JP2007001633A - Beverage bottle for generating hydrogen rich water - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a disposable beverage bottle suitable for drinking hydrogen rich water easily away from home. <P>SOLUTION: The main body (2) of this beverage bottle is formed suitably small to be sold by a vending machine containing drinking water such as mineral water. A cap base (6) is fixed on the mouth part (10) of the main body (2) and a cap (14) is screwed on the cap base (6). The inside of the cap base (6) is formed with a storage part (16). A freely detachable bottom cover (22) closes the opening of the storage part (16). The cap (14) is formed with a bottom cover unloading mechanism, and when it is turned in the screw-in direction relative to the cap base (6), the cover (22) comes off from the storage part (16). A hydrogen rich water generating device (24) is placed in the storage part (16). Magnesium particles (30) for generating hydrogen gas when reacting with drinking water are contained in the device (24). <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a beverage bottle that produces hydrogen-rich water containing molecular hydrogen that is said to be effective in eliminating active oxygen in the body.

Conventionally, a hydrogen-rich water generator is known in which drinking water and magnesium particles are reacted at room temperature to generate hydrogen gas, and the drinking water is changed to hydrogen-rich water containing abundant molecular hydrogen (for example, patent documents). 1).
JP 2004-41949 A

A conventional hydrogen-rich water generator has a configuration in which magnesium particles are filled in a container in which small holes through which water enters and exits are formed. This container filled with magnesium grains is called a stick, and enthusiasts of hydrogen-rich water on the market put the purchased stick in a bottle of drinking water such as tap water at home, and stick the water in the bottle By reacting with the magnesium grains in the bottle, the water in the bottle is changed to hydrogen-rich water containing abundant molecular hydrogen. However, if you want to drink hydrogen-rich water when you go out, hydrogen-rich water in PET bottles is not currently available on the market with vending machines. Therefore, lovers could not easily obtain drinking water containing hydrogen-rich water on the go, which was extremely inconvenient. The following issues can be raised when selling bottles containing hydrogen-rich water at vending machines or in stores. That is, molecular hydrogen dissolved in water is easily dissipated and cannot be stored for a long time. In addition, if a stick is placed in a bottle containing mineral water or the like in advance, a large amount of magnesium particles are required to sustain the long-term molecular hydrogen generation reaction, which increases costs. End up.
The present invention aims to solve the above-mentioned problems.

To achieve the above object, the present invention provides a small-sized bottle body suitable for sale in a vending machine containing drinking water such as mineral water, a cap base fixed to the mouth of the bottle body, A cap that is screwed into the cap base; a storage container that is formed inside the cap base and that opens into the bottle body; and an opening of the storage container is detachably covered, A bottom lid that prevents drinking water from entering the storage compartment, and a bottom that prevents the bottom lid from being removed from the storage compartment when the cap is rotated relative to the cap base in a screwing direction or an opening direction. Magnesium comprising a lid drop-off mechanism and a hydrogen-rich water generator disposed in the storage container, and generating hydrogen gas when the hydrogen-rich water generator reacts with drinking water in a container in which water can enter and exit It is obtained by a structure in which put.
In the present invention, the bottom lid drop-off mechanism is formed so as to protrude inwardly from the cap, and a lower end of the tubular body abuts against an upper surface of the bottom lid, and a lower portion of the storage container is formed on the cap base. A lower inner cylindrical portion to be formed and a bottom lid that is detachably fitted to a lower end of the lower inner cylindrical portion. When the cap is screwed down with respect to the cap base, the cylindrical body is moved to the bottom lid. The bottom cover is released from the lower end of the lower inner cylinder part.
Further, the present invention provides the bottom lid drop-off mechanism, wherein the container of the hydrogen-rich water generator is coupled to the cap via a coupling body, the bottom portion of the container is coupled to the bottom lid, and the cap is open direction. When it is turned and raised with respect to the cap base, the combined body is cut and the container is dropped into the bottle body together with the bottom lid.
Further, the present invention provides the bottom lid drop-off mechanism, wherein a cylinder is formed inside the cap, the bottom lid is detachably coupled to the lower end of the cylinder, and the upper surface around the bottom lid is connected to the cap base side. When the cap is rotated in the opening direction and lifted with respect to the cap base, the coupling with the bottom lid at the lower end of the cylindrical body is released, and the bottom lid is the bottle body. It is configured to fall inside.
In the present invention, the cap is provided with a drinking mouth smaller than the container of the hydrogen-rich water generator in the storage container so that drinking water can be drunk from the drinking mouth.
In the present invention, the cap and the cap base are made of a transparent member so that the container of the hydrogen-rich water generator can be seen from the outside.

