KR20060051562A - Vessel having a material for making alkali-water and mineral-water - Google Patents

Abstract

Disclosed is a container provided with a sintered molded body capable of providing alkaline water and mineral-containing water to drinking water. The container provided with a sintered molded body capable of providing alkaline water and mineral-containing water with respect to the drinking water of the present invention comprises: a container body having a receiving space in which predetermined drinking water is filled; And a sintered molded body provided on at least one side of the receiving space of the container body, wherein the sintered molded body has an eluent and a ceramic raw material containing at least one of an ingestable alkali element and a mineral element, and the eluted material is formed on the ceramic raw material. When mixed and then sintered and molded to be dissolved in drinking water, it is characterized in that it provides predetermined alkali water and mineral-containing water. According to the present invention, not only can be dissolved in drinking water to provide alkaline water and mineral-containing water, which is beneficial to the health of the human body, but also can be produced by a simple method and can be easily used anytime, anywhere because it is easy to transport, store and carry.

Alkaline water, weakly alkaline water, minerals, water containing, sintered, shaped bodies, containers

Description

Vessel having a material for making alkali-water and mineral-water} to provide alkaline water and mineral-containing water for drinking water

1 is a side view of a container provided with a sintered molded body capable of providing alkaline water and mineral-containing water to drinking water according to an embodiment of the present invention.

FIG. 2 is a partially enlarged exploded view of the container shown in FIG. 1. FIG.

3 is a coupling diagram of FIG. 2.

4 is a flowchart according to a method of manufacturing a sintered molded body.

5 is a schematic configuration diagram of a container provided with a sintered molded body capable of providing alkaline water and mineral-containing water with respect to drinking water according to another embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

10: container body 10a: accommodation space

12: grip part for holding 14: reinforcement band

16: transverse bulkhead 18: staircase

20: sintered molded body 20a: hemispherical body portion

20b: flange 25: top cover

28: lower cap 30: waterproof

The present invention relates to a container provided with a sintered molded body capable of providing alkaline water and mineral-containing water to drinking water, and more particularly, to provide alkaline water and mineral-containing water dissolved in drinking water and beneficial to human health. In addition, the present invention relates to a container equipped with a sintered molded body capable of providing alkaline water and mineral-containing water for drinking water, which can be manufactured by a simple method and can be easily used anytime and anywhere because it is easy to transport, store and carry.

All living things must have water to sustain life. Water, along with oxygen, is the most important factor for human survival. Humans live only a few minutes without oxygen, and live only a week (4-9 days) without water. As the distribution ratio of sea and land is 7: 3, and water occupies 70% of the earth's surface, about 70% of our human body is composed of water. Losing 1 ~ 2% of the body's water causes severe thirst and pain, and losing about 5% leads to a semi-coma and loses 12% of life.

A person can survive for 4 to 6 weeks without eating food, but if they do not drink water, the metabolism will not be smooth, and they will not release the toxins in the body, causing self poisoning and dying in less than a week.

The water in the body wanders around without a break. Molecules of water are present in any part of the body. After a few seconds, the body's water has moved to another place and replaced with a new molecule of water. Most water is used repeatedly as it circulates in the body. However, about 2.5 liters (1) per day is said to be lost in various ways. Therefore, drink a certain amount of water every day.

The water we drink every day circulates in the order of mouth → stomach → intestine → liver, heart → blood → cell → blood → kidney → excretion, maintaining cell morphology, enhancing metabolism and smoothing blood and tissue fluids And dissolve the nutrients. In addition, it is essential for life support such as absorbing and transporting these cells to supply them to cells, excretion of unnecessary wastes in the body, keeping the blood neutral or slightly alkaline, and regulating body temperature by dissipating heat in the body. Circulation, assimilation, excretion, body temperature control, etc. are performed. Therefore, it can be said that the measure of health is how well the body performs the role of circulating the body until water once it is excreted in the form of urine or sweat. It goes without saying that drinking good water is the basis of health.

