KR200433487Y1 - Pottery-vessel supplying alkaline and mineral water - Google Patents

Abstract

A porcelain container for providing alkaline mineral water is disclosed. Porcelain container for providing an alkaline mineral water of the present invention, the ceramic container body is produced in a predetermined shape by firing the ceramic raw material, the inner container body is filled with drinking water is formed; And a ceramic sintered molded body that is mixed with a ceramic raw material and then eluted, containing mineral elements, is sintered and molded into the ceramic container body and provides alkaline mineral water when dissolved in drinking water. According to the present invention, it is possible not only to provide alkaline mineral water beneficial to human health, but also to mass production by a simple manufacturing method, and to provide a ceramic container providing alkaline mineral water, which combines aesthetics and elegance.

Porcelain, alkali, mineral, calcined, ceramic

Description

Pottery-vessel supplying alkaline and mineral water

1 is a perspective view of a ceramic vessel for providing alkaline mineral water according to an embodiment of the present invention.

FIG. 2 is an exploded perspective view of the ceramic vessel providing the alkaline mineral water of FIG. 1. FIG.

3 is a flow chart of a method of making a ceramic vessel providing alkaline mineral water.

4 is a view showing a state in which the ceramic sintered molded body is seated inside the ceramic vessel body.

* Explanation of symbols for the main parts of the drawings *

10: ceramic container body 12: handle portion

14: drinking water discharge portion 16: opening

20: cover 22: cover body

24 cover gripping portion 30 ceramic sintered molded body

32: ceramic sintered molded body 34: forceps grip portion

40: tongs

The present invention relates to a ceramic vessel providing alkaline mineral water, and more particularly, to a ceramic vessel providing alkaline mineral water capable of providing alkaline mineral water beneficial to human health.

All living things need water to sustain life. Humans can survive for several weeks without eating food, but without drinking water, the metabolism is not smooth, and the toxins in the body can not be discharged.

Water consumed by humans performs various functions essential to maintaining life while circulating the body, and a certain amount is excreted in the form of urine or sweat so that a person can drink a certain amount of water every day to live a healthy life.

The drinking water (alcohol) of people is alkaline, which is good for health. Alkaline drinking water improves the body's constitution by improving the body's constitution, removing excess free radicals that damage healthy cells in the body, preventing adult diseases, and rapidly discharging waste products accumulated by drinking, smoking, and air pollution. Because.

On the other hand, the human body essentially needs several kinds of mineral components for smooth physiology. Representative examples include calcium, potassium, sodium, and magnesium. Calcium is a component of bone, aids in digestion, and coagulates blood. Potassium regulates the osmotic pressure of cell fluids, regulates muscle and nerve function, and regulates blood pressure. Sodium also regulates the pH of body fluids (pH) and the excitability of muscle nerves. Magnesium, on the other hand, inhibits nerve excitation with respect to muscle contraction and promotes the action of enzymes. In addition, many minerals such as iron, zinc, chlorine, and fluorine play an essential role in metabolism.

However, unlike the past, it is reported that it is difficult to consume mineral ingredients in a sufficient and balanced manner from the daily diet. In the past, the soil contained enough minerals, and the fruits and vegetables produced in the soil were also rich in minerals.However, the earth's water circulation system steadily washes away the minerals in the epidermal layer, With the use of pesticides, the content of minerals in fruits and vegetables produced in recent years is significantly reduced than in the past.

Therefore, in order to maintain health, it is necessary to supplement the mineral ingredients beneficial to the human body, and as a part, a method of frequently contacting and drinking water containing mineral ingredients such as calcium and magnesium is proposed. As described above, since drinking water is alkaline, it is beneficial to the human body, and thus, drinking water that is alkaline while containing minerals will be more ideal.

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) when purified, it is difficult to function as a mineral-containing water. After all, the water purified through the conventional water purifier has a pH value of about 7 (neutral), so it does not give a beneficial activity to the human body, so it is only a degree of making clean water without foreign substances rather than making water beneficial to human health. If it is possible to provide alkaline water through a water purifier, since it is generally installed and used in a designated place, it is difficult to drink water anytime and anywhere because it is only available to drink water.

It is an object of the present invention to provide a ceramic container providing alkaline mineral water, which can not only provide alkaline mineral water beneficial to human health but also mass production by a simple manufacturing method, and combines aesthetics and elegance. .

