JP2002308665A - Composite material capable of generating negative ion, and fibrous product, sheetlike material and pottery using the same composite material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a composite material which is capable of emitting growth rays (far infrared rays) and also generating negative ions, and accordingly, by the use of which the effects of both such growth rays and negative ions can concurrently be obtained, and further, to provide fibrous products, sheetlike materials and pottery, each produced by using the composite material. SOLUTION: The composite material is prepared by mixing a powder obtained by crushing Bakuhanseki (granite porphyry) that is a material capable of generating growth rays, a powder obtained by crushing samarskite that is an ore containing radioactive substances, a ceramic powder containing magnesium, and bamboo charcoal together, each in a 10 pts.wt. ratio, wherein each of all the powders used in the above preparation, has <=15 μm particle size and the bamboo charcoal powder used is subjected to heat treatment at 1,200-1,500 deg.C and has a structure in which innumerable fine pores are formed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a composite material generating negative ions, and to a textile product, a sheet material and a ceramic using the same. More specifically, the present invention relates to a device that emits a growing light beam and also generates negative ions so that the effects of both the growing light beam and the negative ion can be obtained. In addition, the present invention relates to, for example, a resin that is mixed with a resin or the like that is negatively charged and has a strong adhesive force to enhance the utility value. Further, bamboo charcoal powder or charcoal powder baked at 1200 to 1500 ° C. is mixed so that, for example, formaldehyde, harmful hydrogen sulfide and nitrogen compounds can be decomposed and absorbed, so that the application field can be expected to expand. .

[0002]

2. Description of the Related Art In recent years, headaches, insomnia, fatigue recovery, relaxation, blood circulation promotion,
Various studies have shown that it is effective for constipation and the like, and it has attracted attention. Negative ions exist together with positive ions in the atmosphere, and in rich natural environments, they are formed in a quantitatively balanced state. However, in places where the natural environment is not rich, such as in urban areas, a large amount of positive ions are present due to exhaust gas from vehicles, smoke from factories, acid rain, electromagnetic waves radiated from various electric devices, etc. It is in a state of lack of negative ions.

The present inventor has been studying the wavelength of a part of far infrared rays which is particularly called a growing light ray. The growing light beam is a far infrared ray having a wavelength of 4 to 14 microns, and is known to affect the growth promotion of animals and plants. As the substance from which the growing light is emitted, for example, barley stone, tourmaline, shell fossil, natural stone, graphite and the like are known. The present inventor disclosed in Japanese Patent Application Laid-Open No. 11-4
No. 3367 proposes an invention relating to a growing light beam.

[0004] The present inventor has paid attention to the fact that negative ions have the above-mentioned effects while studying the growing light beam. Then, if it is possible to develop a device that emits the growing light beam and also generate negative ions, the effect of both the growing light beam and the negative ion can be obtained, and the idea that a product with higher added value can be obtained.

[0005] The present inventor has developed a negative ion measuring device (EB manufactured by Ecoholistic Co., Ltd.) for various substances.
The negative ions were measured using -12A). First, the negative ions of charcoal, bamboo charcoal, and tourmaline, allegedly generating negative ions, were measured. However, although these substances are widely known to generate negative ions, they did not provide the expected numerical values, indicating that their practicability was not sufficient.

Further, the present inventor tried to measure various substances to see if there is any other substance that generates negative ions. Then, when the ore containing the radioactive material was measured, it was found that negative ions meeting the expected numerical values were generated. The present invention has been completed based on the above findings and further studies.

(Purpose) It is an object of the present invention to provide a composite material which emits a growing light beam and also generates negative ions so that the effects of both the growing light beam and the negative ion can be obtained, and a fiber product using the same. , Sheet-like articles, and ceramics.

[0008]

Means of the present invention taken to achieve the above object are as follows. In the first invention, a powder and a granular material containing a substance that emits a growing light beam;
And a powder obtained by pulverizing ore containing a radioactive substance.