Alkaline (weakly alkaline) water with minerals is reported to be very good for your health. However, until now, most of the pH value of the hydrogen ion concentration of water that people drink is 7pH. So most people are drinking neutral water. Alkaline water with minerals will remove the astringent taste. Waste products accumulated by drinking, smoking, and air pollution are the source of disease, and alkali water is quickly discharged. Drinking alkaline water improves digestive absorption and strengthens the intestines, eliminating the aftermath, and causing severe fatigue, headaches, colds, and other abnormalities in the body. In addition, alkaline water containing minerals not only quickly washes away thirst and fatigue caused by exercise and overwork, but also is especially good for the elderly and patients with poor gastrointestinal function.

As such, water (also called weakly alkaline) containing minerals such as calcium and magnesium (which is called mineral-containing water) is closely related to the health of our body, so it is good to contact it normally. However, there is a limit to ingesting them by means of food or other drugs, so it is common to use water purifiers that provide alkaline water or mineral water in the form of drinking water.

By the way, in the case of commercially available water purifiers, alkaline water is produced by a predetermined electrolysis method, but the purchase cost is high, so it is not enough to lead to popularization. In addition, since the mineral components contained in the water are filtered (filtered) at the time of purification, it is difficult to maintain their functions as mineral-containing water. After all, the water purified through the conventional water purifier has a pH value of about 7, so it does not give a beneficial activity to the human body is only a degree of making clean water rather than making water beneficial to human health. Even if it is possible to provide weak alkaline water through the water purifier, the drinking water is available only where the water purifier is installed, which is a relatively large device.

It is an object of the present invention, not only to provide alkaline water and mineral-containing water, which is dissolved in drinking water, which is beneficial to the health of the human body, but also can be manufactured by a simple method and can be easily used anytime, anywhere because it is easy to transport, store and carry. It is to provide a container provided with a sintered molded body capable of providing alkaline water and mineral-containing water.

The object is, the container body is provided with a receiving space filled with a predetermined drinking water available for drinking; And a sintered molded body provided on at least one side of a receiving space of the container body, wherein the sintered molded body has an eluent and a ceramic raw material containing at least one of an ingestable alkali element and a mineral element, and the eluted material When mixed with the ceramic raw material and then sintered and molded to be dissolved in the drinking water, a sintered molded body capable of providing alkaline water and mineral-containing water to the drinking water, characterized in that it provides a predetermined alkali water and mineral-containing water. Achieved by the container.

Here, the container body is formed of a tubular body with both ends open, the upper opening of the container body is detachably coupled to the upper cover having a drinking water discharge portion.

A lower cap coupled to the lower opening area of the container body, and a detachable coupling part formed on the container body and the lower cap to attach and detach the lower cap to the lower opening area of the container body; The sintered molded body is provided in the lower opening region of the container body.

It is preferable that a horizontal partition wall is formed in the lower opening region of the container body to protrude a predetermined length radially inward from the inner wall surface of the container body to prevent upward movement of the sintered molded body.

The sintered molded body may include a hemispherical body part at least partially disposed in the receiving space of the container body facing the upper cover through the inner space of the horizontal partition wall; And a flange portion extended radially outward from a lower end of the hemispherical body part and held at a lower end of the transverse bulkhead.

A stepped portion protruding from the inner wall surface of the container body may be further formed in the lower region of the transverse bulkhead so as to conform to the outer surface of the hemispherical body portion and the flange portion.

When the lower cap is coupled to the lower opening of the container body, the lower cap may further include a waterproof body to pressurize the sintered molded body toward the horizontal partition wall and to maintain an airtightness between the container body and the lower cap. .

The waterproof body is preferably an elastically deformable silicone material.

Is coupled to the container body may further comprise a grip for gripping the container body.

It may further include a reinforcing band mounted to the container body to reinforce the grip portion for holding.

After the sintered molded body is accommodated in a predetermined porous shell, it may be provided on one side in the receiving space of the container body.

The porous envelope may be any one of a filter cloth and a nonwoven fabric.

