JP6389949B1 - Method and apparatus for forming functional jelly storage container or aluminum pouch filled with functional jelly and hydrogen gas, and apparatus for forming functional jelly storage container - Google Patents

Abstract

The hydrogen concentration of a predetermined hydrogen water can be easily secured, and the hydrogen gas or a functional jelly containing hydrogen gas is prevented from being ejected when a user removes the lid. Hydrogen gas is injected from the outside in a volume reduction volume form, and has a hydrogen gas space at the top inside the aluminum functional jelly storage container, and is a volume recovery form that is restored to the original volume in a sealed state, In the volume recovery mode, it is possible to shake.
[Selection] Figure 1

Description

  The present invention relates to a method and apparatus for forming a functional jelly storage container or aluminum pouch filled with functional jelly and hydrogen gas, and an apparatus for forming a functional jelly storage container.

  Functional jelly foods are sold for the purpose of preventing, treating, and curing various diseases such as adult diseases, lifestyle-related diseases, viral diseases, immune diseases, allergic diseases, and infectious diseases, or for the purpose of enjoying food and enriching life. In addition, cosmetic manufacturers sell functional jelly cosmetics for the purpose of enhancing the effects of removing wrinkles and spots accompanying aging and keeping the skin moist.

  Patent Document 1 describes a functional jelly that holds fine bubbles of hydrogen gas.

  In Patent Document 2, a reduced powder fine powder is kept in a sealed state in a viscous cream to produce a hydrogen cream, while partially oxidized magnesium in the reduced powder comes into contact with water vapor from the outside air or moisture on the cream application surface. A process for the production of hydrogen cream containing reduced powder fines, sometimes adapted to generate hydrogen, is described.

  In Patent Document 3, a gelling agent is added to an aqueous solution and cooled while stirring to increase the clay of the aqueous solution, and hydrogen gas is supplied to the aqueous solution when the viscosity increases until just before the gelation. A method for producing a gel food retaining gas bubbles is described.

Japanese Patent No. 4450863 JP-A-2015-199672 JP 2017-121232 A

  According to the patent literature, a functional jelly that holds fine bubbles of hydrogen gas is known. Also described is a method for retaining fine bubbles of hydrogen gas in a functional jelly.

  When the fine bubbles of hydrogen gas are retained in the functional jelly by the method described in the patent literature, the functional jelly product having a high hydrogen concentration is brought into contact with the functional jelly of the hydrogen gas in the presence of air. Cannot be obtained.

  When hydrogen gas is supplied from a hydrogen cylinder to a container containing a functional jelly to generate a functional jelly containing hydrogen gas, it is required to provide an air space in the upper part of the container. If there is no air space, it is difficult to feed or it is required to push in hydrogen gas at a pressure several times the atmospheric pressure, and the user removed the lid for its use Occasionally, hydrogen gas or a functional jelly containing hydrogen gas is ejected.

  As described above, providing the air space portion at the top of the container means that hydrogen gas is supplied in a state where air is present in the air space portion, and the hydrogen gas and air are mixed, There is a problem that it becomes difficult to secure the hydrogen concentration in the functional jelly because the volume ratio of the hydrogen gas in the air space is reduced.

  In order to secure the hydrogen concentration, when hydrogen gas is injected at a hydrogen pressure several times higher than the atmospheric pressure, the hydrogen concentration is ensured, but when the lid is removed, the functionality contains high-pressure hydrogen gas or hydrogen gas. There is a risk that the jelly will erupt outside and contaminate the user's clothes.

  In view of this point, the present invention stores hydrogen gas in a functional jelly storage container in a state substantially close to zero even when the gauge pressure is slightly higher than no pressure. By forming a hydrogen gas space portion occupied by hydrogen gas, the hydrogen concentration of a predetermined hydrogen water can be easily secured, and the functional jelly containing hydrogen gas or hydrogen gas when the user removes the lid It is an object of the present invention to prevent jetting of water.

The present invention is a functional jelly storage container that can be easily carried by a human hand and provided with a lid, and is filled with hydrogen gas and functional jelly, In the method of forming a functional jelly storage container filled with hydrogen gas,
Contains functional jelly or drinking water inside, has an air space at the top, or is filled with functional jelly or drinking water without an air space inside,
When having an air space part at the top inside the functional jelly storage container, the air in the air space part is discharged to the outside, or the inside of the functional jelly storage container is filled with functional jelly or drinking water. When the functional jelly or part of the drinking water is discharged to the outside, it forms a volume reduction volume form in which the volume is reduced from the original volume in a sealed state,
Hydrogen gas is injected in the volume reduction volume form, and a hydrogen gas space is formed in the upper part inside the functional jelly storage container to form a volume recovery form that is recovered to the original volume in a sealed state,
When inside functional jelly is accommodated or filled, the two forms of functional jelly inside functional jelly container is formed below the storage or filling, the functionality of jelly hydrogen gas held When the drinking water is stored or filled inside, the two forms are formed under the storage or filling of the functional jelly storage container , the gelling agent is added, and the gel is added. Retains the functional jelly possessing hydrogen gas formed by the addition of an agent,
Provided is a method for forming a functional jelly storage container filled with functional jelly and hydrogen gas inside, wherein the functional jelly possessing hydrogen gas can be shaken when held. .

The present invention provides a method for forming a functional jelly storage container filled with functional jelly and hydrogen gas in the above-described method, and shakes the functional jelly storage container filled with functional jelly and hydrogen gas. And a method for forming a functional jelly storage container filled with functional jelly and hydrogen gas, wherein hydrogen gas is held in the functional jelly.

According to the present invention , in the method for forming a functional jelly storage container in which the inside is filled with functional jelly and hydrogen gas, the operating force acting on the functional jelly storage container body is a function of the functional jelly storage container body. Provided is a method for forming a functional jelly storage container in which functional jelly and hydrogen gas are filled inside, which is provided by a pressing means that is pressed from the outside.

According to the present invention , in the method for forming a functional jelly storage container in which the inside is filled with functional jelly and hydrogen gas, a part of the drinking water in the functional jelly storage container is provided on the lid. A functional jelly and hydrogen gas are formed inside, wherein a volume reduction form in which the volume is reduced in a sealed state is formed by suction through a needle for hydrogen gas injection that penetrates the packing A method for forming a functional jelly container filled with the above is provided .