The object is a ceramic container body is prepared in a predetermined shape by firing the ceramic raw material, the inner space is formed to be filled with drinking water; And a ceramic sintered molded body which is mixed with the ceramic raw material after the eluting substance containing the mineral element is sintered and molded to be bonded to the inside of the porcelain container body and provides alkaline mineral water when dissolved in the drinking water. Achieved by a porcelain vessel providing alkaline mineral water.

At this time, the ceramic sintered molded body and the porcelain container body is interposed between the adhesive glaze and then sintering, it may be to bond the ceramic sintered molded body to the porcelain container body.

Here, the adhesive glaze is frit glaze (Frit Glaze), the sintering temperature is preferably in the range of 700 ~ 1000 ℃.

And, the ceramic sintered molded body is bonded to the bottom surface of the inside of the porcelain container body, to the ceramic sintered molded body, tongs to which the tongs can be gripped to facilitate mounting on the bottom surface of the porcelain container body It is preferable to provide.

On the other hand, the eluted material is preferably 0.05 to 70% by weight compared to 100% by weight of the ceramic raw material as a raw material.

The porcelain raw material may be at least one selected from clay, kaolin, feldspar, pottery stone, feldspar, and silica.

In addition, the eluting material may be at least one selected from 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.

On the other hand, the clay may be any one selected from white clay, blue clay, powdered clay, Onggi, sancheol, combination soil.

The porcelain container body may include an opening for filling and discharging the drinking water; A handle portion holding the ceramic container body; And a drinking water discharge part for facilitating discharge of the drinking water, wherein the ceramic container providing the alkaline mineral water further includes a cover covering the opening.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings that illustrate preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, the present invention will be described in detail by explaining preferred embodiments of the present invention with reference to the accompanying drawings.

1 is a perspective view of a ceramic vessel providing alkaline mineral water according to one embodiment of the present invention, Figure 2 is an exploded perspective view of a ceramic vessel providing alkaline mineral water of Figure 1;

As shown in these drawings, the ceramic container for providing alkaline mineral water according to an embodiment of the present invention, the ceramic container body 10 is provided with a handle portion 12 and the drinking water discharge portion 14, and the cover ( 20) and a ceramic sintered compact 30.

The porcelain container body 10 has an elongated jar shape having a middle portion wider than an upper portion or a lower portion, an inner space for filling drinking water is formed, and an opening 16 is formed at the upper end for filling and discharging drinking water. The volume of the interior space of the porcelain container body 10 may be as large as 500 ml and 1500 ml PET bottles which are commonly encountered in the surroundings, but the volume of the interior space may be appropriately selected as necessary. .

The handle portion 12 is integrally formed on one side of the middle portion of the porcelain container body 10 and has a ring-shaped structure so that a person can easily grip by hand. The handle part 12 facilitates the movement of the porcelain container filled with drinking water because the overall weight of the container increases when the drinking water is filled in the inner space of the porcelain container body 10, and also when the hot drinking water is filled, the porcelain container It eases the rapid transfer of heat to the hands of people in contact with the skin.

Drinking water discharge portion 14 is provided on the upper side opposite to the side of the porcelain container body 10 provided with the handle portion 12, the drinking water is easily discharged in an appropriate amount along the inner surface of the drinking water discharge portion (14) To be discharged.

The lid 20 includes a lid body 22 and a lid grip portion 24. In general, the lid has a shape similar to that commonly seen in tableware, and a spherical cover holding portion 24 is integrally formed on the top of the cover body 22 to facilitate gripping when using the cover 20. It is. The cover 20 covers the opening 16 of the upper portion of the porcelain container body 10 to prevent foreign substances such as dust from being introduced into the porcelain container body 10, and the drinking water filled when the porcelain container body 10 is moved. Is prevented from unexpectedly exiting through the opening 16.

The ceramic sintered molded body 30 is attached to the bottom surface of the inside of the porcelain container body 10, and when the drinking water is filled, the mineral component contained in the ceramic sintered molded body 30 is eluted to convert the drinking water into alkaline mineral water. The ceramic sintered compact 30 includes a ceramic sintered compact body 32 and a forceps gripping portion 34. The ceramic sintered compact body 32 has a conical shape in which the cross section is circular and the area of the cross section decreases from the lower portion to the upper portion. Clamp grip 34 has a spherical shape and is integrally formed at the upper end of the ceramic sintered compact body 32, and the process of mounting the ceramic sintered compact 30 on the ceramic container body 10 during manufacture In the ceramic sintered compact 30 to be easily gripped.