The eluting material is 0.05 ~ 70% by weight compared to 100% by weight of the ceramic raw material as a raw material.

0.01 to 20% by weight relative to 100% by weight of the ceramic raw material may be mixed, and may further include an antimicrobial / sterilizer formed of a material containing any one of silver and fluorine.

3 to 40% by weight relative to the total weight of the ceramic raw material, the eluting material and the antibacterial / sterilizer may be mixed, and may further include any one binder selected from water, alcohols, dilution solution of water and alcohol.

The eluting material may be at least one selected from a material containing at least one of calcium carbonate, magnesium carbonate, calcium hydroxide, magnesium hydroxide, and magnesium hydroxide, elvan, dolomite, and dolomite.

The ceramic raw material may be at least one selected from clay, alumina, zirconia, talc and vermiculite of porcelain raw materials.

The sintering temperature is in the range of 700 ~ 1400 ℃.

Hereinafter, with reference to the accompanying drawings will be described in detail for each embodiment of the present invention.

1 is a side view of a container provided with a sintered molded body capable of providing alkaline water and mineral-containing water with respect to drinking water according to an embodiment of the present invention, FIG. 2 is a partially enlarged exploded view of the container shown in FIG. 3 is a coupling diagram of FIG. 2.

As shown in these drawings, the container according to an embodiment of the present invention, the container body 10 is formed with a receiving space (10a) filled with a predetermined drinking water available for drinking therein, the container body 10 is accommodated It is provided in the space 10a, and is melt | dissolved in drinking water, and has the sintered compact 20 which changes general drinking water (including tap water) into predetermined | prescribed alkaline water and mineral containing water.

The container body 10 has a cylindrical shape. The volume of the accommodating space 10a in the container body 10 is sufficient if the volume is about 500 ml and 1500 ml PET bottles which are commonly encountered in the periphery. However, if necessary, the volume of the accommodation space 10a may be appropriately selected.

When drinking water is filled in the container body 10, the overall weight of the container increases. Therefore, as shown in Figure 1, it is preferable to further provide a grip handle portion 12 for holding the container body 10 is coupled to the container body (10). The container body 10 further includes a reinforcing band 14 mounted in an annular shape to the container body 10 to prevent the grip handle 12 from being easily broken or separated, thereby reinforcing the grip handle 12 for holding. It is prepared.

The container body 10 is formed of a tubular body that is open at both ends. Therefore, the upper opening part is formed in the upper part of the container body 10, and the lower opening part 10b is formed in the lower part. For convenience, reference numerals are omitted from the upper openings.

The upper opening portion is coupled to the upper cover 25 for selectively opening and closing the upper opening portion. In order to fill the drinking water into the receiving space 10a in the container body 10 at one time, the upper cover 25 is preferably detached from the upper opening. The detachable method is the most simple screw method, but may be in the form of a hook-type pressure cover. The upper cover 25 is formed with a drinking water discharge portion 26 for discharging alkaline water and mineral-containing water changed by the sintered molded body 20.

The lower cap 28 is coupled to the lower opening 10b of the container body 10. Like the upper cover 25, the lower cap 28 is also detachable with respect to the container body (10). To this end, between the outer surface of the lower opening 10b of the container body 10 and the inner surface of the lower cap 28, the removable cap (19, 29) by means for easily mounting or detaching the lower cap 28 ) Is formed. In the figure, the detachable coupling portions 19 and 29 are shown as threads. However, this may also be modified by a hook type pressure type (not shown).

The above-mentioned sintered molded body 20 is provided in the region of the lower opening 10b of the container body 10 to which the lower cap 28 is coupled. The sintered molded body 20 has a hemispherical body portion 20a disposed in the receiving space 10a of the container body 10 facing the upper cover 25 through the inner space of the horizontal partition 16 to be described later, The flange portion 20b extends radially outward from the lower end of the hemispherical body portion 20a and is held at the lower end of the horizontal partition wall 16.