According to a second aspect of the present invention, there is provided the first aspect of the present invention, which comprises a ceramic powder containing one or more substances selected from titanium, magnesium, silica and alumina. It is a composite material.

According to a third aspect, there is provided the composite material according to the first or second aspect, characterized in that the composite material contains a granular material containing bamboo charcoal, charcoal or activated carbon.

According to a fourth aspect of the present invention, the main base material is a fine powder of natural ore having a particle size of 15 μm or less that emits far infrared rays of 4 to 14 μm and a fine magnesia powder having a particle size of 15 μm or less. A composite ceramic having a titanium oxide causing a photocatalytic reaction as a base material, a fine powder of silica stone and alumina mixed therein, and having a far-infrared emissivity of 80% or more at a surface temperature of about 50 ° C. A composite material comprising: a fine powder of a natural ore containing a rare earth element; and a fine powder of bamboo charcoal or charcoal baked at 1200 to 1500 ° C.

According to a fifth aspect of the present invention, a fine powder of natural ore emitting far infrared rays of 4 to 14 microns, a fine powder of magnesia, a fine powder of natural ore containing a rare earth element emitting radiation, and 1200 And a fine powder of bamboo charcoal or charcoal baked at ~ 1500 ° C.

The sixth invention is characterized in that it contains a polymer compound that does not adsorb or hardly adsorbs negative ions or a polymer compound that adsorbs positive ions.
A composite material according to the first, second, third, fourth or fifth invention.

According to a seventh aspect of the present invention, the first, second, third, and fourth aspects are characterized by being dispersed in a dispersion medium.
Or a composite material according to the fifth invention.

According to an eighth aspect of the present invention, there is provided a fiber comprising the composite material according to the first, second, third, fourth, fifth, sixth or seventh aspect. Product.

According to a ninth aspect, a sheet comprising the composite material according to the first, second, third, fourth, fifth, sixth, or seventh aspect is provided. It is a state thing.

According to a tenth aspect of the present invention, there is provided a ceramic comprising the composite material according to the first, second, third, fourth, fifth, sixth or seventh aspect. It is.

[0018] The term "substance which emits growing light" as used herein includes, for example, barley stone, tourmaline, shell fossil,
Natural rocks, graphite, etc. can be mentioned. However, it is not limited to this.

"Ore containing radioactive material" as used herein
And "natural ores containing rare earth elements that emit radiation" include, for example, samarskiite, olivine, yamaguchi stone (ore including zircon), pitch blended stone (uranium ore), euchsenite, pegmatite Stone, monazite, xenotime, columbite, tantalum, gadolinite, bustness stone and the like can be mentioned. However, it is not limited to this. In addition, examples of radioactive substances included therein include substances classified into uranium series, actinium series, and thorium series.

The amount of radiation emitted by the ore containing a radioactive substance is not particularly limited. However, since there is a risk that the radiation may adversely affect the human body, the use of the composite material may be related to the human body. For example, it is desirable to use 370 becquerels or less per kg.

A powder containing a substance emitting a growing light beam, a powder obtained by crushing an ore containing a radioactive substance, a powder of a ceramic containing one or more substances selected from titanium, magnesium, silica or alumina The size of the granular material containing the body, bamboo charcoal, charcoal, or activated carbon is not particularly limited, depending on the use. However, when the diameter is large, the surface area per weight is smaller than that when the diameter is small. In many cases, those having a size of 50 microns or less are used. Further, in the case of spraying with a spray or the like, those having a size of 3 microns or less are used.

Examples of the “polymer compound that does not adsorb or hardly adsorbs negative ions or the polymer compound that adsorbs positive ions” in the present invention include, for example, synthetic resins (polyester resin, nylon (trademark: DuPont, USA)) Resin, acrylic resin, vinyl resin, polyethylene resin, etc.), natural resin, synthetic rubber, natural rubber and the like. However, it is not limited to this.

