WO2014021416A1 - Hydrogen filling container employing hydrogen-filled sealed pouch, and hydrogen filling cap employing hydrogen-filled sealed pouch - Google Patents

Abstract

The purpose of the present invention is to provide a container and a cap whereby hydrogen gas may be easily induced to dissolve into a liquid or other contents contained within a container. This container (1) has a container body (10) for containing the contents; a cap (11) for capping the container body (10), and a pointed projection element (2) provided with a pointed projection (2a) for splitting a sealed pouch (3). The cap (11) includes a top panel part (111), a cylindrical peripheral wall part (112) descending from the peripheral edge of the top panel part (111), and a loading part (113) into which it is possible to load a sealed pouch (3) internally filled with hydrogen gas. With the pointed projection element (2) is attached to the inside of the top panel part (111), and the sealed pouch (3) loaded into the loading part (113), the cap (11) is closed down onto the opening (10a) of the container body (10), whereby the sealed pouch (3) is split by the pointed projection (2a), and the hydrogen gas dissolves into the contents.

Description

Hydrogen filling container using hydrogen gas sealed bag and hydrogen filling cap using hydrogen gas sealed bag

The present invention relates to a container in which hydrogen gas is filled in a container and the hydrogen gas is dissolved in the contents stored in the container.

In recent years, soft drinks such as water and tea filled with hydrogen gas have been sold. This is intended to reduce active oxygen present in the human body by ingesting hydrogen gas filled in a liquid.

Active oxygen plays an important role in producing ATP (adenosine triphosphate) in the citrate cycle, and is essential for life support and also plays a role in eliminating foreign substances that have entered the body. I understand. However, on the other hand, surplus active oxygen that has not been used in the reaction in the living body is usually decomposed by an enzyme present in the cell, but the amount that cannot be decomposed damages the cell. As a result, it causes diseases such as cancer and lifestyle-related diseases and aging. For this reason, it is considered good for health to eliminate excess active oxygen.

In addition, hydrogen gas is used for reducing active oxygen because it has a very low molecular weight and is easily absorbed by the body, and even when hydrogen reacts with active oxygen, water is only generated and is safe. This is because of its high nature.

In this way, the pathological effectiveness of hydrogen water, which is thought to lead to disease prevention and health promotion without any particular harm, has been reported in many academic journals such as Non-Patent Documents 1 to 10, There's no point in enumerating.

As described above, ingestion of hydrogen gas has useful effects such as disease prevention and health promotion, but it is difficult to maintain a high dissolved hydrogen amount as it is after hydrogen gas is dissolved in a liquid. For example, when water filled with hydrogen gas is stored in a plastic container such as a PET (polyethylene terephthalate) bottle, most of the hydrogen escapes within a few days even in a sealed state. Even if taken, high efficacy cannot be obtained.

In this regard, in Patent Document 1, a liquid container having a flexible exterior is encapsulated with a liquid in which hydrogen molecules are dissolved, a pressure member is attached to a part or the whole of the liquid container, and pressure is applied from the outside. A method for maintaining the amount of dissolved hydrogen by maintaining the added state has been proposed.

JP 2011-136727 A

The technique described in Patent Document 1 focuses on the proportional relationship between gas solubility and pressure (Henry's law), and by applying pressure from the outside to a container containing a hydrogen-dissolved liquid, Is trying to maintain a high amount of dissolved hydrogen.

However, when this method is adopted, a mechanism for applying pressure to the container is required. Also, the material of the container must be able to withstand this pressure, and it must be a flexible material that can convert external pressure into internal pressure. Furthermore, if the container itself for storing the liquid is not highly sealed or has low gas permeability, the hydrogen pressure in the liquid may be leaked or permeated to the outside due to the external pressure. is there.

Therefore, an object of the present invention is to provide a container in which hydrogen gas can be easily dissolved in contents such as a liquid contained in the container.

In order to achieve the above object, the hydrogen filling cap using the hydrogen gas-sealed sealing bag according to the present invention covers the container containing the contents and is sealed with the hydrogen gas inside the container. A cap for dissolving hydrogen gas in the contents of the top plate, a first cylindrical peripheral wall portion hanging from the periphery of the top plate portion, the top plate portion and the first plate The pointed protrusion is composed of a substantially cylindrical loading portion that is surrounded by a cylindrical peripheral wall portion and has one end opened, and into which the sealing bag can be loaded, and a pointed protrusion for breaking the sealing bag. The body is provided in the loading unit, and the sealing bag is broken by the pointed protrusions by closing the opening of the container body in a state where the sealing bag is loaded in the loading unit, and the container body Is filled with the hydrogen gas so that the hydrogen gas Characterized in that it dissolved in the contents.