  The present invention is suitable for long-time storage in a vending machine and the like because the magnesium particles do not react with the drinking water in the bottle during bottle storage, and the container containing the magnesium particles stored in the bottle is disposable. In this case, the amount of magnesium particles in the bottle is sufficient to react with the drinking water in one bottle, and is extremely economical.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.
In FIG. 1, (2) is a portable small bottle body suitable for sale at a vending machine or a store, and contains drinking water (4) such as mineral water. (6) is a cap base, and a female screw is formed on the inner peripheral surface of the lower outer cylindrical portion (8) thereof, and the female screw is formed on the outer peripheral surface of the mouth (10) of the bottle body (2). Screwed into the male screw.

As for the lower inner side cylinder part (12) of a cap base (6), the outer peripheral surface fits into the opening | mouth part (10) inner peripheral surface of a bottle main body (2), and the lower end part is a bottle main body (2). A little protruding inside. (14) is a cap, and a storage container (16) is formed by the inside of the cap and the inside of the cap base (6). A cylindrical body (17) is integrally formed inside the circular flat plate portion of the cap (14).

A female screw (18) is formed on the inner peripheral surface of the outer cylindrical portion of the cap (14), and the female screw (18) is formed on the outer peripheral surface of the upper cylindrical portion (20) of the cap base (6). Screwed into the male screw (21). Normally, the cap (14) is screwed to the cap base (6) up to a position that is raised by a predetermined interval (s) as shown in FIG. 1, and can be further screwed by the interval (s). It has become.

A disc-shaped bottom lid (22) is detachably fitted to the lower end of the lower inner cylindrical portion (12) of the cap base (6) via a concave groove (24 ') formed in the circumferential direction. ing. The inside of the storage container (16) is sealed by the bottom lid (22) and is waterproofed (not shown) by packing or the like so that the drinking water (4) in the bottle body (2) does not enter inside. It has become. A hydrogen-rich water generator (24) is disposed in the storage container (16). The bullet-like container (26) of the hydrogen-rich water generator (24) is composed of a cylindrical porous ceramic whose outer shell has an elongated cross-sectional shape.

An infinite number of small holes formed in the container (26) allow the inside of the container (26) to communicate with the outside, and the liquid can freely enter and leave the container (26) through the small holes. In the container (26), as shown in FIG. 3, natural water purification particles (28) composed of small particles that do not pass through the small holes in the outer shell of the container (26) and the like A material having a water purification effect and magnesium particles (30) are filled in a predetermined amount. The magnesium particles (30) filled in the container (26) are preliminarily fired.

The hydrogen-rich water generator (24) may have any structure as long as it has a structure in which magnesium particles or powder are contained in a container through which water passes, and is particularly limited to the structure shown in FIG. is not.
When drinking the drinking water (4) in the bottle body (2) in the above configuration, as shown in FIG. 2, the cap (14) is further rotated in the screwing direction from the initial setting position. The cap (14) is guided by the male screw (20) of the upper cylindrical portion (20) of the cap base (6) and descends along the upper cylindrical portion (21).

By the lowering of the cap (14), the bottom cover (22) is pushed down by the lower end of the cylindrical body (17) and falls off from the lower end of the lower inner cylindrical portion (12) of the cap base (6). This opens the lower end of the storage container (16), and the container (26) falls into the drinking water (4) in the bottle body (2). When the container (26) falls into the drinking water (4), the purification material (28) such as natural stone reacts with the drinking water (4) in the bottle body (2) to purify the drinking water (4). Further, after the magnesium particles 30 are mixed into the drinking water (4), the magnesium particles (30) react with the drinking water (4) when a required time, for example, 2 to 3 minutes elapses, and the bottle body (2) according to the following chemical formula. Hydrogen gas is generated inside.

As a result, the drinking water 4 in the bottle body (2) is purified and becomes water containing abundant molecular hydrogen H ₂ at the same time. It is experimental that the time required for the drinking water (4) and the magnesium particles (30) to react to generate molecular hydrogen H ₂ can be adjusted by appropriately changing the firing temperature and firing time for the magnesium particles (30). Has been confirmed.

By the way, the water component is H ₂ O, which consists of two hydrogens and one oxygen, but the hydrogen is separated from oxygen because of the hydrogen bond energy working between this hydrogen and oxygen. Normal water does not contain molecular hydrogen H ₂ . Moreover, even if it is water that is rich in molecular hydrogen H ₂ at first, molecular hydrogen is readily dissipated and lost, so water rich in molecular hydrogen does not exist in nature.