It is preferable to use "bamboo charcoal, charcoal or activated carbon" which has a structure in which fine holes are formed innumerably by baking at a high temperature. Specifically, 1200-1
It is preferable to use those baked at 500 ° C.
It is generally known that baking at a high temperature results in a structure having a myriad of fine holes. The fine pores adsorb and remove particles of humidity control and odor.

As the "dispersion medium" as used herein, for example, water, an aqueous solution, and a paint can be mentioned. But,
It is not limited to this.

The textiles, sheets, and ceramics according to the present invention have a composite material by, for example, mixing, impregnation or painting. However, it is not limited to this. In addition, the term "painting" is used as a concept that includes not only normal "painting" painted with a brush or the like, but also soaking in a liquid, so-called "dub pickling" or "spraying" painted with a spray or the like. I have.

(Operation) According to the composite material of the present invention, the powder containing the substance emitting the growth light emits the growth light, and the ore containing the radioactive substance is crushed from the powder obtained by crushing the ore containing the radioactive substance. Occurs. Therefore, in the composite material according to the present invention, growth promotion, blood circulation, metabolism promotion, low back pain, shoulder stiffness, coldness, rheumatism, neuralgia, menstrual pain, etc., can be expected to have the effect of raising light, fatigue recovery, relaxation, The effects of negative ions such as promoting blood circulation and improving headache, insomnia, and constipation can be expected.

A mixture of ceramic powders containing one or more substances selected from titanium, magnesium, silica and alumina is used in addition to the effects of the growing light and negative ions as described above, and is further sterilized and deodorized. Effects can be expected.

A mixture of powder and granules containing one or more substances selected from bamboo charcoal, charcoal or activated carbon emits growing light from the bamboo charcoal, charcoal or activated carbon. In addition, since bamboo charcoal, charcoal or activated carbon also has a deodorizing action, a humidity control action, and the like, in the composite material according to the present invention, in addition to the effects of the growth light and negative ions described above, a deodorization and humidity control effect is expected. it can.

A polymer compound which does not adsorb or hardly adsorbs negative ions or a mixture of polymer compounds which adsorbs positive ions, especially those which do not adsorb or hardly adsorb negative ions, have an environment with many positive ions. However, it is easy to balance the amounts of the negative ions and the positive ions, and it can be expected that the negative ions will be larger in quantity than the positive ions.

In the case of textiles, sheets or ceramics in which the above-mentioned composite material is mixed, impregnated or painted,
Grow light and negative ions are generated, and the above-described effects can be expected.

[0031]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of a composite material according to the present invention will be described. The composite material described in this embodiment mode includes:
Powder crushed barley stone, which is a substance that emits growing light, powder crushed Samarsky stone, which is an ore containing radioactive material, ceramic powder containing magnesium, and bamboo charcoal powder, They are mixed in parts by weight. The used powder of barley stone, powder of samarski stone, powder of ceramic containing magnesium, and powder of bamboo charcoal are each 15 μm or less in size. The bamboo charcoal powder used is baked at 1200 to 1500 ° C., and has a structure in which numerous fine holes are formed.

[Experimental Example] An experiment was conducted using a sample to confirm that negative ions were generated from the composite material.

(Experimental samples) The samples shown in this embodiment (sample 1) and the ores containing other radioactive substances instead of samarskiite (Yamaguchi stone (sample 2)) from those shown in this embodiment , Pitch blended stone (sample 3), Euchsenite (sample 4), and pegmatite stone (sample 5)) were prepared (see Table 1). In addition, those not mixed with bamboo charcoal were also prepared (samples 6 to 10). Samples were made by mixing 1 g of each substance.

(Measurement Method) As a negative ion measuring instrument, EB-12A manufactured by Eco-Holistic Co., Ltd. was used. This measuring instrument employs a measuring method in which negative ions generated from a sample are measured for 20 seconds, and the number of negative ions per second (ions / cm3 / sec) is derived from the average value.

