JP3027263U - Water quality active ceramics structure - Google Patents

Abstract

(57) [Summary] [Purpose] By subdividing water clusters by far-infrared rays and magnetic force, it promotes neutralization and mineralization of water PH, activates water, and obtains good-quality tasty water without odor. . Further, the present invention provides a water-activated ceramic structure that is effective in preserving the freshness of other foods, plants, etc. due to rust prevention and scale peeling effects. [Composition] Zeolite, shale, quartz diorite rock, begmatite, granite, coral fossil and other rough stone powder are added with porous diatomaceous earth, and auxiliary materials such as ferrite, powder, walnut shells, etc. are mixed with a binder consisting of konjac etc. and about 1100 and the kneaded product into a predetermined shape of a ball-type or polygonal
It is formed by heating to a high temperature of [° C] for a long time, gradually cooling, and then naturally cooling. It is put into water or used as a filter medium, or put into a preserved product for use.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 INDUSTRIAL APPLICABILITY The present invention is used in a water quality activating device that requires high-quality water that has been activated and mineralized by neutralizing PH, removing offensive odors, softening water, subdividing water molecules, etc. The present invention relates to water quality active ceramics applied to various industrial fields that require steel peeling and the like.

[0002]

[Prior art]

 Water is polluted by domestic wastewater, waste from industrial activities, and destruction of the natural environment due to acid rain. Water pollution interferes with the healthy growth of natural products and impairs the flavor of all foods, which is also harmful to the body. For this reason, various types of water purification agents have been researched and developed. There are various types of water purifiers, but some use ceramics.

Conventionally, only one or two kinds of ceramics have been used as a raw material for a water purifying agent, and the mixing ratio of the one raw material is 80% or more. . Also, the firing temperature is low.

[0004]

[Problems to be solved by the device]

 As described above, conventional ceramics have an ionizing and adsorbing action on water because the compounding ratio of one raw material is 80% or more, but the effect on mineralizing water is low. Therefore, neutralization of PH does not occur. Further, as mentioned above, since the firing temperature is low, the strength of the ceramic is not high and the elution time of water is short. Therefore, it has a short usage period and a short life. Furthermore, far-infrared ray effect is not obtained so much. In addition, since PH is not neutralized, the effect of rust prevention, scale peeling, and odor removal is small.

The present invention solves the above problems by subdividing water clusters to promote neutralization and mineralization of PH, and also has an adsorption action and an ionization action to prevent the generation of offensive odors and soft water. It is an object of the present invention to provide a water-activated ceramics that can be made into a solid, rust-proof, scale-removed, etc., and has strength, far-infrared effect, and improved life.

[0006]

[Means for Solving the Problems]

 In order to achieve the above-mentioned object, the present invention selectively mixes a plurality of kinds of multi-element mineral rough stones, porous diatomaceous earth, auxiliary materials such as ferrite powder and walnut shells, and a binder in a fixed ratio. The water-active ceramics is formed by firing at a firing temperature of about 1100 [° C.]. Further, specifically, powders obtained by crushing zeolite, shale, quartz diorite rock, begmatite, granite, and coral fossil are selectively used as the above-mentioned rough, and porous diatomaceous earth is added to this, and ferrite powder as an auxiliary material is added. Powder and walnut shells are selectively used, and konjac flour, wheat flour, and chemical paste are used as binders. Further, each of the above-mentioned constituent elements has an appropriate mesh, and the mixing ratio of them is variably formed according to the purpose. The firing temperature is as high as about 1100 [° C.].

[0007]

[Action]

 Since many kinds of rough stones are used, the characteristics of each rough stone can be utilized. When used in water, its far-infrared radiation and magnetizing effect subdivide water clusters. Moreover, the neutralization and mineralization of PH are promoted by the action of multiple elements. In addition, the porous material promotes adsorption and ionization. As described above, the smell of chlorine and the like are removed, and delicious drinking water is obtained. In addition, it has an anti-corrosion effect and a growth promoting effect, and is also effective for storage of goods and maintenance of physical property deterioration.

