JPH0910776A - Honeycomb structure and production thereof - Google Patents

Abstract

PURPOSE: To provide a means safe to a living body and capable of converting especially tap water to drinking function activated water optimum to the keeping of health. CONSTITUTION: A honeycomb structure 3 is obtained by kneading a fine powder of quartz poropyry based on alkali feldspar and quartz to mold the same and baking the molded one and has a large number of holes (cells) 4 in a hoenycomb shape and a correction wave motion for keeping the homeostatis of a living body is applied to the honeycomb structure. This hoenycomb structure 3 is immersed in tap water and water is circulated and aerated for a predetermined time to elute minerals or microelements contained in quartz porophyry to water to hydrate and ionize them to obtain function activated water for drinking.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a honeycomb structure for activating, for example, water used for drinking, and adding trace elements such as minerals to the water to make drinking water optimal for health maintenance. The manufacturing method is related.

[0002]

2. Description of the Related Art Almost all elements are contained in the body of all animals including humans. From a nutritional standpoint, polymer compounds such as proteins, sugars and fats once attracted attention,
Next, electrolytes such as sodium and potassium, as well as vitamins as functional nutrients, became the subject of research and practical use. In recent years, elemental analysis technology has progressed, and health checks by vibrating each part of the body structure necessary to maintain the living body have been proved, so the necessity of trace elements and wave as functional units other than nutrients has been proved. Has been done.

By the way, quartz porphyry in igneous rocks mainly composed of alkali feldspar and quartz has been used as a medicinal stone since ancient times, and has been popular under the name such as bakuhanishi. This quartz porphyry has been used in various ways since ancient times. For example, powder is used as an extender for oral vitamin preparations, water is activated by crushed rock granules, or it is used as a filling filter medium to enhance the effect of a hot bath. It has been done. Also, there are many practical examples in which a powder called a medicinal stone is used to form a ceramic ball and is used as a filtering material. Furthermore, depending on the firing temperature band, it is also used as a far infrared wavelength ceramic.

[0004]

As described above, quartz porphyry is used in various places in daily life, and in particular, quartz porphyry called medicinal stone is diverse. However,
Since the conditions for obtaining the purpose and effect of each use have not been established, the use of groping is widespread. For example, some quartz porphyry called gemstone contains radiation, and the gemstone in this case is not necessarily safe to the living body.

Therefore, the present invention has been made in view of the above circumstances, and provides means that is safe for living organisms, and in particular tap water can be used as drinking functional active water that is optimal for maintaining health. The purpose is to

[0006]

The above object can be achieved by the honeycomb structure of the present invention and the manufacturing method thereof. The honeycomb structure of the present invention is obtained by kneading, molding and firing a fine powder of quartz porphyry containing alkali feldspar and quartz as main components,
It is characterized by having a large number of holes (cells) in a honeycomb shape and applying a correction wave for maintaining homeostasis of a living body.

Further, in the method for manufacturing a honeycomb structure of the present invention, quartz porphyry containing alkali feldspar and quartz as main components is made into a fine powder, and a binder for sintering is added to this powder, and the mixture is kneaded and kneaded. A honeycomb-shaped body having a large number of holes (cells) is formed, and the honeycomb-shaped body is molded in the range of 500 to 640.
It is characterized in that it is fired at a temperature of ° C, and a corrective wave for maintaining the homeostasis of a living body is applied to the fired honeycomb-shaped body under constant magnetism.

[0008]

When the honeycomb structure of the present invention is used as drinking water, it is immersed in water (tap water), circulated for a certain period of time, and then used as active water. While circulating water, minerals and trace elements contained in the quartz porphyry (natural ore) that compose the honeycomb structure are eluted into water and hydrated and ionized, which is a drinking functional activity that is necessary for safe and healthy maintenance. Can provide water. Therefore, not only drinking water, but also agriculture (preventing browning of cut vegetables, etc.), veterinarians (biological regulation in competitive horses), livestock (improving feed efficiency in poultry raising, improving meat quality even in pig raising, etc.), and other industries , Chemistry, food, etc.
It has a wide range of uses and can be selectively used as functionally activated water required for each field.

Further, the manufacturing method of the present invention comprises steps of kneading, molding, firing, and wave application, and a honeycomb structure having the above advantages can be manufactured.

