JP6480802B2 - Hydrogen generator container and hydrogen water generation set - Google Patents

Description

  TECHNICAL FIELD The present invention relates to a hydrogen generating agent storage body in which anyone can easily obtain high-concentration hydrogen water, and a hydrogen water generation set in which the hydrogen generating agent storage body and a bottle in which water is stored are stored. .

  Hydrogen gas has a function of erasing active oxygen generated in the body by being inhaled by the human body, especially active oxygen that promotes aging and causes various diseases. Attention has been gathered. And the hydrogen water which has such an effect is not only widely marketed as drinking water, but also instruments and the like for generating hydrogen water have been developed and sold. As the above instrument, for example, one disclosed in Japanese Patent No. 4651479 has been proposed.

Japanese Patent No. 4651479

  However, in the commercially available hydrogen water, the dissolved amount of hydrogen gas is very small, and the function of the hydrogen gas cannot be expected greatly, and the dissolved hydrogen gas at the time when it is sealed in various containers. Even when the amount is high to some extent, since hydrogen molecules are very small, the dissolved amount of the hydrogen gas gradually decreases with time, so it is difficult to drink high-concentration hydrogen water. It is. That is, even when the dissolved amount of hydrogen gas is high to some extent immediately after the generation of hydrogen water, it is sealed in a container such as a bottle, shipped, arranged in a store, and then purchased by the user for drinking. In many cases, the dissolved amount of hydrogen gas is often greatly reduced, and the function of the hydrogen gas cannot be expected.

  On the other hand, since the device disclosed in the above-mentioned Japanese Patent No. 4651479 can be used for drinking immediately after hydrogen water is generated, the function of hydrogen gas can be expected by drinking hydrogen water. In addition, a gas-liquid separation unit having an open / close valve that is closed after the hydrogen gas generated by the reaction between water and the hydrogen generating agent is exhausted to the outside must be specially manufactured. The production cost of the gas-liquid separation unit is high, so the purchase price to be borne by the user can not be reduced, and every day There is a big limit to widely spreading hydrogen water suitable for continuous drinking.

  Therefore, the present invention has been proposed in order to solve the problems of the conventional invention described above, and a hydrogen generating agent storage body capable of generating highly concentrated hydrogen water very simply and inexpensively, and The object is to provide a hydrogen water generation set.

  The present invention has been proposed in order to solve the above-mentioned problems. In the first invention (the invention according to claim 1), a circular opening is formed in the upper part, and a bottle cap is screwed around the outer periphery. A cylindrical opening formed with a threaded portion, and water formed below the opening and containing water therein and molded with a material that bends when the user presses it with fingers A hydrogen generating agent storage body that is put into a bottle main body having a storage portion, the hydrogen generating agent storage body being non-water-permeable, and having a film shape having moisture permeability and gas permeability Alternatively, hydrogen that generates hydrogen gas by reacting with water vapor contained in a bag body formed in a bag shape from a sheet-shaped material and water contained in the water body of the bottle body. Generator and air stored in the bag body The bag body has a length in the height direction of the bottle body, the width of the bag body is shorter than the inner diameter of the opening of the bottle body, and the water Before being immersed in the water accommodated in the accommodating part and while being immersed in water and at least during the generation of hydrogen gas, the specific gravity of the water accommodated in the water accommodating part is lower. It is characterized by this.

  The hydrogen generating agent storage body according to the first aspect of the present invention is charged and immersed in the bottle body together with water, and the reaction between the water vapor filled and stored in the bottle body and the hydrogen generating agent. The hydrogen gas generated by is dissolved in the water to generate hydrogen water. The bottle body has a cylindrical opening formed with a circular opening on the top and a threaded portion on which the bottle cap is screwed on the outer periphery, and water formed inside the opening formed below the opening. And a water containing part formed of a material that is bent when the user presses it with a finger. A typical example is a pet that has been filled with a soft drink so far. It is a bottle. The hydrogen generating agent storage body according to the present invention comprises a bag and a hydrogen generating agent, and the bag has a water-impermeable, film-like or sheet-like shape having moisture permeability and gas permeability. It is formed into a bag shape from the above material. Further, the bag body constituting the hydrogen generating agent storage body according to the present invention has a length in the height direction of the bottle body, and the width of the bag body is larger than the inner diameter of the opening of the bottle body. Also has a short width. And, the specific gravity of the entire hydrogen generating agent storage body according to the present invention is before being immersed in the water stored in the water storage portion and while being immersed in water and at least the generation of hydrogen gas continues, The specific gravity of the water accommodated in the water accommodating portion is lower.

