JP2001191318A - Negative ion generating product - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a negative ion generating product which enables generation of negative ions from a clay product for building such as a tile or a brick or ceramic ware such as tableware, a vase, a bottle, an ashtray, a toilet stool or an ornament, or further a product of an arbitrary shape constituted of an arbitrary material, in any environment such as a closed indoor space or a city wherein positive ions are easily generated, and also can enhance the efficiency of generation of the negative ions to maximum, while minimizing increase of the cost of the clay product for building, the ceramic ware or other products. SOLUTION: The product is a solid product of the ceramic industry such as the ceramic ware or the clay product for building produced through processes wherein decorative soil or slip is applied on the surface of ground before burning or that of burned ground and fired after drying and further glaze is applied on the surface of the fired and then subjected to main firing. The decorative soil or the slip contains powdered or granular bodies of a negative ion generating substance. The properties of the negative ion generating substance are not changed at the temperature of burning and the temperature or main firing, at least.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to a product for producing negative ions.

[0002]

2. Description of the Related Art Conventionally, medically, when negative ions in the air are absorbed by animals including humans, they are inhaled from the lungs and enter the blood, and negative ions that come into contact with the skin enter the skin. Is absorbed by the capillaries (percutaneous absorption), and as a result, the activity of the cells constituting the living tissue is enhanced (cell activation), and the metabolism of transport and exchange of electrolytes such as Na and K and waste products across the cell membrane is enhanced. It is known that it becomes active, thereby enhancing the natural healing power and activating the function of the autonomic nervous system, and also has many excellent effects such as suppressing the active oxygen of the bad. In addition, due to the above-described cell activating effect, for foodstuffs such as vegetables and meat, freshness is maintained and long-term storage is possible.Furthermore, in growing plants, activation of plant cells and soil By activating the bacteria and microorganisms therein, an effect of promoting plant growth can be obtained. In addition, since a large amount of negative ions are generated in nature such as a hot spring area, a forest, and the vicinity of a waterfall, the user can feel refreshed and relaxed.

[0003]

However, in a closed room or in a city where a large amount of exhaust gas is generated, the air becomes positively ionized and spontaneous generation of negative ions is hardly obtained, so that the user feels bad. There was a problem that unpleasant symptoms such as irritability and irritation tend to appear.

The present invention has been made to solve such a conventional problem, and its object is to solve the problem even in an environment where positive ions are easily generated such as a closed room or a city. Negative ions can be generated from clay products for construction such as tiles, bricks, etc. or ceramics such as tableware, vases, bottles, bottles, ashtrays, toilet bowls, ornaments, etc., and products of any shape composed of any material. It is another object of the present invention to provide a negative ion generating product capable of maximizing the generation efficiency of negative ions while minimizing the cost increase of building clay products or ceramics and other products.

[0005]

According to a first aspect of the present invention, there is provided a negative ion generating product according to the present invention, wherein at least a portion of the surface of a product of an arbitrary shape made of an arbitrary material is used. A powder material or a granular material is adhered to the surface of the coating material before the coating material is solidified, and the powder material or the granular material is composed of a negative ion generating substance. Means.

[0006] With the above-mentioned structure, a powder of a negative ion generating substance adhered and fixed in a partially exposed state on the surface of a coating material adhered and solidified on the surface of a product of an arbitrary shape composed of an arbitrary material. From body or granular
Since negative ions can be directly generated, negative ions can be easily and efficiently converted into an environment where positive ions are easily generated, such as a closed room or a city.

In addition, since a part of the powdery or granular material of the negative ion generating material is exposed to the outside and is in direct contact with the outside air or the like, its function is maximized with a minimum amount. Thus, the maximum effect can be obtained with the minimum cost. In addition, by using the solidifying action of the coating material, only the simple work of sprinkling, spraying, or dusting the powder or granule is required for the work of attaching the negative ion generating substance, which significantly increases the manufacturing process. There is no complication.

[0008] In the negative ion generating product according to the second aspect, an adhesive is adhered to at least a part of the surface of a product formed of an arbitrary material and having an arbitrary shape, and a powdery or granular material is adhered to the surface of the adhesive. Then, the powdery or granular material was constituted by a negative ion generating substance.

With the above-mentioned structure, the negative ion generating substance powder adhered and fixed in a partially exposed state on the surface of the pressure-sensitive adhesive adhered and solidified on the surface of a product of an arbitrary shape composed of an arbitrary material. Negative ions can be directly generated from the body or the granular body. For this reason, for example, by applying to a tape-shaped product, and by using the adhesive of the adhesive to adhere to the blood vessel position of the skin in the human body and the like, the negative ions that come into contact with the skin as described above are , Enters the skin and is absorbed by capillaries (percutaneous absorption). As a result, the activity of cells constituting the living tissue is enhanced (cell activation action). Transport of electrolytes such as Na and K and waste products across the cell membrane.・ The metabolism of exchange becomes active, thereby enhancing the natural healing power and activating the action of the autonomic nervous system, as well as efficiently exhibiting many excellent effects such as suppressing the active oxygen of the bad. Will be able to

[0010] In addition, since a part of the powder or granule of the negative ion generating substance comes into direct contact with the skin, the function can be maximized with a minimum amount. The maximum effect can be obtained at the minimum cost. In addition, the work of attaching the negative ion generating substance can be performed only by simple work such as sprinkling, spraying, or dusting powder or granules by using the adhesiveness of the adhesive, which significantly increases the manufacturing process. There is no complication.

According to a third aspect of the present invention, there is provided the negative ion generating product according to the first or second aspect, wherein the negative ion generating material is a non-heating normal temperature state, such as thorium or uranium, which constantly generates negative ions. Means consisted of a powdery or granular material of trace radioactive rare earth minerals. With the above-described configuration, it is possible to continuously generate negative ions in a non-heated normal temperature state, and it is also possible to obtain a sterilization / antibacterial effect by a minute amount of radiation.

According to a fourth aspect of the present invention, there is provided the negative ion generating product according to any one of the first to third aspects, wherein the powdery or granular material emits far-infrared rays at least in a non-heated room temperature state. Means containing a powdery or granular material of a room temperature far-infrared radiating substance. With the above-described configuration, the far-infrared ray emitted by the far-infrared radiating substance not only provides a freshness-retaining action, a water-activating action, a cell activating action, an aging action, and a deodorizing action, but also uses the far-infrared ray to generate the negative ions. The healing effect can be amplified.