Further, the pointed protrusion is provided in the vicinity of one end opening of the loading portion, and the pointed protrusion is provided with a vent for allowing hydrogen gas to pass through the container. Also good.

Further, the top plate portion and the first cylindrical peripheral wall portion are constituted by separate members, and the top plate portion is inserted into a loading portion surrounded by the first cylindrical peripheral wall portion. The first cylindrical peripheral wall portion is attached to the opening of the container body and the insertion portion of the top plate portion is connected to the first portion in a state where the sealing bag is loaded in the loading portion. Is inserted into the loading portion in the cylindrical peripheral wall portion, the sealing bag pressed against the pointed protrusion by the insertion portion is broken, and the hydrogen gas is filled in the container body. It is good also as what melt | dissolves in the said content.

Further, a hydrogen filling container using a hydrogen gas-sealed sealing bag according to another aspect of the present invention is for dissolving hydrogen gas in the contents in the container by a sealing bag filled with hydrogen gas inside. A container body containing contents, a substantially cylindrical cap that covers the container body, and a pointed protrusion having a pointed protrusion for breaking the sealing bag, The said container main body consists of the opening part closed by a cap, and the accommodating part which accommodates the content, The said cap is a 1st cylindrical surrounding wall suspended from the periphery of the top plate part and the said top plate part. And a loading portion that is surrounded by the top plate portion and the first cylindrical peripheral wall portion and can be loaded with the sealing bag, and the pointed protrusion is configured to connect the pointed protrusion to the container body side. It is attached to the inside of the top plate part toward In the loaded state, the opening of the container body is closed with the cap, whereby the sealing bag is broken by the pointed protrusions, the hydrogen gas is filled into the container body, and the hydrogen gas has the contents described above. It is characterized by dissolving in the product.

In addition, the pointed protrusion is provided with a vent for allowing hydrogen gas to pass through, and the pointed protrusion is attached to the opening of the container body with the pointed protrusion facing the cap. In addition, with the sealing bag loaded in the loading portion, the opening of the container body is closed with the cap, whereby the sealing bag is broken by the pointed protrusions, and the opening is formed through the vent. It is good also as what the said hydrogen gas led to the accommodating part melt | dissolves in the said content.

Further, the pointed protrusions may be integrally attached to the cap inside the top plate portion of the cap.

The opening of the container body is formed on one end side of a second cylindrical peripheral wall that is open at both ends, and inside the second cylindrical peripheral wall from the opening to the accommodating portion. It is good also as what is provided with the groove | channel toward.

Further, the sealing bag may be made of a hydrogen non-permeable material that does not allow the hydrogen gas to permeate.

According to the present invention, hydrogen gas can be easily dissolved in the contents such as liquid stored in the container.

It is sectional drawing which shows the container for hydrogen filling using the sealing bag containing hydrogen gas which concerns on embodiment of this invention. It is sectional drawing which shows the container for hydrogen filling using the sealing bag containing hydrogen gas which concerns on this embodiment. It is a figure which shows the pointed protrusion used for the container for hydrogen filling using the sealing bag containing hydrogen gas which concerns on this embodiment, Comprising: (a) Top view, (b) It is a perspective view. It is a top view which shows the container for hydrogen filling using the sealing bag containing hydrogen gas which concerns on another embodiment of this invention. It is sectional drawing which shows the cap for hydrogen filling using the sealing bag containing hydrogen gas which concerns on embodiment of this invention.

Next, a hydrogen filling container using a hydrogen gas-sealed sealing bag according to an embodiment of the present invention will be described with reference to the drawings.
As shown in FIG. 1, a container 1 according to an embodiment of the present invention is a bottle-shaped container, and includes a container body 10 that contains a liquid such as a beverage, and a cap 11 that closes an opening of the container body 10. It consists of.

The container 1 can be made of a synthetic resin material such as PET (Polyethylene Terephthalate), but preferably has low hydrogen gas permeability or hydrogen gas to prevent hydrogen gas from permeating to the outside. A non-permeable material is used. For example, aluminum or steel is used.
In addition, although the content accommodated in a container is not specifically limited, In this embodiment, it demonstrates by the case where liquids, such as a drink, are assumed.