The present invention is a functional jelly formed by the above-described method for forming a functional jelly storage container filled with functional jelly and hydrogen gas, and filled with functional jelly and hydrogen gas. In a functional jelly storage container filled with hydrogen gas,
The functional jelly storage container is covered with the functional jelly storage container main body and the opening of the functional jelly storage container main body. The lid is formed with a thread groove on the inner surface and fitted with an elastic packing inside. With
The functional jelly storage container main body contains functional jelly or drinking water inside, has an air space part at the top, or is filled with functional jelly or drinking water without an air space part inside. ,
When having an air space part at the top inside the functional jelly storage container, the air in the air space part is discharged to the outside, or the inside of the functional jelly storage container is filled with functional jelly or drinking water. When the functional jelly or part of the drinking water is discharged to the outside, the volume reduction volume form that is reduced from the original volume to the volume reduction volume in a sealed state,
A volume recovery form in which hydrogen gas is injected from the outside in the volume reduction volume form and has a hydrogen gas space at the upper part inside the functional jelly storage container, and is restored to the original volume in a sealed state,
The two forms of
When inside functional jelly is accommodated or filled, the two forms of functional jelly container interior functionality jelly is formed under the storage or filling, retaining the functionality of jelly hydrogen gas held However, when drinking water is stored or filled inside, the above two forms are formed under the storage or filling of functional jelly storage container, and a gelling agent is added to form a gel. Retains the functional jelly with hydrogen gas formed by the addition of the agent,
A functional jelly and hydrogen gas filled with functional jelly and hydrogen gas are filled inside, which is characterized in that it can be shaken when holding the functional jelly possessing hydrogen gas. Provide a functional jelly storage container.

In the present invention , an aluminum pouch is used, and by storing a functional jelly containing hydrogen gas in the aluminum pouch, a functional jelly and hydrogen gas filled with functional jelly and hydrogen gas are contained therein. In the method of forming the filled aluminum pouch,
A commercially available aluminum pouch comprising a lid with a thread groove that engages with a thread groove formed in an aluminum pouch main body and an aluminum pouch insertion port portion that becomes the mouth portion of the aluminum pouch, and an inner surface of the lid. An elastic packing housed in the lid and having elasticity; a hydrogen gas cylinder containing hydrogen gas injected into the aluminum pouch; an injection needle capable of penetrating the lid; the injection needle and the hydrogen cylinder And a hydrogen gas injector having a connecting pipe for connecting
An air space is formed at the top inside the aluminum pouch,
The aluminum pouch body is pressed inward by the pressing means, the air in the air space is discharged to the outside of the aluminum pouch, and the volume reduction volume form is reduced from the original volume to the volume reduction volume in a sealed state,
The mouth of the aluminum pouch is covered with the lid provided with an elastic packing,
The injection needle penetrates the lid and is inserted into the aluminum pouch;
It is injected into the inside of the pouch that was cut in the positive 6,
Hydrogen gas is injected from the outside in the volume reduction volume form, a hydrogen gas space is formed in the upper part of the aluminum pouch, and the volume recovery form is restored to the original volume in a sealed state,
The injection needle is removed from the lid, and the elastic packing closes the through-hole through which the injection needle has passed,
Provided is a method for forming an aluminum pouch filled with a functional jelly and hydrogen gas filled with a functional jelly and hydrogen gas, characterized in that it can be shaken.

The present invention is an aluminum pouch in which a functional jelly and hydrogen gas are filled in the interior formed by the above-described method of forming an aluminum pouch.
The aluminum pouch main body and the lid of the aluminum pouch main body are provided with a lid that is covered with a screw groove formed on the inner surface and fitted with an elastic packing.
The aluminum pouch body is
When having an air space portion in the upper part of the inside of the aluminum pouch, the air in the air space portion is discharged to the outside, and the volume reduction volume form in which the volume is reduced from the original volume in a sealed state,
Hydrogen gas is injected from the outside in the volume reduction volume form, has a hydrogen gas space part in the upper part inside the aluminum pouch, and exhibits two forms of a volume recovery form restored to the original volume in a sealed state, Provided is an aluminum pouch filled with functional jelly and hydrogen gas inside, characterized in that it can be shaken when covered with a volume recovery form.

The present invention provides a functional jelly storage container forming apparatus in which a functional jelly containing hydrogen gas is stored in the functional jelly storage container main body so that the functional jelly and hydrogen gas are filled therein.
A commercially available functional jelly storage container comprising a functional jelly storage container main body and a lid provided with a screw groove that engages with a screw groove formed in an insertion port part serving as a mouth part of the functional jelly storage container main body, An elastic packing having elasticity which is engaged with the inner surface of the lid and is housed in the lid, a hydrogen gas cylinder which contains hydrogen gas injected into the functional jelly container, and the lid is penetrated. A hydrogen gas injector provided with a possible injection needle and a connecting pipe connecting the injection needle and the hydrogen cylinder,
An air space portion forming means for forming an air space portion in the upper part of the functional jelly storage container,
A pressing means for pressing the outer surface of the functional jelly storage container body inward, discharging the air in the internal air space to the outside of the functional jelly storage container, and reducing the volume in a sealed state;
Covering means for covering the lid of the functional jelly storage container main body with the lid attached with the elastic packing,
The injection needle is inserted into the functional jelly storage container through the lid, and the injection needle insertion / removal means for removing the injection needle,
Hydrogen gas from a hydrogen gas cylinder is injected through a hydrogen gas injector into a sealed and volume-reduced functional jelly storage container, and a hydrogen gas space is formed in the upper part of the functional jelly storage container to seal it. Volume recovery form means for forming a volume recovery form recovered to the original volume in a state;
Functional jelly / hydrogen gas filling means for filling functional jelly and hydrogen gas inside,
A functional jelly storage container filled with the functional jelly and hydrogen gas. The functional jelly storage container is provided with a shaking means for shaking the functional jelly storage container filled with the functional jelly and hydrogen gas. A forming apparatus is provided .

Here, there are two types of pressure, “absolute pressure” and “gauge pressure”. The gauge pressure is a relative pressure where the atmospheric pressure is zero with respect to the absolute pressure where the vacuum is zero. The relationship between the two
Absolute pressure = gauge pressure + atmospheric pressure. In this embodiment, gauge pressure is adopted.

  In this embodiment, functional jelly is targeted. The functional jelly refers to a jelly that displays functionality indicating that a specific health / health purpose can be expected based on a scientific basis at the responsibility of the operator handling the jelly. The functional jelly typically includes functional jelly foods and functional jelly cosmetics. Functional labeling foods are intended for all foods including fresh foods and supplements. At the responsibility of the operator, label the functionality after clearly indicating "functional labeling foods" in the place where the product package is visible. Is required. Therefore, the functional jelly food is a jelly food having a physiologically active function including a physical condition adjusting function, which is composed of a functional jelly among functional display foods. As a gelling agent for forming food jelly, agar or konjac is used in addition to gelatin. Many functionally labeled foods contain various nutrients and functional ingredients.