[0010]

EXAMPLES The present invention will be described below based on examples.
The honeycomb structure according to the example is shown in FIGS. 1 and 2. A honeycomb structure 1 shown in FIG. 1 has a columnar shape and is made by kneading, molding and firing a fine powder of quartz porphyry containing alkali feldspar and quartz as main components, and has a large number of circular holes (cells) 2.
In the form of a honeycomb, and a correction wave for maintaining the homeostasis of the living body is further applied. The honeycomb structure 3 shown in FIG. 2 is in the shape of a quadrangular prism, and is also made by kneading, shaping, and firing a fine powder of quartz porphyry, and has a large number of quadrangular cells 4 in a honeycomb shape, and a correction wave is applied. It will be done. The shapes of the honeycomb structures 1 and 3 shown in FIGS. 1 and 2 are merely examples, and shapes other than the illustrated shapes (columnar shape, quadrangular shape) may be used. Further, the shape of the cells 2 and 4 is not limited to a circle or a quadrangle. Dimensional examples of such a honeycomb structure are shown in FIG. However,
In the honeycomb structure 1 of FIG. 1, the cells 2 have a circular shape, but in the dimensional example of FIG. 3, the cells have a quadrangular shape.

Next, a method for manufacturing the above honeycomb structure will be described. First, the quartz porphyry containing alkali feldspar and quartz as the main components is made into a fine powder, and the fine powder of the quartz porphyry is classified into 100 to 400 mesh.
This means that when the cell density of the cells in the formed honeycomb-shaped body to be fired in the subsequent steps is set to 400 cells / inch ² , for example, when the powder particle size of the quartz porphyry is about 400 mesh, kneading, forming and firing are performed. This is because it is easy to do. Therefore, it is preferable to use quartz porphyry powder having an appropriate particle size according to the cell density.

FIG. 4 shows the results of fluorescent X-ray analysis of 300-mesh powder of quartz porphyry (barite stone). However, elements other than light elements from hydrogen ( ₁ H) to oxygen ( ₈ O) and noble gas elements, which are not shown in FIG. 4, could not be detected. According to this, the elements contained in quartz porphyry are Si, Fe, K, Al, Ca, Zr, in descending order of content.
Na, Sr, Rb, Y, Mn, Mg, Ti, Zn, P,
Ga, Pb, Ni, Cu, Ba, S, Co, and 22
It turns out that it has more elements.

In the process of molding a mixture of fine powder of quartz porphyry into a honeycomb-shaped body having a large number of cells, the volume structure of the honeycomb structure including the surface area of the cells depends on the purpose of use. (Refer to the dimension c in FIGS. 1 and 2), and the structure is such that the space volume and the flow velocity are judged from the efficiency. On the other hand, in the step of firing the formed honeycomb-shaped body, the firing temperature is 500 to 640 ° C. This is due to the advantage of the silica silicate structure (SiO) of quartz porphyry,
Considering that it is crystallized quartz of 573 to 870 ° C., the binding and sintering hardness of the binder for sintering are also taken into consideration. The sintering binder used is
For example, hydrous magnesium aluminum silicate (3MgO.1.5Al ₂ O ₃ .8SiO ₂ .9H ₂ O) which is a clay for low temperature sintering may be used.

The honeycomb structure after firing is used as active water after being immersed in water (tap water) for a certain period of time and then circulated for a certain period of time. When it is used as water containing elements and minerals, it is unclear what part of the human body's biological system the water effectively acts on, or whether there is a risk of a reaction, etc. It does not go beyond water.

Therefore, the inventor of the present invention has proposed the electric field theory (USP) of the resonant magnetic field wave device which has been put to practical use in Europe and America.
5, 317, 265), it was confirmed that the wave signal that enhances the functional effect that spreads to all parts of the biological system is transferred to the fired ceramic, and that the transferred wave signal can propagate from the fired ceramic to the water quality to be used. . This is because hydrated ions of minerals and trace elements and oxygen atoms forming water have a certain magnetic property [0.5 to 7 gauss (electromotive voltage 5 to 15).
V)] is equivalent to applying a natural vibration under. Therefore, the correction wave (natural vibration) for maintaining the homeostasis of the living body is applied to the honeycomb structure after firing with a certain magnetic property [0.5 to 7].
Gauss (electromotive voltage of 5 to 15 V)]. However, depending on the natural vibration, a trace element may act as a nutritionally essential element or may exert a harmful effect on the living body. 0 in consideration of activity
It is desirable that the frequency is 28 Hz and a very low frequency band. The fired honeycomb structure retains the given natural vibration, which is considered to be due to the inorganic component centered on iron (Fe) contained in the quartz porphyry.