The container body 10 is a container having a hollow inside, and includes a storage portion 101 for storing contents such as a liquid, and a cylindrical peripheral wall portion 102 that is constricted from the storage portion 101 and formed into a substantially cylindrical shape. Thus, the opening end portion of the cylindrical peripheral wall portion 102 constitutes an opening portion 10a for pouring and taking out the contents in the housing portion 101.

The outer peripheral diameter of the cylindrical peripheral wall portion 102 corresponds to the inner diameter of the cylindrical peripheral wall portion 112 of the cap 11, and a male screw is formed on the outer peripheral surface thereof. The male screw of the cylindrical peripheral wall portion 102 is provided so as to be able to be screwed with the female screw formed on the inner peripheral surface of the cylindrical peripheral wall portion 112 of the cap 11, and the female screw of the cap 11 is screwed together. The cap 11 is attached to the container body 10, and the opening 10a is closed.

The cap 11 is a lid for closing the opening 10 a of the container body 10.
The cap 11 includes a top plate portion 111 formed in a circular shape corresponding to the opening 10 a and a cylindrical peripheral wall portion 112 that hangs down from the periphery of the top plate portion 111.

The cylindrical peripheral wall portion 112 has an inner diameter corresponding to the outer diameter of the cylindrical peripheral wall portion 102 of the container body 10, and an internal thread is formed on the inner peripheral surface thereof. The female screw of the cylindrical peripheral wall portion 112 is provided so as to be able to be screwed with a male screw formed on the outer peripheral surface of the cylindrical peripheral wall portion 102 of the container body 10, and the male screw of the cylindrical peripheral wall portion 102 of the container main body 10. By screwing the screw, the cap 11 is attached to the container body 10 and the opening 10a is closed.
In the present embodiment, the attachment structure of the container body 10 and the cap 11 is provided with a male screw on the container main body 10 side and a female screw on the cap 11 side. A female screw may be provided, and a male screw may be provided on the cap 11 side.

A substantially columnar space surrounded by the top plate portion 111 and the cylindrical peripheral wall portion 112 constitutes a loading portion 113 for loading the sealing bag 3 filled with hydrogen gas.

When the hydrogen gas is dissolved in the contents using the container 1 described above, the pointed protrusion 2 for breaking the sealing bag 3 filled with hydrogen gas is formed inside the top plate portion 111 of the cap 11. It is attached.
The pointed protrusion 2 has a substantially conical shape, and a pointed protrusion 2a is formed at the center. Further, when the pointed protrusion 2 is used, the bottom surface of the substantially conical shape is attached to the top plate portion 111, and the pointed protrusion 2a is directed to the loading portion 113 side.

Further, the hydrogen gas to be dissolved in the contents is filled in the sealing bag 3, and the sealing bag filled with the hydrogen gas is loaded into the loading portion 113 of the cap 11 at the time of use.
The sealing bag 3 is made of a hydrogen non-permeable film that is difficult for hydrogen gas to permeate or does not allow hydrogen gas to permeate. Such hydrogen non-permeable films include, for example, a film made of a material such as aluminum foil which is difficult to permeate or does not permeate hydrogen gas, silicone rubber, SBR (styrene-butadiene rubber), EPDM (ethylene-ethylene-). Propylene rubber), PE (polyethylene), PET (polyethylene terephthalate), LDPE (low density polyethylene), PP (polypropylene), various synthetic resin films such as nylon, aluminum vapor deposition film, aluminum oxide vapor deposition film or silica A laminated film in which a deposited film or the like is laminated is used.
The sealing bag 3 is, for example, a bag formed by laminating both ends of a cylindrical film having both ends open, and is filled with hydrogen gas in advance before being laminated and sealed. Then, the sealed bag 1 sealed with hydrogen gas is produced.

Further, the size of the sealing bag 3 is made in accordance with the size of the loading unit 113, and when the sealed bag 3 is loaded into the loading unit 113, the sealed bag 3 is just fitted and is not easily removed. Since the cap 11 is attached to the container body 10, the inner diameter of the cylindrical peripheral wall portion 112 of the cap 11 is larger than the inner diameter of the cylindrical peripheral wall portion 102 of the container main body 10 when the cap 11 is attached to the container main body 10. Since the size is larger, the sealing bag 1 is caught by the cylindrical peripheral wall portion 102 (the edge of the opening 10 a) of the container body 10 and does not fall into the housing portion 101.