  Functional cosmetics include anti-aging whitening and anti-aging functional cosmetics. Appealing functions include whitening, anti-aging, sensitive skin, acne support, and target categories are skin care, base makeup, and body care. Functional jelly cosmetics are intended for jelly-like cosmetics in these functional cosmetics.

According to the present invention, hydrogen gas is injected from the outside in a volume reduction volume form, and has a hydrogen gas space at the top inside the functional jelly storage container made of aluminum, and is restored to the original volume in a sealed state. The volume recovery mode is set, and when the volume recovery mode is set, it can be shaken. In addition, according to the present invention, when the air space portion is provided in the upper part inside the aluminum pouch, the volume of the air space portion is discharged to the outside, and the volume is reduced from the original volume to the volume reduction volume in a sealed state. Form,
In this volume reduction volume form, hydrogen gas is injected from the outside, and there is a hydrogen gas space at the top inside the aluminum pouch, so that it exhibits two forms: a volume recovery form that is restored to the original volume in a sealed state Can be.

  In the functional jelly storage container, hydrogen gas is stored in a state that is substantially close to zero even when the gauge pressure is slightly higher than the non-pressure gauge. By forming the gas space, it is possible to easily secure the hydrogen concentration of the predetermined hydrogen water, and to prevent the hydrogen gas or the functional jelly containing hydrogen gas from being ejected when the user removes the lid. Can be.

The figure which shows the formation method of the functional jelly storage container which is an Example of this invention. The figure which shows the structure of the lid | cover used for formation of the drinking water storage container shown in FIG. The figure which shows the formation method of the functional jelly storage container which is the other Example of this invention. The figure which shows the formation method of the functional jelly storage container which is the other Example of this invention. The figure which shows the formation device of an aluminum pouch with a block taking a typical aluminum pouch as an example as a functional jelly storage container The figure which shows the hydrogen gas solubility test result of the functional jelly food in the aluminum pouch The figure which shows the hydrogen gas solubility test result of the functional jelly cosmetics in the aluminum pouch The figure which shows the hydrogen gas solubility test result of various functional jelly cosmetics

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a diagram showing a method for forming a functional jelly storage container according to an embodiment of the present invention. It is a figure which shows the formation method of the drinking water storage container made from aluminum with a big effect especially. A functional jelly storage container is a functional jelly storage container that can be easily carried by a human hand and is filled with functional jelly and hydrogen gas. It is a functional jelly drinking water storage container that makes it possible to make jelly edible or cosmetics.

  Hereinafter, a method for forming a functional jelly storage container will be described taking the most typical aluminum pouch as an example of a drinking water storage container. However, the present invention is not limited to an aluminum pouch. Functional jelly storage containers include aluminum pouches, aluminum bottles, and aluminum cans.

  The aluminum material does not leak hydrogen gas, and the aluminum pouch adopts the aluminum material as the outer bag body and can effectively hold the hydrogen gas stored inside. In some cases, an aluminum pouch is further provided with a hydrogen leakage prevention film. Aluminum pouches are commercially available and can be easily obtained.

  This is referred to as a method for forming a functional jelly storage container.

  In this embodiment, a commercially available aluminum pouch is used.

  In this embodiment, the aluminum pouch is usually used for storing drinks, but is not limited to drinks, and functional jelly can also be stored.

  From a commercially available aluminum pouch main body 1 and an aluminum pouch lid 2 provided with a screw groove that engages with a screw groove formed in an aluminum pouch insertion portion (in the case of an aluminum pouch, a drinking mouth portion) of the aluminum pouch. 1 and an elastic packing 31 that is engaged with the inner surface of the aluminum pouch lid shown in FIG. 2 and is housed inside the aluminum pouch lid, and FIGS. A hydrogen gas cylinder 32 containing hydrogen gas injected into the aluminum pouch, an injection needle 33 capable of penetrating the lid 2, the injection needle 33, and the hydrogen cylinder 32 are provided outside the aluminum pouch shown in iii). A hydrogen gas injector 30 having a connecting pipe 34 to be connected is prepared. Although not shown, the connection pipe 34 is appropriately provided with an operation valve.

  In FIG. 1 (i), an aluminum pouch 100 is shown. The aluminum pouch 100 includes an aluminum pouch main body 1 and a lid (cap) 2 attached to the aluminum pouch insertion port 4 of the aluminum pouch main body 1, and this configuration is well known.

  The aluminum pouch body 1 includes a bag-like body portion 3 and the above-described aluminum pouch insertion port portion 4. A screw groove 5 is formed on the outer surface of the aluminum pouch insertion port 4, and a plurality of protrusions 6 are formed below the screw groove 5. A screw groove 35 (see FIG. 2) to be screwed into the screw groove 5 is provided on the inner surface of the lid 2.

  The upper portion of the bag-like body portion 3 is narrowed, and the lower portion thereof has a rectangular shape. For example, the bag-like body portion 3 is folded in the front direction in the figure, and can be expanded outward when drinking water is stored. Moreover, the state reduced from the expanded state, that is, a reduced volume state can be formed.

  In FIG. 1 (i), the functional jelly 11 is fed from the aluminum pouch insertion port 4 into the aluminum pouch 1 having such a configuration. The aluminum pouch main body 1 expands in accordance with the amount of the functional jelly (functional jelly storage portion) 11 that is fed, and has a form as shown in the figure. The functional jelly 11 was not fed until the bag-like body portion 3 was full, and an air space portion 12 in which air was present was formed in the upper part of the aluminum pouch body 1. In this state, the pressure in the air space becomes zero at the gauge pressure.

  In FIG. 1 (ii), the outer surface of the aluminum pouch main body 1 was directed toward the inner surface by the pressing device 21 and pressed. The pressing device 21 can press the outer surface of the aluminum pouch main body 1 toward the inner surface, and the pressing is performed within the elastic deformation of the aluminum pouch main body 1, but the aluminum pouch has a large elastic range. , Easy to press. The pressing may be performed on the entire outer surface by installing a soft inclusion between the pressing device 21 and the aluminum pouch main body 1.