[0013] In particular, the present invention is applied to the tape-shaped product according to claim 2, which is adhered to the blood vessel position or the like of the skin in the human body by utilizing the adhesive property of the adhesive, thereby directly contacting the skin. Far-infrared energy radiated from far-infrared radiating substances has the effect of reducing the clusters of water molecules in the blood, thereby freezing the blood and improving blood circulation, thus increasing blood pressure. In addition to suppressing blood clots in blood vessels, the body's metabolism is activated to promote health and suppress aging.

According to a fifth aspect of the present invention, there is provided the negative ion producing product according to any one of the first to fourth aspects, wherein the powder or the granular material contains an antibacterial substance in the powder or the granular material. Means are included. With the above-described configuration, not only the antibacterial action can be obtained, but also the freshness retaining action, active water action, cell activating action, aging action, and deodorizing action effect by far infrared rays can be further enhanced.

[0015] The negative ion-producing product according to claim 6 is a product of an arbitrary shape composed of a ceramic which is made by applying a clay or a slurry to the surface of the base material before unbaking or the surface of the unbaked base material, drying and firing. The makeup soil or the slurry contains a negative ion generating substance, and the negative ion generating substance is a substance whose properties do not change at least at the unbaking temperature and the firing temperature. By configuring as described above, it becomes possible to generate negative ions from unglazed ceramic products, so that it can easily be used in an environment where positive ions are easily generated such as in a closed room or city, In addition, negative ionization can be efficiently performed.

[0016] In addition, the powdery or granular material of the negative ion generating substance is formed by including the powdery or granular substance of the negative ion generating substance in the clay or the slurry which is thinly laid on the surface of the clay, not the base clay itself. Since the amount of body or granular material used is less than when kneading into the product itself, the cost of the product can be suppressed, and the work of mixing the negative ion generating substance is more viscous than the work of mixing the base material. Is relatively easy due to the low particle size, so that the cost increase of the product can be suppressed, and the powdery or granular material of the negative ion generating substance is contained in a state where a part thereof is exposed on the surface side of the product. Therefore, the generation efficiency of negative ions can be increased.

The negative ion-producing product according to claim 7, wherein the product is a solid ceramic product such as a ceramic or architectural clay product, which is subjected to at least glaze on the surface of the unglazed green body and firing. Before drying the glaze, a powder or granular material of a negative ion generating substance was adhered to the surface of the glaze, and the negative ion generating substance was a substance whose properties did not change at least at the firing temperature. As described above, by using a structure in which powder or granules are attached to the glaze surface, which is the outermost surface of the product, the amount of powder or granules of the negative ion generating substance can be reduced within the base or in the makeup. It is possible to minimize the cost increase of the product because it is less necessary than kneading it in soil or mud, etc., and to apply these powdery or granular materials in cosmetic soil or mud etc. It is relatively easy compared to the kneading work, so that the cost of the product can be reduced, and these powders or granules are contained in a state where a part of the powder or granules is exposed on the outermost surface of the product Therefore, negative ions can be efficiently generated.

[0018] The product for producing anions according to claim 8 is characterized in that the product is fired after the surface of the base material before unbaking or the surface of the unbaked base material is coated with clay or mud, dried and fired, and further glaze is applied to the surface. A ceramic product, such as a clay product for building, which comprises a powder or granules of a negative ion generating material, wherein the negative ion generating material is at least the negative ion generating material. The material did not change its properties at the firing temperature and the main firing temperature.

With the above construction, a clay product for construction such as tiles and bricks, a tableware, a vase,
Negative ions can be generated from ceramics such as bottles, ashtrays, toilet bowls, and ornaments, making it easier and more efficient in environments where positive ions are more likely to occur, such as in closed rooms or cities. It becomes possible to negatively ionize well.

Further, by using a structure in which the negative ion generating substance is contained not in the base clay itself but in the cosmetic soil or the slurry which is thinly hung on the surface thereof, the amount of the powder or granules of the negative ion generating substance used is reduced. Can be reduced compared to the case of kneading into the product itself, so that the cost of the product can be reduced, and the work of mixing the powder or granules of the negative ion generating substance has a higher viscosity than the work of mixing the base material. Is relatively easy because of low, therefore, it is possible to suppress the cost increase of the product, and because the powdery or granular material of the negative ion generating material is included in a position near the surface of the product,
The efficiency of generating negative ions can be increased.

Further, since the surface of the clay or the slurry is thinly coated with the glaze, the anion-generating substance is not directly exposed to the surface.
It can be used for any purpose without any trouble, and its effect can be maintained for a long time.

According to a ninth aspect of the present invention, there is provided the negative ion generating product according to any one of the sixth to eighth aspects, wherein the powdery or granular material of the negative ion generating substance is not heated at normal temperature. A means containing a powdery or granular material of a trace radioactive rare earth mineral such as thorium or uranium, which constantly generates negative ions, was used. With the above configuration, it is possible to continuously generate negative ions in a non-heated normal temperature state.

Further, since a sterilization / antibacterial effect is obtained by a trace amount of radiation radiated from the rare earth mineral, the present invention is applied to, for example, a product formed into a size that can be accommodated in a container for accommodating drinking water. Thereby, it becomes possible to suppress decay of drinking water for a long period of time. In addition, by applying the present invention to a product formed into a size that can be accommodated in water such as a vase or a vase, propagation of various bacteria and microorganisms in the water such as in the vase is suppressed, and thus, a conduit for arranging flowers by various bacteria and microorganisms. The clogging prevents water from being sucked up badly, thereby suppressing early withdrawal of ikebana and the like, so that ikebana can be maintained in a state of good life for a long period of time.

According to a tenth aspect of the present invention, there is provided the negative ion producing product according to any one of the sixth to ninth aspects, wherein the powdery or granular material of the negative ion producing substance is at least in a non-heated room temperature state. And a powdery or granular material of a normal-temperature far-infrared radiating substance which emits far-infrared rays at room temperature. The normal-temperature far-infrared radiating substance is a substance whose properties do not change at least at the firing temperature and the main firing temperature. With the above-described configuration, the far-infrared radiation emitted by the far-infrared radiating substance provides a freshness preserving action,
Not only can a water-activating action, a cell activating action, an aging action and a deodorizing action be obtained, but also the healing effect of the negative ion can be amplified by far infrared rays.