  In addition, as a bottle into which the hydrogen generating agent storage body according to the present invention is charged, taking the above PET bottle as an example and explaining a method for producing hydrogen water by using the hydrogen generating agent storage body, For example, tap water is stored in the PET bottle up to the vicinity of the opening, and then the hydrogen generating agent storage body is inserted. When the hydrogen generating agent storage body is completely charged, the bottle cap is then attached to the bottle body. The opening is closed by screwing into the opening. Then, the tap water stored in the water storage section of the bottle main body becomes water vapor, passes through the bag constituting the hydrogen generating agent storage body, and reacts with the hydrogen generating agent stored in the bag body. As a result, hydrogen gas is generated. The hydrogen gas is filled in the bag and, when the hydrogen gas reaches a predetermined pressure, is eventually released from the bag and dissolved in the tap water. In addition, after a predetermined amount of such hydrogen gas is dissolved in the tap water, the internal pressure in the bottle body due to the hydrogen gas rises, and a part of the hydrogen gas rises above the surface of the tap water. Lower the tap water level. The hydrogen generating agent storage body immediately after being put into the bottle main body is in a state where the upper end is in contact with the lower surface of the bottle cap. When lowered by the pressure, it is located above the water surface (floating). In the hydrogen generating agent storage body (bag body) according to the present invention, air is sealed in addition to the hydrogen generating agent, and when hydrogen gas generated from the hydrogen generating agent is generated, This is because hydrogen gas is also included.

  When the tap water in which the hydrogen gas is dissolved (hereinafter referred to as hydrogen water) is used for drinking after a predetermined time has elapsed since the opening was closed by the bottle cap, the bottle is often shaken. The hydrogen gas stored on the liquid surface is further dissolved in hydrogen water. At this time, the hydrogen generating agent storage body according to the present invention has a length in the length direction in the height direction of the bottle, and the width of the hydrogen generating agent storage body is determined from the inner diameter of the opening of the bottle. The width is such that it can be inserted into the container, and since the specific gravity of the water stored in the water container of the bottle is lower than the specific gravity of the bottle, The end is located near the bottle cap. Next, the cap is removed from the opening while being screwed back. In this case, when the liquid level of the hydrogen water is raised by, for example, picking the water containing portion constituting the bottle main body with fingers, the hydrogen generating agent containing body floating in the hydrogen water is also raised, Eventually, the upper end protrudes upward from the opening, so that the user can pick up the portion protruding upward from the opening and take it out.

  In addition, when producing / manufacturing hydrogen water by the above method and procedure, the water used may be soft drinks such as tea and mineral water in addition to tap water, and water including these soft drinks. The temperature of the water is not particularly limited, but by using water that is slightly hotter than room temperature (about lukewarm water), water vapor is likely to be generated and hydrogen water can be generated and produced in a short time. Become. However, since the temperature of water filled in a commercially available plastic bottle is limited to 40 degrees, it is desirable to use water having the above temperature or less.

  Therefore, according to the hydrogen generating agent storage body according to the first aspect of the present invention, highly concentrated hydrogen water can be generated very simply and inexpensively. In particular, since this hydrogen generating agent storage body does not include any special opening / closing valves or the like as components, the user is not required to perform troublesome work when making hydrogen water, The manufacturing cost is extremely low, and the purchase price that the user should bear can be greatly reduced. Moreover, when producing / manufacturing hydrogen water using the hydrogen generating agent storage body according to the present invention, the bottle is required, but this bottle does not have a special structure / configuration, and is not available in the market. Since it is a bottle that is filled with a soft drink and is widely used, it can be easily obtained. Also from this point, the user can drink hydrogen water at a very low cost.