[0008]

【Example】

 Hereinafter, each embodiment of the present invention will be specifically described. 1 is a plan view showing the shape of the water-activated ceramics of the present embodiment, FIG. 2 is a plan view showing the shape of a general embodiment, and FIG. 3 is a time chart for explaining the firing method of the present embodiment. It is a diagram of temperature.

(Example 1) This example corresponds to claim 2. In this embodiment, Zeolite, shale, and quartz diorite are used as raw stones, porous diatomaceous earth is added thereto, and walnut shells are used as an auxiliary material. As the binder, konjac refined flour, wheat flour, and chemical glue are used. The zeolite used is, for example, one produced in the surrounding area of Futaki-cho, Hokkaido and the surrounding area of Nitii-cho, Akita Prefecture, and the zeolite is pulverized into powder of 100 to 600 mesh. As the shale, for example, a powder produced from the Kobutsu Formation of the Shimanto Belt in the southern part of the Kanto Mountains is pulverized into 100 to 600 mesh powder. Further, as the quartz diorite rock, for example, powder produced from a Hakusan mine in Ishikawa prefecture is pulverized into 100 to 600 mesh powder. As the porous diatomaceous earth, for example, powders produced from the Nanao Formation, Izumo Formation, and Takasu Formation of the Tertiary geological group to 100 to 600 mesh were used. Powders of these zeolites, shale, quartz diorite and porous diatomaceous earth are mixed, and walnut shells are mixed to make them porous, and they are hardened using a binder. The mixing ratio of each of the above-mentioned constituents was zeolite 30 [%], shale 30 [%], quartz diorite rock 30 [%], porous diatomaceous earth 10 [%], and walnut shell 10 [%]. %] And a binder of 2 to 5 [%] are mixed and kneaded.

Next, the above kneaded product is molded into a ball shape as shown in FIG. However, it is not necessary to form the ball into an accurate ball shape, and the ball may be solidified into an approximate ball shape as shown in FIG. The kneaded material solidified in the shape of a ball is a small ball having a diameter d of 5 to 25 [mm]. Next, the kneaded material of FIGS. 1 and 2 is fired in the firing state shown in FIG. That is, in FIG. 3, the horizontal axis represents the firing time and the vertical axis represents the firing temperature. First, the kneaded product at room temperature is baked to 200 [° C] for about 2 hours. Next, the temperature is raised to 400 [° C.] over 2 hours. After that, the temperature rises to 600 [° C] in 4 hours, 800 [° C] in 4 hours, 900 [° C] in 2 hours, 1000 [° C] in 4 hours, and finally bake for another 4 hours to 1100 [° C]. Raise the temperature. Next, the temperature is lowered to 900 [° C.] over 2 hours to complete the firing. Then, the water-activated ceramics 1, 1a shown in FIG. 1 or 2 is manufactured by leaving it to stand at room temperature and lowering it to room temperature. A water quality activating effect is produced by adding the water quality active ceramics 1, 1a to water. The water-activated ceramics 1, 1a according to this embodiment is particularly effective for ionizing and mineralizing water and has a large adsorption force. Therefore, it is possible to remove dust such as odor of chlorine in a short time. Therefore, it is most suitable as drinking water.

(Example 2) This example corresponds to claim 3, in which zeolite, quartz diorreite, and begmatite are used as rough stones, porous diatomaceous earth is added thereto, and walnut shells are used as auxiliary materials. And konjac flour, wheat flour, and chemical glue are used as the binder. Zeolite is, for example, a powder obtained by pulverizing the zeolite produced from the area around Futaki-machi, Hokkaido, the area around Nii-cho, Akita Prefecture, and the area around Nishiaizu-cho to 100 to 600 mesh. Quartz diorite rock is, for example, a powder obtained by crushing rock produced from the Hakusan mine, Ishikawa Prefecture, into 100 to 600 mesh. The begmatite is made of, for example, powder produced from Doina-gun, Nagano prefecture and pulverized to 100 to 600 mesh. The porous diatomaceous earth is, for example, a powder produced from the Nanao Formation, the Izumo Formation, and the Takasu Formation of the Tertiary geological group and having a powder of 100 to 600 mesh. Also, the walnut shell is for making it porous. The mixing ratio of the above components is zeolite 30 [%], quartz diorite rock 30 [%], begmatite 30 [%], porous diatomaceous earth 10 [%], and walnut shell 10 [%]. , Binder 2 to 5 [%] is added. The firing method is the same as in Example 1, and the size and shape of the water-activated ceramics to be molded are the same as those in FIGS. 1 and 2. Since this water quality active ceramics uses begmatite, it has a bactericidal action due to weak radioactivity and is excellent in magnetizing effect. Therefore, it is useful as a filter material for a circulating water filter or a filter for a melt field filter.