Also, by the action of reducing the cluster of water due to the far infrared rays emitted by the far infrared ray radiating substance, for example, by applying the present invention to a product molded into a size that can be accommodated in a container for accommodating drinking water, The cluster of drinking water is made smaller, which makes it easier for the human body to absorb, and if you continue to drink it, the cluster of blood becomes smaller, which activates metabolism and can quickly excrete harmful waste products in the body. Therefore, the body can be kept healthy and aging can be suppressed. In addition, by applying to a product molded into a size that can be stored in water such as a vase or a vase, the cluster of water stored in the vase or the like is reduced to increase the efficiency of water absorption in ikebana, Freshness can be maintained over a long period of time.

The negative ion generating product according to the eleventh aspect is the negative ion generating product according to the fourth or tenth aspect, wherein the powdery or granular material of the room-temperature far-infrared radiating substance has a far infrared ray range of 2 to 25 μm. The means includes a powder or a granular material of a mineral that emits infrared rays.
By the configuration as described above, the freshness retaining action by the far infrared rays emitted by the far-infrared radiating substance, active water action,
Cell activation, maturation, deodorization, and amplification of the healing effect of negative ions by far infrared rays can be further enhanced.

The negative ion producing product according to the twelfth aspect is the negative ion producing product according to the sixth to eleventh aspects, wherein the powdery or granular material of the negative ion producing material is a powdery or antibacterial substance. The antibacterial substance is a substance which does not change its properties at least at the firing temperature and the main firing temperature. With the above-described configuration, not only the antibacterial action can be obtained, but also the freshness retaining action, active water action, cell activating action, aging action, and deodorizing action effect by far infrared rays can be further enhanced.

A negative ion generating product according to claim 13 is the negative ion generating product according to any one of claims 6 and 8 to 12, wherein the negative ion generating material, the far-infrared radiating substance at room temperature and the antibacterial substance are contained in the form of powder. The granular material was used as a means in which the decorative soil or the slurry was attached to the surface before drying. As described above, the structure in which the powdery or granular material is attached to the surface of the clay or the slurry that is thinly hung on the surface of the clay as the base material allows the negative ion generating material, the far-infrared ray radiating material at room temperature and the antibacterial The amount of powder or granules of the active substance used can be further reduced as compared with the case of kneading into cosmetic soil or mud, so that the cost increase of the product can be minimized, and The work of adhering the body or granules is relatively easy compared to the work of kneading into the makeup soil or the slurry, so that the cost increase of the product can be suppressed, and these powders or granules can be added to the product or the granules. Since it is included in a position close to the surface (in claim 6 in a state where a part of the product is exposed on the surface of the product), a negative ion generating substance and a room temperature far infrared ray emitting substance And it is possible to further enhance the function efficiently by an antimicrobial agent.

According to a fourteenth aspect of the present invention, there is provided the negative ion generating product according to the first to thirteenth aspects, wherein the powdery material or the granular material is mixed with a powdery material or a granular material as an extender. That means.
With the above configuration, the negative ion generating substance, the far infrared ray emitting substance, and the antibacterial substance can be uniformly dispersed and arranged over a wide range of the product. It will be possible to exhibit the limited effect.

[0030]

Embodiments of the present invention will be described below in detail. (Embodiment 1) Embodiment 1 of the present invention shows an example in which the present invention is applied to ceramics among solid ceramic products.

That is, the pottery according to the first embodiment of the present invention is fired in a state in which the surface of the unbaked base material is dried by applying decorative soil or slurry, and then the surface is further covered with glaze and subjected to main firing. A tableware, a vase, a bottle, an ashtray, a toilet bowl, a porcelain such as a decorative article manufactured by the method, wherein a negative ion generating substance, a room temperature far-infrared radiating substance, and an antibacterial substance are mixed in advance as the cosmetic soil. Things are used.

As the anion generating substance, the far-infrared radiating substance at room temperature and the antibacterial substance, substances whose properties do not change at least at the calcination (unglazed, main baked) temperature are used. That is, as the powdered or granular material of the anion-generating substance, the room-temperature far-infrared radiating substance, and the antibacterial substance, for example, "NN powder" (a product of Nishizaki Co., Ltd.) containing all these substances ( Functional artificial ceramic powder) is used. This “NN powder” is a mixture of a radioactive rare earth ore containing natural thorium and uranium and ceramics such as zircon, zirconia, alumina, and silica that emit far-infrared rays at a non-heated and normal temperature state. NN powder, which is produced by crushing, adding an adsorbent for bacteria and odor components and an antibacterial adjuvant as a special adjuvant, and mixing, pulverizing and classifying again. This "NN powder"
Has a direct action of generating negative ions and a far-infrared ray, and an indirect action of antibacterial action and deodorizing action.

As the far-infrared radiating substance, for example, “SGE” which is a product of Only Chemical Co., Ltd.
(Registered trademark) is used. This "SGE" is a powdery material obtained by finely pulverizing an ore mainly composed of silicates, which are the main components of earth rock formation, from the "SGE" in a non-heated room temperature state. Infrared region 4
A far-infrared wavelength of ２４24 μm is particularly stably emitted well, and it has been confirmed that far-infrared rays in this infrared region have a freshness-retaining action, a water-activating action, a cell activating action, a deodorizing action, and an aging action.

The mixing ratio of the NN powder is arbitrary, but it is confirmed that a sufficient effect can be obtained when the above-mentioned “NN powder” is about 3% and “SGE” is about 2% in terms of% by weight based on the makeup soil. Have been. As the antibacterial substance, antibacterial ceramics manufactured to release antibacterial metal ions (silver ions) are used.

With the ceramics according to the first embodiment of the present invention, the following operations and effects can be obtained by configuring as above. That is, tableware, vases, vases, sake bottles,
Since negative ions can be constantly generated from ceramics such as ashtrays, toilet bowls, and ornaments, negative ions can be easily and efficiently converted into an environment where positive ions are easily generated, such as in a closed room or in a city. Will be able to do it. Further, since far infrared rays can be emitted at normal temperature, the healing effect of the negative ions can be amplified by the far infrared rays.

Therefore, especially when applied to a tableware, food storage container, etc., the cell activation action by negative ions,
In addition, the food and drinking water, seasoning liquid, sake, and shochu contained in the tableware are kept fresh by the infrared rays, activated by water, activated by cells, deodorized, ripened, and antibacterial by antibacterial substances. And the like, and the freshness thereof can be maintained for a long period of time.