A process of allowing hydrogen gas to permeate through the contents accommodated in the accommodating portion 101 of the container 1 using the container 1, the pointed protrusions 2, and the sealing bag 3 described above will be described.
First, the pointed protrusion 2 is attached to the inside of the top plate portion 111 of the cap 11. At this time, the pointed protrusion 2a of the pointed protrusion 2 is attached so as to face the loading portion 113 side.

Next, the sealed bag 3 filled with hydrogen gas is loaded into the loading unit 113. At this time, the sealing bag 3 is not pushed too hard so as not to be broken by the pointed protrusions 2a.

Then, the female screw formed on the cap 11 and the male screw formed on the container main body 10 are screwed together to attach the cap 11 to the container main body 10.
At this time, the sealed bag 3 loaded in the loading unit 113 is caught by the container body 10 at the edge of the cylindrical peripheral wall 102 and pushed into the loading unit 113 without falling into the storage unit 101.

When the sealing bag 3 is pushed into the loading portion 113, the sealing bag 3 is pressed against the pointed protrusion 2 a of the pointed protrusion 2, and is eventually broken by the pointed protrusion 2 a. When the sealing bag 3 is broken in this way, hydrogen gas starts to leak from the inside.
When the cap 11 is completely attached to the container body 10 as it is, the hydrogen gas is filled into the container 1 without leaking from the container 1, and thereby the hydrogen gas is dissolved in the contents in the container 101. To do.
In order to quickly dissolve the hydrogen gas leaked from the broken sealing bag 3 and filled in the container 1 into the contents in the accommodating portion 101, the container with the cap 11 attached to the container body 10 is used. 1 may be shaken.

As described above, hydrogen gas is held by the sealing bag 3 without escaping until it is used, and when used, the sealing bag 3 can be easily broken just by tightening the cap, The hydrogen gas can be dissolved in the contents.

In the above-described embodiment, the pointed protrusion 2 may be attached to the cap 11 in advance.

Further, in the above embodiment, when the sealing bag 3 is broken, the pointed protrusions 2 are attached to the inside of the top plate portion 111 of the cap 11, but as shown in FIG. It is good also as what attaches the pointed protrusion 4 to the opening part 10a.

The pointed protrusion 4 has a substantially conical shape similar to the pointed protrusion 2, and has a pointed protrusion 4a at the center, but has a vent hole 4a as shown in FIG. .
The vent hole 4 a is a hole provided for passing hydrogen gas leaking from the sealing bag 3.
In use, the pointed protrusion 4 is mounted by mounting a substantially conical bottom portion, and the pointed protrusion 4a is directed to the loading portion 113 side.

A process of allowing hydrogen gas to permeate through the contents accommodated in the accommodating portion 101 of the container 1 using the pointed protrusion 4 and the container 1 and the sealing bag 3 will be described.
First, the sealing bag 3 in which hydrogen gas is hermetically filled is loaded into the loading unit 113.

Next, the pointed protrusion 4 is mounted on the edge of the cylindrical peripheral wall 102 on the opening 10a side. At this time, the pointed protrusion 4a of the pointed protrusion 4 is placed so as to face the loading portion 113 side.
Then, the female screw formed on the cap 11 and the male screw formed on the container main body 10 are screwed together to attach the cap 11 to the container main body 10.

Thereby, the sealing bag 3 is pinched | interposed into the top-plate part 111 and the pointed protrusion 2, and is cracked by the pointed protrusion 4a before long. When the sealing bag 3 is broken in this way, hydrogen gas starts to leak from the inside.
The hydrogen gas leaked from the sealing bag 3 flows from the loading part 113 into the accommodating part 101 through the vent hole 4b.

If the cap 11 is completely attached to the container main body 10 as it is, the hydrogen gas is filled into the container 1 without leaking from the container 1, and thereby the hydrogen gas is dissolved in the contents in the container 101. .
As described above, in order to quickly dissolve the hydrogen gas leaked from the broken sealing bag 3 into the contents in the accommodating portion 101, the container 1 is placed with the cap 11 attached to the container body 10. You can shake it.

Further, in the above embodiment, the sealing bag 3 is broken by the pointed protrusions 2 and 4, and hydrogen gas leaking from the sealing bag 3 is transferred from the loading unit 113 loaded with the sealing bag 3 into the housing unit 101. For effective passage, a groove for allowing hydrogen gas to pass therethrough may be provided in the container body 10, and the structure thereof is shown in FIG.