(Experimental results)

[Table 1]

(Conclusion) It was found that although ore values varied in each sample, ores containing radioactive substances generated negative ions. Also, it was found that the value of the negative ion did not change even if bamboo charcoal was mixed. In other words, it can be said that no negative ions are generated from bamboo charcoal. Although not shown in Table 1, when the measurement was performed in a state where the ore containing the radioactive material was not mixed, almost no negative ions were generated. Further, according to the measuring device, the growing light was emitted from the barley stone even in the state where the ore containing the radioactive substance was mixed.

The ore containing the mixed radioactive substance exists in the natural world, and the content of the constituent substances is not constant. Therefore, even for the same type of ore, the value of the negative ion changes if the sample is different. However, it is presumed that the approximate value is shown.

(Operation) According to the composite material (sample 1 described above) shown in the present embodiment, the barley stone powder emits a growing light beam and negative ions are generated from the crushed Samalski stone powder. I do. Therefore, composite materials can be expected to promote growth, promote blood circulation, promote metabolism, improve back pain, stiff shoulders, chills, rheumatism, neuralgia, menstrual pain, etc., and have the effect of improving light, recover from fatigue, relax, promote blood circulation, and headache. -The effect of negative ions such as insomnia and improvement of constipation can be expected.

Further, since the ceramic powder containing magnesium is mixed, in addition to the effects of the growing light beam and the negative ion, a sterilizing and deodorizing effect can be expected. Furthermore, since bamboo charcoal powder is mixed, deodorization and humidity control effects can be expected.

The composite material shown in this embodiment is, for example,
It can be used as it is by filling the inside of the tatami floor or spraying it on the breeding floor of livestock and companion animals. When the inside of the tatami floor is filled, effects such as suppression of breeding and smell of mites on the tatami floor and maintaining an appropriate humidity can be expected. In addition, when sprayed on the breeding floor of livestock and companion animals, it is expected to have effects such as suppressing the propagation of microorganisms and the smell of animal dung, creating a sanitary environment, and improving the health of domestic animals and companion animals. it can.

The composite material can be sprayed on soil and used as a soil conditioner. In this case, it is preferable that the composite material is not mixed with ceramic powder. When sprayed on soil such as a field, it can be expected that the growth of plants and microorganisms is promoted, and that microorganisms settle in fine pores such as barley stone and bamboo charcoal and activate the soil.

Further, the composite material can be mixed with water as a dispersion medium and sprayed (including irrigation) on soil to be used as a soil conditioner or a growth promoter. The water to be mixed may be, for example, a nutrient solution containing nutrients. However, water is not limited to use as a dispersion medium. In this case, it can be expected that the water cluster is divided into small pieces by the composite material, and it is expected that the water cluster is easily absorbed from the leaves of the plant. Seem. It is also considered that odor particles and the like floating in the air can be removed by spraying into a space by spraying or the like.

The composite material may be used by mixing it with a synthetic resin (eg, a polyester resin, a nylon resin, an acrylic resin, a vinyl resin, a polyethylene resin, or the like) which is a polymer compound, a natural resin, a synthetic rubber, a natural rubber, or the like. Can also. The polymer compound is often used as a dispersion medium, but is not limited. In addition, the polymer compound,
It may be liquid (including a colloidal solution) or solid (including a fluid solid).

In the case of a liquid, a cloth (curtain,
Cushions, sofas, futons, duvet covers, pillows, pillowcases, sheets, clothing (including underwear, socks, gloves, etc.),
Textile products such as non-woven fabric, paper (including Japanese paper) (cotton, silk, hemp,
Materials such as natural fibers such as pulp and wool, and synthetic fibers are not limited.) Sheets (including films) (tatami sheets and synthetic resin sheets), tatami floors (including honeycomb-shaped ones),
It can be provided by impregnating in a tatami table or the like, or by painting (including spraying and soaking). For example, when a composite material is provided on a tatami sheet provided between a tatami floor and a tatami surface, it is expected that formaldehyde, nitride, sulfide, and the like are adsorbed and decomposed to deodorize. Further, in this case, it is considered that the growing light beam and the negative ions are transmitted from the tatami surface. In addition, as long as the polymer compound is solidified from a liquid and has a shape-retaining property, a product, a semi-finished product, or a part exhibiting effects such as a growing light beam or a negative ion can be formed.