The sintered molded body 20 is sintered and formed at a predetermined high temperature after mixing an intakeable elutable substance and a ceramic raw material. Therefore, it can be produced in the shape shown in FIG. The component and the manufacturing method of the sintered compact 20 are as follows.

The eluting substance contains at least one of an alkali element for providing alkaline water and a mineral element for supplying minerals. That is, when the eluted material is made of the sintered molded body 20 and then dissolved in water, the eluted material is determined to provide only alkaline water or only mineral-containing water, or both alkaline and mineral-containing water.

Such eluting materials include materials containing at least one of calcium carbonate, magnesium carbonate, calcium hydroxide, magnesium hydroxide and magnesium hydroxide, elvan, dolomite and dolomite. Therefore, the eluted material may be used in combination of one or two or more of them, in the present embodiment, dolomite is used.

Dolomite is also known as dolomite or high stone. The chemical formula is CaMg (CO ₃ ) ₂ . Lime carbonate and magnesium carbonate form 1: 1 bicarbonate. However, part of magnesium is often substituted with iron or manganese. It shows a rhombus crystal and its crystal plane is somewhat curved. It often forms a saddle or rose bud. There is also a block of granular or dense aggregates. Hardness 3.5-4, specific gravity 2.8-2.9. There is a complete split in the direction of the rhombus. It is white, gray or pink, yellow or brown and sometimes green. Clear or translucent, glassy gloss, with crystals sometimes pearlescent. Similar to calcite, but slightly heavier, less foamed by dilute hydrochloric acid. Some of the calcite constituting the limestone is dolomite, but only a part is dolomite. Dolomite of some parts of limestone is also referred to as dolomite limestone.

This dolomite contains calcium and magnesium, as shown in the formula. However, the dolomite itself is difficult to dissolve in water. However, when the ceramic raw material is mixed and sintered as described later, the dolomite itself dissolves well in water. After dissolving, calcium alkalins water (drinking water) into alkaline water (including weak alkaline water), and magnesium is contained in water, which is mineral-containing water, which is beneficial to the human body.

The ceramic raw material may be at least one selected from clay, alumina, zirconia, talc and vermiculite of the ceramic raw material. That is, clay, alumina, zirconia, talc and vermiculite of ceramic raw materials may be used as single raw materials, or two or three or more may be mixed and used as ceramic raw materials. In the present embodiment, clay that is a raw material of ceramics is selected.

Clay is a mineral made of a combination of silicon, aluminum and water by weathering and decomposing rock. Clay minerals have a mica-like structure, sometimes two- or three-layered. The former is kaolins, the latter is montmorillonite, illite, and the like, and water, potassium, iron, magnesium, etc. enter between layers to form various minerals. All coarse minerals other than quartz are decomposed into clay minerals. Clay has a much larger surface area per unit weight than sand or silt, so it is the most active part of the soil with corrosion and has a strong retention of moisture and nutrients. Soil with a high clay content is called soil.

As a result, in the present embodiment, the sintered molded body 20 provided in the container body 10 is mixed with dolomite, which is an eluting material, and clay, which is a ceramic raw material, at a predetermined ratio, and then sintered at a predetermined high temperature to thereby perform a hemispherical body portion 20a. ) And the flange portion 20b. When 100% by weight of dolomite is mixed, clay is mixed with 0.05 to 70% by weight based on the weight of dolomite as a raw material.

The sintering temperature is made in the range of 700 to 1400 ° C, but preferably in the range of 800 to 1300 ° C. It was confirmed that the optimum strength of the sintered body and the optimum porous layer (porous Size: 1 ~ 4㎛) existed at around 1000 ° C, and at lower or higher temperatures, there was a slight change in the elution amount itself. However, there is no problem in use.