When the present invention is applied to vases for arranging flowers and products stored in water in vases, the effect of reducing water clusters by far-infrared rays improves water uptake and sterilization by radiation.・ Because the propagation of various bacteria and microorganisms is suppressed by the antibacterial action, clogging of the ikebana conduit with various bacteria and microorganisms inhibits water from being sucked up and suppresses early withdrawal of ikebana, thereby lengthening ikebana. It will be possible to maintain a good state of life over a period.

In addition, a powdery or granular material of an anion-generating substance, a room-temperature far-infrared radiating substance, and an antibacterial substance is mixed not in the clay itself but in the clay or the slurry which is thinly laid on the surface. By using a structure, the amount of anion-generating substance, room-temperature far-infrared radiating substance, and antibacterial substance can be reduced, so that the cost increase of ceramic products can be greatly suppressed, and the anion-generating substance can be reduced. In addition, the mixing of powder or granules of a room temperature far-infrared radiating substance and an antibacterial substance is relatively easy because the viscosity is lower than that of mixing the base material, so that the cost of ceramic products can be significantly increased. In addition to being able to suppress, it is possible to form powders of anion-generating substances, room-temperature far-infrared radiating substances, and antibacterial substances. Since granules will be included in the position close to the surface of the ceramic products, negative ion generation efficiency, far infrared radiation efficiency, and it is possible to greatly enhance the antimicrobial effect.

Further, since the surface of the clay or the slurry is thinly coated with a glaze, powders or granules of an anion-generating substance, a far-infrared radiating substance at room temperature, and an antibacterial substance are directly exposed. It is not exposed on the surface, so that it can be used without any problem in any application and its effect can be maintained for a long time.

(Embodiment 2) In Embodiment 2 of the present invention, the present invention is applied to porcelain among solid ceramic products. This is an example in which the present invention is applied to porcelain such as vases, vases, and bottles with a narrow section. That is, Embodiment 2 of the present invention.
In the unbaked green body, at least the inner bottom surface, preferably the inner surface is also covered with slurry, and the outer surface is covered with decorative soil and dried and fired. Porcelain such as a vase, a vase, a vase, a bottle, etc., which is manufactured by carrying out a main baking process, and producing the same negative ions as in the first embodiment of the present invention in advance as the decorative soil and / or slurry. material,
It uses a mixture of a far-infrared radiating substance at room temperature and a powdery or granular substance of an antibacterial substance.

In the ceramics according to the second embodiment of the present invention, with the above-described configuration, the pottery is accommodated in the water or the bottle accommodated in the vase from at least the inner bottom surface of the vase or the bottle having a narrow opening. The sake can be effectively given a bactericidal and antibacterial action by the action of negative ions and far-infrared rays as well as radiation and antibacterial substances. And since the glaze is not hung on the surface of the slurry hung on the inner bottom surface (preferably also on the inner surface) of vases and sake bottles, water or sake will directly touch the mud, The above action can be made to act more efficiently on sake. The liquid leakage can be suppressed by impregnating the inner bottom surface (preferably also on the inner side surface) of the vase or the bottle with the silicone liquid and drying.

(Embodiment 3) Embodiment 3 of the present invention shows an example in which the present invention is applied to tiles among solid ceramic products. That is, the third embodiment of the present invention is manufactured by baking the surface of the unbaked green body by applying a decorative soil or a slurry to the dried surface, and then baking the surface with a glaze. A tile in which the same negative ion-generating substance, room-temperature far-infrared radiating substance, and powdery or granular substance of an antibacterial substance as in Embodiment 1 of the invention are mixed in advance as the decorative soil or the slurry. Is used. In the tile according to the third embodiment of the present invention, by configuring as described above, it is possible to negatively ionize the place where the tile is set in a wide range.

(Embodiment 4) The embodiment 4 of the present invention is the same as the embodiment 1 to 3 except that the powder is applied to the surface of the glaze before drying the glaze instead of in the clay or the slurry. The difference is that a state body or a granular body is attached. In this way, by using a structure in which powder or granules are attached to the surface of the glaze, which is the outermost surface of the product, the amount of powder or granules used can be reduced to within the base or in the decorative soil or slurry. Since it requires less than kneading, the cost increase of the product can be suppressed to the maximum, and the work of adhering these powdery or granular materials is compared with the work of kneading in makeup soil or slurry. Relatively easy, therefore, it is possible to suppress the cost increase of the product, and since these powders or granules are included in a state where a part is exposed on the outermost surface of the product, the minimum The maximum effect can be achieved by the amount.

(Embodiment 5) The embodiment 5 of the present invention comprises a ceramic which is obtained by applying a decorative soil or a slurry to the surface of the base before unglazing or the surface of the unglazed base, drying and firing. It shows an example applied to a product having an arbitrary shape. That is, the product of the fifth embodiment of the present invention is different from the ceramic of the first embodiment of the present invention in that the step of applying the glaze and performing the baking is omitted, but the other configurations are the same. This is the same as Embodiment 1 of the invention.

Further, as a specific example of the product according to the fifth embodiment of the present invention, water contained in a container for storing liquids such as drinking water, lotion, liquid fertilizer, and vase, vase, etc. To explain the products that have a certain effect on liquids, the base formed in an arbitrary shape (spherical, cylindrical, disk-like, square, etc.) with the size corresponding to the container containing the liquids is unbaked, and the unbaked base is unbaked. Manufactured by applying a clay or slurry to the surface, drying and firing.

According to the fifth embodiment of the present invention, the structure is such that the powdery or granular material is contained not in the base clay itself but in the decorative soil or mud laid thinly on the surface thereof, so that the negative ion generating substance and Since the amount of room-temperature far-infrared radiating substance used is smaller than when kneading into the product itself, the cost of the product can be reduced, and the work of mixing the powdery or granular material can be performed with the base material. It is relatively easy due to its lower viscosity, so that it is possible to reduce the cost of the product.In addition, since the negative ion generating substance and the far-infrared radiating substance at room temperature are contained on the surface of the product, the negative ion generated Action by radiation and sterilization by radiation
The antibacterial action, the action of reducing water clusters, and the like can be efficiently applied to water.

Further, since a sterilization / antibacterial effect by a trace amount of radiation radiated from rare earth minerals can be obtained, by applying the present invention to a product molded into a size that can be accommodated in a container for accommodating drinking water, Decay of drinking water can be suppressed for a long period of time.

