JP6255639B2 - Method for producing hydrogen-containing beverage and hydrogen-containing beverage - Google Patents

Description

  TECHNICAL FIELD The present invention relates to a method for producing a hydrogen-containing beverage and the hydrogen-containing beverage, and in particular, a method for producing a hydrogen-containing beverage that can be easily made into a hydrogen-containing beverage by adding hydrogen to the beverage immediately before drinking. It relates to a contained beverage.

  Active oxygen plays an important role in producing ATP (adenosine triphosphate) in the citrate cycle and is found to be essential for life support, and also plays a role in eliminating foreign substances that have entered the body. It is coming. In addition, active oxygen that has not been used in in vivo reactions or the like is usually decomposed by enzymes present in cells. However, not all active oxygen is decomposed by the enzyme, and surplus active oxygen is present without being decomposed. As a result, cells are damaged by surplus active oxygen, causing diseases such as cancer and lifestyle-related diseases, and aging, and eliminating surplus active oxygen is required for health maintenance.

  Therefore, in recent years, hydrogen has been used as a substance that eliminates such surplus active oxygen. This is because hydrogen has a very low molecular weight and is easily absorbed into the body, and further changes to water when it reacts with active oxygen, and has high safety. Also, among the many active oxygens, only hydroxy radicals are selected and reduced, and the active oxygen useful for the body is not affected.

  As a technique for ingesting such hydrogen into the body, for example, a technique for putting a hydrogen-rich water generator into a bottle in order to contain hydrogen in a liquid in a PET bottle, which is a beverage container (Patent Document 1, Patent Document) 2) Techniques for putting improved water generators such as hydrogen water generating particles into a plastic bottle (Patent Document 3), techniques for putting a container filled with magnesium metal into a plastic bottle (Patent Document 4), and the like are disclosed. .

  In addition, when an inert gas liquid containing liquid hydrogen of 0.1% or more and 50% or less is replaced with a gap in a beverage container (Patent Document 5), or when drinking water in which hydrogen is mixed and enclosed is placed in the container A technique (Patent Document 6) is disclosed in which a mixed gas is sealed in a container internal upper space generated on the liquid level or surface of the container.

  Furthermore, a beverage container for a hydrogen-containing beverage (Patent Document 7) is disclosed in which at least 51% of hydrogen is sealed in a void in the container of a beverage container for beverages.

JP 2004-41949 A JP 2007-1633 A JP 2005-7380 A JP 2006-255613 A JP 2008-295436 A JP 2008-280057 A JP 2011-87547 A

  As mentioned above, hydrogen has already been included in beverages. However, in the conventional technology, when hydrogen is dissolved in a beverage and sold in a plastic bottle, the hydrogen goes out to the outside, and the hydrogen content of the beverage itself is lowered from the beginning, and the effect of hydrogen is reduced. There are problems that cannot be demonstrated. Therefore, in such a case, for example, it is necessary to seal it in a special container that does not leak hydrogen instead of a PET bottle, and as a result, it will be expensive and may be used for beverages. Not suitable as a container.

  Moreover, like patent documents 1-4, the special member for generating hydrogen in a container is put in a container, and hydrogen is generated and hydrogen is contained at the time required or arbitrary time. There is also a method of manufacturing. However, this requires a hydrogen generating member to be separately put in the bottle, which is not only expensive but also troublesome.

  Furthermore, as in Patent Documents 5 and 6, there is also shown a method of enclosing a gas containing hydrogen in a very narrow space in a cap portion of a plastic bottle containing a beverage. However, since the voids are extremely narrow in the first place, the concentration of the hydrogen is low, and the amount of hydrogen reduced to a beverage is very low and the effect is not so high. In particular, the amount of voids is set to a smaller capacity in order to prevent alteration, etc., and reduction by replacement of a gas containing a small amount of hydrogen into such a portion has only a very small effect and has a problem.

  On the other hand, the technique described in Patent Document 7 replaces the gas portion in the container with hydrogen when the beverage containing hydrogen is put into a plastic bottle, and effectively contains hydrogen in the beverage. The hydrogen substituted as necessary can be effectively reduced into the beverage of the PET bottle. However, there is still room for improvement in such a technique in that a beverage containing no hydrogen is easily converted into a beverage containing hydrogen immediately before the beverage.

  Accordingly, an object of the present invention is to solve the above-mentioned problems of the prior art, and to add a hydrogen to the beverage immediately before drinking to easily produce a hydrogen-containing beverage, and the hydrogen-containing beverage Is to provide.

  As a result of intensive studies to solve the above problems, the present inventor has found that the above object can be achieved by supplying hydrogen from a hydrogen-containing pouch to a beverage container, thereby completing the present invention. It came.