On the other hand, the sintered compact 20 may be made by mixing only dolomite as an elution material and clay as a ceramic raw material, but an antibacterial / disinfectant or a binder may be further used as necessary. The antimicrobial / sterilizer may be a material including any one of silver and fluorine. When 100% by weight of dolomite is mixed as a raw material of the sintered molded body 20, 0.01 to 20% by weight of the antimicrobial / sterilizer is mixed as a raw material. Such antibacterial / sterilizers play a role of suppressing the production of water moss or various bacteria that can be parasitic in the process of using the sintered compact 20. Therefore, it is effective to add silver nanoparticles preferably. In contrast, the binder is mixed with 3 to 40% by weight relative to the total weight of the dolomite, clay and antibacterial / disinfectant. As the binder, any one selected from water, alcohols, a diluting solution of water and alcohol is employed.

Referring to Figure 4 describes the manufacturing method of the sintered molded body 20 as follows. First, a ceramic raw material is charged into water and the ceramic raw material is mixed (S11). In the process of mixing the ceramic raw material, an eluting material containing at least one of an alkali element for providing alkaline water as a component and a mineral element for supplying minerals is mixed at a predetermined ratio (S12). The mixing ratio is based on the above.

Next, the ceramic raw material and the eluted material are mixed and mixed for a predetermined time (S13). Of course, a separate tank and an impeller rotating in the tank may be used for this operation. When the ceramic raw material and the eluted material are mixed, they are left for a predetermined time (S14). At this time, it is left to nature for several hours to several hours. If the clay has a high viscosity, after the leaving step (S14), the left mixture may be pressurized into a predetermined mold, and then pressed to produce a sintered molding agent.

Next, the clay is mixed with water is injected into the mold to form a predetermined shape in the mold (S15), and then dried (S16). Then, the dried semi-finished product is charged into a firing furnace and sintered at a predetermined temperature for a predetermined time to prepare a sintered molding agent (S17). In sintering, time and temperature are respectively based on the above.

However, the eluted material may be mixed at a predetermined ratio, and then one of the raw materials of the antibacterial / stericide or the binder may be further added. At this time, when the antimicrobial / disinfectant or binder is put together in the step of mixing the eluting material (S12), since it is diluted in water, a large amount of antimicrobial / disinfectant or binder may be used to consider this advantage.

On the other hand, since the sintered molded body 20 has a constant size and weight, the sintered molded body 20 may be dissolved as it is in the receiving space 10a of the container body 10 containing the drinking water. It is difficult to get injured. Therefore, this container is further equipped with the structure which prevents the sintered molded object 20 provided in the lower opening part 10b area | float upwards by buoyancy.

In one of these configurations, the horizontal partition wall 16 protrudes a predetermined length radially inward from the inner wall surface of the container body 10 in the area of the lower opening 10b of the container body 10 to prevent upward movement of the sintered molded body 20. ) Is formed. The protruding length of the horizontal partition wall 16 is formed to fit the size of the sintered compact 20. In other words, the upper portion of the hemispherical body portion 20a of the sintered molded body 20 is long enough to be disposed in the receiving space 10a of the container body 10 facing the upper cover 25.

In another configuration, the inner wall surface of the container body 10 is further formed with a stepped portion 18 protruding stepwise toward the radially inner side. The step portion 18 is shaped to the outer surface of the hemispherical body portion 20a and the flange portion 20b of the sintered molded body 20 to prevent the sintered molded body 20 from rising upward together with the horizontal partition wall 16. It plays a role.

On the other hand, the waterproof body 30 is further provided inside the lower cap 28. The waterproof body 30 serves to maintain the airtight between the container body 10 and the lower cap 28 when the lower cap 28 is coupled to the lower opening 10b of the container body 10, the sintered molded body 20 ) Is pressed into the horizontal partition wall 16 and serves to allow the sintered molded body 20 to be fitted to the horizontal partition wall 16 and the stepped portion 18. The waterproof body 30 is preferably formed of a silicone material that can be elastically deformed and easily made.

Referring to the method for producing alkaline water and mineral-containing water using a container having such a configuration as follows.