Further, by applying the present invention to a product formed into a size that can be accommodated in water, such as a vase or a vase, propagation of various bacteria and microorganisms in the water, such as in a vase, is suppressed. The clogging of the conduit of the ikebana prevents the water from being sucked up and prevents the ikebana from dying at an early stage, so that the ikebana can be maintained in a state of good life for a long period of time.

Further, by the action of reducing water clusters caused by far-infrared rays emitted by a room-temperature far-infrared radiating substance, for example, by applying the present invention to a product molded into a size that can be accommodated in a container for accommodating drinking water By reducing the size of the drinking water cluster, it is easy for the human body to absorb it, and if you continue to drink it, the blood cluster will be reduced, and the metabolism will be activated to quickly excrete harmful waste products in the body. As a result, the body can be kept healthy and aging can be suppressed.

Further, by applying the present invention to a product formed in a size that can be stored in water, such as a vase or a vase, the cluster of water stored in the vase or the like can be reduced, so that the water absorption efficiency of the ikebana can be reduced. And freshness can be maintained over a long period of time.

(Embodiment 6) In Embodiment 6 of the present invention, the present invention is applied to a method in which a coating material which solidifies over time is attached to at least a part of the surface of a product having an arbitrary shape composed of an arbitrary material. This is applied to a product in which a powder or a granular material is adhered to the surface of the coating material before the coating material solidifies. The configuration of the powdery or granular material is the same as in the first embodiment of the present invention.

Examples of the coating material include a sealing agent such as silicone, water glass used as an adhesive or a bonding agent, other adhesives, resins, paints, and the like.
Varnishes, lacquer, pottery, etc. In addition, all products are targeted as products, and their materials and shapes are arbitrary. The method of attaching the powdery or granular material is also arbitrary such as sprinkling, spraying, or dusting.

According to the sixth embodiment of the present invention, the powdery form of the negative ion generating substance adhered and fixed in a partially exposed state on the surface of the coating material adhered and solidified on the surface of a product formed of an arbitrary material and having an arbitrary shape. Since negative ions can be directly generated from the body or granular material, it is possible to easily and most efficiently perform negative ionization in an environment where positive ions are easily generated, such as in a closed room or in a city. Will be able to

Further, since a part of the powdery or granular material is exposed to the outside and is directly in contact with the outside air or the like, the function can be maximized with a minimum amount. , The maximum effect can be obtained with the minimum cost. Furthermore, by using the solidifying action of the coating material,
Since only a simple operation such as sprinkling, spraying or dusting the powdery or granular material is required, the production process is not greatly complicated.

In Embodiment 6 of the present invention,
By using a charcoal such as charcoal and bamboo charcoal, a porous material such as baked goods, zeolite, and diatomaceous earth as a material of the product, the adhesive force of the coating material can be increased. In addition, charcoal such as charcoal or bamboo charcoal, zeolite,
A porous material such as diatomaceous earth is used, and as a coating material to be adhered to the surface, silicone having excellent water resistance, for example, used as a one-component RTV rubber, an adhesive or a bonding agent manufactured by Shin-Etsu Chemical Co., Ltd. By using the water glass or the like, as described in the third embodiment of the present invention,
It is possible to use it for a product that exerts a certain effect on liquids such as water by storing it in a container for storing liquids such as drinking water, lotion, and liquid fertilizer, or in a vase or vase. And
In this case, by attaching a coating material while leaving a part of the outer surface of a porous material such as charcoal, bamboo charcoal, zeolite, diatomaceous earth, etc., the purifying action and deodorizing action of charcoal or bamboo charcoal are possessed. Simultaneously act on liquids or simultaneously act on mineral intake from zeolite and diatomaceous earth.

Further, by adhering the powdery or granular material as a filler in a mixed state to the powdery or granular material, a negative ion generating substance, far-infrared ray can be spread over a wide range of products. Powders or granules of the radioactive substance and the antibacterial substance can be uniformly dispersed and arranged, so that the maximum effect can be exhibited with a small amount without waste.
Furthermore, by using a material obtained by pulverizing charcoal or bamboo charcoal into powder or granules, the water purification and deodorizing effects of charcoal or bamboo charcoal can be simultaneously functioned as the filler, and zeolite is used as the filler. By using diatomaceous earth or the like ground into powder or granules, the action of ingesting minerals from zeolite and diatomaceous earth can be simultaneously functioned.

(Embodiment 7) In Embodiment 7 of the present invention, an adhesive is attached to at least a part of the surface of a product having an arbitrary shape composed of an arbitrary material, and This is applied to a product having a powdery or granular material adhered to the surface. The configuration of the powdery or granular material is the same as in the first embodiment of the present invention.

With the above-described structure, the negative ion-forming substance and the room temperature can be adhered and fixed in a partially exposed state to the surface of the pressure-sensitive adhesive adhered and solidified on the surface of a product of an arbitrary shape composed of an arbitrary material. Negative ions can be directly generated from the powder or granules of the infrared emitting material. For this reason, for example, it is applied to a tape-shaped product, and a powdery or granular material is adhered to a part of the adhesive, and this is adhered to a blood vessel position of the skin in a human body using the adhesiveness of the adhesive. By doing so, the negative ions that have come into contact with the skin as described above enter the skin and are absorbed by the capillaries (percutaneous absorption), and as a result, the activity of the cells that make up the living tissue increases (the cell activating action). ) The metabolism of transport and exchange of electrolytes such as Na and K and waste products across the cell membrane becomes active, thereby enhancing the natural healing power,
In addition to activating the function of the autonomic nervous system, many excellent effects such as suppressing the active oxygen of the bad one can be efficiently exhibited.

Also, the far-infrared energy radiated from the room-temperature far-infrared radiating substance that has come into direct contact with the skin reduces clusters of water molecules in the blood, thereby making the blood smoother and improving blood circulation. Therefore, it can suppress the rise of blood pressure, suppress the formation of blood clots in blood vessels, activate the metabolism of the body, improve health, and suppress aging. .

In addition, since a part of the powdered or granular material of the negative ion generating substance and the far-infrared radiating substance at room temperature comes into direct contact with the skin, the function thereof is maximized with a minimum amount. Thus, the maximum effect can be obtained with the minimum cost.
In addition, the powder or granular material can be attached only by a simple operation such as sprinkling, spraying, or dusting the powder or granular material by utilizing the adhesiveness of the adhesive. There is no significant complication.

