WO2014119863A1 - Liquid-holding container - Google Patents

Abstract

The present invention relates to a liquid-holding container, and more particularly to one comprising: a container (100) for holding a liquid, consisting of an upwardly-opening bottom-layer part (120) formed so as to have an empty space on the inside thereof, and an open topped and bottomed top-layer part formed extending upwards from the bottom-layer part (120) and formed so as to have an empty space on the inside thereof; and a top-bottom separating plate (200) movably mounted by insertion into a boundary part (130) formed at the bottom-layer part (120) and the top-layer part of the container (100), such that an air-blocking layer (B) is formed in the bottom-layer part (120); and the present invention is advantageous in that, by imparting a reducing function whereby normal water is reduced to alkaline reduced water by means of a chemical reaction using a reducing agent (R), the invention allows the user to easily and straightforwardly drink drinking water which is beneficial to the human body and, at the same time, the air-blocking layer and the water held in the container ensure that it is possible to improve the length of time over which the reducing agent is used by preventing the reducing agent from becoming oxidised by being directly exposed to air, and it is possible to selectively move and split up or combine liquids of different types.

Description

Liquid container

The present invention relates to a liquid container, comprising a top and bottom separator having perforated holes between the upper and lower layers of the container to form an air block layer in one container to artificially separate and mix the liquid contained in the upper and lower layers. By doing so, when an alkali reducing agent is provided in the lower layer, air contact is prevented to prevent oxidation of the alkali reducing agent, and during drinking, the reduced water of the lower layer and the upper layer of water reduced by the alkali reducing agent are mixed to provide diluted alkaline reducing water. And a container for making it possible to separate or mix two different liquids.

In general, drinking water such as bottled water is stored in a transparent container provided with a cap for sealing.

The sealed transparent container is provided in various types in the form of a bottle or a bowl depending on the contents contained therein, and is provided with a sealing cap to prevent external air from flowing in to prevent corruption of the contents and to delay the contents. It is also equipped with a vacuum container that can be raised to raise the vacuum.

In addition, the transparent container is made of a glass or transparent synthetic resin material that can transmit light so as to check the contents inside the storage, it is also manufactured by mixing a variety of useful components to maintain the freshness of the contents.

On the other hand, in recent years, with increasing interest in health, new types of containers for the production and storage of natural health foods have been released and used, and in this regard, the importance of water for human metabolism is highly recognized, and consumers are Interest in water and healthy water is increasing.

In addition, interest in alkaline reduced water is increasing in order to remove active oxygen or acidic waste, which is considered as a cause of aging or adult disease in the human body, and various methods or apparatuses for generating alkaline reduced water have been proposed. .

Alkaline reduced water is water that has a high PH range (8.5-10) and is treated to have a low redox potential ranging from 0-200 mV. This water can return the acidified body fluid to alkaline to facilitate blood circulation, and drinking it helps improve gastrointestinal symptoms (chronic diarrhea, indigestion, abnormal fermentation in the stomach, excess stomach acid). Announcement year 11.30)

As a method for generating alkaline reduced water, a method of electrolyzing water and a method of reacting alkaline earth metals and minerals such as magnesium and calcium with water are used. The method of generating alkaline water through electrolysis of water is expensive. The disadvantage is that the structure of the device is complicated and not portable.

On the other hand, is reacted with water and the like alkaline earth metal and mineral method of generating alkaline water ^- it is also applied to the container ^{_{(M + 2H 2 OM 2+ +}} 2OH + H 2 (H + H H2), M = Mg or Ca) As shown in FIG. 1, the lower body 2 of the bottle 1 is divided and formed by a screw part 1a formed at the lower end of the bottle 1 and a screw part 2a formed at the upper end of the lower body 2. The bottle 1 and the lower body 2 can be separated from each other, and the lower body 2 has a reticulated container 3 formed with a net hole 3a containing alkaline earth metal ions (S) or minerals. The lower body 2 is coupled to the bottle 1, and the lower end of the bottle 1 fixes the reticular container 3 so that the water contained in the bottle is contained in the lower body 2. Mineral ceramics containing minerals that can be converted to alkaline are filled in the form of balls, and when reacted with minerals such as magnesium and calcium, which tend to ionize more than hydrogen, One molecule of Nesium reacts with two molecules of water. Magnesium is not freed. Magnesium hydroxide is formed. In this process, some of the electrons from magnesium are used to form hydrogen gas and the other electrons remain in the water. Magnesium hydroxide is ionized hydroxyl group (OH ^-) are formed, magnesium is oxidized instead of water in the process which are reduced to reduced water for human aging and the rich alkaline active hydrogen to remove free radicals, known as the causative agent of various illnesses It can be created.