  Furthermore, the hydrogen generating agent storage body according to the present invention can easily produce hydrogen water by the above-described method and procedure before a predetermined time for the user to drink, etc., and in a factory like conventional hydrogen water. Since it does not go through the process of being manufactured, produced, shipped in large quantities, lined up at the store, and purchased and consumed by the user, the dissolved amount of the hydrogen gas gradually increases as time passes from the time of manufacture. The user can always drink high-concentration hydrogen water without being reduced. That is, according to the hydrogen generating agent storage body according to the present invention, the user can generate, manufacture and drink highly concentrated hydrogen water at a very low cost and easily on a daily basis.

  In addition, as described above, the bag constituting the hydrogen generating agent storage body according to the present invention is made of a film- or sheet-like material having non-water permeability and moisture permeability and gas permeability. For example, a porous film made of polypropylene and an organic filler, a microporous film, or the like can be used. Further, as the hydrogen generating agent accommodated in the bag, for example, a metal hydride such as lithium hydride, potassium hydride, calcium hydride, sodium aluminum hydride, lithium aluminum hydride, or magnesium hydride, Examples thereof include metals such as iron, aluminum, magnesium, and calcium, and metal hydrogen complex compounds such as borohydride compounds. These substances may be used in combination. In addition to the hydrogen generating agent, a hydrogen generation reaction accelerator may be added to the bag.

  Further, according to a second invention (invention according to claim 2), in the first invention, the length of the bag body is longer than the width or the inner diameter of the bottle body. It is what.

  In the hydrogen generating agent storage body according to the second aspect of the invention, the length of the bag is longer than the width or inner diameter (diameter) of the bottle body. There is a danger that one end and the other end of the generating agent storage body are reversed from each other, and when the floating agent floats in the water stored in the bottle body, the hydrogen generating agent storage body is used from the opening of the bottle body. It is possible to prevent a person from picking up and taking out easily. In other words, in the second invention, since the bag body has the above-described configuration, when the hydrogen generating agent storage body is first introduced into the bottle body, the width or inner diameter of the bottle body is also measured. However, it will not be horizontal on at least the bottom plate of the bottle body, and will always be in an inclined state / posture. As described above, when the hydrogen generating agent storage body is inclined in the bottle body, the hydrogen generating agent sealed in the hydrogen generating agent storage body falls downward in the bag body by its own weight. In this state, even when the bottle body is filled with water, even if the posture changes slightly due to the water pressure, the side where the hydrogen generating agent is located is always downward, and the opposite side is the upper end. The posture does not change greatly, and the entire hydrogen generating agent container lower than the specific gravity of water rises as the water level rises, and when the bottle body is filled with water, the hydrogen generating agent container The upper end of the body floats in a state of protruding upward from the opening of the bottle body. On the other hand, when water is first charged / filled into the bottle main body, the hydrogen generating agent container has a width shorter than the width of the opening of the bottle main body. The storage body is in a vertical direction or a posture close thereto, and the hydrogen generating agent enclosed in the bag body in this posture falls downward due to its own weight. Therefore, the hydrogen generating agent storage body put into the bottle main body is maintained in the vertical direction or a posture close thereto in the vicinity of the water surface in the bottle main body. And the attitude | position of the hydrogen generating agent accommodating body in such a bottle main body does not change in the state after hydrogen gas is generated. Therefore, according to the hydrogen generating agent storage body according to the second aspect of the present invention, the upper end of the hydrogen generating agent storage body is water (hydrogen) regardless of the order in which the water and the hydrogen generating agent storage body are charged into the bottle body. It floats in a state where the upper end is always slightly higher than the water surface. Therefore, when taking out this hydrogen generating agent storage body, by raising the water surface of the hydrogen water by pressing the bottle body inward with fingers, the upper end of the hydrogen generating agent storage body floating in the hydrogen water is Since it protrudes upward from the opening of the bottle body, the user can easily take it out without directly touching the hydrogen water by, for example, picking the upper end of the hydrogen generating agent container with a finger. It becomes possible.