The porcelain container body 10, the lid 20, and the ceramic sintered compact 30 of the porcelain container of the present invention are manufactured by sintering a raw material into a predetermined shape and then sintering the specific manufacturing method. The material properties will be described.

The raw material of the porcelain container body 10 and the cover 20 is the same. Clay, kaolin, feldspar, pottery, feldspar, silica, etc. may be selected from one of the raw materials of porcelain, but in this embodiment, the clay 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.

On the other hand, there are many kinds of clays, which are raw materials of ceramics, such as white clay, blue clay, powdered clay, onggi, sancheol, and combination clay. Any one selected from these clays may be used, but in this embodiment, white clay, which is commonly used to make white porcelain, is used as a raw material. White clay has little iron content, making white porcelain white.

The ceramic sintered compact 30 uses what mixes a ceramic raw material and an intakeable eluted substance as a raw material.

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, the clay is used as the raw material for porcelain, and as described above, there are various clays used as the porcelain raw material, among which white porcelain is selected in the same manner as the raw material of the porcelain container body 10 and the cover 20.

The eluted substance should contain at least one of calcium carbonate, magnesium carbonate, calcium hydroxide, magnesium hydroxide and magnesium hydroxide to alkalinize drinking water and to supply mineral components to the drinking water.

A common property of calcium carbonate, magnesium carbonate, calcium hydroxide, magnesium hydroxide and magnesium hydroxide is that when dissolved in water, the pH of the water is increased to alkalinize the water. Also, when dissolved in water, minerals such as calcium and magnesium may be provided to the water. Eventually, these compounds, including the mineral component, when dissolved in water, increase the pH value of the water, and at the same time provide the mineral component to the water.

Such as calcium carbonate, magnesium carbonate, calcium hydroxide, magnesium hydroxide, magnesium hydroxide magnesium carbonate, dolomite, dolomite is present. Therefore, the eluting material can be used in combination of one or two or more of elvan, dolomite and dolomite. In this embodiment, dolomite is selected as the eluting material.

Dolomite, also known as dolomite and pyrite, has the chemical formula CaMg (CO3) 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.

Dolomite itself is difficult to dissolve in water, but when ceramic raw materials are mixed and sintered, a porous layer is formed and is well dissolved in water. Dolomite corresponds to a basic salt (a salt that raises the pH value of water when dissolved in water) and contains calcium and magnesium, as shown in the formula CaMg (CO ₃ ) ₂ . Therefore, when dissolved in water, alkalinizing the water and at the same time to provide calcium and magnesium to the water to increase the mineral content of the water.

Figure 3 is a flow chart of a method of manufacturing a ceramic vessel providing alkaline mineral water, Figure 4 shows the ceramic sintered molded body seated inside the ceramic vessel body.

Referring to Figures 3 and 4, the method for producing a ceramic vessel providing alkaline mineral water will be described.

First, raw materials for the porcelain container body 10, the lid 20, and the ceramic sintering molding agent 30 are prepared and necessary mixing is performed (S210).

As described above, the porcelain container body 10 and the lid 20 are made of white clay, and the ceramic sintered molded body 30 is made of a mixture of white clay as a ceramic raw material and dolomite as an eluting material. Thus, white clay and dolomite are prepared, and white clay and dolomite to be used in the ceramic sintered compact 30 are mixed. At this time, the white clay is 0.05 ~ 70% by weight compared to 100% by weight of the dolomite is mixed as a raw material.

Next, the porcelain container body 10, the lid 20 and the ceramic sintered molded body 30 are respectively molded (S220).

Typical ceramic molding methods include jiggering, plastic by extruding, pressing, and casting. Spin wheel molding is a method of molding with a wheel, and extrusion molding continuously forms by extruding the clay (soil used as a raw material of a bowl, etc.) that can be made by hand, including water, by an extrusion device such as a vacuum grinder. It is a method, and compression molding is a method of pressing and pressing the clay using a press and a mold, and injection molding is a method of molding by injecting fine particles of clay or small support material suspended in water into a plaster mold. One of these molding methods can be selected. In this embodiment, injection molding is used.

