ion in the present invention is a negatively charged group, among which Cl-, OH-, CO32-, HCO3-, Br-, I-, etc., which are related to the human body, and these are Na through the cell membrane. It is ion-exchanged with positive ions such as +, K +, Ca2 + and Mg2 +.
本発明における塗料とは、主に室内用の各種公知の建材(壁板、壁紙、コンクリート壁等)の表面に塗装する公知の塗料であり、有機水性塗料、珪酸質系水性塗料、シロキサン結合を有するシリコン樹脂塗料、アクリルシリコン溶剤型塗料、フッソ樹脂系溶剤型塗料、水性系、溶剤系及び無溶媒型塗料であるが、室内の場合は、好ましくは臭いが残らない水性のものが良い。また塗料の色は限定しなく、無色のものも使用可能である。
The paint in the present invention is a known paint mainly applied to the surface of various indoor building materials (wall boards, wallpaper, concrete walls, etc.). It is an organic water-based paint, siliceous water-based paint, and siloxane bond. These are silicone resin paints, acrylic silicon solvent-type paints, fluorine resin-type solvent-type paints, water-based, solvent-type and solvent-free paints. Further, the color of the paint is not limited, and colorless paint can be used.
以下に本発明の実施例を詳細に説明する。
表1には遠赤外線とマイナスイオン発生塗料の原料の一つ天然聖光石粉末の成分粒度等を記載する。
表2には天然聖光石粉末と混ぜる塗料の種類とその主成分物性値を記載する。
尚、表2中△Eの算出方法は、
加熱残分%は、105〜110℃で2時間加熱した結果を示す。
表3には表1と表2に示す原料を用いた遠赤外線とマイナスイオン発生塗料の製造方法例等を記載する。
表4にはその塗装条件例とその結果を記載する。
この実施例から明らかなように、No1〜No5例とも良好な遠赤外線とマイナスイオン発生と塗装結果が得られた。
Examples of the present invention will be described in detail below.
Table 1 lists the component particle sizes of natural sacred stone powder, one of the raw materials for far-infrared and negative ion generating paints.
Table 2 lists the types of paints to be mixed with natural sacred stone powder and their main component properties.
In Table 2, ΔE is calculated as follows:
The heating residue% indicates the result of heating at 105 to 110 ° C. for 2 hours.
Table 3 lists examples of methods for producing far-infrared and negative ion generating paints using the raw materials shown in Tables 1 and 2.
Table 4 lists examples of the coating conditions and the results.
As is clear from this example, good far-infrared rays, negative ion generation, and coating results were obtained in No1 to No5 cases.
尚、No1〜No7例は、表4に示す塗装の際、塗料の含有水分26%(重量%)の1.5倍の水を加水し攪拌して塗装したものである。
In the case of the coating shown in Table 4, the No1 to No7 examples were prepared by adding 1.5 times as much water as the water content 26% (weight%) of the paint and stirring.
本発明の遠赤外線とマイナスイオン発生塗料は、前記のごとく居住空間を形成する壁、天井等の各種構成建材への塗装に最適であり、快適且つ健康な居住生活空間環境を形成することができるものであり、よって健康住宅産業及び医療住居建設産業での利用は多大なものがある。 The far-infrared ray and negative ion generating paint of the present invention is most suitable for coating various building materials such as walls and ceilings that form a living space as described above, and can form a comfortable and healthy living space environment. Therefore, the use in the healthy housing industry and the medical housing construction industry is enormous.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102649886A (en) * | 2011-02-28 | 2012-08-29 | 陈清明 | Coating with energy saving and carbon emission reduction effects |
CN109439058A (en) * | 2017-08-31 | 2019-03-08 | 福建靓隆实业有限公司 | Coating natural minerals ionic auxiliary agent, preparation method and environmental protection coating material |
CN110408108A (en) * | 2019-07-31 | 2019-11-05 | 深圳市通路路科技有限公司 | A kind of plastic formula based on anion, spraying and printing material formula and paster |
-
2007
- 2007-06-01 JP JP2007147002A patent/JP2008297492A/en active Pending
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102649886A (en) * | 2011-02-28 | 2012-08-29 | 陈清明 | Coating with energy saving and carbon emission reduction effects |
CN109439058A (en) * | 2017-08-31 | 2019-03-08 | 福建靓隆实业有限公司 | Coating natural minerals ionic auxiliary agent, preparation method and environmental protection coating material |
CN110408108A (en) * | 2019-07-31 | 2019-11-05 | 深圳市通路路科技有限公司 | A kind of plastic formula based on anion, spraying and printing material formula and paster |
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