  In FIG. 1 (iii), the air in the air space portion is discharged from the aluminum pouch body 1 to the outside through the aluminum pouch insertion port 4 (FIG. 1 (ii)) by the pressing by the pressing device 21 described above. It was. Along with this, the space portion 12 disappears, and the aluminum pouch main body 1 changes from the shape shown by the dotted line to the shape shown by the solid line, and becomes a volume-reducing volume state. In this state, both the thread grooves described above for the lid 2 are used and mounted. In this state, the inside of the aluminum pouch body 1 is in a sealed state and has a volume reduction volume, and substantially no air serving as an air layer exists in the aluminum pouch.

  The inside of such an aluminum pouch body 1 has a reduced volume in a sealed state, and the state in which no air is substantially present in the aluminum pouch is not limited to the method of forming by eliminating the air space portion. In (i), the functional jelly is fed, poured and accommodated so that the inside of the aluminum pouch becomes full, and the functional jelly on the top is discharged to the outside of the aluminum pouch by the pressing operation in FIG. 1 (ii). There is a way to do it.

  In FIG. 1 (iv), the injection needle 33 of the hydrogen gas injector 30 is inserted into the lid 2 and a part thereof penetrates. Hydrogen gas is supplied from the hydrogen gas cylinder 32 to the inside of the aluminum pouch body 1, and a space is formed again in the upper part of the inside of the aluminum pouch body 1. Since this space portion is filled with hydrogen gas, it is referred to herein as a hydrogen gas space portion 12A. There is substantially no air in the hydrogen gas space 12A. The air space was converted to a hydrogen gas space.

  Before operation, the inside and outside of the bag-like body portion 3 of the aluminum pouch body 1 are the same, the absolute pressure is 0.1 MPa, and the gauge pressure is zero. In order to inflate the aluminum pouch, a pressure of 0.001 to 0.005 MPa is applied as a gauge pressure, and hydrogen gas is fed into the aluminum pouch. This amount of pressure is a slight pressure, and the inside and outside of the bag-like body portion 3 of the aluminum pouch main body 1 are the same and can be handled as an absolute pressure of 0.1 MPa. Therefore, the hydrogen gas space portion 12A can be handled as a substantially no-pressure state at the gauge pressure. The substantially no-pressure state refers to a state in which a slight pressure such as 1 to 5% is applied to 0.1 MPa as a gauge pressure, such as 0.001 to 0.005 MPa.

  By introducing hydrogen gas, the aluminum pouch is expanded and its volume reduction is restored. Furthermore, hydrogen gas may be introduced beyond the recovery of the volume reduction. Hydrogen gas is sufficiently filled in the aluminum pouch, and the aluminum pouch is allowed to expand by allowing such filling and deformation.

  The hole 38 (see FIG. 2) opened in the lid 2 after the injection needle 33 is pulled out is closed by the special packing 31.

  FIG. 1 (v) is a diagram showing a state in which the expanded volume and the reduced volume are formed in the same manner as FIG. 3 (v).

  Thus, a functional jelly in which hydrogen gas is dissolved is generated, and an aluminum pouch 100 for storing hydrogen water is formed, that is, an aluminum pouch filled with functional jelly and hydrogen gas is formed. FIG. By forming this state, it is possible to ship as shown in FIG. A functional jelly product holding hydrogen gas is formed, and even in this state, it can be shipped as a functional jelly product. In this case, the product is written with instructions indicating that it is possible to hold and stay hydrogen gas in the product for a long period of time by shaking the functional jelly product purchased by the user who is the purchaser. Attached to the label or explained in the product description.

  FIG. 1 (vi) is a diagram showing a state in which hydrogen gas is included in a functional jelly by shaking on the producer side before shipping.

  The hydrogen gas stored in the upper part of the aluminum pouch body 1 is vibrated, that is, shaken the aluminum pouch 100, the functional jelly is stirred and mixed with the hydrogen gas in the hydrogen gas space, and the hydrogen gas functions. Included in sex jelly.

  By shaking the aluminum pouch, once hydrogen gas is included in the functional jelly, the hydrogen gas can be held and retained in the functional jelly for a long period of time. By shaking the aluminum pouch, a functional jelly product that can hold and stay hydrogen gas in it for a long period of time can be made.

  FIG. 1 (vii) is a diagram showing that the functional jelly product made in FIG. 1 (v) or FIG. 1 (vi) can be shipped.

  The functional jelly product made in FIG. 1 (v) or FIG. 1 (vi) is shipped.

  In the case of the present embodiment, as shown in FIG. 1 (i), since the functional jelly is housed in the aluminum pouch body 1 from the beginning, it is not necessary to add a gelling agent. In this example, a hydrogen cylinder 32 is disposed outside and hydrogen gas is supplied. However, by providing a hydrogen generator in the functional jelly container itself, hydrogen can be supplied from within the functional jelly container. You may make it supply.

FIG. 2 is a diagram illustrating the function of the lid 2. In FIG. 2 (i), the lid 2 can be a commercially available lid mounted on the aluminum pouch body 1 and has a thread groove 35 inside. The minimum design inner diameter _{R 1} of the thread groove 35, the inner diameter of the cylindrical portion 36 of the tip is _{R 2.} The lid 2 is formed with a through hole 38 through which the needle 33 (FIG. 2 (iii)) to be penetrated penetrates. By providing the through hole 38, the injection needle 33 can be easily penetrated. A method in which a through hole is not provided in advance may be employed. The diameter of the through hole 38 is preferably slightly smaller than the diameter of the injection needle 33. Since the tip of the injection needle 33, which is smaller, has an acute angle, it is easily guided to the through hole 38.

Special packing 31 is prepared. The special packing 31 is formed of an elastic body, and is made of a non-meltable material that has a packing performance and is mounted inside the lid. The injection needle 33 is easily penetrated, and the through hole is closed after being pulled out. It has a special function to do. Rubber can be selected as a representative one. In special packing 31 is cylindrical, forms a thin tabular outer shape, the diameter R ₁ of the _above, than R ₂ forms a large diameter R _O slightly.

In FIG. 2 (ii), special packing 31 is mounted inside the lid, in relation to the diameter R _1, R ₂ and diameter R _O, special packing 31 is engaged mechanically fitted inside the lid. Before mounting the special packing 31 inside the lid, as described above, the aluminum pouch main body 1 is pressed, the air in the space inside the aluminum pouch main body is discharged, and the upper end surface of the functional jelly is an aluminum patch. It reaches the vicinity of the upper end of the aluminum patch insertion port 4 of the main body 1.