Further, as the polymer compound, a compound which does not or hardly adsorbs negative ions or a compound which can adsorb positive ions can be used. In particular, in the case where the negative ions are not adsorbed or hardly adsorbed, it is easy to balance the amounts of the negative ions and the positive ions even in an environment with a large amount of the positive ions, and it can be expected that the amount of the negative ions is larger than the positive ions. .

The composite material is provided so as to form a layer on the surface of the object without being mixed with the polymer compound (the powders constituting the composite material are not mixed, and the layers can be formed with the respective powders). (It can also be provided individually.) Then, it can be stabilized by painting (including spraying and soaking).

The composite material can also be used by mixing silk protein or sericin taken out in the step of refining raw silk. A composite material containing a mixture of silk protein and sericin can also be provided on textiles such as fabrics, nonwoven fabrics and papers, sheets, tatami floors and tatami mats. Since silk protein and sericin can be expected to have a moisturizing function, an antioxidant effect, an ultraviolet absorbing effect, and the like, those provided with this composite material are considered to be suitable for people who are sensitive to skin. In particular, it is expected to be used for textile products (natural materials such as cotton, silk, hemp, pulp, wool, and the like, and chemical fibers, regardless of the material). In addition, it can also be used in combination with a high molecular compound.

In the case where a polymer material, silk protein or sericin is mixed, if the composite material can be easily removed, it can be fixed by electrostatic coating or the like.

The composite material can be mixed with paint (including heat-resistant paint), concrete (including mortar), gypsum, clay (including kaolin), glaze applied to the surface of unglazed porcelain, and the like. For example, ceramics made with clay or glaze mixed with composite materials can be expected to have a sterilizing effect with ceramics containing magnesium, which eliminates the need to sterilize with hot water at the time of manufacture or use in some cases. Seems to be able to. In addition, minerals and the like may come out from minerals, and if this ceramic is used as tableware, etc., the above minerals can be absorbed into the body. For example, blood circulation purification, blood circulation promotion, fatigue recovery (lactate neutralization), promotion of metabolism, etc. The effect can be expected.

In the case where the composite material is provided as described above, for example, due to the effects of growing light and negative ions,
It can also be expected to suppress the generation of microorganisms and to absorb ethylene gas that is generated from plants and rots itself. In this case, it can also be used to maintain the freshness of vegetables, fruits, fresh flowers and the like. Further, it is considered that it can also be used as a substance that adsorbs and removes formaldehyde, harmful hydrogen sulfide, nitrogen compounds, and the like.

Note that the composite material shown in this embodiment contains black bamboo charcoal, so that the applied or mixed bamboo charcoal has the color of bamboo charcoal. When it is not preferable that the bamboo charcoal is colored, the bamboo charcoal can be used without the charcoal.

The compounding ratio of the composite material and the mixture with which the composite material is mixed is appropriately set according to the application.

In this embodiment, the composite material is obtained by mixing powder obtained by grinding barley stone, powder obtained by grinding Samarski stone, ceramic powder containing magnesium, and bamboo charcoal powder. The substance constituting the material is not limited to this. For example, instead of barley stone, tourmaline,
Powders containing substances that emit growing light, such as shell fossils, natural stones and graphite, can be used. In addition, instead of powder crushed Samarski stone, radioactive materials such as olivine, Yamaguchi stone, pitch blended stone, Euchsenite, pegmatite stone, monazite, xenotime, columbite, tantalum stone, gadolinite, bustness stone, etc. A powder obtained by crushing other ores including, can be used. Further, instead of the ceramic powder containing magnesium, a ceramic powder containing one or more substances selected from titanium, silica or alumina can be used. Furthermore, instead of the bamboo charcoal powder, a powder containing one or more substances selected from charcoal or activated carbon can be used.