However, since such a container has a structure in which the bottle 1 and the lower body 2 are integrated, the active hydrogen generated by reacting with the alkaline earth minerals in the lower body 2 when the drinking water is introduced from the outside has bubbles. There is a limit to making high quality alkaline ionized water which is immediately dissolved in the air and rich in active hydrogen which is good for our body.

In addition, conventional containers are inconvenient when mixing two different (type or concentration) liquids at a certain ratio, for example, using another external container to dilute coffee, powdered milk, concentrated juice, mixed liquor, and high concentration substances. There is this.

The present invention relates to a liquid container for solving the above problems, and in particular, by forming an air block layer artificially inside the container, the hydrogen gas generated in the lower layer formed by reacting the mineral alkali reducing agent with water is easily released into the air. It is aimed to achieve the effect of preventing and keeping contact with water for a long time to make alkaline reduced water containing high dissolved hydrogen, and also to conveniently and selectively move different contents in one container.

The present invention comprises a container for accommodating a liquid consisting of an upper layer portion having an empty space formed therein and having an upper portion and an lower portion opened therein, and a lower layer portion extending downward from the upper layer portion and having an empty space formed therein; It is achieved by including a top and bottom separation plate that is inserted into the movable portion at the boundary formed in the upper and lower layers of the container to form an air block layer in the lower layer.

The vertical separation plate is formed through a plurality of vent holes, the vent hole is preferably made of a truncated conical shape of the upper and lower light is smaller than the diameter of the upper portion.

The boundary portion formed between the upper layer portion and the lower layer portion is formed to protrude in the outward direction of the container, the inner height of the boundary portion is formed higher than the height of the upper and lower separator plate to enable the upper and lower separator plate to move inside the boundary portion. desirable.

The lower layer portion is preferably provided with an alkali reducing agent to reduce the water in the container to alkaline reducing water.

The container is preferably made of a transparent or translucent material.

The vertical separation plate is preferably to be applied in various shapes.

The container is preferably to include a first cover for opening and closing the upper surface of the upper layer.

The present invention comprises a container for accommodating a liquid consisting of an upper layer portion having an empty space formed therein and having an upper portion and an lower portion opened therein, and a lower layer portion extending downward from the upper layer portion and having an empty space formed therein; It is achieved by including a top and bottom separation plate that is inserted into the movable portion at the boundary formed in the upper and lower layers of the container to form an air block layer in the lower layer.

The vertical separation plate is formed through a plurality of vent holes, the vent hole is preferably made of a truncated conical shape of the upper and lower light is smaller than the diameter of the upper portion.

The boundary portion formed between the upper layer portion and the lower layer portion is formed to protrude in the outward direction of the container, the inner height of the boundary portion is formed higher than the height of the upper and lower separator plate to enable the upper and lower separator plate to move inside the boundary portion. desirable.

The lower layer portion is preferably provided with an alkali reducing agent to reduce the water in the container to alkaline reducing water.

The container is preferably made of a transparent or translucent material.

The vertical separation plate is preferably to be applied in various shapes.

The container is preferably to include a first cover for opening and closing the upper surface of the upper layer.