As shown in FIG. 4, the container main body 5 includes an accommodating portion 501 and a cylindrical peripheral wall portion 502 as in the case of the container main body 10, and has an opening 50a. On the other hand, a groove 511 is formed on the inner side of the cylindrical peripheral wall portion 502 from the opening 50a into the housing portion 501.

By this groove 511, when the sealing bag 3 in the loading portion 113 is broken by the pointed protrusions 2, 4, a hydrogen gas ventilation path is secured.
In particular, when the pointed protrusion 2 is attached to the top plate portion 111 and the sealing bag 3 is broken, the hole through which hydrogen gas leaks is formed in the upper portion, so that the sealing bag 3 itself enters the hydrogen gas accommodating portion 101. Inflow is easy to be hindered. On the other hand, by forming the groove 511 leading to the housing portion 101 in the cylindrical peripheral wall portion 502, a passage of hydrogen gas can be made, and this facilitates the flow of hydrogen gas into the housing portion 101. Yes.

In the above embodiment, the case where the container 1 is a bottle-shaped container has been described. However, the cap 11 and the opening 10a (cylindrical peripheral wall 102) of the container body 10 are configured as described above. If so, the accommodating portion 101 may be a pouch using a film or the like.

Further, when the cap 11 is attached to the container main body 10, the sealing bag 3 is sealed by screwing or compressing the sealing bag 3 hermetically filled with hydrogen gas, and the hydrogen gas filled therein is stored in the container 101. Other embodiments can be taken as long as they can be leaked into. For example, when the container 1 is not provided with the pointed protrusions 2 and the sealing bag 3 having the size of the loading unit 113 is loaded into the loading unit 113 and the cap 11 is attached to the opening 10a, the sealing bag 3 is the top. You may make it crack the sealing bag 3 by inserting | pinching between the board part 111 and the edge of the opening part 10a, and pressing the sealing bag 3. FIG. In another example, the sealing bag 3 may be partially attached to the cylindrical peripheral wall portion 113 of the loading unit 113 so that the sealing bag 3 is threaded according to the operation of twisting the cap 11. .

Further, in the above embodiment, in order to easily break the sealing bag 3 that is hermetically filled with hydrogen gas, the pointed protrusions 2 and 4 are used to dissolve the hydrogen gas in the contents. On the other hand, for example, the material of the sealing bag is made of a material that is difficult to permeate hydrogen gas or does not permeate hydrogen gas and can be easily broken by human power, and contains the contents. By using a pouch made of a flexible film such as a synthetic resin for the container, it is also conceivable to put a sealing bag together with the contents in the pouch and press the sealing bag from the outside of the pouch to break. Thus, the sealed bag can be easily broken and the hydrogen gas filled in the sealed bag can be dissolved in the contents.

Then, the cap for hydrogen filling using the hydrogen gas containing sealing bag which concerns on embodiment of this invention is demonstrated.
As FIG. 5 shows, the cap 6 which concerns on embodiment of this invention is comprised as a lid | cover which closes the opening part of the container main body 10 which accommodates liquids, such as a drink mentioned above.

The cap 6 has a substantially cylindrical shape with one end opened, and has a top plate portion 61, a cylindrical peripheral wall portion 62, and a pointed protrusion formed in a circular shape corresponding to the opening 10a of the container body 10. 63.

The top plate portion 61 includes a circular flat plate portion 611 and an insertion portion 612 that protrudes from the flat plate portion 6111 and can be inserted into the loading portion 621 a of the cylindrical peripheral wall portion 62.

The cylindrical peripheral wall portion 62 has a substantially cylindrical shape whose inner diameter corresponds to the outer diameter of the cylindrical peripheral wall portion 102 of the container body 10, and the substantially cylindrical space surrounded by the cylindrical peripheral wall portion 62 is hydrogen gas. Constitutes a loading portion 62a for loading the sealed bag 3 filled with

Further, in the vicinity of the opening, a screwing portion 621 having an internal thread formed on the inner peripheral surface is provided.
The female screw of the screwing portion 621 is provided so as to be screwable with a male screw formed on the outer peripheral surface of the cylindrical peripheral wall portion 102 of the container main body 10. The cap 6 is attached to the container body 10 and the opening 10a is closed.
In the present embodiment, the attachment structure of the container main body 10 and the cap 6 may be provided with a female screw on the container main body 10 side and a male screw on the cap 6 side.