Although the embodiment of the present invention has been described above, the specific configuration of the present invention is not limited to the embodiment of the present invention, and a design change or the like may be made without departing from the gist of the invention. Even if present, it is included in the present invention.

For example, in the first to third embodiments of the present invention, the surface of the unbaked green body is baked in a state where the soil is hung and dried. You may make it bake in the state dried.

Further, in the first to third embodiments of the present invention, an example is shown in which a powdery or granular material of a negative ion generating substance, a far-infrared ray radiating substance, and an antibacterial substance is kneaded into a cosmetic soil or a slurry. However, it is also possible to adopt a structure in which a powder or granule of a negative ion generating substance is attached to the surface of a clay or a slurry that is thinly laid on the surface of a clay as a base material. Minimize the use of powders or granules of substances, room-temperature far-infrared radiating substances and antibacterial agents, compared to kneading them into makeup soil or slurry, to minimize the cost of products. And the work of attaching these powders or granules is relatively easy as compared with the work of kneading into the clay or the slurry, and therefore the cost of the product is reduced. It is possible to suppress-up,
Since these powders or granules will be included at a position close to the surface of the product, negative ion generating substances,
The functional efficiency of the room temperature far-infrared radiating substance and the antibacterial substance can be further enhanced.

In the fourth embodiment of the present invention, an example is described in which the surface of the substrate is covered with decorative soil or mud, but this can be omitted and the present invention can be applied to a case where glaze is directly applied to the surface of the substrate. .

Further, as the negative ion generating substance,
The present invention is not limited to those exemplified in the embodiment of the invention, and may be, for example, kneaded in a product "Discover" of Toho Rayon Tokushima Co., Ltd. and a product "Stairs" of Fuji Boseki Co., Ltd. Substances (Patent No. 21
0149), Patent No. 14226696 “MINEON”
(Registered trademark), a substance kneaded in the product "Sesion" of the world's longest corporation (Japanese Patent Laid-Open No. 11-100777), a substance kneaded in the "Holiic" of Shikishima Spinning Co., Ltd.,
All known substances are included, such as substances kneaded in the product "Ionage" of Nisshinbo Co., Ltd.

Further, the room-temperature far-infrared radiating substance is not limited to those exemplified in the embodiment of the present invention. In addition, for example, “vital ceramics” of Vitalwave, zircon, zirconia, alumina,
All known substances such as ceramics such as silica, black charcoal such as charcoal, bincho charcoal, and bamboo charcoal are included. The room-temperature far-infrared radiating substance and the negative ion generating substance are not limited to those obtained from natural ores as exemplified in the embodiment of the invention, and include artificial ceramics and the like manufactured artificially. It is. The wavelength of the far-infrared ray is also arbitrary, but desirably emits far-infrared rays in the infrared region of 4 to 14 μm, which are used as growing light rays, in a non-heated room temperature state.

[0067]

As described above, in the negative ion producing product according to the first aspect of the present invention, the product is solidified over time on at least a part of the surface of the product of an arbitrary shape made of an arbitrary material. A coating material is adhered, and a powder or a granular material is adhered to the surface of the coating material before the coating material is solidified, so that the powder or the granular material is composed of a negative ion generating substance. This allows negative ions to be removed from the powder or granular material of the negative ion generating substance adhered and fixed in a partially exposed state on the surface of the coating material adhered and solidified on the surface of a product of any shape composed of any material. Because it can be generated directly, it can be easily and efficiently used in environments where positive ions are easily generated such as in closed rooms and urban areas. Ku becomes possible to negative ionization.

In addition, since a part of the powdery or granular material of the negative ion generating material is exposed to the outside and comes into direct contact with the outside air or the like, the function is maximized with a minimum amount. Thus, the maximum effect can be obtained with the minimum cost. In addition, by using the solidifying action of the coating material, only the simple work of sprinkling, spraying, or dusting the powder or granule is required for the work of attaching the negative ion generating substance, which significantly increases the manufacturing process. There is no complication.

In the negative ion-producing product according to the second aspect, an adhesive is adhered to at least a part of the surface of an arbitrary-shaped product made of an arbitrary material, and a powdery or granular material is adhered to the surface of the adhesive. The powdery or granular material is constituted by a negative ion generating substance, so that a part of the surface of the pressure-sensitive adhesive adhered and solidified on the surface of a product of any shape composed of any material is exposed. The negative ions can be directly generated from the powder or granular material of the negative ion generating substance adhered and fixed in the state. For this reason, for example, by applying to a tape-shaped product, and by using the adhesive of the adhesive to adhere to the blood vessel position of the skin in the human body and the like, the negative ions that come into contact with the skin as described above are , Enters the skin and is absorbed by capillaries (percutaneous absorption). As a result, the activity of cells constituting the living tissue is enhanced (cell activation action). Transport of electrolytes such as Na and K and waste products across the cell membrane.・ The metabolism of the exchange becomes active, thereby increasing the natural healing power,
In addition to activating the function of the autonomic nervous system, many excellent effects such as suppressing the active oxygen of the bad one can be efficiently exhibited.

Further, since a part of the powder or granule of the anion generating substance comes into direct contact with the skin, the function can be maximized with a minimum amount, and The maximum effect can be obtained at the minimum cost. In addition, the work of attaching the negative ion generating substance can be performed only by simple work such as sprinkling, spraying, or dusting powder or granules by using the adhesiveness of the adhesive, which significantly increases the manufacturing process. There is no complication.

According to a third aspect of the present invention, there is provided the negative ion generating product according to the first or second aspect, wherein the negative ion generating substance is a non-heating normal temperature state, such as thorium or uranium, which constantly generates a negative ion. By adopting the means consisting of powder or granules of trace radioactive rare earth minerals, it is possible to continuously generate negative ions at normal temperature without heating, and sterilize with trace radiation.・ An antibacterial effect can be obtained.

A negative ion generating product according to a fourth aspect is the negative ion generating product according to any one of the first to third aspects, wherein the powdery or granular material emits far-infrared rays at least in a non-heated room temperature state. Means that contains powdered or granular material of room-temperature far-infrared radiating material, which maintains the freshness, activates water, activates cells, ages, deodorizes due to the far-infrared rays emitted by the far-infrared radiating material. In addition to the effect, the healing effect of the negative ions can be amplified by far infrared rays.