1 is a view showing a conventional liquid container,

2 (a) is an exploded perspective view showing the liquid container of the present invention,

(B) is a side view showing the liquid container of the present invention;

3 is a sectional view showing a liquid container of the present invention;

4 is a view showing a boundary in the liquid container of the present invention;

5 is a view showing a state provided with a reducing agent in the liquid container of the present invention,

6 is a view showing a state in which water is filled in the upper layer of the liquid container of the present invention;

7 is a view showing a state in which the liquid container of the present invention is inclined;

8 is a view showing a state where water is filled in the upper and lower layers of the liquid container of the present invention;

9 is a view showing a state in which the liquid container of the present invention is inclined in the reverse direction,

10 and 11 illustrate another embodiment of the liquid container of the present invention.

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 to 11, the liquid container of the present invention is composed of the upper layer 110 and the lower layer 120, the liquid (all drinking liquids, such as water, beverages, alcohol, etc., but collectively referred to as water) It includes a container 100 for receiving the upper and lower separation plates 200, which is inserted into the boundary portion 130 of the upper layer 110 and lower layer 120 to form an air block layer (B).

As shown in FIGS. 2 and 3, the container 100 has an upper layer 110 and a lower layer 120 integrally formed, and the ratio of the height of the upper layer 110 to the height of the lower layer 120 is irrelevant. However, it is preferable that the height of the upper layer 110 is formed longer than the height of the lower layer 120 so that a certain amount remains even after the water in the upper layer 110 moves to the lower layer 120.

First, the upper layer 110 is formed to extend upward from the lower layer 120, an empty space is formed inside and the upper and lower openings are supplied to receive water from the outside to supply water to the lower layer 120.

The upper portion 110 is provided with a first cover 111 that can open and close the upper surface of the upper layer 110 so that water inside the upper layer 110 does not flow out.

The lower layer portion 120 is also formed with an empty space therein and extends downwardly from the upper layer portion 110 so that the upper portion is opened to receive water from the upper layer portion 110.

Meanwhile, an air block layer (B, FIG. 6 and FIG. 8) is formed in the remaining space after receiving water in the empty space of the lower layer unit 120. The air block layer B is formed at the boundary 130 of the container 100. It is formed by the inserted vertical separation plate 200.

A lower cover 120 is provided below the lower layer 120 so that the container 100 can be balanced without falling down when the container 100 is placed on a table, a table, or a floor.

Threads are formed on upper and lower outer circumferential surfaces of the upper and lower layers 110, 120, and threads are also formed on inner circumferential surfaces of the first and second covers 111 and 121. It is preferable that the cover 121 can be opened and closed from the upper layer 110 and the lower layer 120 by rotation.

In addition, the container 100 consisting of the upper layer 110 and the lower layer 120 is provided with a transparent material, it is preferable that the scale is displayed on the outside so that the user can visually check the amount of water contained in the container 100. Do.

At this time, the upper layer portion 110 is made of a cylindrical shape but is provided in a shape that narrows the length of the diameter toward the lower side, the lower layer portion 120 is formed in a wider length than the upper layer portion 110 so that the user 100 When catching the upper portion of the container 100, as well as when grabbing the middle portion of the upper layer 110 and lower layer 120 due to the difference in the diameter of the grip can be improved.

3 and 4, the upper and lower separator 200 is inserted between the upper layer 110 and the lower layer 120, more specifically, the upper layer 110 and lower layer 120 of the container 100. The boundary portion 130 having a predetermined height separating the upper layer portion 110 and the lower layer portion 120 is formed therebetween, and the upper and lower separator plates 200 are inserted and mounted to allow the upper and lower separation plates 200 to move at predetermined angles.

The upper and lower separation plates 200 are formed in a disc shape in which a plurality of vent holes 210 are penetrated, and when water is received in the container 100, the water of the upper layer 110 is transferred to the lower layer 120 or the water of the lower layer 120 is formed. It can be delivered to the upper layer (110).

At this time, the boundary portion 130 formed between the upper layer portion 110 and the lower layer portion 120 is formed to protrude in the outward direction of the container 100, the inner height of the boundary portion 130 is formed higher than the thickness of the upper and lower separator 200 The upper and lower separator 200 can be moved by a predetermined angle inside the boundary portion 130.