The compounding ratio of each substance constituting the composite material is as follows:
It is set appropriately according to the application. In some cases, a ceramic powder containing magnesium (a powder that can be substituted for the ceramic powder) and a bamboo charcoal powder (a powder that can be substituted for the bamboo charcoal powder) may be mixed in a composite material. You can also not.

Next, a second embodiment of the composite material according to the present invention will be described. A fine powder of magnesia, titanium, silica, and alumina is added to a fine powder of natural ore that emits far-infrared rays of 4 to 14 microns to form a composite ceramic having an emissivity of 80% or more. Then, natural ores containing rare earth elements (including uranium series, trium series, and radium series radioactive materials, such as pegmatite stone, samarsky stone, yuxemite stone, and pitchbread stone) that emit a trace amount (370 kg or less per kg) of radiation. ) As fine powder and mixed with the composite ceramic. In addition, 120
Bamboo charcoal or charcoal baked at 0 to 1500 ° C is mixed as a fine powder. The composite material described in this embodiment mode is manufactured in this manner.

The substances constituting the composite material and the mixing ratio differ depending on the purpose of use. For example, a nonwoven fabric, a tatami floor, a sheet, and the like that do not directly appear on the surface of the tatami mat can be a mixture of black tourmaline powder, bamboo charcoal powder, or charcoal powder. However, when used in a tatami table, black tourmaline powder, bamboo charcoal powder, or charcoal powder can be prevented from mixing because the green color of the tatami table becomes black. When used as a fertilizer activator, fine powder of magnesia / titanium / silica / alumina can be avoided.

(Operation) The composite material shown in the present embodiment has a high photoelectric effect by mixing ore containing a rare earth element, which has a strong activity, and increases the vitality even when used in a small amount, thereby reducing the negative ion. Can be increased. Further, by mixing bamboo charcoal or charcoal baked at about 1200 to 1500 ° C., the application field can be expected to expand.

Further, the amount of far-infrared radiation was increased without using a conventionally expensive natural stone or the like. Furthermore, the next most expensive tourmaline ore powder is also used in an amount of 1/2 to 1 /
Even if it was reduced to 3, the effect did not change. As an example, the effect on plants is as follows: when 5 kg of a powder mixed at 10 wt% was used in a 10-are Taho, a yield of 100 was obtained. When 1 kg was used, the yield was 160-20.
Increased to 0%. In addition, the price is 2
000 yen / Kg. That is, the use price was reduced to 1/5. In addition, in terms of purchasing cost, the price of rare earth ore powder is a little expensive, so the addition and subtraction results in a price of about 1/2. It becomes a double solution. That is, the effect can be said to be the same with the use amount of 1/10.

Furthermore, since the composite material can be expected to have a long-term effect of the excitation energy, in the mountainous region of Japan where there are many terraced rice fields, if the composite material is placed in the Ueda area of the terraced fields, the rain will fall and the water will flow down to the Shimoda area. In Ueda, water that receives far-infrared wave energy from the composite material when flowing in the direction carries energy to Shimoda along with nutrients, improves the absorption from the roots by dividing water clusters, and promotes plant growth. I can expect that. Therefore, the running cost is expected to be further reduced. The amount of the composite material to be added to Ueda may be sufficient to make up for about 20% by weight every year after the initial addition.

The composite material shown in the second embodiment can be used so that a mixed resin solution is prepared by putting it in a liquid resin. In this case, in order to generate both negative ions and far-infrared rays, a negatively charged polyethylene-based, acrylic-based, vinyl-based, polyester-based, or natural rubber-based resin is dissolved in 10% to 20% by weight of water to form a resin solution. Create Then, the composite material is contained therein in an amount of 20% by weight.
３０30% by weight. Thus, a natural ore mixed ceramic resin solution is prepared. The natural ore mixed ceramic resin solution is a resin solution having a negative charge.