  That is, the method for producing a hydrogen-containing beverage of the present invention comprises a beverage container filled with a beverage and a pouch that is made of a hydrogen-impermeable film and contains hydrogen, and opens the pouch. And it is a manufacturing method of the hydrogen containing drink characterized by adding hydrogen to the said container for drinks.

  In the method for producing a hydrogen-containing beverage according to the present invention, it is preferable that the pouch has an inlet that protrudes thinly upward, and the inlet is inserted into the beverage container to add hydrogen.

  The method for producing a hydrogen-containing beverage of the present invention is such that the pouch has a shape capable of forming a neck / shoulder-like non-seal portion so that the inlet can be formed, and the neck / shoulder-like non-seal is formed. A perforation line along the neck / shoulder-shaped non-seal part line or a cut-out display line by printing is provided on the upper part of the pouch to cut out the outside of the part leaving a seal part of a predetermined width. Preferably, an opening cut-off display line or a half-cut line for printing is formed near the tip of the injection port of the neck / shoulder-shaped non-seal portion so that the injection port is cut out so as to cross the injection port. Or the cut-out display line or half-cut line for opening, and at least one end of the cut-out display line or half-cut line for opening, or the cut-out line or half-cut line for opening. Notch in any position that intersects with the cut displayed line by perforation lines or printing, is provided to form the mouth, it is preferably provided.

  Furthermore, in the method for producing a hydrogen-containing beverage of the present invention, the length of the inlet of the pouch is preferably shorter than the length from the drinking mouth to the bottom of the beverage container.

  Furthermore, in the method for producing a hydrogen-containing beverage according to the present invention, the position of the inlet of the pouch is preferably a central portion of the upper part of the pouch, and the position of the inlet of the pouch is the position of the pouch. The upper end is preferred.

  In the method for producing a hydrogen-containing beverage according to the present invention, the pouch is preferably one or more films selected from the group consisting of an aluminum foil, an aluminum vapor deposition film, an aluminum oxide vapor deposition film, and a silica vapor deposition film. The pouch is preferably a laminated film.

  Furthermore, in the method for producing a hydrogen-containing beverage of the present invention, the beverage container is preferably a plastic bottle, and the beverage container is preferably a can.

  The hydrogen-containing beverage of the present invention is produced by the method for producing a hydrogen-containing beverage.

  According to the present invention, it is possible to provide a method for producing a hydrogen-containing beverage that can be easily made into a hydrogen-containing beverage by adding hydrogen to the beverage immediately before drinking, and the hydrogen-containing beverage.

It is a figure which shows an example of the container for drinks used for this invention. It is a figure which shows another example of the container for drinks used for this invention. It is a figure which shows an example of the pouch used for this invention. It is a figure which shows another example of the pouch used for this invention. It is a figure which shows an example of the manufacturing method of the hydrogen containing drink of this invention.

Hereinafter, the method for producing a hydrogen-containing beverage of the present invention and the hydrogen-containing beverage will be specifically described.
The method for producing a hydrogen-containing beverage of the present invention comprises a beverage container filled with a beverage, and a pouch made of a hydrogen-impermeable film and containing hydrogen, and opening the pouch. It is a manufacturing method of the hydrogen containing drink which adds hydrogen to the said container for drinks. Moreover, the hydrogen-containing drink of this invention is manufactured by the manufacturing method of this hydrogen-containing drink. Since hydrogen is added to the beverage container immediately after opening the pouch, the beverage can be easily made into a hydrogen-containing beverage.

  FIG. 1 is a diagram showing an example of a beverage container used in the present invention, and FIG. 2 is a diagram showing another example of a beverage container used in the present invention. The beverage container used in the present invention is not particularly limited as long as it can be filled with a beverage and can be drunk. However, it is preferably a commonly used PET bottle 1, and more preferably a can 2. . The PET bottle 1 and the can 2 have a large amount in the market and can be used easily. In the figure, 11 and 21 indicate beverages inside, and 12 indicates a lid of a plastic bottle.

  The pouch used in the present invention is not particularly limited as long as it can contain hydrogen, hydrogen does not leak out, and hydrogen can be added to the beverage containers 1 and 2. An example of such a pouch is shown in FIG. The pouch 3 has an injection port 31 that protrudes thinly at the upper portion, and the injection port 31 can be inserted into the beverage containers 1 and 2 to add hydrogen. Thereby, hydrogen can be added into the beverage containers 1 and 2 without leakage. Moreover, since the position of the injection port 31 is the center part of the upper part of the pouch 3, the pouch 3 can add hydrogen with respect to the drink containers 1 and 2 with sufficient balance. Note that “thin” means that the width of the injection port 31 is shorter than the body portion of the pouch 3.