In addition, it is preferable that the inner diameter of the boundary portion 130 is larger than the diameter of the upper and lower separator 200 so that water and air can move to the gap between the boundary portion 130 and the upper and lower separator 200.

Here, the method of inserting the upper and lower separator 200 in the boundary portion 130 formed between the upper layer portion 110, the inner diameter becomes narrower toward the lower side and the lower layer portion 120 formed in the inner diameter is wider than the upper layer portion 110 is the container 100 It is preferable to insert the upper and lower separator 200 through the inside of the upper layer portion 110 of the container 100 in a state in which the boundary portion 130 is expanded by applying heat to the outside of the boundary portion 130.

At this time, the upper and lower separator 200 is basically provided in a disc shape, it is preferable to be able to be applied in a variety of shapes, depending on the container, if the shape of the upper and lower separator 200 is changed to the upper and lower separator 200 Of course, the shape of the boundary portion 130 to accommodate the change.

As shown in FIG. 4, the vent hole 210 has a truncated cone shape of upper and lower light having a diameter of an upper portion smaller than a diameter of a lower portion. The upper diameter is set to 1.3 mm to 1.7 mm and the lower diameter is approximately 1.0 than the upper diameter. It is desirable to form about 2.3 mm to 2.7 mm wide. The main reason for reducing the upper diameter of the vent hole 210 is to prevent the water of the upper layer 110 from easily entering the lower layer 120 due to the surface tension of the water, and the reason for increasing the lower diameter is the upper and lower separation. When the water of the upper layer 110 flows into the lower layer 120 as the plate 200 moves, the air of the air block layer B formed in the lower layer 120 may be more effectively discharged to the upper layer 110. It is for.

At this time, it is possible to selectively pass the water between the upper layer 110 and the lower layer 120 as described above, the upper and lower separation plate 200 formed with the ventilation hole 210 is a predetermined angle inside the boundary surface of the container 100 It is possible by moving.

Meanwhile, referring to the passage of water between the upper layer 110 and the lower layer 120 through the upper and lower separators 200, first, as shown in FIG. 6, the container 100 is in the upright state. When the water is supplied to the upper layer 110 of the water is passed through the upper and lower separation plate 200 is not delivered to the lower layer 120 is accumulated in the upper layer 110, which is formed in the ventilation hole 210 in the upper and lower separation plate 200 The upper diameter of the upper portion or the thickness of the upper and lower separator plates 200 has a structure that causes the surface tension of the water so that the water pressure accumulated in the upper layer 110 does not pass through the air block layer B formed in the lower layer 120 so that the lower layer portion Water transfer to 120 becomes impossible.

In this state, as shown in FIG. 7, when the container 100 is inclined at a predetermined angle, a gap between the upper and lower separator 200 and the boundary part 130 is also inclined while the upper and lower separator 200 is inclined. gap) occurs, and water in the upper layer 110 flows into the lower layer 120 through the gap. At this time, the air of the air block layer (B) of the lower layer portion 120 forms air bubbles as much as water is introduced into the lower layer portion 120 through the vent hole 210 of the upper and lower separator plates 200 and discharged to the upper layer portion 110. While being able to mix the water of the upper layer 110 and lower layer 120.

As shown in FIG. 8 in a state in which a certain amount of water is introduced into the lower layer 120 as described above, when the container 100 is erected again, the lower layer 120 is filled with a certain amount of water, and the upper layer 110 has a certain amount of water. The remaining water is accumulated and the air block layer (B) of the lower layer 120 is reduced in size as the water is filled.

In this state, as shown in FIG. 9, when the container 100 is inclined in the reverse direction, the vertical separation plate 200 inside the boundary 130 is also inclined while a gap is formed between the vertical separation plate 200 and the boundary 130. Since it is generated, the water of the lower layer 120 is introduced back to the upper layer 110 through this gap. In addition, as the water from the lower layer 120 flows into the upper layer 110, the air block layer B of the lower layer 120 becomes larger in size.

As such, the present invention allows the water filled in the upper layer 110 of the container 100 to be delivered to the lower layer 120 as the container 100 is inclined, and the water delivered to the lower layer 120 is also of the container 100. As it is tilted, it is to be delivered to the upper layer 110 again.

