JPH0539698U - Liquid storage container structure - Google Patents

Abstract

(57) [Summary] (Correction) [Purpose] Each household can easily and quickly produce mineral water and contribute to the formation of a healthy constitution. [Constitution] Water storage chamber 11a capable of storing liquid R such as tap water
Body 11 in the form of a clay pot having
Is attached to the water storage chamber 11a at the front end in the longitudinal direction.
An outlet pipe 13 having a spout 13a communicating therewith, a lid 15 for closing an opening 11b above the main body 11, and a grip 17 attached above the main body 11.
In the liquid storage container 10 constituted by
The storage chamber 21 is formed by arranging the wall surface 23 having the. A liquid storage container structure A having a structure in which the sintered bioceramic 30 is stored in the storage chamber 21, and further, the mineral of the sintered bioceramic 30 is eluted into the liquid R in the liquid storage container 10.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a liquid storage container such as a medicine can or a pot capable of producing mineral water, and more specifically, it is beneficial to the human body by eluting minerals from the fired bioceramic placed in the liquid storage container. The present invention relates to a liquid storage container structure that enables easy production of fresh mineral water.

[0002]

[Prior Art]

 In recent years, tap water tends to be shunned due to pollution due to aging of water pipes and odor due to large use of disinfectants.

On the other hand, so-called "mineral water" produced by precipitating, filtering, sterilizing groundwater containing various minerals instead of the tap water has been highlighted as drinking water and the like.

Conventionally, the so-called “mineral water” is generally mass-produced by filtering groundwater at each manufacturing plant, sterilizing it, and bottling it. Some are manufactured by artificial addition.

On the other hand, a conventional liquid storage container such as a medicine canister or a pot is configured by forming a water storage chamber in the container body so that the water can be heated and the heated water can be stored.

[0006]

[Problems to be solved by the device]

 However, the above conventional liquid storage container has the following problems.

That is, according to the conventional liquid storage container, the conventional liquid storage container has only the function of heating the internal liquid (tap water or the like) or storing the heated liquid, and the conventional liquid storage container still retains the function. It remained.

On the other hand, the so-called “mineral water”, which is commercially available, is manufactured by filtering and sterilizing groundwater at each manufacturing plant and then bottling it. It is suitable for drinking, but it is extremely expensive, and its mineral content is extremely low, which is insufficient in terms of contributing to good physical fitness. There was a problem.

The present invention has been made in view of the above circumstances, and it is possible to easily produce mineral water, which is beneficial to the human body, by eluting minerals from the fired bioceramic placed in the liquid storage container. The liquid storage container thus prepared is provided.

[0010]

[Means for Solving the Problems]

 The present invention provides a liquid storage container with a storage chamber for storing a fired bioceramic containing soft porous ancient marine humus and Si6O18, and further, the liquid inside the liquid storage container is provided on the wall surface of the storage chamber. Is formed in the liquid storage container so that the sintered bioceramic can be immersed in the liquid in the liquid storage container by forming a small hole through which the sintered bioceramic cannot pass. By providing it, the above-mentioned tasks will be achieved.

[0011]

[Action]

 The liquid storage container of the present invention is composed of a mixture of Si6O18 and a soft porous ancient marine humus containing many minerals such as anhydrous silicic acid, aluminum, calcium, magnesium and potassium, and a strongly basic substance. Since the fired bioceramic is stored inside, various minerals inside the fired bioceramic are eluted by heating the liquid stored inside, and mineral water is produced.

Therefore, it becomes possible to easily produce mineral water, which is beneficial to the human body, at each home or the like.

Further, since the calcined bioceramic has a porous structure having a surface area of 250 m 2 / g, the calcined bioceramic adsorbs impurities even if it is brown tap water due to corrosion in the water pipe. It works like this, and eventually the water quality of the polluted water etc. is purified, and it becomes a state suitable for drinking.

[0014]

【Example】

 Hereinafter, embodiments of the liquid storage container structure according to the present invention will be described in detail with reference to the drawings.

FIG. 1 is a perspective view showing an embodiment of a liquid storage container structure according to the present invention, FIG. 2 is a vertical sectional view showing the same embodiment, and FIG. 3 is a perspective view showing a main part of the embodiment, and a table. 1 is a substitution rate table showing the substitution rate of the components eluted in the distilled circulating water by heating the distilled circulating water for 30 minutes using the liquid storage container structure of the present invention.

The feature of the liquid storage container structure A of the present invention is that the liquid storage container 10 is provided with a storage chamber 21 in which a fired bioceramic 30 containing soft porous ancient marine humus and Si 6 O 18 is stored. Further, by forming on the wall surface 23 of the storage chamber 21 the small holes 25, 25, ... By which the liquid R in the liquid storage container 10 can flow but the fired bioceramic 30 cannot pass. The fired bioceramic 30 is soaked in the liquid R in the liquid storage container 10.

The liquid storage container 10 is made of copper, aluminum, stainless steel or the like, and has a main body portion 11 in the shape of a clay pot having a water storage chamber 11a capable of storing a liquid R such as tap water, An outflow pipe 13 attached to the main body 11 and having a spout 13a opened at the front end in the longitudinal direction and communicating with the water storage chamber 11a; and a lid 15 for closing an opening 11b above the main body 11. And a grip portion 17 mounted above the main body portion 11.

As shown in FIG. 2, a hollow cylindrical wall surface 23 having a substantially inverted concave shape in vertical section is welded to the bottom surface portion 12 in the water storage chamber 11a of the liquid storage container 10 configured as described above. As a result, the storage chamber 21 is formed in the wall surface 23.

Further, a plurality of small holes 25, 25, ... With a diameter of 2 to 10 mm are bored in the upper surface portion 23 a of the wall surface 23, so that the liquid R can freely enter and leave the storage chamber 21. It has become.