(Example 3) [0012] This example corresponds to claim 4, in which zeolite, hauterite, coral fossil, and quartz diorite are used as raw stones, and ferrite powder and walnut shells are used as auxiliary materials. Is used, and konjac refined flour, wheat flour, and chemical glue are used as the binder. Zeolite is, for example, a powder produced by pulverizing the zeolite produced from the area around Futaki-cho, Hokkaido, the area around Futatsui-cho, Akita, and the area around Nishiaizu-cho into 100 to 600 mesh powder. Granite is, for example, the Ryoke belt. It consists of a powder of Inagawa granite crushed to 100 to 600 mesh, coral fossil is a powder of general coral fossil crushed to 100 to 600 mesh, and quartz diorite rock is, for example, Hakusan system ores in Ishikawa prefecture. A powder obtained by crushing the rock produced from the above into 100 to 600 mesh is used. Further, as the ferrite, powder of 100 to 600 mesh is used, and the walnut shell is mixed to make it porous. The mixing ratio of these is zeolite 30 [%], granite 30 [%], coral fossil 30 [%], quartz diorite rock 30 [%], and ferrite 5 [%], walnut shell 10 [%] And binder 2 to 5 [%] are added. The firing method of these is the same as in Example 1, and the shape and dimensions of the water-activated ceramics are also the same as those in FIGS. The water-activated ceramics of this example have the same effects as those of Example 1 above, but have particularly high durability and are suitable for a filter medium having a high temperature and a filter medium having a high frequency of use.

Example 4 This example corresponds to claim 5, in which zeolite is used as a raw stone, porous diatomaceous earth is added thereto, and ferrite powder and walnut shells are used as auxiliary materials, and binder is used. Use konjac flour, wheat flour, and chemical glue. For the zeolite, for example, powder produced by pulverizing the zeolite produced from the area around Futaki-machi, Hokkaido, the area around Nii-cho, Akita, and the area around Nishi-aizu-cho to 100 to 600 mesh is used. Powders obtained from the Nanao Formation, Izumo Formation, and Takasu Formation of the Kichi Group are pulverized to 100 to 600 mesh. The mixing ratio of these is as high as Zeolite 70 [%], and porous diatomaceous earth 30 [%] is added thereto, and ferrite powder 5 [%], walnut shell 10 [%], binders 2 to 5 are added to these. [%] Is mixed. The firing method of these kneaded materials and the size and shape of the water-activated ceramics are the same as those in the above-mentioned embodiment. Since the water-activated ceramics of the present embodiment has a large adsorption force and the magnetic action of ferrite, it has the property of assisting the activity of water and is used as a filter material for a circulating water filtration device or a mechanical cooling circulation device.

(Embodiment 5) The water-activated ceramics 1b shown in FIG. 4 is composed of a hollow cylindrical body having a hollow hole 2. The manufacturing method, the composition, etc. are the same as those of the water-activated ceramics 1, 1a of the above-mentioned embodiment. In this embodiment, both the diameter and the axial length are about 20 [mm]. By forming the hollow holes 2, the contact area with water is increased and the flow of water is promoted. In addition, the weight can be reduced. Although a hollow cylinder is used in this embodiment, the shape, number, size, etc. of the external shape and hollow holes are not limited to those shown in the drawings.