First, as shown in Figure 2, the lower cap 28 is removed. The prepared sintered compact 20 is disposed in the lower opening 10b of the container body 10. As shown in FIG. 3, the sintered compact 20 is inserted into the lower opening 10b of the container body 10, and then the lower cap 28 is inserted into the lower opening 10b of the container body 10. Place the lower cap 28 through the detachable coupling portions 19 and 29 while rotating in a clockwise direction. Then, since the upper end of the waterproof body 30 presses the bottom surface of the sintered compact 20 upward in the process of coupling the lower cap 28, the sintered compact 20 is the horizontal partition wall 16 and the step portion 18 It can be sandwiched.

Next, after removing the upper cover 25 to fill the drinking water into the inner receiving space (10a) of the container body 10, the upper cover 25 is closed. After a certain time in such a state, the sintered molded body 20 starts to dissolve in drinking water. Since the dissolution proceeds vigorously with time, the pH value of the drinking water rises by 0.5 or more compared to the pH value of the drinking water before the sintered molded body 20 melts and is changed into alkaline water. In addition, the amount of calcium and magnesium, which are minerals, is also changed to mineral-containing water by increasing at least 5% or more of the amount of calcium and magnesium that the drinking water before the sintered compact 20 melts. After a certain time, the user can drink the changed alkaline water and mineral water.

5 is a schematic configuration diagram of a container provided with a sintered molded body capable of providing alkaline water and mineral-containing water with respect to drinking water according to another embodiment of the present invention. As shown in this figure, the sintered molded body 120 may be accommodated in a predetermined porous shell 122 and then provided in the lower portion of the container body 110 to be dissolved in drinking water. In this case, the porous skin 122 may be any one of the filter cloth and the nonwoven fabric is preferably fixed by hot melt or the like in the corresponding position. Container body 110 may be replaced with PET (PET) bottle commonly obtained in the vicinity. The sintered compact 120 shown in FIG. 5 is manufactured differently from the sintered compact 20 of the above-described embodiment.

Then, the pH value, the calcium and magnesium elution as the mineral component changes as the sintered compacts 20 and 120 are dissolved in drinking water through various experimental examples are measured as follows. Hereinafter, reference numerals will be omitted for convenience.

Experimental Example 1

In Experimental Example 1, 500 ml and 1500 ml PET bottles sold in a supermarket, which are relatively small containers, are used as containers.

First, the vessel was selected with 500 ml and 1500 ml PET bottles and cut in half. The interior receiving space of the vessel was washed with a neutral detergent and then filled with 1:10 dilute nitric acid for 1 week to remove the ions adsorbed therein. It was washed seven times with tap water, then five times with distilled water, completely dried in an oven at 60 ° C., and then cooled.

Then, the outside of the sintered molded body was covered with a porous shell such as a filter cloth or a nonwoven fabric, placed in the bottom of the container, and sealed while preventing leakage of the additive with hot melt or the like. In the case of a 1500 ml bottle, 0.15 g of a sintered molded body was put, and in the case of a 500 ml bottle, a sintered molded body of about 0.05 g and 0.5 g was put.

The center portion of the cut container was sealed using a silicone sealant to prevent water leakage. Inject 500 ml and 1500 ml of distilled water, close the lid, and elute for 6 hours using a snaker whose rotational speed per minute (rpm) is 120. At this time, saturated calcium (Ca) is eluted. ), The elution amount of magnesium (Mg) and the pH value of the hydrogen ion concentration were measured. The measured results are shown in [Table 1].

As shown in Table 1, as the pH starts to dissolve, the pH value increases to change into alkaline water, and the amount of calcium and magnesium, which are minerals, is also increased to change to mineral-containing water. However, carbonates showed less elution of calcium (Ca) and magnesium (Mg) than oxalate, and pH values showed similar tendencies, and the other materials showed weak alkalinity. This result is judged to be due to the different solubility for each substance.

Experimental Example 2

In Experimental Example 2, a container of 5 tons (ton) relatively large compared to Experimental Example 1 was used. The container was cleaned with a neutral detergent and a brush and rinsed five times with water. 5 tons of ground water and tap water were filled, and then, sintered compacts were added at 0.01, 1.0, and 5.0 wt%, respectively, and eluted for 6 hours using a rotating rod.