As a result, as shown in FIG. 5, the lower layer portion 120 of the vessel 100 is provided with an alkali reducing agent R, and as shown in FIG. After tilting in the reverse direction as shown in FIG. 9, the alkaline reduced water of the lower layer 120 may be mixed with the water of the upper layer 110 to drink the diluted alkali reduced water.

In addition, the present invention is the water and air block layer of the lower layer 120 in the container 100 by the rotating force when the wrist stops after rotating the wrist once or twice at a constant speed while holding the container 100 ( The air of B) rises to the upper layer 110 through the vent hole 210 of the upper and lower separator 200, and at this time, the air of the lower layer 120 exits the vent hole 210 of the upper and lower separator 200. The pressure difference is generated by the upper and lower separator 200 is moved within the gap and the water of the upper layer 110 is moved to the lower layer 120 between the gap created by the movement of the upper and lower separator 200 to the lower layer 120 Water and the water of the upper layer 110 is mixed with each other at a high speed.

In addition, as shown in FIG. 8, the water contained in the lower layer 120 of the container 100 may prevent the reducing agent R from being exposed to air to be oxidized, thereby improving the use period of the reducing agent R, thereby improving the productability. To be. That is, the amount of water accommodated in the lower layer 120 through the upper and lower separators 200 may be properly maintained, thereby preventing the reducing agent R from being exposed to air.

Meanwhile, as shown in FIG. 10 and FIG. 11 as another embodiment of the present invention, a liquid container according to the present invention may be used even when a mixed liquor is prepared at a drinking table. First, the first liquor X is added to the upper layer 110. Put the first liquor (X) of the upper layer 110 in the lower layer 120 by inclining a predetermined angle and then put a certain amount of the second liquor (Y) in the upper layer 110 and close the first cover 111 and then the container ( 100) the first mainstream (X) and the air block layer (B) of the lower layer portion 120 in the container 100 by the rotating force when the wrist is rotated once or twice at a constant speed and stopped in the state of holding the upper portion Of the air rises to the upper layer 110 through the vent hole 210 of the upper and lower separator 200, and at this time, the air of the lower layer 120 passes through the vent hole 210 of the upper and lower separator 200 As a difference occurs, the vertical separation plate 200 moves within the gap, and the second mainstream Y of the upper layer part 110 is the vertical separation plate 200. By moving to the lower layer 120 between the gaps caused by the movement, the first liquor X of the lower layer 120 and the second liquor Y of the upper layer 110 are mixed with each other at high speed so as to prepare a mixed liquor. do.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of the claims to be described.

Explanation of the sign

100: container 110: upper layer

111: first cover 120: lower layer

121: second cover 130: boundary portion

200: upper and lower separator 210: vent hole

R: Reductant B: Air block layer

Claims (6)

1. An upper layer portion having an empty space formed therein and having an upper portion and an lower portion opened therein, and a lower layer portion extending downwardly from the upper layer portion and having an empty space formed therein to receive a liquid;

   And an upper and lower separating plates which are inserted into and moveable at the boundary portions formed in the upper and lower layers of the container to form an air block layer in the lower layer.
2. The upper and lower separator plate is formed through a plurality of vent holes, the vent hole is a liquid containing container characterized in that the conical shape of the upper and lower light having a diameter smaller than the diameter of the lower portion.
3. The method according to claim 1,

   The boundary portion formed between the upper layer portion and the lower layer portion is formed to protrude in the outward direction of the container, the inner height of the boundary portion is formed higher than the height of the upper and lower separator plate to enable the upper and lower separator plate to move inside the boundary portion. A liquid containing container.
4. The method according to claim 1,

   The lower layer is provided with an alkali reducing agent, the liquid containing container, characterized in that to reduce the liquid in the container to alkaline reducing water.
5. The method according to claim 1,

   The container containing a liquid, characterized in that the transparent or translucent material provided.
6. The method according to claim 1,

   The container containing a liquid, characterized in that the transparent or translucent material provided.

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