The present invention is not limited to the combination of the rough stone, diatomaceous earth, auxiliary material, and binder in the above embodiments, and the mixing ratio thereof is not limited to the above contents and can be changed according to the purpose of use. You can correspond. Of course, the place of origin such as rough stones is not limited to the above place. Also, the point of the firing method is to heat up to 1100 [° C]. The shape of the water-activated ceramics is made into a ball shape for the convenience of use, and is not limited to the size and shape, and it may be a small grain or a large grain, and the shape may be, for example, a polygon or a rod. It may be a shape.

[0016]

[Effect of device]

 According to the present invention, the following remarkable effects are obtained. 1) When the water-activated ceramics of the present invention is used in water, the water cluster is subdivided by far infrared rays and magnetic force effect, and thereby good quality tasty water with no odor of chlorine is obtained. 2) The action of multi-elements promotes the neutralization and mineralization of PH in water, resulting in good quality water. 3) It has a large effect as a filter medium because it has the adsorption and ionization effects of the porous material. 4) It has a high firing temperature, has durability as a ceramic, and can be used for a long time. 5) Since it has rust prevention and scale peeling effects, it also effectively acts on the preservation of food plants other than water. 6) It is formed into an arbitrary shape and widely used as a filter medium for various devices. 7) Since it is fired porous, the contact surface becomes large, and even small particles have a large filtering capacity. 8) By forming hollow holes, the contact surface becomes large and water quality activation is further promoted. In addition, the weight can be reduced.

[Submission date] November 29, 1994

[Procedure 3]

[Document name to be amended] Statement

[Correction target item name] 0001

[Correction method] Change

[Correction content]

[0001]

[Industrial applications]

INDUSTRIAL APPLICABILITY The present invention is used in a water quality activating device that requires high-quality water that has been activated and mineralized by neutralizing PH, removing offensive odors, softening water, subdividing water molecules, etc. The present invention relates to a water-activated ceramic structure applied to various industrial fields that require steel stripping and the like.

[Procedure amendment 4]

[Document name to be amended] Statement

[Name of item to be corrected] 0005

[Correction method] Change

[Correction content]

The present invention solves the above problems by subdividing water clusters to promote neutralization and mineralization of PH, and also has an adsorption action and an ionization action to prevent the generation of offensive odors and soft water. The purpose of the present invention is to provide a water quality active ceramics structure that can be made into a solid, rustproof, scale-removed, etc., and that has strength, has a far-infrared effect, and has a long life.

[Procedure Amendment 5]

[Document name to be amended] Statement

[Correction target item name] 0006

[Correction method] Change

[Correction content]

[0006]

[Means for Solving the Problems]

In order to achieve the above object, the present invention is formed from a relatively small solid material having a ball-shaped or polygonal shape , and contains a plurality of multi-element mineral ore, porous diatomaceous earth, ferrite powder, and walnut. The water-activated ceramic composition structure comprises an auxiliary material such as a shell and a binder selectively in a fixed ratio and is formed into a solid by firing at a firing temperature of about 1100 [° C.]. . Furthermore, specifically, powders obtained by crushing zeolites, shale, quartz diorite rock, begmatite, granite, and coral fossils are selectively used as the above-mentioned rough, and porous diatomaceous earth is added to this, and ferrite is added as an auxiliary material. Powder and walnut shells are selectively used, and konjac refined flour, wheat flour, and chemical glue are used as binders. In addition, each of the above-mentioned constituent elements has an appropriate mesh, and the content ratio of them is variably formed according to the purpose. The firing temperature is a high temperature of about 1100 [° C].

[Procedure correction 6]

[Document name to be amended] Statement

[Correction target item name] 0008

[Correction method] Change

[Correction content]

[0008]

【Example】

Hereinafter, each embodiment of the present invention will be specifically described. FIG. 1 is a plan view showing the shape of a water-activated ceramic structure of the present embodiment ( hereinafter referred to as water-activated ceramics) , FIG. 2 is a plan view showing the general shape of the present embodiment, and FIG. FIG. 3 is a time / temperature diagram for explaining the firing method of the example.

[Brief description of drawings]

FIG. 1 is a plan view showing an embodiment of the shape of the water-activated ceramics of the present invention.