In FIG. 2 (iii), the lid 2 is attached to the aluminum patch insertion port 4 of the aluminum patch body 1. The aluminum patch insertion port 4 includes a cylindrical portion 37 at the tip, and the outer diameter of the cylindrical portion 37 is slightly smaller than the diameters R ₁ and R ₂ .

  With the lid 2 attached to the aluminum patch insertion port 4, that is, with the lid 2 attached to a certain mipatch body 1, the lower end surface of the special packing 31 is in contact with the upper surface of the functional jelly after the weight reduction. The patch 100 is sealed by eliminating the space at the upper end. The special packing 31 is pressed upward by the cylindrical portion 37 and is in close contact with the bottom surface of the lid 2. In this way, the special packing 31 is fitted and locked inside the lid and is in close contact with the bottom surface. In this example, the air space portion where the aluminum patch 100 is located at the upper end portion is shown and sealed, but the lower end surface of the special packing 31 is provided with a slight gap from the upper surface of the drinking water from the viewpoint of workability. There may be cases. In such a case, the space portion remains slightly, but the volume of the space portion is extremely small, and there is little air remaining in the air space portion.

  When such a form is formed, the injection needle 33 of the hydrogen gas injector 30 is installed so as to penetrate the through hole 38 and the special packing 31.

  When the injection needle 33 is installed, hydrogen gas is supplied and injected from the hydrogen gas cylinder 32 into the aluminum patch body 1 through the injection needle 33. In order to inflate the aluminum pouch, a pressure of 0.001 to 0.005 MPa is applied as a gauge pressure, and hydrogen gas is fed into the aluminum pouch.

  In FIG. 2 (iv), as shown in FIG. 1 (v), when the hydrogen gas space 12A is formed by the supply of hydrogen gas and the aluminum patch body 1 expands and recovers to its original state, the injection needle 33 Is pulled out from the special packing 31 and the through hole 38. Since the special packing 31 is fitted and mounted inside the lid and is in close contact with the bottom surface, the hole through which the injection needle 33 penetrates and the through hole 38 are immediately closed, and the hydrogen gas that is fed and stored Is prevented from leaking outside. The supply of hydrogen gas may be more than the recovery to the original state.

  In this way, with the operating force acting on the aluminum pouch body, part of the functional jelly stored inside or the air in the air space is discharged to the outside of the aluminum pouch, and the volume is reduced while the inside is sealed Then, hydrogen gas is injected from the hydrogen gas cylinder into the sealed and volume-reduced volume type aluminum pouch through a hydrogen gas injector and recovered until the volume-reduced volume form disappears or beyond, so that the inside of the aluminum pouch However, a method for forming an aluminum pouch that is filled with functional jelly and hydrogen gas is provided.

As a result, the aluminum pouch body
When having an air space portion in the upper part of the inside of the aluminum pouch, the air in the air space portion is discharged to the outside, and the volume reduction volume form in which the volume is reduced from the original volume in a sealed state,
Hydrogen gas is injected from the outside in the volume reduction volume form, has a hydrogen gas space part in the upper part inside the aluminum pouch, and exhibits two forms of a volume recovery form restored to the original volume in a sealed state, An aluminum pouch was formed in which functional jelly and hydrogen gas were filled in the inside which was able to be shaken when the lid was applied in the volume recovery mode.

  A hydrogen gas space is provided in the upper part to store hydrogen gas whose internal pressure is gauge pressure and which is substantially free of pressure. A hydrogen gas space was formed which was essentially free of pressure and was entirely or mainly composed of hydrogen gas.

  As described above, priority is given to the provision of a hydrogen gas space in the upper part for containing hydrogen gas whose internal pressure is a gauge pressure and which is substantially pressureless. By generating the internal pressure, the inside may be set to a gauge pressure or higher than the atmospheric pressure.

  FIG. 3 is a diagram illustrating another example of a method for forming a functional jelly storage container.

  This example is substantially the same as the example shown in FIG. 1, and the description shown in FIG. 1 is used for the same part. A portion different from the portion shown in FIG. 1 will be described.

  Instead of the pressing device 21 and the hydrogen injector 30, a hydrogen gas injector 30 </ b> A (hereinafter referred to as a functional jelly absorber / hydrogen gas injector 30 </ b> A) that is used after functional jelly suction / suction is provided. A switching valve 50 is provided, and the injection needle 33 is connected to the suction device 51 and the hydrogen gas cylinder 32 through the three-way switching valve 50, and the inside of the aluminum pouch body 1 is filled with functional jelly from the beginning. There is a difference in filling in the state of.

  In FIG. 3 (i), the lid 2 is attached, and the aluminum pouch body 1 is filled with the functional jelly in a full state. In this state, the special packing 31 (see FIG. 2 (i)) in FIG. 3 (iii) is already attached. There is no space at the top of the aluminum pouch body 21 as in the previous example.

  In FIG. 3 (ii), a functional jelly suction / hydrogen gas injector 30A is prepared, and the injection needle 33 of the functional jelly suction / hydrogen gas injector 30A is set through the through hole 38 in the same manner as in the previous example. The

  The three-way switching valve 50 can switch the connection pipes 34 </ b> A and 34 </ b> B connected to the suction device 51 and the hydrogen gas cylinder 32.

  In FIG. 3 (iii), the three-way switching valve 50 connects the suction device 51 to the injection needle 33 via the connecting pipe 34A and the connecting pipe 34. The suction device 51 sucks a part of the functional jelly in the aluminum pouch body. As a result, a form having a reduced volume as shown in FIG. 3 (iii) is formed.

  3 (iv), the three-way switching valve 50 connects the hydrogen gas cylinder 32 to the injection needle 33 via the connecting pipe 34B and the connecting pipe 34. The hydrogen gas cylinder 32 feeds and injects hydrogen gas into the aluminum pouch body. As a result, a hydrogen gas space 12A is formed in the aluminum pouch body, as shown in FIG. 1 (iv).

  For the formation of hydrogen water, as described above, priority is given to the provision of a hydrogen gas space in the upper part for containing hydrogen gas whose internal pressure is a gauge pressure and which is substantially free of pressure. By generating the accommodated hydrogen gas space portion, the space portion may be set at a gauge pressure or higher than the atmospheric pressure.

  3 (v), similarly to FIG. 1 (v), an aluminum drinking water storage container, for example, an aluminum pouch 100, in which the inside of the aluminum pouch body 1 is filled with functional jelly and hydrogen gas is formed. The

  The embodiment shown in FIG. 3 is effective when applied not only to an aluminum pouch but also to an aluminum bottle and further to an aluminum can. In particular, in the case of a container made of a material having a small elastic deformation area such as an aluminum can, the container can be deformed from the entire inner side by suction force, which is effective.