As described above, quartz porphyry containing alkali feldspar and quartz as the main components is made into a fine powder, and a binder for sintering is added to this powder and kneaded. The kneaded mixture has a honeycomb-shaped body having a large number of cells (Fig. 1 and FIG. 2), the honeycomb-shaped body is fired at a temperature of 500 to 640 ° C., and the fired honeycomb-shaped body is provided with a corrective wave of a constant magnetic force [0.5] to maintain homeostasis of the living body. ~ 7 gauss (electromotive voltage 5 ~
15 V)] below, a honeycomb structure can be manufactured.

In this manufacturing process, an ore (for example, calcium carbonate (CaCO ₃ ) or a different ore) composed of compounds of two or more kinds of electrolyte minerals is made into a fine powder, and this powder is mixed with the fine powder of quartz porphyry in a ratio of 1: 9. You may mix in a ratio and perform kneading, shaping | molding, baking, and wave motion similarly. As a result, not only the features of quartz porphyry but also the features of calcium carbonate, different ores, etc. are added, and it is possible to obtain a honeycomb structure according to various uses.

FIG. 5 shows 5 as the A judgment sample of the embodiment.
Using a honeycomb structure fired at 00 ° C. and a honeycomb structure fired at 900 ° C. as a B judgment sample of a comparative example, the wave measurement at the living body part of each sample was measured, and the results are shown in numerical tables. Is. However, in the judgment, the quality is judged by a numerical value in the range of -50 to +50 from the relationship with the living body, and the larger the numerical value (the closer to +50), the better. As can be seen from this table, A is judged from B judgment
The judgment is generally higher in numerical value. Considering this result, the binding of the binder for sintering and the sintering hardness, the sintering temperature is 5
It is preferable that the temperature is from 00 to 640 ° C. Even in this firing temperature range, 570 to 630 ° C. is particularly suitable. If the firing temperature is lower than 500 ° C, it is easy to crush,
It is difficult to obtain the chromaticity in an aqueous solution. On the other hand, when the temperature is higher than 640 ° C., calcium carbonate (CaCO ₃ ) elution into water becomes poor, and FIG. 5 showing an example of the wave measurement result for each part of the living body for each firing temperature of 500 ° C. and 900 ° C. It turns out to be bad.

FIG. 6 is a table for analyzing the change in water quality when 1 liter of test distilled water containing the honeycomb structure was boiled for 5 minutes and aerated for 1 hour, 3 hours and 5 hours. As a comparative example, the quality of distilled water as it is is also shown. According to this, the PH value of distilled water is 7.0 (neutral), but the pH value is alkaline in both cases of boiling and circulating aeration. When boiling and circulating aeration, the concentration of calcium carbonate (CaCO ₃ ) increased remarkably, but the values of other inspection items did not change, and only iron increased slightly.

In FIG. 7, in the B judgment sample as an example, the honeycomb structure fired at 500 ° C. was immersed in a container containing 10 liters of water (tap water in Nakano-ku, Tokyo) for 1 hour. It is a table which shows the result of having carried out the wave measurement of the sample water after repeating circulation of about 40 turns, and the A sample as a comparative example, and the result of having carried out the wave measurement of the tap water of Nakano Ward in Tokyo. From this table, most of the numerical values are higher in the B judgment than in the A judgment, indicating that the honeycomb structure has a higher activity effect on the biological system than the ordinary tap water (water supply). I understand.