FIG. 2 is a plan view showing another embodiment of the shape of the water-activated ceramics of the present invention.

FIG. 3 is a temperature / time diagram showing an embodiment of a firing method according to the present invention.

FIG. 4 is a cross-sectional view showing another shape of the water-active racemic mixture having hollow holes of the present invention.

[Explanation of symbols]

 1 Water quality active ceramics 1a Water quality active ceramics 2 Hollow hole

─────────────────────────────────────────────────── ───

[Procedure amendment]

[Submission date] November 29, 1994

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be amended] Scope of utility model registration request

[Correction method] Change

[Correction content]

[Scope of utility model registration request]

Wherein said water activity ceramic structure,請Motomeko 1 to claim 6 comprising from those formed through a hollow hole
Item 1. The water-activated ceramic structure according to any one of items
Body . ─────────────────────────────────────────────────── ───

[Procedure amendment]

[Submission date] December 25, 1995

[Procedure Amendment 2]

[Document name to be amended] Statement

[Name of item to be corrected] Name of device

[Correction method] Change

[Correction content]

[Title of device] Water-activated ceramic structure

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Office reference number FI technical display location C04B 38/00 303 // C04B 35/632 35/16

Claims (7)

[Scope of utility model registration request] 1. A plurality of kinds of raw minerals containing multiple elements, porous diatomaceous earth, auxiliary materials such as ferrite powder and walnut shells, and a binder are selectively mixed at a constant ratio to obtain about 110.
A water-activated ceramics which is formed by firing at a firing temperature of 0 [° C.]. 2. The rough is composed of 100 to 600 mesh zeolite powder, 100 to 600 mesh shale powder, and 100 to 600 mesh quartz diorite rock powder. Porous diatomaceous earth powder was added, walnut shell was used as an auxiliary material, and the binder consisted of konjac refined flour, wheat flour, and chemical paste, the zeolite powder 30%, shale powder 30%, quartz flash green The water-activated ceramics according to claim 1, wherein 30% of Reingiwa powder, 10% of porous diatomaceous earth powder and 10% of walnut shell and 2 to 5% of binder are mixed. 3. The rough comprises 100 to 600 mesh zeolite powder, 100 to 600 mesh quartz diorite powder, and 100 to 600 mesh begmatite powder, and 100 to 600 mesh. Porous diatomaceous earth powder is added, walnut shell is used as an auxiliary material, and the binder is konjac refined flour, wheat flour,
It is made of chemical glue, and the powder of zeolite is 30%, the powder of quartz diorite is 30%, and the powder of begmatite is 30.
[%], Porous diatomaceous earth powder 10 [%] and walnut shell 10
The water-activated ceramics of claim 1, wherein [%] and a binder of 2 to 5 [%] are mixed. 4. The rough is composed of 100 to 600 mesh zeolite powder, 100 to 600 mesh granite powder, and 100 mesh to 600 mesh quartz diorite rock powder, and the auxiliary material is It consists of ferrite powder and walnut shell, and the binder consists of konjac refined flour, wheat flour, and chemical paste, and zeolite powder 3
0 [%], Granite powder 30 [%], Coral fossil powder 1
0%, Quartz Diorite 30%, ferrite powder 5%, walnut shell 10%, binder 2-5%
The water-activated ceramics according to claim 1, which is obtained by mixing 5. The rough is composed of 100 to 600 mesh zeolite powder, and 100 to 600
Add porous mesh diatomaceous earth powder, use ferrite powder and walnut shell as an auxiliary material, binder consists of konjac refined flour, wheat flour, chemical paste, zeolite powder 70%, porous diatomaceous earth powder 30% of ferrite powder 5%, walnut shell 10%, binder 2
The water-activated ceramics according to claim 1, wherein the water-activated ceramics are mixed in an amount of 5 to 5%. 6. The water-based active ceramics according to any one of claims 1 to 5, which is formed of a ball-shaped member having a diameter of 5 to 25 [mm]. 7. The water quality active ceramics according to any one of claims 1 to 5, wherein the water quality active ceramics is formed from a member having a hollow hole.