  In the case of the present embodiment, as shown in FIG. 1 (i), since the functional jelly is filled in the aluminum pouch body 1 from the beginning, it is not necessary to add a gelling agent.

  In this way, with the operating force acting on the aluminum pouch body, part of the drinking water stored inside or the air in the space is discharged outside the aluminum pouch, and the inside is sealed and reduced in volume, Hydrogen gas from the hydrogen gas cylinder is injected into the sealed and volume-reduced aluminum pouch through a hydrogen gas injector and recovered until the volume-reduced condition disappears or beyond, so that the interior of the aluminum pouch is reconstituted with drinking water. A method for forming a functional jelly container filled with hydrogen gas is provided.

  Aluminum drinking water storage container main body has a functional jelly storage container with a part of the functional jelly penetrating a hydrogen gas injection needle penetrating the elastic packing or an injection needle that is larger in diameter than the injection needle. It is possible to exhibit a volume reduction form that is a volume reduction volume in a sealed state by being discharged by suction through, and a volume reduction volume in a sealed state with hydrogen gas from the outside via the injection needle It is possible to exhibit an expanded form that has been injected and expanded as described above. In such a method for forming a functional jelly storage container, the volume reduction form is obtained within an elastic deformation region by repeatedly sucking a part of the functional jelly and injecting hydrogen gas from the outside to a volume reduction volume or more in a sealed state Forming a hydrogen gas space for storing hydrogen gas whose internal pressure is a gauge pressure and is substantially equal to or higher than the no-pressure pressure. it can.

  In the aluminum patch forming method shown in FIG. 1 which is the previous embodiment, an air space 12 in which air is present is formed in the upper part of the aluminum pouch body (FIG. 1 (i)). As shown in (i), the form shown in FIG. 1 (v) can be obtained even if the functional pouch is filled in the aluminum pouch body without forming an air space where air is present from the beginning. Can be formed.

  According to the present embodiment, with the operating force acting on the aluminum pouch body, the inside is sealed and the volume is reduced, and hydrogen gas is injected into the aluminum pouch from the volume-reduced volume form by this sealing, and the volume is reduced. Since the volume form is recovered until it disappears or more, the hydrogen gas space formed in the upper part of the aluminum pouch is a hydrogen gas space occupied by hydrogen gas.

  This facilitates securing the hydrogen concentration of hydrogen water in the aluminum pouch, and the formation of such a space prevents hydrogen gas from being ejected when the user removes the lid.

  According to the present embodiment, the space portion occupied by hydrogen gas can be formed by setting the gauge pressure in the space portion to be slightly higher than the non-pressure.

  According to the present embodiment, a space occupied by hydrogen gas can be formed so that the hydrogen water can be prevented from being ejected, and hydrogen water having a pressure of 1 atm or more can be generated at the gauge pressure. Thus, the amount of hydrogen dissolved in the hydrogen water can be increased, and hydrogen water with a high hydrogen concentration can be provided safely.

Under such circumstances, as described above, the present embodiment is
Inside the aluminum pouch, the hydrogen gas has a gauge pressure slightly higher than the non-pressure gauge and is stored in a state substantially close to zero, and the hydrogen gas space occupied by the hydrogen gas is formed. By forming it, the hydrogen concentration of predetermined hydrogen water can be easily secured.

  Furthermore, priority is given to forming a hydrogen gas space occupied by hydrogen gas, and then the hydrogen gas pressure is increased to atmospheric pressure or higher by a gauge pressure, for example, within a range of 1 to 10 atm. The hydrogen concentration can be easily secured, and by securing the space portion, hydrogen gas can be prevented from being ejected when the user removes the lid.

Functional jelly storage container body
Function when the air space part is provided at the upper part inside the functional jelly storage container, when the air in the air space part is discharged to the outside or when the functional jelly storage container is filled with the functional jelly. A reduced volume form that is reduced from the original volume in a sealed state by discharging a part of the sex jelly to the outside,
Two forms of volume recovery form, in which hydrogen gas is injected from the outside in the volume reduction volume form, having a hydrogen gas space in the upper part inside the functional jelly storage container, and restored to the original volume in a sealed state When the lid is applied in a volume recovery form, it can be shaken, that is, shaken by a human hand or by a vibration device. When the functional jelly is sufficiently stirred by shaking, a functional jelly in which excellent hydrogen gas is dissolved can be generated.

  FIG. 4 is a diagram showing another embodiment of the present invention.

  In the example, the functional jelly was previously stored in the aluminum pouch. In the embodiment shown in FIG. 4, the hydrogen-containing hydrogen water having a high concentration is generated in the aluminum pouch, and the gel agent is added to the hydrogen water and mixed to retain the hydrogen gas. Jelly is produced.

  The functional jelly 11 described in FIGS. 1 (i) to 1 (iv) is replaced with drinking water 11 '. In the steps shown in FIG. 1 (i) to FIG. 1 (iv), hydrogen-containing hydrogen water having a high concentration is generated in the aluminum pouch by the same method.

  After the form shown in FIG. 1 (iv), the gelling agent is added to the hydrogen water containing hydrogen at a high concentration from a gelling agent adding device 50 having a connecting means (not shown) connected to the inside of the aluminum pouch. .

  FIG. 1 (v) is a diagram illustrating a state in which a gelling agent is added and a functional jelly containing a high concentration of hydrogen gas is formed.

  Even in this way, a functional jelly product similar to that shown in FIG. 1 (v) can be produced. The generation of hydrogen water containing hydrogen at a high concentration in the aluminum pouch and the addition of the gelling agent can be performed simultaneously to form a functional jelly having a higher hydrogen concentration.

According to the previous example and this example,
Contains functional jelly or drinking water inside, has an air space at the top, or is filled with functional jelly or drinking water without an air space inside,
When having an air space part at the top inside the functional jelly storage container, the air in the air space part is discharged to the outside, or the inside of the functional jelly storage container is filled with functional jelly or drinking water. When the functional jelly or part of the drinking water is discharged to the outside, it forms a volume reduction volume form in which the volume is reduced from the original volume in a sealed state,
Hydrogen gas is injected from the outside in the volume reduction volume form, and has a hydrogen gas space in the upper part inside the functional jelly storage container to form a volume recovery form that is restored to the original volume in a sealed state,
When the functional jelly is stored or filled inside, the above two forms are formed inside the functional jelly storage container under the storage or filling, and the gelling agent is added to retain hydrogen gas. When the functional jelly is held and drinking water is stored or filled inside, the above two forms are formed under the storage or filling of the functional jelly storage container, and added gelation The functional jelly possessed by hydrogen gas is retained by the agent,
A method of forming a functional jelly storage container filled with functional jelly and hydrogen gas is formed, characterized in that it can be shaken when the functional jelly possessing hydrogen gas is held. The

  FIG. 5 is a block diagram showing an aluminum pouch forming apparatus taking a typical aluminum pouch as an example of a functional jelly storage container. It is a figure explaining the formation apparatus of an aluminum pouch taking a typical aluminum pouch as an example as a performance jelly storage container. Reference is made to the description shown in FIGS.