Further, a circular pointed protrusion 63 is provided in the loading portion 62 a of the cylindrical peripheral wall portion 62.
The pointed protrusion 63 is formed with a vent 63 at the center for guiding hydrogen gas leaked from the sealing bag 3 into the container body 10. Further, a pointed protrusion 63b whose tip is directed into the loading portion 62a is provided around the vent hole 63a. The pointed protrusion 63b may break the sealing bag 3 filled with hydrogen gas. it can.
The number of the pointed protrusions 63b is not particularly limited. However, if the plurality of pointed protrusions 63a are provided in line symmetry or point symmetry with the vent hole 63a as the center, the top plate portion 61 is formed into a cylindrical peripheral wall. By inserting it into the part 62, when the pointed protrusion 63a is pressed against the sealing bag 3 loaded in the loading part 62a, it can be easily cracked regardless of the biasing or adjusting of the pressing force.

Such a top plate portion 61 and the cylindrical peripheral wall portion 62 can be integrated without a gap by inserting the insertion portion 612 into the cylindrical peripheral wall portion 62.

A process of allowing hydrogen gas to permeate through the contents accommodated in the accommodating portion 101 of the container 1 using the cap 6 described above will be described.
First, the sealing bag 3 in which hydrogen gas is hermetically filled is loaded into the loading portion 62a. At this time, the sealing bag 3 is not pushed too hard so as not to be broken by the pointed protrusions 2a.

Then, the female screw formed in the screwing portion 621 of the cap 6 and the male screw formed in the container main body 10 are screwed together, and the cylindrical peripheral wall portion 62 of the cap 6 is attached to the container main body 10. .

Subsequently, by inserting the insertion portion 612 into the cylindrical peripheral wall portion 62, the top plate portion 61 and the cylindrical peripheral wall portion 62 are integrated with no gap.
When the insertion part 612 is inserted into the loading part 62a, the sealing bag 3 is pressed against the pointed protrusion 63b of the pointed protrusion 63, and is eventually broken by the pointed protrusion 63b. When the sealing bag 3 is broken in this way, hydrogen gas starts to leak from the inside.
The hydrogen gas leaked from the sealing bag 3 flows from the loading portion 62a into the accommodating portion 101 through the vent hole 63a.

As described above, as in the above-described embodiment, the hydrogen gas is retained by the sealing bag 3 without escaping until use, and the sealing bag 3 is easily broken by simply tightening the cap 6 during use. Thus, the container 1 can be filled with hydrogen gas, and the hydrogen gas can be dissolved in the contents.

In the present embodiment described above, the insertion portion 612 of the top plate portion 61 may be provided with a pointed protrusion 63b whose tip is directed toward the loading portion 62a. Also in this case, by inserting the insertion portion 612 into the loading portion 62a, the pointed protrusion 63b is pressed against the sealing bag 3 to break the sealing bag 3, and hydrogen gas is accommodated in the container 1 through the vent hole 63a. It can be introduced into the part 101.

In addition, the present invention loads a sealed bag filled with hydrogen gas in the cap, and breaks the sealed bag with the cap attached to the bottle to obtain liquid or the like in the bottle. What realizes such a configuration characterized by dissolving hydrogen gas is included in the idea of the present invention. For example, the pointed protrusion is provided on the side surface in the cap or the like, What breaks a sealing bag by means other than a protrusion is also included in the idea of the present invention.

The container 1 described above is not only a liquid such as a beverage, but also a food such as a retort food, a confectionery such as a potato chip, a seasoning such as a soy sauce, a pharmaceutical such as an infusion or an eye drop, and a beauty product such as a lotion. Can be used as a bag or a container for enclosing them. By applying the present invention in such a situation, the freshness of foods and the like can be maintained, and the quality of medicines and beauty products can be prevented, and the utility of medicines and beauty products can be enhanced.