Next, the molded porcelain container body 10, the lid 20 and the ceramic sintered molded body 30 is dried to remove moisture so that the firing process described later can proceed quickly without risk (S230).

Next, the ceramic container body 10, the lid 20 and the ceramic sintered molded body 30 is first fired (S240). The primary firing is to completely remove the remaining moisture and to give the strength necessary to easily and safely handle the process of saturating or glazing in ceramic containers. The temperature of the initial firing is in the range of 800 to 1000 ° C.

The ceramic sintered compact 30 that has undergone the initial firing process has a ceramic structure containing an eluting material, and a porous layer in which the eluting material can be eluted effectively exists.

Next, the porcelain container body 10 and the lid 20 is oiled and conglomerate fired (S250). For the glaze, choose Frit Glaze. The conglomerate firing is carried out for the purpose of increasing the mechanical strength of the ceramics and making the ceramics shiny, and at a much higher temperature than the primary firing. Oil is used to polish the surface of porcelain containers to make them more beautiful and compelling, to enhance aesthetic decorative effects, and to smooth the surfaces to prevent contamination, and to eliminate water absorption and increase resistance to water and chemicals.

At this time, the ceramic sintered molded body 30 is not subjected to the chaebol firing process, because the ceramic sintered molded body 30 is provided in the ceramic container body 10, the mechanical strength of the ceramic container body 10 or the cover 20 This is because it is not necessary to be as large as), and chaebol firing weakens the porous property of the ceramic sintered compact 30 to lower elution.

Next, the ceramic sintered compact 30 is adhered to the bottom surface of the inside of the porcelain container body 10.

In the present embodiment, as a bonding method, frit glaze, which is an adhesive glaze, is applied to the bottom surface of the ceramic sintered molded body 30 and placed in the ceramic container body, followed by sintering. The reason why frit glaze is used as the adhesive glaze is that the ceramic container body 10, the ceramic sintered molded body 30 and the frit glaze have substantially the same thermal expansion coefficient, so that there is a low possibility of cracking during the sintering process. .

When the ceramic sintered compact 30 is seated inside the porcelain container body 10, as illustrated in FIG. 4, the forceps grip 34 of the ceramic sintered compact 30 is gripped by the forceps 40 and carefully. The ceramic container body 10 is seated on the bottom surface of the ceramic container body 10 or the ceramic sintered molded body 30 is not to be broken. By firing and sintering the porcelain container body 10 on which the ceramic sintered molded body 30 is seated, adhesion by frit glaze is completed (S260).

At this time, the sintering treatment temperature is in the range of 700 to 1000 ° C. On the other hand, before the sintering process by drawing a picture on the outer surface of the porcelain container body 10 or by attaching a transfer paper to perform the sintering process may enhance the aesthetics and elegance.

Finally, the porcelain container for providing alkaline mineral water is completed by assembling the cover 20 provided in the above-described process with the porcelain container body 10 to which the ceramic sintered molded body 30 is attached (S270).

When the drinking water was filled in the ceramic vessel providing the alkaline mineral water prepared by the above-described method through various experimental examples, the results of measuring the changes in the amount of calcium and magnesium and pH value of the mineral component are as follows.

Experimental Example 1

In Experimental Example 1, the tap water and the general water purifier were filled as potable water in a ceramic container providing alkaline mineral water according to the present embodiment, and then calcium and magnesium detection amounts were measured after a predetermined time. ICP-AES (Inductively Coupled Plasma-Atomic Emission Spectrometer) was used as an analyzer and the measurement results are shown in [Table 1].

TABLE 1

Ca (ppm) Mg (ppm) Tap water in a ceramic vessel 240 2.6 Plain tap water 13 0.10 Purifier in a ceramic container 290 2.7 General Purifier 13 0.27

As shown in Table 1, when tap water was tested as a sample, the amount of detection increased from 13 ppm to 240 ppm, and magnesium (Mg) from 0.10 ppm to 2.6 ppm. In addition, when the water purifier was tested with a sample, it can be seen that the amount of detection increased from 13 ppm to 290 ppm and from magnesium to 0.27 ppm to 2.7 ppm. The amount of calcium and magnesium increase is approximately 10 to 25 times, and it is confirmed that the general tap water and the general water purifier contain significant amounts of calcium and magnesium.