  Further, the pouch 3 has a shape capable of forming a neck / shoulder-like non-seal portion 32 so that the injection port 31 can be formed, and a seal portion having a predetermined width is formed outside the neck / shoulder-like non-seal portion 32. A perforation line 35 is provided along the line of the neck / shoulder-shaped non-seal portion 32 for cutting away 33. Furthermore, a structure in which cut-out display lines by printing are provided outside the neck / shoulder-like non-seal portion 32 leaving a seal portion 33 having a predetermined width may be employed. With this structure, the injection port 31 can be easily formed. Reference numeral 34 denotes a seal part to be cut off.

  Furthermore, an opening cut-off display line 36 for printing is provided in the vicinity of the tip of the injection port 31 of the neck / shoulder-like non-seal portion 32 so that the injection port 31 is cut out to open the injection port 31. ing. Also, a half-cut line for opening the injection port 31 so as to cross the injection port 31 in the vicinity of the tip of the injection port 31 of the neck / shoulder-shaped non-seal portion 32, or the opening cut-off display line Or at least one end of the opening cut-off display line or half-cut line, or the opening cut-off line or half-cut line provided to form the inlet 31; or A structure in which a notch is provided at any position that intersects the cut-out display line by printing can also be adopted. With such a structure, the injection port 31 can be easily opened, and hydrogen can be easily added.

  Further, in the pouch 3 used in the present invention, it is essential that the length of the injection port 31 is a length that can be inserted into the beverage containers 1 and 2. It is shorter than the length from the mouth to the bottom. More preferably, the length of the inlet 31 is the length that enters the beverage 11, and more preferably the length that reaches 50% of the amount of the beverage 11. Thereby, hydrogen can be more easily added even in a state where the inlet 31 of the pouch 3 is inserted from the drinking mouth of the beverage containers 1 and 2. In particular, by making the length of the inlet 31 equal to or longer than the length of the beverage 11, dissolution of hydrogen into the beverage 11 can be facilitated.

  FIG. 4 is a view showing another example of the pouch used in the present invention. Since the position of the inlet 41 of the pouch 4 is the upper end of the pouch 4, hydrogen can be added with the pouch 4 tilted. Further, the pouch 4 has a shape capable of forming a neck / shoulder-shaped non-seal part 42 so that the injection port 41 can be formed, and the outside of the neck / shoulder-shaped non-seal part 42 has a seal part with a predetermined width. A perforation line 45 is provided along the line of the neck / shoulder-shaped non-seal portion 42 for cutting off the remaining 43. Furthermore, a structure in which cut-out display lines by printing are provided outside the neck / shoulder-like non-sealed portion 42 leaving a seal portion 43 having a predetermined width may be employed. By adopting such a structure, the injection port 41 can be easily formed. In addition, 44 shows the seal part cut off.

  Furthermore, an opening cut-off display line 46 for printing is provided in the vicinity of the tip of the injection port 41 of the neck / shoulder-shaped non-seal portion 42 so as to cut off the injection port 41 to open the injection port 41. ing. In addition, a half-cut line for cutting off the injection port 41 to open the injection port 41 in the vicinity of the tip of the injection port 41 of the neck / shoulder-shaped non-seal portion 42, or a cut-off display line for the opening Alternatively, a half-cut line and at least one end of the opening cut-off display line or half-cut line, or a perforation line provided to form the inlet 41, the opening cut-out line or half-cut line, or A structure in which a notch is provided at any position that intersects the cut-out display line by printing can also be adopted. With such a structure, the inlet 41 can be easily opened, and hydrogen can be easily added.

  Furthermore, in the pouch 4 used in the present invention, it is essential that the length of the injection port 41 is a length that can enter the beverage containers 1 and 2, It is shorter than the length from the mouth to the bottom. More preferably, the length of the inlet 41 is a length that enters the beverage 11, and more preferably a length that reaches 50% of the amount of the beverage 11. Thereby, hydrogen can be more easily added even in a state where the inlet 41 of the pouch 4 is inserted from the drinking port of the beverage containers 1 and 2. In particular, by making the length of the inlet 41 equal to or longer than the length of the beverage 11, dissolution of hydrogen into the beverage 11 can be facilitated.

  Further, the material of the pouches 3 and 4 used in the present invention is not limited as long as it is non-hydrogen permeable, but one kind selected from the group consisting of an aluminum foil, an aluminum vapor deposition film, an aluminum oxide vapor deposition film, and a silica vapor deposition film. The above film is preferable. Furthermore, a laminated film is preferable. Specifically, a multilayer laminate film in which a layer made of an aluminum foil, an aluminum vapor deposition film, an aluminum oxide vapor deposition film, a silica vapor deposition film, and the like and a resin film are laminated is used. Examples of the resin film that can be used include polyolefins such as polyethylene and polypropylene, polyesters such as polyethylene terephthalate, and nylon.