Up to 99,99 percent of natural water is hydrogen-deficient water containing almost no molecular hydrogen H ₂ . The cap (14) is temporarily turned down from the initial setting position in the screwing direction, the container (26) is dropped into the bottle body (2), and then the cap (14) is turned in the opening direction to remove the cap ( 14) is removed from the upper cylinder part (20) of the cap base (6), and drinks hydrogen-rich water in the bottle body (2).

FIG. 4 shows another embodiment of the present invention, in which the lower outer cylinder portion (34) of the cap base (32) is fixed to the mouth portion (10) of the bottle body (2) by a screw structure. A female screw is formed on the inner peripheral surface of the cylindrical portion (38) of the cap (36), and the female screw is screwed into a male screw formed on the outer peripheral surface of the upper cylindrical portion (40) of the cap base (32). Yes.

(42) is a hydrogen-rich water generator disposed in a storage container (16) surrounded by a cap (36) and a cap base (32), and a plastic plate or the like is formed on the bottom of the container (44). A bottom lid (46) is secured. A joined body (48) made of a thin string-like body such as plastic is fixed to the top of the container (44), and the upper end of the joined body (48) is on the inner surface of the flat plate portion of the cap (36). It is fixed to the center.

The bottom lid (46) is in pressure contact with the lower end of the lower inner cylindrical portion (48) of the cap base (32) via a waterproof seal material, and the drinking water in the bottle body (2) is placed in the storage portion (16). (4) is configured not to enter. The structure in the container (44) is the same as that shown in FIG.
In the above configuration, when the cap (36) is turned in the opening direction, the cap (36) is raised by the screw guide, the coupling portion (48) is broken, and the container (44) is as shown in FIG. Falls into the bottle body (2).

Next, another embodiment of the present invention will be described with reference to FIG.
(48) is a cap base, and a female screw is formed on the inner peripheral surface of the lower outer cylinder (50), and the female screw is a male screw formed on the outer peripheral surface of the mouth (10) of the bottle body (2). The cap base (48) is fixed to the mouth (10) of the bottle body (2) by screwing.

The lower inner cylindrical portion (52) of the cap base (48) has an outer peripheral surface fitted into an inner peripheral surface of the mouth portion (10) of the bottle body (2), and a stopper surface (54) at the lower end thereof is the bottle. The main body (2) is slightly protruded. (56) is a cap, and its cylinder part (57) is screwed into the upper cylinder part (59) of the cap base (48). A cylindrical drinking mouth (58) is formed on the circular flat plate portion of the cap (56), and a small cap (60) is screwed into the drinking mouth (58). The cap (56) is integrally formed with a cylindrical body (62).

(64) is a disk-shaped bottom lid, and a concave groove (66) is formed in the circumferential direction of the bottom lid (64), and the concave groove (66) is formed at the lower end of the cylindrical body (62). It fits detachably. The upper surface of the outer diameter portion of the bottom cover (64) is disposed in contact with the stopper surface (54). A hydrogen-rich water generator (70) is placed inside the storage container (68) surrounded by the cap (56) and the cap base (48), and the container (72) of the generator (70) In addition to the shape of the fruit watermelon as shown in FIG.

The container (72) is made of plastic, ceramic or any other material, and has a hole (74) so that water can enter and exit as shown in FIG. A bag (76) made of a water-permeable material such as a nonwoven fabric is disposed in the container (72), and water quality such as magnesium grains (78) and silver grains or natural stone grains is placed in the bag (76). Contains purification material (80).

At least the mouth (10) of the bottle body (2), the cap base (48) and the cap (56) are made of a transparent body, and the hydrogen-rich water generator (70) disposed in the storage container (68). ) Is visible from the outside. The size of the mouth of the drinking mouth (58) is configured to be smaller than the size of the container (72).

The periphery of the storage container (68) is appropriately waterproofed (not shown) so that the drinking water (4) in the bottle body (2) does not enter inside.
In the above configuration, when the cap (56) is turned in the opening direction, the cylindrical body (62) rises. By this rise, the bottom lid (64) is removed from the lower end of the cylindrical body (62), the bottom lid (64) falls into the bottle body (2), and the lower part of the storage container (68) is opened.

As a result, the hydrogen-rich water generator (70) falls into the bottle body (2) as shown in FIG. 7, and the magnesium particles (78) and the water purification material (80) inside the drinking water (4). React with. When drinking the drinking water (4) in the bottle body (2), remove the small cap (60) with the cap (56) closed, and drink from the drinking mouth (58).