After stopping, the filter trap was passed and the pH value, calcium and magnesium elution amount was measured for the eluted solution. Separately, the pH values, calcium and magnesium levels of groundwater and tap water which were not eluted with alkali salts or minerals were measured, and the results are shown in [Table 2].

In Experimental Example 2, as in Experimental Example 1, in general, the amount of elution of alkali metal ions was small in the case of carbonates, and in the case of oxalate, the amount of elution was large. In the present invention, when the eluted material was used as elvan, the amount of calcium and magnesium was the lowest among other alkali salts.

On the other hand, after preparing the alkaline water (weak alkaline water) and mineral-containing water by the above-described method and storing it in the refrigerator, the application experiments were performed for the general public and the results are shown in [Table 3]. At this time, the pH value was 8.13. Sodium ion (Na ²⁺ ) was 15 ppm, potassium ion (K ²⁺ ) was 13 ppm, calcium ion (Ca ²⁺ ) was 25 ppm, magnesium ion (Mg ²⁺ ) was 23 ppm. And the temperature of the water quality averaged 23.5 degreeC. Concentrations of sodium (Na), potassium (K), calcium (Ca) and magnesium (Mg) were measured by an atomic absorption spectrometer (Perkin-Elmer 2380 Atomic Absorption Spectrophotometer), and hydrogen ion concentration was measured by a hydrogen ion concentration meter. It was.

Referring to [Table 3], the present invention was randomly performed with a total of 148 subjects including 13 in their teens, 11 in their 20s, 21 in their 30s, 31 in their 40s, and 72 in their 50s. The efficacy on was tested. Males were 87 and females were 61. Alkaline water and mineral-containing water prepared by the above method was allowed to drink 1,000 ml per day for 1 week on average, and the results were obtained through a questionnaire.

In the case of teenagers, they did not feel the great effect of the present invention on the human body but responded that they had a rather good feeling. It is thought that teenagers are healthy enough to have metabolism active enough to be unable to detect the effects of alkaline minerals.

In the 20s, the effect was over 45%, and in the 30s, about 82% were effective. Most of the patients in their 40s and older were much better than the conventional physical condition. In particular, those with high blood sugar levels with diabetes symptoms in their 40s or older showed a very good effect. Men showed better results than women, and smokers were particularly effective among those surveyed.

Thus, according to the container of the present invention, not only can be dissolved in drinking water to provide alkaline water and mineral-containing water, which is beneficial to human health, but also can be manufactured by a simple method, and easy to transport, store and carry, and can be used anytime and anywhere. There is an advantage to this.

It is apparent to those skilled in the art that the present invention is not limited to the described embodiments, and that various modifications and changes can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or variations will have to be belong to the claims of the present invention.

As described above, according to the present invention, not only can be dissolved in drinking water to provide alkaline water and mineral-containing water, which is beneficial to human health, but also can be manufactured by a simple method, and is easy to carry, store and carry. Can be.

Claims (18)