  In FIG. 5, an aluminum pouch is used. By storing a functional jelly containing hydrogen gas in the aluminum pouch, the functional jelly and hydrogen gas can be filled inside and easily held by humans. The portable aluminum pouch forming apparatus is prepared as follows.

  First, a commercially available aluminum pouch comprising a lid provided with a screw groove that engages with a screw groove formed in an aluminum pouch main body and an aluminum pouch insertion port portion serving as a mouth portion of the aluminum pouch, and an inner surface of the lid. A commercially available elastic packing housed inside the lid, a hydrogen gas cylinder containing hydrogen gas injected into the aluminum pouch, an injection needle capable of penetrating the lid, and the injection needle And a connecting pipe for connecting the hydrogen cylinder to the hydrogen gas injector. The hydrogen gas cylinder includes a hydrogen gas generation device and a feeding device capable of feeding hydrogen gas generated by the hydrogen gas generation device.

Aluminum pouch forming equipment
An air space portion forming means for forming an air space portion in the upper part of the functional jelly storage container,
A pressing means for pressing the outer surface of the functional jelly storage container body inward, discharging the air in the internal air space to the outside of the functional jelly storage container, and reducing the volume in a sealed state;
Covering means for covering the lid of the functional jelly storage container main body with the lid attached with the elastic packing,
The injection needle is inserted into the functional jelly storage container through the lid, and the injection needle insertion / removal means for removing the injection needle,
Hydrogen gas from a hydrogen gas cylinder is injected through a hydrogen gas injector into a sealed and volume-reduced functional jelly storage container, and a hydrogen gas space is formed in the upper part of the functional jelly storage container to seal it. Volume recovery form means for forming a volume recovery form recovered to the original volume in a state;
Functional jelly / hydrogen gas filling means for filling functional jelly and hydrogen gas inside,
And a shaking means for shaking the functional jelly storage container filled with the functional jelly and hydrogen gas inside, the hydrogen gas can be confined in the functional jelly by the shaking means, and is held in the functional jelly. By staying for a long time, the phenomenon that the hydrogen gas concentration decreases with time can be reduced, and the state in which the hydrogen gas is held in the functional jelly can be maintained for a long time.

  FIG. 6 is a diagram showing a “hydrogen retention test result in jelly” according to the “thi hydrogen gas injection method according to the present embodiment”. The test method is shown in the figure.

  The hydrogen concentration of the functional jelly containing hydrogen obtained by injecting and mixing hydrogen gas into the functional jelly food in the aluminum pouch was measured. For comparison, the hydrogen concentration of tap water containing hydrogen mixed with tap gas was measured.

  According to the experimental results, the hydrogen concentration in the functional jelly food does not decrease over time. At the beginning of mixing, the hydrogen concentration of tap water can be made higher than the hydrogen concentration in functional jelly food according to this result, but it decreases with the passage of time and eventually becomes functional. It becomes lower than the hydrogen concentration in the jelly food. It has been found that once functional jelly contains hydrogen gas in it, it has the function of holding and staying in hydrogen gas for a long period of time.

  By having a shaking means for shaking the aluminum pouch, once the hydrogen gas is included in the functional jelly, the hydrogen gas can be held and retained in the functional jelly for a long period of time.

  In addition, the functional jelly storage container is filled with the functional jelly and hydrogen gas by the means and method shown in FIGS. 1 to 3 and the functional jelly storage container is shaken, thereby allowing a long period of time. It is possible to generate a functional jelly that can hold and stay hydrogen gas in it.

  FIG. 7 is a diagram showing the hydrogen gas solubility test results of various functional jelly foods in an aluminum pouch. The test method is shown in the figure.

  According to the hydrogen gas solubility test results of functional jelly foods, functional jelly foods in which hydrogen gas was dissolved were able to be produced in all the exemplified functional jelly foods. In particular, in the functional jelly foods of N0.4, 5, 11 shown as examples, functional jelly foods in which hydrogen gas was dissolved were particularly excellent. The functional jelly food in which the excellent hydrogen gas is dissolved can be generated by stirring the functional jelly by shaking.

  FIG. 8 is a diagram showing hydrogen gas solubility test results of various functional jelly cosmetics. The test method is shown in the figure.

  According to the hydrogen gas solubility test results of functional jelly cosmetics, functional jelly cosmetics in which hydrogen gas was dissolved in all the exemplified functional jelly cosmetics could be produced. In particular, in the functional jelly cosmetics of N0.2 to N7 shown as examples, functional jelly cosmetics in which hydrogen gas was particularly excellently dissolved can be produced by a shaking method using a mixer. By stirring the functional jelly by shaking, a functional jelly cosmetic product in which excellent hydrogen gas is dissolved can be produced.

According to the present embodiment, hydrogen gas is injected from the outside in a volume reduction volume form, and has a hydrogen gas space in the upper part inside the aluminum functional jelly storage container, and is restored to the original volume in a sealed state. In the volume recovery mode, the volume can be shaken. In addition, according to the present invention, when the air space portion is provided in the upper part inside the aluminum pouch, the volume of the air space portion is discharged to the outside, and the volume is reduced from the original volume to the volume reduction volume in a sealed state. Form,
In this volume reduction volume form, hydrogen gas is injected from the outside, and there is a hydrogen gas space at the top inside the aluminum pouch, so that it exhibits two forms: a volume recovery form that is restored to the original volume in a sealed state Can be formed.

  In the functional jelly storage container, hydrogen gas is stored in a state that is substantially close to zero even when the gauge pressure is slightly higher than the non-pressure gauge. By forming the gas space, it is possible to easily secure the hydrogen concentration of the predetermined hydrogen water, and to prevent the hydrogen gas or the functional jelly containing hydrogen gas from being ejected when the user removes the lid. Can be.