Further, in particular, the present invention is applied to the tape-shaped product according to claim 2, which is adhered to the blood vessel position of the skin in the human body by utilizing the adhesiveness of the adhesive, thereby directly contacting the skin. Far-infrared energy radiated from far-infrared radiating substances has the effect of reducing the clusters of water molecules in the blood, thereby freezing the blood and improving blood circulation, thus increasing blood pressure. In addition to suppressing blood clots in blood vessels, the body's metabolism is activated to promote health and suppress aging.

A negative ion producing product according to claim 5 is the negative ion producing product according to any one of claims 1 to 4, wherein the powder or granule contains a powder or granule of an antibacterial substance. Means that antibacterial action can be obtained,
It is possible to further enhance the freshness preserving action, water activating action, cell activating action, aging action, and deodorizing action effect by far infrared rays.

The negative ion producing product according to claim 6 is a product of an arbitrary shape composed of a ceramic which is made by applying a decorative soil or a slurry to the surface of the base material before unglazing or the surface of the unglazed substrate, drying and firing. The makeup soil or the slurry contains a negative ion generating substance, and the negative ion generating substance is a substance whose properties do not change at least at the unglazing temperature and the firing temperature. Since ions can be generated, negative ions can be easily and efficiently ionized in an environment where positive ions are easily generated, such as a closed room or a city.

[0076] In addition, the powdery or granular material of the negative ion generating substance is contained in the clay or the slurry which is thinly hung on the surface of the clay, not the base clay itself. Since the amount of body or granular material used is less than when kneading into the product itself, the cost of the product can be suppressed, and the work of mixing the negative ion generating substance is more viscous than the work of mixing the base material. Is relatively easy due to the low ion content, so that the cost increase of the product can be suppressed and, at the same time, the powdery or granular material of the negative ion generating substance is contained on the surface of the product. Generation efficiency can be improved.

[0077] The negative ion-producing product according to claim 7, wherein the product is a solid ceramic product such as a ceramic, a building clay product or the like, which is subjected to a step of applying at least a glaze to the surface of the unglazed green body and performing a main firing. Before drying the glaze, a powder or granule of a negative ion generating substance is adhered to the surface of the glaze, and the negative ion generating substance is a substance whose properties do not change at least at the firing temperature, that is, the product By using a structure in which powder or granules are attached to the surface of the glaze, which is the outermost surface of the material, the amount of powder or granules of the negative ion generating substance can be reduced to within the base or in the decorative soil or slurry. Since it requires less than in the case of kneading, the cost increase of the product can be minimized, and the work of attaching these powdery or granular materials is a Or it is relatively easy to knead into the slurry, so that the cost increase of the product can be suppressed, and the powder or granules are partially exposed on the outermost surface of the product. Therefore, negative ions can be efficiently generated.

The negative ion-producing product according to claim 8 is characterized in that the product is fired after applying a decorative soil or a slurry to the surface of the base material before the unbaking or the surface of the unbaked base material, drying and firing, and further applying a glaze to the surface. A ceramic product, such as a clay product for building, which comprises a powder or granules of a negative ion generating material, wherein the negative ion generating material is at least the negative ion generating material. Negative ions are generated from building clay products such as tiles and bricks or ceramics such as tableware, vases, bottles, ashtrays, toilet bowls, and ornaments by using substances whose properties do not change at the firing temperature and the main firing temperature. Because it can be made to be, it can easily be in an environment where positive ions are easily generated such as a closed room or a city,
In addition, negative ionization can be efficiently performed.

Further, by using a structure in which the negative ion generating substance is contained not in the base clay itself but in the cosmetic soil or the slurry which is thinly laid on the surface thereof, the amount of the powder or granules of the negative ion generating substance used can be reduced. Can be reduced compared to the case of kneading into the product itself, so that the cost of the product can be reduced, and the work of mixing the powder or granules of the negative ion generating substance has a higher viscosity than the work of mixing the base material. Is relatively easy because of low, therefore, it is possible to suppress the cost increase of the product, and because the powdery or granular material of the negative ion generating material is included in a position near the surface of the product,
The efficiency of generating negative ions can be increased.

Furthermore, since the surface of the clay or the slurry is thinly coated with the glaze, the negative ion generating substance is not directly exposed to the surface, and therefore,
It can be used for any purpose without any trouble, and its effect can be maintained for a long time.

According to a ninth aspect of the present invention, there is provided the negative ion generating product according to any one of the sixth to eighth aspects, wherein the powdery or granular material of the negative ion generating substance is not heated at normal temperature. By using a means that contains powdered or granular materials of trace radioactive rare earth minerals such as thorium or uranium that constantly generate negative ions, it is possible to continuously generate negative ions at room temperature without heating. become able to.

Further, since a sterilizing / antibacterial effect is obtained by a minute amount of radiation radiated from the rare earth minerals, for example, the present invention is applied to a product formed in a size that can be accommodated in a container for accommodating drinking water. Thereby, it becomes possible to suppress decay of drinking water for a long period of time. In addition, by applying the present invention to a product formed into a size that can be accommodated in water such as a vase or a vase, propagation of various bacteria and microorganisms in the water such as in the vase is suppressed, and thus, a conduit for arranging flowers by various bacteria and microorganisms. The clogging prevents water from being sucked up badly, thereby suppressing early withdrawal of ikebana and the like, so that ikebana can be maintained in a state of good life for a long period of time.

A negative ion generating product according to claim 10 is the negative ion generating product according to any one of claims 6 to 9, wherein the powdery or granular material of the negative ion generating substance is at least in a non-heated room temperature state. Powder or granules of a room-temperature far-infrared radiating substance that emits far-infrared rays at room temperature, and the room-temperature far-infrared radiating substance is a substance whose properties do not change at least at the firing temperature and the main firing temperature. The far-infrared rays emitted by the infrared-emitting substance not only provide freshness-retaining action, water-activating action, cell-activating action, aging action, and deodorizing action, but also can amplify the healing effect of the negative ion by far-infrared rays. become.

Further, by the action of reducing clusters of water due to the far infrared rays emitted by the far infrared ray radiating substance, for example, by applying the present invention to a product molded into a size that can be accommodated in a container for accommodating drinking water, The cluster of drinking water is made smaller, which makes it easier for the human body to absorb, and if you continue to drink it, the cluster of blood becomes smaller, which activates metabolism and can quickly excrete harmful waste products in the body. Therefore, the body can be kept healthy and aging can be suppressed. In addition, by applying to a product molded into a size that can be stored in water such as a vase or a vase, the cluster of water stored in the vase or the like is reduced to increase the efficiency of water absorption in ikebana, Freshness can be maintained over a long period of time.