This natural ore mixed ceramic resin solution is
Put it in a spray container, wall, ceiling, floor, bathroom, hospital,
Spray between treatment rooms, general tatami mats, and boards in nursing homes. The surface of the tatami floor, the surface of the tatami mat, the nonwoven fabric, and the sheet can be sold as a solution to the respective manufacturers. Generally, each product is coated or impregnated and then the dried product is sold. In addition, acrylic resin has a sufficient effect on the tatami mat surface, and it is finished evenly when processed by electrostatic coating. It is good to be pickled on the honeycomb tatami floor.

The composite material described in the second embodiment can be used so that it is put in water to form a mixed aqueous solution. For example, the ratio at the time of final use is 1/3000 to 1/1
The mixture is quantitatively mixed so as to be 0000 to produce a natural mixed ceramic aqueous solution. Plants are broadly divided into trees, fruit trees, and agricultural products, and among the agricultural products, are classified into vegetables and fruits. When spraying a natural mixed ceramic aqueous solution,
1/5000 to 1/10000 is effective for agricultural products, and 1/5000 is effective for fruit trees and trees.
Generally, 1/5000 is good for healthy fruits and trees, and 1 / 10,000 is good for slightly weaker ones. Fruit trees are almost identical to trees. However, there are some differences between fruit trees. Among the agricultural products, the standard is 1 / 10,000 for vegetables and 1/5000 for real products. However, since the natural mixed ceramic aqueous solution is not a nutrient, it is desirable to separately provide a nutrient necessary for plant growth. Therefore, an appropriate nutrient may be mixed with the natural mixed ceramic aqueous solution.

It is to be noted that the natural mixed ceramic aqueous solution can be expected to have a growth promoting and increasing effect even when used for irrigation as well as for foliar spraying, and it is thought that it is sufficient to use the aqueous solution once a half month to once every 20 days like spraying. In addition, natural mixed ceramic aqueous solution can be expected to be effective for health promotion, taste improvement, and also antibacterial,
It can be expected to play a significant role as drinking water and washing water for livestock and poultry raising because of its deodorization, growth promotion and high mineral content. Furthermore, it can be expected that the day that attracts attention as domestic drinking water will surely come, and that it will be widely used for purification of tap water. Furthermore, since it absorbs ethylene gas, it can be used for transferring plants and flowers. Vegetables also have a freshness maintaining effect and an anti-rot effect.
It can be used for transporting and storing fruits, fish, meat, etc.

The composite material described in the second embodiment can be used in a paint. For example, the composite material may be mixed with the desired coating material in an amount of 10% by weight to 20% by weight depending on the purpose of use to produce a natural mixed ceramic coating which emits far-infrared radiation and negative ions. The natural mixed ceramic paint is suitable for household use, factory use, and hospital use since strong sterilization and deodorization can be expected. Furthermore, it is mixed with 10% to 20% by weight of heat-resistant paint and applied to reflectors, gas pipes, drying heaters, oil heaters, halogen heaters, reflectors and reflectors of therapeutic sun lamps that require a thermal energy effect. As a result, a radiant heat effect, a far infrared effect, and the like can be obtained favorably. Thus, the value of the natural mixed ceramic paint is reviewed by improving the thermal efficiency, and it is expected that the use of the natural mixed ceramic paint will increase as a health-friendly home paint.

The terms and expressions used in the present specification are merely illustrative and not restrictive, and terms and equivalents to the features described herein and parts thereof are used. There is no intention to exclude expression. It goes without saying that various modifications are possible within the scope of the technical idea of the present invention.