A container body having an accommodation space filled therein with predetermined drinking water; And It includes a sintered molded body provided on at least one side of the receiving space of the container body, The sintered compact has an eluent and a ceramic raw material containing at least one of an ingestable alkali element and a mineral element, and when the eluted material is mixed with the ceramic raw material and sintered and then melted in the drinking water, A container provided with a sintered molded body capable of providing alkaline water and mineral-containing water to drinking water, characterized by providing alkaline water and mineral-containing water. The method of claim 1, The container body is formed of a tubular body that is open at both ends, The upper opening of the container body is provided with a sintered molded body capable of providing alkaline water and mineral-containing water to the drinking water, characterized in that the upper cover having a drinking water discharge portion is detachably coupled. The method of claim 2, A lower cap coupled to the lower opening area of the container body, and a detachable coupling part formed on the container body and the lower cap to attach and detach the lower cap to the lower opening area of the container body; The sintered molded body is provided with a sintered molded body capable of providing alkali water and mineral-containing water to the drinking water, characterized in that provided in the lower opening region of the container body. The method of claim 3, In the lower opening region of the container body, a horizontal partition wall protruding a predetermined length radially inward from the inner wall surface of the container body to prevent upward movement of the sintered molded body is formed. Container provided with a sintered molded body that can provide. The method of claim 4, wherein The sintered compact is, A hemispherical body portion having at least a portion of the transverse bulkhead penetrating the inner space and disposed in the receiving space of the container body toward the upper cover; And And a flange portion extending radially outward from a lower end of the hemispherical body part and held at a lower end of the transverse bulkhead, wherein the container is provided with a sintered molded body capable of providing alkaline water and mineral-containing water to drinking water. The method of claim 5, In the lower region of the transverse bulkhead, a step portion protruding from the inner wall surface of the container body is further formed to conform to the outer surface of the hemispherical body portion and the flange portion, and provides alkaline water and mineral-containing water to the drinking water. The container provided with the sintered compact which can be made. The method of claim 4, wherein When the lower cap is coupled to the lower opening of the container body, the lower cap is further provided with a waterproof body to pressurize the sintered molded body toward the horizontal partition wall and to maintain the airtightness between the container body and the lower cap. A container provided with a sintered compact which can provide alkali water and mineral containing water with respect to drinking water. The method of claim 7, wherein The waterproof body is a container provided with a sintered molded body capable of providing alkaline water and mineral-containing water to the drinking water, characterized in that the elastically deformable silicone material. The method of claim 1, A container having a sintered molded body capable of providing alkaline water and mineral-containing water with respect to drinking water, characterized in that it further comprises a gripping portion coupled to the container body for gripping the container body. The method of claim 9, The container is provided with a sintered molded body that can be provided to the container body to provide alkaline water and mineral-containing water to the drinking water, characterized in that it further comprises a reinforcing band for reinforcing the handle portion for holding. The method of claim 1, The sintered molded body is accommodated in a predetermined porous shell, the container provided with a sintered molded body capable of providing alkaline water and mineral-containing water to the drinking water, characterized in that provided on one side in the receiving space of the container body. The method of claim 11, The porous shell is a container provided with a sintered molded body capable of providing alkaline water and mineral-containing water to the drinking water, characterized in that any one of the filter cloth and non-woven fabric. The method of claim 1, The eluted material is a container provided with a sintered molded body that can provide alkaline water and mineral-containing water to the drinking water, characterized in that 0.05 to 70% by weight compared to 100% by weight of the ceramic raw material. The method of claim 1, 0.01 to 20% by weight relative to 100% by weight of the ceramic raw material is mixed, and the alkaline water and mineral-containing water to the drinking water, characterized in that it further comprises an antimicrobial / disinfectant formed of a material containing any one of silver and fluorine. A container with a sintered compact which can be provided. The method of claim 1, 3 to 40% by weight based on the total weight of the ceramic raw material, the eluting material and the antibacterial / disinfectant is mixed, further comprising any one binder selected from water, alcohols, diluent solution of water and alcohol A container with a sintered molded body capable of providing alkaline water and mineral-containing water to drinking water. The method of claim 1, The eluting substance contains alkaline water and minerals for drinking water, characterized in that at least one selected from a material containing at least any one of calcium carbonate, magnesium carbonate, calcium hydroxide, magnesium hydroxide and magnesium hydroxide, ganbanite, dolomite and dolomite. A container with a sintered molded body capable of providing water. The method of claim 1, The ceramic raw material is a container provided with a sintered molded body capable of providing alkaline water and mineral-containing water to the drinking water, characterized in that at least one selected from clay, alumina, zirconia, talc, vermiculite of the ceramic material. The method of claim 1, The sintering treatment temperature is a container provided with a sintered molded body capable of providing alkaline water and mineral-containing water to the drinking water, characterized in that it has a range of 700 ~ 1400 ℃.

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