The negative ion generating product according to the eleventh aspect is the negative ion generating product according to the fourth or tenth aspect, wherein the powdery or granular material of the room-temperature far-infrared radiating substance has a infrared ray range of 2 to 25 μm. By means of containing a powder or granules of a mineral that emits infrared rays, the above-mentioned freshness preserving action by far-infrared rays emitted by a far-infrared radiating substance, a water-activating action, a cell activating action, an aging action, a deodorizing action, and In addition, the amplifying effect of the healing effect of the negative ions due to the far infrared rays can be further enhanced.

The negative ion generating product according to the twelfth aspect is the negative ion generating product according to the sixth to eleventh aspects, wherein the powdery or granular material of the negative ion generating material is a powdery or antibacterial substance. Granules are included, and the antibacterial substance is a substance that does not change its properties at least at the baking temperature and the main baking temperature. In addition, the water-activating action, the cell activating action, the aging action and the deodorizing action can be further enhanced.

The negative ion generating product according to claim 13 is the negative ion generating product according to any one of claims 6 and 8 to 12, wherein the negative ion generating substance, the far-infrared radiating substance at room temperature and the antibacterial substance are contained in the form of powder. The granules are a means of containing the clay or mud attached to the surface of the clay before it dries, i.e., the powder is applied to the surface of the clay or mud which is thinly applied to the surface of the base clay. When the powder or granules of the negative ion generating substance, the far-infrared radiating substance at room temperature and the antibacterial substance are used in the structure in which the particles or the particles are adhered to the structure, the amount of the powder or the particles can be reduced. Because it requires less, the cost increase of the product can be minimized, and the work of attaching these powders or granules is cosmetic Or, it is relatively easy as compared with the operation of kneading into the slurry, so that the cost increase of the product can be suppressed, and at the same time these powdery or granular materials are located at a position close to the surface of the product (claim 6). In such a case, the functional product is included in a state where the product is partially exposed on the surface of the product, so that the functional efficiency of the negative ion generating material, the far-infrared ray radiating material at room temperature and the antibacterial substance can be further enhanced.

A negative ion generating product according to a fourteenth aspect is the negative ion generating product according to the first to thirteenth aspects, wherein the powdery or granular material is mixed with a powdery or granular material as an extender. Means that the anion-generating substance, the far-infrared-emitting substance, and the antibacterial substance can be uniformly dispersed and distributed over a wide range of products. The effect of can be exhibited.

Claims (14)

[Claims] 1. A coating material which solidifies over time is adhered to at least a part of the surface of a product having an arbitrary shape composed of an arbitrary material, and a powdery material is applied to the surface of the coating material before the coating material solidifies. Alternatively, a negative ion-producing product characterized in that the powdery or granular material is made of a negative ion-producing substance by adhering a granular substance. 2. A pressure-sensitive adhesive is adhered to at least a part of a surface of a product of an arbitrary shape composed of an arbitrary material, and a powder or a granular material is adhered to a surface of the adhesive, wherein the powder or the granular material is adhered. Characterized in that the product is composed of a negative ion generating substance. 3. The method according to claim 1, wherein the negative ion-generating substance is formed of a powdery or granular material of a trace radioactive rare earth mineral such as thorium or uranium which constantly generates negative ions at a non-heated normal temperature state. The negative ion producing product according to claim 1. 4. A powder or granule of a room-temperature far-infrared ray radiating substance which emits far-infrared rays at least in a non-heated room temperature state in said powder or granule. 4. The negative ion producing product according to any one of items 1 to 3. 5. The product according to claim 1, wherein said powdery or granular material contains a powdery or granular material of an antibacterial substance. 6. A product of an arbitrary shape composed of ceramics which is made by applying a decorative soil or a slurry on a surface of a base material before sintering or a surface of the unbaked sinter and drying and firing the same. An anion-generating product comprising a powdery or granular body of anion-generating substance, wherein the anion-generating substance is a substance whose properties do not change at least at the unbaking temperature and the firing temperature. 7. The product is a solid ceramic product such as a porcelain or a clay product for building, which is subjected to at least a glaze on a surface of an unglazed green body and a baking process, wherein the surface of the glaze is before drying of the glaze. A powder or granule of a negative ion generating substance adhered to the negative ion generating substance, wherein the negative ion generating substance is a substance whose properties do not change at least at the baking temperature. 8. A ceramic or architectural product, which is obtained by subjecting a surface of a base material before unsintering or a surface of the unsintered base material to a sintering or a slurry, drying and sintering, and further applying a glaze to the surface for sintering. A solid ceramic product such as a clay product, wherein the cosmetic soil or the slurry contains a powder or granules of a negative ion generating substance, and the negative ion generating substance has a property at least at the firing temperature and the main firing temperature. A negative ion producing product characterized in that the substance does not change. 9. The powder or granule of the anion-generating substance includes a powder or granule of a trace radioactive rare earth mineral such as thorium or uranium that constantly generates a negative ion at a non-heated room temperature state. The negative ion producing product according to any one of claims 6 to 8, wherein the product is produced. 10. The powder or granule of a room temperature far-infrared ray radiating substance which emits far-infrared rays at a non-heated room temperature state in the powder or granule of the negative ion generating material. The product according to any one of claims 6 to 9, wherein the radiating substance is a substance whose properties do not change at least at the firing temperature and the main firing temperature. 11. The powdery or granular material of the room-temperature far-infrared radiating substance includes a powdery or granular material of a mineral emitting far-infrared rays in an infrared region of 2 to 25 μm. Or the product for producing negative ions according to 10. 12. The powder or granule of the anion generating substance includes a powder or granule of an antibacterial substance, and the antibacterial substance has a property at least at the firing temperature and the main firing temperature. The product according to any one of claims 6 to 11, wherein the product does not change. 13. The powder or granules of the anion-generating substance, the room-temperature far-infrared radiating substance and the antibacterial substance are contained in a state that the clay or the slurry is attached to the surface before drying. 9. The method according to claim 6, wherein:
13. The negative ion producing product according to any one of items 12 to 12. 14. The negative ion producing product according to claim 1, wherein said powdery or granular material contains a powdery or granular material as an extender.