[0066]

The present invention has the above configuration and has the following effects. (A) According to the composite material of the present invention, a powder containing a substance that emits a growth light emits a growth light, and negative ions are generated from a powder obtained by crushing ore containing a radioactive substance. Therefore, in the composite material according to the present invention, growth promotion, blood circulation, metabolism promotion, low back pain, shoulder stiffness, coldness, rheumatism, neuralgia, menstrual pain, etc., can be expected to have the effect of raising light, fatigue recovery, relaxation, The effects of negative ions such as promoting blood circulation and improving headache, insomnia, and constipation can be expected.

(B) A mixture of ceramic powders containing one or two or more substances selected from titanium, magnesium, silica or alumina may be used in addition to the effects of the growing light and negative ions described above. Sterilization and deodorization effects can also be expected.

(C) A mixture of powder and granules containing one or more substances selected from bamboo charcoal, charcoal or activated carbon also emits growing light from the bamboo charcoal, charcoal or activated carbon. In addition, bamboo charcoal, charcoal or activated carbon has a deodorizing effect,
Since the composite material according to the present invention also has a humidity control function and the like,
In addition to the effects of growing light and negative ions described above,
In addition, deodorizing and humidity controlling effects can be expected.

(D) Polymer compounds that do not adsorb or hardly adsorb negative ions, or a mixture of polymer compounds that adsorb positive ions, are particularly suitable for those that do not adsorb or hardly adsorb negative ions. Even in an environment with many ions, it is easy to balance the amounts of the negative ions and the positive ions, and thus it can be expected that the amount of the negative ions is larger than that of the positive ions.

(E) In the case of a fiber product, a sheet material, or a porcelain in which the composite material is mixed, impregnated, or coated, a growth light and negative ions are generated, and the above-described effects can be expected.

(F) The composite material according to the present invention is obtained by mixing an ore containing a rare earth element, which has a strong activity,
The photoelectric effect is enhanced, and even when used in a small amount, the vitality can be increased, and the emission amount of negative ions can be increased. Furthermore, 1
By mixing bamboo charcoal or charcoal baked at about 200 to 1500 [deg.] C., the application field can be expected to expand.

Claims (10)

[Claims] 1. A composite material comprising: a powder containing a substance that emits a growing light beam; and a powder obtained by crushing an ore containing a radioactive substance. 2. The composite material according to claim 1, comprising a ceramic powder containing one or more substances selected from titanium, magnesium, silica and alumina. 3. The composite material according to claim 1, wherein the composite material comprises a granular material containing bamboo charcoal, charcoal or activated carbon. 4. Oxidation that causes a photocatalytic reaction using a fine powder of natural ore having a particle size of 15 μm or less that emits far infrared rays of 4 to 14 μm and a fine powder of magnesia having a particle size of 15 μm or less as a main base material. A composite ceramic in which titanium is used as a base material, and further a fine powder of silica stone and alumina is mixed, and the emissivity of far infrared rays becomes 80% or more at a surface temperature of about 50 ° C., and a natural ore containing a rare earth element that emits radiation A fine powder of bamboo charcoal or charcoal baked at 1200 to 1500 ° C. 5. Fine powder of natural ore that emits far infrared rays of 4 to 14 microns, fine powder of magnesia, fine powder of natural ore containing a rare earth element that emits radiation, and bamboo charcoal baked at 1200 to 1500 ° C. Or a charcoal fine powder. 6. The composite material according to claim 1, which contains a polymer compound that does not or hardly adsorbs negative ions or a polymer compound that adsorbs positive ions. . 7. The composite material according to claim 1, wherein the composite material is dispersed in a dispersion medium. 8. The method of claim 1, 2, 3, 4, 5, 6, or 7.
A textile product comprising the composite material according to claim 1. 9. The method of claim 1, 2, 3, 4, 5, 6, or 7.
A sheet-shaped article comprising the composite material according to claim 1. 10. A ceramic comprising the composite material according to claim 1, 2, 3, 4, 5, 6, or 7.