Experimental Example 2

In Experimental Example 2, a potable water was filled in a ceramic vessel providing alkaline mineral water according to the present embodiment to measure the change in pH value over time. Temperature conditions were tested at 20 ~ 22 ℃, relative humidity conditions 35 ~ 40%, pH meter (meter) was used the ISTEK pH / ISE model and the measurement results are shown in [Table 2].

[Table 2]

time 0 o'clock 2'o clock 4 o'clock 6 o'clock 8 o'clock 10 o'clock pH 6.28 6.65 7.30 7.85 8.21 8.57

As shown in [Table 2], when drinking water was charged in a ceramic vessel providing alkaline mineral water according to the present embodiment, drinking water, which was 6.28 pH at the time of filling, had a pH of 7pH (neutral) between 2 hours and 4 hours after charging. And then the pH value increases further to change to alkaline. As such, it can be confirmed that when the drinking water that was weakly acidic is filled in the ceramic vessel providing the alkaline mineral water according to the present embodiment, it is alkalized.

As confirmed in Experimental Examples 1 and 2, it is possible to produce alkaline and mineral-containing drinking water by simply filling the drinking water which is commonly encountered in the ceramic container of the present invention.

In addition, the porcelain container of the present invention can be applied to a simple manufacturing method such as the method described above, mass production is possible, and can also have a unique sense of aesthetics and elegance. In the manufacturing process, if the shape of the porcelain container is colorful, the painting on the outer surface of the porcelain container or the transfer paper is attached, the aesthetics and elegance can be further improved.

In the above described exemplary embodiments of the present invention by way of example, the scope of the present invention is not limited to the specific embodiments as described above, the patent of the present invention by those skilled in the art to which the present invention belongs Changes may be made as appropriate within the scope of the claims.

As described above, according to the present invention, not only can provide alkaline mineral water beneficial to human health, but also mass production by a simple manufacturing method, a ceramic container providing alkaline mineral water combines aesthetics and elegance Is provided.

Claims (10)

 The ceramic container body is made of a predetermined shape by firing the ceramic raw material, the inner space is formed to be filled with drinking water; And Alkaline, characterized in that it comprises a ceramic sintered molded body which is mixed with a ceramic raw material and then sintered and molded into the ceramic container body, the ceramic sintered compact to provide alkaline mineral water when dissolved in the drinking water Porcelain containers to provide mineral water. The method of claim 1, The ceramic container providing alkaline mineral water, characterized in that the ceramic sintered molded body and the ceramic container body is interposed between the ceramic sintered molded body and the ceramic container body and then sintered to bond the ceramic sintered molded body to the ceramic container body. The method of claim 2, The adhesive glaze is frit glaze (Frit Glaze), the sintering process is a ceramic container for providing alkaline mineral water, characterized in that the range of 700 ~ 1000 ℃. The method of claim 2, The ceramic sintered molded body is bonded to the bottom surface of the inside of the porcelain container body, The ceramic sintered molded body, the ceramic vessel providing alkaline mineral water, characterized in that the tong gripping portion that can be gripped with a forceps to facilitate the seating on the bottom surface of the ceramic vessel body body is provided. The method of claim 1, The eluting material is a ceramic container for providing alkaline mineral water, characterized in that 0.05 to 70% by weight compared to 100% by weight of the ceramic raw material as a raw material The method of claim 1, The ceramic material is a ceramic container for providing alkaline mineral water, characterized in that at least one selected from clay, kaolin, feldspar, pottery stone, feldspar, silica. The method of claim 1, The eluting material is a ceramic container for providing alkaline mineral water, characterized in that at least any one selected from elvan, dolomite and dolomite. The method of claim 1, The ceramic raw material is a ceramic container for providing alkaline mineral water, characterized in that at least one selected from clay, alumina, zirconia, talc, vermiculite of the ceramic material. The method according to claim 6 or 8, The clay is a porcelain container for providing alkaline mineral water, characterized in that any one selected from white clay, blue clay, blue clay, Onggi clay, acid blue clay, combination soil. The method of claim 1, The porcelain container body, Openings for filling and discharging the drinking water; A handle portion holding the ceramic container body; And It includes a drinking water discharge for facilitating the discharge of the drinking water, The porcelain container for providing the alkaline mineral water, Pottery container for providing alkaline mineral water, characterized in that it further comprises a cover for covering the opening.

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