In FIG. 8, based on the results of FIG. 7, after the corrective wave was applied to the dried honeycomb structure to give physiological activity, the honeycomb structure was treated with 10 l of water (Nakano). It is a table showing the results of wave measurement of the sample water after being immersed in a container containing tap water) and repeatedly circulating for about 40 turns in 2 hours. Further, as a reference example, the results of using a honeycomb structure to which no correction wave is applied and the results of tap water in Nakano Ward as a comparative example are also shown. As can be seen from this table, the judgment value of the honeycomb structure (without correction wave) is clearly improved over the judgment value of tap water, but in the case of the honeycomb structure to which the correction wave is applied, the judgment value is Is further improving. As a result, the numerical value of the part of the biological system, which is a negative value, is corrected, and it can be used for drinking as functional active water that does not cause any adverse effect on each part.

[0022]

As described above, when the honeycomb structure of the present invention is used as drinking water, it is immersed in water (tap water), circulated for a certain period of time, and then used as physiologically active water. . While circulating water, minerals and trace elements contained in the quartz porphyry (natural ore) that compose the honeycomb structure are eluted into water and hydrated and ionized, which is a drinking functional activity that is necessary for safe and healthy maintenance. Can provide water. Therefore, not only drinking water, but also agriculture (preventing browning of cut vegetables, etc.), veterinarians (biological regulation in competitive horses), livestock (improving feed efficiency in poultry raising, improving meat quality even in pig raising, etc.), and other industries It has a wide range of uses, such as chemicals, foods, etc., and can be selectively used as functional active water required for each field.

The manufacturing method of the present invention can manufacture a honeycomb structure having the above advantages. Further, in the manufacturing method, an ore made of a compound of an electrolyte mineral is made into a fine powder, and this powder is mixed with a fine powder of quartz porphyry at a ratio of 1: 9, whereby a honeycomb structure suitable for various uses can be produced. .

[Brief description of the drawings]

FIG. 1 is a perspective view of a honeycomb structure according to an example.

FIG. 2 is a perspective view of a honeycomb structure according to another embodiment.

FIG. 3 is a table showing an example of dimensions of the honeycomb structure shown in FIGS. 1 and 2.

FIG. 4 is a table showing the results of fluorescent X-ray analysis of 300-mesh powder of quartz porphyry (barite stone).

FIG. 5 is a table showing the determination results for each part of a living body when a honeycomb structure fired at 500 ° C. and 900 ° C. is used.

FIG. 6 is a table showing test water and water quality test results after the honeycomb structure was immersed in the test distilled water, boiled for 5 minutes, and subjected to circulation aeration for 1 hour, 3 hours, and 5 hours. .

FIG. 7 is a table showing the judgment results for each part of the living body after ordinary tap water and a honeycomb structure fired at 500 ° C. were immersed in tap water and subjected to circulation aeration for 1 hour.

[Fig. 8] Ordinary tap water, and a living body structure after immersing a honeycomb structure without correction wave and a honeycomb structure with correction wave baked at 500 ° C in tap water, and performing aeration and circulation for 2 hours together It is a table showing the determination result for.

[Explanation of symbols]

 1,3 Honeycomb structure 2,4 Hole (cell)

Front page continuation (51) Int.Cl. ⁶ Identification number Office reference number FI Technical indication location C04B 38/00 304 C04B 38/00 304Z (72) Inventor Masana Masakawa 5-27-2 Koganehara, Matsudo City, Chiba Prefecture Shimizu Mansion 102 (72) Inventor Junjiro Awano 1006 Kadoma, Kadoma City, Osaka Prefecture Matsushita Electric Industrial Co., Ltd.

Claims (3)

[Claims] 1. A mixture of alkali feldspar and fine quartz porphyry powder containing quartz as a main component, which is kneaded, shaped and fired, and has a large number of pores (cells) in a honeycomb shape and maintains the homeostasis of a living body. A honeycomb structure characterized by being applied with a correction wave. 2. A honeycomb shaped body having a large number of pores (cells), which is made by finely pulverizing quartz porphyry containing alkali feldspar and quartz as a main component, adding a sintering binder to the powder, and kneading the mixture. And the honeycomb shaped body is molded into
A method for manufacturing a honeycomb structure, comprising: firing at a temperature of 640 ° C .; and applying a correction wave for maintaining homeostasis of a living body to the fired honeycomb-shaped body under constant magnetism. 3. A honeycomb structure according to claim 2, wherein ore made of a compound of an electrolyte mineral is made into a fine powder, and this powder is mixed with the fine powder of the quartz porphyry in a ratio of 1: 9. Production method.