On the other hand, a plurality of (10 to 20) fired bioceramics 30 are stored in the storage chamber 21 as described above.

The calcined bioceramic 30 is composed of a soft porous ancient marine humus and Si6O18. The soft porous ancient marine humus is mixed with Si6O18 and formed into a spherical shape under high pressure, and then, in an electric furnace. It is a porous material that is formed by sintering at (1000 ° C or higher).

The soft porous ancient humic substance exists in, for example, a seabed layer, and its components are silicic acid anhydride (SiO 2) 55.00%, aluminum (Al) 13.00%, and iron oxide (FeO). 4.10%, Calcium (Ca) 3.60%, Magnesium (Mg) 1.60%, Sulfur (S) 1.10%, Potassium (K) 0.173%, Titanium (Ti) 0.160% , Phosphorus (P) 0.070%, cobalt (Co) 0.060%, sodium (Na) 0.050%, manganese (Mn) 0.040%, strontium (Sr) 0.007%, barium ( Ba) 0.007%, tin (Sn) 0.006%, zinc (Zn) 0.006%, vanadium (V) 0.003%, pollium (Po) 0.003%, nickel (Ni) 0. 002%, copper (Cu) 0. Montmorillonite (R0.33Al4 (Si7.33Al0.67) O20 (OH) 4.nH2O), which is a kind of clay mineral containing 001% and other components and having a layered lattice that is swollen by the components, (R = Na +, K +, Mg2 +, Ca2 +).

The fired bioceramic 30 has a diameter smaller than that of the small holes 25 so that the fired bioceramic 30 does not pass through the small holes 25, 25, ... It is molded to have a large diameter (diameter 10 to 20 mm).

When using the liquid storage container structure A configured as described above, it is only necessary to put the liquid R such as tap water in the water storage chamber 11a and heat the liquid R, as in the case of using an ordinary medicine can. Good.

Also, tap water or the like may be put in the liquid storage container structure A and left for a long time, but it is effective because the minerals are eluted in a short time when heated as described above.

When distilled circulating water was put in the liquid storage container structure A and heated for 30 minutes, elution (replacement rate) of various minerals was obtained as shown in Table 1.

[0027]

[Table 1]

That is, by using the liquid storage container structure A of the present invention (containing 14 (70 g) baked bioceramics 30 having a diameter of 19 mm), the distilled circulating water is heated for 30 minutes to carry out the distillation. 6.6 mg / l of anhydrous silicic acid (SiO2), aluminum (Al) 0.76 mg / l, iron (Fe) 0.05 mg / l, calcium (Ca) 18 mg / l, magnesium (Mg) 0.64 mg in circulating water / L, potassium (K) 0. 68 mg / l, titanium (Ti) 0.1 mg / l, phosphorus (P) 0.13 mg / l, cobalt (Co) 0.01 mg / l, sodium (Na) 1.7 mg / l, mangan (Mn) 0 0.01 mg / l, barium (Ba) 0.01 mg / l, zinc (Zn) 0.01 mg / l, tin (Sn) 0.1 mg / l, vanadium (V) 0.1 mg / l, nickel (Ni ) 0.01 mg / l and copper (Cu) 0.01 mg / l were leached.

Therefore, so-called “mineral water” is easily produced in each household by various kinds of eluted minerals, and collagen formation in the human body, cholesterol metabolism, adrenal skin activation, and white blood cells, It will contribute to the enhancement of interheron.

The liquid storage container structure A is not limited to the above configuration, and may be configured as described below.

For example, the wall surface 23 may be attached to the side wall surface near the bottom surface portion 12 in the water storage chamber 11a.

Further, by arranging a wire mesh or the like at the base end of the outflow pipe 13 (point B in FIG. 2), the entire water storage chamber 11a can be configured to serve as the storage chamber 21.

On the other hand, although the liquid storage container 10 is a medicine canister including the main body portion 11, the outflow pipe 13, the lid body 15, and the grip portion 17, it is a medicine canister having another configuration. Needless to say, it may be a kettle or the like.

[0034]

[Effect of the device]

 The liquid storage container structure according to the present invention has the following effects.

(1) The liquid storage container structure of the present invention comprises a soft porous ancient marine humic substance containing many minerals such as silicic acid anhydride, aluminum, calcium, magnesium, potassium, etc., inside the liquid storage container, and Si6O18. Since it has a built-in fired bioceramic composed of a mixture of strongly basic substances, it has the excellent effect that drinking water with high mineral content can be easily produced at home.

(2) Further, the liquid storage container structure of the present invention is inconvenient because it is possible to take minerals by conventional living practices such as boiling water with a medicine can and storing hot water in a pot. It has an excellent effect that a healthy constitution can be formed without feeling.

[Brief description of drawings]

FIG. 1 is a perspective view showing an embodiment of a liquid storage container structure according to the present invention.

FIG. 2 is a vertical sectional view showing the same embodiment.

FIG. 3 is a perspective view showing a main part of the embodiment.

[Explanation of symbols]

 A Liquid storage container structure R Liquid 10 Liquid storage container 11 Main body 11a Water storage chamber 11b Opening 12 Bottom part 13 Outflow pipe 13a Spout 15 Lid 17 Grip 21 Storage chamber 23 Wall 23a Top 25 Small hole 30 Firing bio ceramic

Claims (1)

[Scope of utility model registration request] 1. Soft porous ancient marine humus and Si6O18
A storage chamber is provided in the liquid storage container for storing the fired bioceramic containing the liquid crystal, and the liquid in the liquid storage container can flow into the wall of the storage chamber, but the fired bioceramic cannot pass through. A liquid storage container structure having a structure in which the fired bioceramic is immersed in the liquid in the liquid storage container by forming holes.