  DESCRIPTION OF SYMBOLS 100 ... Aluminum pouch, 1 ... Aluminum pouch main body, 2 ... Cover (cap), 3 ... Bag-shaped body part, 4 ... Aluminum pouch insertion port part, 5 ... Screw groove, 11 ... Aluminum pouch, 12 ... Air space part, 12A DESCRIPTION OF SYMBOLS ... Hydrogen gas space part, 21 ... Pressing device, 30 ... Hydrogen gas injector, 30A ... Drinking water suction / hydrogen gas injector, 31 ... Special packing (rubber), 32 ... Hydrogen gas cylinder, 33 ... Injection needle, 34, 34A , 34B ... connecting pipe, 35 ... thread groove, 36, 37 ... cylindrical portion, 38 ... through hole, 50 ... three-way switching valve, 51 ... suction device.

Claims (6)

It is a functional jelly storage container with a lid that can be easily carried by a human hand and filled with hydrogen gas and functional jelly. In the method of forming a functional jelly storage container filled with the inside,
Contains functional jelly or drinking water inside, has an air space at the top, or is filled with functional jelly or drinking water without an air space inside,
When having an air space part at the top inside the functional jelly storage container, the air in the air space part is discharged to the outside, or the inside of the functional jelly storage container is filled with functional jelly or drinking water. When the functional jelly or part of the drinking water is discharged to the outside, it forms a volume reduction volume form in which the volume is reduced from the original volume in a sealed state,
Hydrogen gas is injected in the volume reduction volume form, and a hydrogen gas space is formed in the upper part inside the functional jelly storage container to form a volume recovery form that is recovered to the original volume in a sealed state,
When the functional jelly is stored or filled in the functional jelly storage container, the functional jelly storage container holds the functional jelly holding hydrogen gas, or the functional jelly storage container contains a beverage. When water is stored or filled, a gelling agent is added to the stored or filled drinking water, and the functional jelly storage container has a function of holding hydrogen gas formed by the addition of the gelling agent. Holding sex jelly,
A method for forming a functional jelly storage container in which functional jelly and hydrogen gas are filled therein, wherein the functional jelly possessing hydrogen gas is in a state where it can be shaken.   The method for forming a functional jelly storage container filled with functional jelly and hydrogen gas inside according to claim 1, wherein the functional jelly storage container filled with functional jelly and hydrogen gas is shaken. And forming a functional jelly storage container filled with functional jelly and hydrogen gas, wherein hydrogen gas is held in the functional jelly.   The method for forming a functional jelly storage container in which the inside is filled with functional jelly and hydrogen gas according to claim 1 or 2, wherein the operating force acting on the functional jelly storage container body is a functional jelly storage container. A method for forming a functional jelly storage container in which the inside is filled with functional jelly and hydrogen gas, which is provided by a pressing means for pressing the main body from the outside.   The method for forming a functional jelly storage container in which the functional jelly and hydrogen gas are filled in the interior according to claim 1 or 2, wherein a part of the drinking water in the functional jelly storage container is provided on the lid. A functional jelly is formed in the inside, wherein a volume reduction form that is reduced in volume in a sealed state is formed by suction through a needle for hydrogen gas injection that penetrates the elastic packing. A method for forming a functional jelly container filled with hydrogen gas. An aluminum pouch is used, and a functional jelly containing hydrogen gas is stored in the aluminum pouch so that the functional jelly and hydrogen gas are filled with functional jelly and hydrogen gas. In the method of forming the pouch,
A commercially available aluminum pouch comprising a lid with a thread groove that engages with a thread groove formed in an aluminum pouch main body and an aluminum pouch insertion port portion that becomes the mouth portion of the aluminum pouch, and an inner surface of the lid. An elastic packing housed in the lid and having elasticity; a hydrogen gas cylinder containing hydrogen gas injected into the aluminum pouch; an injection needle capable of penetrating the lid; the injection needle and the hydrogen cylinder And a hydrogen gas injector having a connecting pipe for connecting
An air space is formed at the top inside the aluminum pouch,
The aluminum pouch body is pressed inward by the pressing means, the air in the air space is discharged to the outside of the aluminum pouch, and the volume reduction volume form is reduced from the original volume to the volume reduction volume in a sealed state,
The mouth of the aluminum pouch is covered with the lid provided with an elastic packing,
The injection needle penetrates the lid and is inserted into the aluminum pouch;
It is injected into the inside of the pouch that was cut in the positive 6,
Hydrogen gas is injected from the outside in the volume reduction volume form, a hydrogen gas space is formed in the upper part of the aluminum pouch, and the volume recovery form is restored to the original volume in a sealed state,
The injection needle is removed from the lid, and the elastic packing closes the through-hole through which the injection needle has passed,
A method for forming an aluminum pouch filled with a functional jelly and hydrogen gas filled with functional jelly and hydrogen gas inside, characterized in that it can be shaken. In the functional jelly storage container body, the functional jelly containing hydrogen gas is stored in the functional jelly storage container main body so that the functional jelly and hydrogen gas are filled therein.
A commercially available functional jelly storage container comprising a functional jelly storage container main body and a lid provided with a screw groove that engages with a screw groove formed in an insertion port part serving as a mouth part of the functional jelly storage container main body, An elastic packing having elasticity which is engaged with the inner surface of the lid and is housed in the lid, a hydrogen gas cylinder which contains hydrogen gas injected into the functional jelly container, and the lid is penetrated. A hydrogen gas injector provided with a possible injection needle and a connecting pipe connecting the injection needle and the hydrogen cylinder,
An air space portion forming means for forming an air space portion in the upper part of the functional jelly storage container,
A pressing means for pressing the outer surface of the functional jelly storage container body inward, discharging the air in the internal air space to the outside of the functional jelly storage container, and reducing the volume in a sealed state;
Covering means for covering the lid of the functional jelly storage container main body with the lid attached with the elastic packing,
The injection needle is inserted into the functional jelly storage container through the lid, and the injection needle insertion / removal means for removing the injection needle,
Hydrogen gas from a hydrogen gas cylinder is injected through a hydrogen gas injector into a sealed and volume-reduced functional jelly storage container, and a hydrogen gas space is formed in the upper part of the functional jelly storage container to seal it. Volume recovery form means for forming a volume recovery form recovered to the original volume in a state;
Functional jelly / hydrogen gas filling means for filling functional jelly and hydrogen gas inside,
A functional jelly storage container filled with the functional jelly and hydrogen gas. The functional jelly storage container is provided with a shaking means for shaking the functional jelly storage container filled with the functional jelly and hydrogen gas. Forming equipment.

Images