At this time, even if the bottle body (2) is turned upside down, since the drinking mouth (58) is small, the internal hydrogen-rich water generator (70) does not come out of the drinking mouth (58).
In the above embodiment, the cap lid and the cap have a bottom lid removal mechanism that allows the bottom lid to be removed from the storage container (16) (68) when the cap is turned in the screwing direction or the opening direction with respect to the cap base. However, in carrying out the present invention, the bottom lid dropping mechanism is not particularly limited to the illustrated mechanism, and various configurations can be adopted.

It is sectional drawing of the drink bottle concerning this invention. It is operation | movement explanatory sectional drawing of a drink bottle. It is sectional drawing of a hydrogen rich water generator. It is sectional drawing which shows other embodiment of this invention. It is operation | movement explanatory drawing of other embodiment of this invention. It is sectional drawing which shows other embodiment of this invention. It is operation | movement explanatory sectional drawing of other embodiment of this invention. It is an external view of the drink bottle concerning this invention. It is sectional drawing of a hydrogen rich water generator.

Explanation of symbols

2 Bottle body 4 Drinking water 6 Cap base 8 Lower outer cylinder part 10 Mouth part 12 Lower inner cylinder part 14 Cap 16 Storage container 17 Tubular body 18 Female screw 20 Upper cylinder part 21 Male screw 22 Bottom cover 24 Hydrogen rich water generator 26 Container 28 Natural stone grain 30 Magnesium grain 32 Cap base 34 Lower outer cylinder part 36 Cap 38 Pipe part 40 Upper cylinder part 42 Hydrogen rich water generator 44 Container 46 Bottom lid 48 Cap base 50 Lower outer cylinder part 52 Lower inner cylinder part 54 Stopper surface 56 Cap 57 Tube portion 58 Spout 59 Upper tube portion 60 Small cap 62 Tubular body 64 Bottom lid 66 Concave groove 68 Storage container 70 Hydrogen-rich water generator 72 Container 74 Hole 76 Bag body 78 Magnesium grain 80 Water purification Material for

Claims (6)

A small-sized bottle body suitable for sale in a vending machine containing drinking water such as mineral water, a cap base fixed to the mouth of the bottle body, a cap screwed into the cap base, A storage container formed inside the cap base and opening to the inside of the bottle main body, and an opening of the storage container are detachably covered so that drinking water in the bottle main body does not enter the storage container. A bottom lid to be removed, a bottom lid dropping mechanism for removing the bottom lid from the storage container when the cap is rotated in the screwing direction or the opening direction with respect to the cap base, and the storage container And a hydrogen-rich water generator arranged, wherein the hydrogen-rich water generator is configured to contain magnesium particles that generate hydrogen gas when reacted with drinking water in a container in which water can enter and exit. You Hydrogen-rich water-generating beverage bottle. The bottom lid drop-off mechanism is formed so as to protrude inwardly from the cap, and a lower body whose bottom end is in contact with the upper surface of the bottom lid, and a lower inner cylinder that is formed on the cap base and forms a lower portion of the storage container. And a bottom lid that is detachably fitted to the lower end of the lower inner cylinder, and when the cap is screwed down with respect to the cap base, the cylindrical body pushes down the bottom lid and the bottom lid The hydrogen-rich water-producing beverage bottle according to claim 1, wherein the bottle is separated from a lower end of the lower inner cylindrical portion. The bottom lid drop-off mechanism is configured such that the container of the hydrogen-rich water generator is coupled to the cap via a coupling body, the bottom of the container is coupled to the bottom lid, and the cap is rotated in the direction of opening the cap. 2. The hydrogen-rich water-producing beverage bottle according to claim 1, wherein when the assembly is raised with respect to the base, the combined body is cut and the container is dropped into the bottle body together with the bottom lid. A stopper surface in which a bottom body is formed on the inner side of the cap, the bottom cover is detachably coupled to a lower end of the cylindrical body, and an upper surface around the bottom cover is provided on the cap base side. A configuration where the cap is rotated in the opening direction and lifted with respect to the cap base, the coupling with the bottom lid at the lower end of the cylindrical body is released, and the bottom lid falls into the bottle body The hydrogen-rich water-generating beverage bottle according to claim 1, wherein 2. The hydrogen-rich water generation according to claim 1, wherein the cap is provided with a drinking mouth smaller than the content of the hydrogen-rich water generator in the storage container so that drinking water can be drunk from the drinking mouth. Beverage bottle. 2. The hydrogen-rich water-producing beverage bottle according to claim 1, wherein the cap and the cap base are made of a transparent member so that the contents of the hydrogen-rich water generator can be seen from the outside.

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