  Furthermore, the pouches 3 and 4 used in the present invention preferably have hooks 37 and 47 at the bottom. This makes it easy to hang on a wall or the like.

  Further, in the present invention, the source of the hydrogen filling the pouches 3 and 4 is not particularly limited. Furthermore, although it is preferable that only hydrogen is filled, not only hydrogen but also an inert gas may be mixed. Examples of the inert gas include gases having poor reactivity such as nitrogen gas and carbon dioxide gas, in addition to group 0 elements of the periodic table. These gases are extremely stable and do not combine with other elements. In that case, the hydrogen concentration is preferably 3.9% of the lower explosion limit. Thereby, even if the pouches 3 and 4 are opened, there is no danger of ignition.

  EXAMPLES Hereinafter, although this invention is demonstrated further in detail using an Example, this invention is not limited to these Examples.

  FIG. 5 is a diagram illustrating an example of a method for producing a hydrogen-containing beverage of the present invention. A plastic bottle beverage 100 containing 500 mL of mineral water 110 and a pouch 300 composed of a multilayer film made of PET / biaxially stretched nylon / aluminum / CPP (unstretched polypropylene) and encapsulating hydrogen were prepared. As shown in FIG. 5A, the pouch 300 was cut along the perforation and opened. Next, as shown in FIG. 5B, the inlet 310 of the pouch 300 was inserted into the plastic bottle beverage 100, and hydrogen 5 was added. The bottle 100 was covered and shaken well to prepare a hydrogen-containing beverage.

  A can containing 350 mL of orange juice and a multi-layer film composed of PET / biaxially stretched nylon / aluminum / CPP (unstretched polypropylene) and a pouch enclosing hydrogen were prepared. The pouch was cut along the perforation and opened. Next, the injection port of the pouch was inserted into a can, and hydrogen was added while shaking the can well to prepare a hydrogen-containing beverage.

1, 100 PET bottles 11, 21 Beverages 12 PET bottle lids 110 Mineral water 2 Cans 3, 4, 300 Pouches 31, 41, 310 Inlet 32, 42, 320 Non-seal part 33, 43, 330 Seal part 34, 44 Seal part 35, 45 Perforation line 36, 46 Open cut-out display line 37, 47, 370 Hook 5 Hydrogen

Claims (11)

A beverage container filled with a beverage;
It is composed of a hydrogen non-permeable film and has a pouch containing hydrogen,
A method for producing a hydrogen-containing beverage, wherein the pouch is opened and hydrogen is added to the beverage container.   The method for producing a hydrogen-containing beverage according to claim 1, wherein the pouch has an inlet that protrudes thinly upward, and the hydrogen is added by inserting the inlet into the beverage container. The pouch has a shape capable of forming a neck / shoulder-like non-seal part so that the injection port can be formed, and the outside of the neck / shoulder-like non-seal part is cut out leaving a seal part of a predetermined width. A method for producing a hydrogen-containing beverage according to claim 2 , wherein a perforation line along the neck-shoulder-shaped non-seal portion line or a cut-out display line by printing is provided on the upper part of the pouch.   In the vicinity of the tip of the neck-shoulder-shaped non-seal portion of the injection port, a cut-off display line or half-cut line for opening by printing for cutting the cross-injection port to open the injection port, or The opening cut-off display line or half-cut line and at least one end of the opening cut-out display line or half-cut line, or the opening cut-out display line or half cut line are provided to form the inlet. The method for producing a hydrogen-containing beverage according to claim 3, wherein a notch is provided at any position intersecting with the perforated line or the cut-out display line by printing. The method for producing a hydrogen-containing beverage according to any one of claims 2 to 4 , wherein a length of the inlet of the pouch is shorter than a length from a drinking mouth to a bottom of the beverage container. The method for producing a hydrogen-containing beverage according to any one of claims 2 to 5 , wherein a position of the inlet of the pouch is a central portion of an upper portion of the pouch. The method for producing a hydrogen-containing beverage according to any one of claims 2 to 5 , wherein a position of the inlet of the pouch is an upper end portion of the pouch.   The said pouch is 1 or more types of films chosen from the group which consists of aluminum foil, an aluminum vapor deposition film, an aluminum oxide vapor deposition film, and a silica vapor deposition film, The hydrogen containing drink as described in any one of Claims 1-7. Production method.   The method for producing a hydrogen-containing beverage according to any one of claims 1 to 8, wherein the pouch is a laminated film.   The method for producing a hydrogen-containing beverage according to any one of claims 1 to 9, wherein the beverage container is a plastic bottle.   The said container for drinks is a can, The manufacturing method of the hydrogen containing drink as described in any one of Claims 1-9.

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