DESCRIPTION OF SYMBOLS 1 Container 10 Container main body 10a Opening part 101 Accommodating part 102 Cylindrical peripheral wall part 11 Cap 111 Top plate part 112 Cylindrical peripheral wall part 113 Loading part 2 Pointed protrusion 2a Pointed protrusion 3 Sealing bag 4 Pointed protrusion 4a Pointed shape Protrusion 4b Ventilation hole 50 Container body 50a Opening portion 501 Housing portion 502 Cylindrical peripheral wall portion 511 Strip groove 6 Cap 61 Top plate portion 611 Flat plate portion 612 Inserting portion 62 Cylindrical peripheral wall portion 62a Loading portion 621 Screwing portion 63 Pointed protrusion Body 63a Vent 63b Pointed projection

Claims (9)

1. A cap for dissolving the hydrogen gas in the contents in the container with a sealed bag filled with hydrogen gas inside the container that covers the contents,
   The top plate,
   A first cylindrical peripheral wall portion hanging from the periphery of the top plate portion;
   A substantially cylindrical loading portion that is surrounded by the top plate portion and the first cylindrical peripheral wall portion and that is open at one end side and into which the sealing bag can be loaded;
   A pointed protrusion for breaking the sealing bag,
   The pointed protrusion is provided in the loading unit,
   By closing the opening of the container body in the state where the sealing bag is loaded in the loading section, the sealing bag is broken by the pointed protrusion, and the container body is filled with the hydrogen gas and Hydrogen gas dissolves in the above contents,
   A hydrogen filling cap using a sealed bag containing hydrogen gas.
2. The pointed protrusion is provided near one end opening of the loading portion,
   The pointed protrusion is provided with a vent for allowing hydrogen gas to pass through the container.
   The hydrogen filling cap according to claim 1.
3. The top plate part and the first cylindrical peripheral wall part are constituted by separate members,
   The top plate portion is provided with an insertion portion to be inserted into the loading portion surrounded by the first cylindrical peripheral wall portion,
   With the sealing bag loaded in the loading section, the first cylindrical peripheral wall is attached to the opening of the container body, and the insertion portion of the top plate is inserted into the first cylindrical peripheral wall. By inserting into the loading portion, the sealing bag pressed against the pointed protrusion by the insertion portion is broken, and the hydrogen gas is filled into the container body so that the hydrogen gas is contained in the contents. Dissolve,
   The hydrogen filling cap according to claim 1 or 2.
4. The sealing bag is made of a hydrogen non-permeable material that does not allow the hydrogen gas to permeate.
   A hydrogen filling container using the hydrogen gas-containing sealed bag according to any one of claims 1 to 3.
5. A container for dissolving hydrogen gas in the contents of the container by a sealed bag filled with hydrogen gas inside,
   A container body for storing contents,
   A substantially cylindrical cap that covers the container body;
   A pointed protrusion having a pointed protrusion for breaking the sealing bag,
   The container body is
   An opening closed by a cap;
   A storage section for storing contents,
   The cap is
   The top plate,
   A first cylindrical peripheral wall portion hanging from the periphery of the top plate portion;
   The top plate portion and the first cylindrical peripheral wall portion are surrounded by a loading portion that can be loaded with the sealing bag,
   The pointed protrusion is attached to the inside of the top plate with the pointed protrusion facing the container body, and the opening of the container body is opened with the sealing bag loaded in the loading unit. By closing with the cap, the sealing bag is broken by the pointed protrusion, the hydrogen gas is filled in the container body, and the hydrogen gas is dissolved in the contents.
   A hydrogen filling container using a sealed bag containing hydrogen gas.
6. The pointed protrusion is provided with a vent for passing hydrogen gas,
   The pointed protrusion is attached to the opening of the container body with the pointed protrusion facing the cap, and the opening of the container body is placed in the state where the sealing bag is loaded in the loading unit. By closing with a cap, the sealing bag is broken by the pointed projections, and the hydrogen gas guided to the housing part through the vent hole is dissolved in the contents.
   A hydrogen filling container using the sealed bag containing hydrogen gas according to claim 5.
7. The pointed protrusion is integrally attached to the cap inside the top plate portion of the cap.
   A hydrogen filling container using the sealed bag containing hydrogen gas according to claim 5.
8. The opening of the container body is formed on one end side of a second cylindrical peripheral wall portion that is open at both ends,
   On the inner side of the second cylindrical peripheral wall portion, a groove is provided from the opening toward the housing portion.
   A hydrogen filling container using the hydrogen gas-containing sealed bag according to claim 5.
9. The sealing bag is made of a hydrogen non-permeable material that does not allow the hydrogen gas to permeate.
   A hydrogen filling container using the hydrogen gas-containing sealed bag according to claim 5.

Images