  In addition, according to a third invention (invention according to claim 3), in any one of the first and second inventions, the amount of the hydrogen generating agent accommodated in the bag body is relative to the capacity of the bag body. 60% or less.

  In the third aspect of the invention, the amount of the hydrogen generating agent accommodated in the bag body is 60% or less with respect to the capacity of the bag body (the occupation ratio of the hydrogen generating agent with respect to the capacity of the bag body is 60% or less). Thus, the bottle cap can be removed, and the hydrogen generating agent storage body that has been put into the bottle body can be easily taken out. That is, the inventor of the present invention makes the amount of the hydrogen generating agent and the width of the bag constant, changes the capacity of the bag by appropriately changing the length of the bag, and stores each hydrogen generating agent. It was determined whether the body could be easily removed. The results are as shown in Table 1 below.

  As is clear from the results of Table 1 above, when the occupancy ratio of the hydrogen generating agent with respect to the capacity of the bag body becomes 63%, the specific gravity of the entire bag body becomes higher than the specific gravity of the hydrogen water, and constitutes the bottle body. Even when the user holds the water storage part with his / her fingers and raises the liquid level of the hydrogen water to the vicinity of the opening, it becomes impossible to pick the end (upper end) of the hydrogen generating agent storage body, The hydrogen generating agent storage body cannot be taken out easily.

  According to a fourth invention (invention of claim 3), in any one of the first, second, or third invention, the amount of the hydrogen generating agent contained in the bag body is the amount of the bottle main body. It is characterized by being 0.1 to 0.3% with respect to the capacity.

  According to the hydrogen generating agent storage body according to the fourth aspect of the present invention, the amount of the hydrogen generating agent stored in the bag is 0.1 to 0.3% with respect to the capacity of the bottle body. From this, when producing hydrogen water in the bottle, high-concentration hydrogen water can be produced, and the internal pressure in the bottle excessively increases due to the reaction between the hydrogen generating agent and water vapor. The bottle is not damaged and can be used with confidence. That is, the pressure resistance of commercially available PET bottles, particularly carbonated water PET bottles, is 607.95 kpa (about 6 atmospheres). The inventor of the present invention changed the amount of the hydrogen generating agent as appropriate, and The internal pressure of the PET bottle after 24 hours from the time when the storage bag was put in was measured. As a result, it has been found that the amount of the hydrogen generating agent is most suitable 0.1 to 0.3% with respect to the capacity of the bottle body. That is, when the amount of the hydrogen generating agent is less than 0.1% with respect to the capacity of the bottle body, the concentration of hydrogen water generated in the bottle body is low, and the utility of hydrogen gas by drinking hydrogen water is reduced. I can't expect it. On the other hand, it has been found that if it exceeds 0.3% with respect to the capacity of the bottle body, it exceeds the pressure resistance standard of the above-mentioned commercially available PET bottle. Therefore, according to the third invention, high-concentration hydrogen water can be produced with peace of mind.

  A fifth invention (the invention according to claim 5) relates to a hydrogen water generation set, wherein a plurality of the inventions according to any one of the first, second, third or fourth inventions are provided. A hydrogen generating agent storage body, a cylindrical opening formed with a circular opening at the top and a threaded portion on which the bottle cap is screwed on the outer periphery, and a lower portion formed inside the opening. A bottle main body having a water containing portion formed of a material that is bent when the user presses the finger with a finger and the bottle that is screwed to the screw portion to close the opening. A plurality of hydrogen generating agent storage bodies formed in a bag shape or a box shape by a film having a light shielding property and a gas barrier property, in a packaging material having an opening. It is stored and the opening can be opened and closed. It is an feature.

  The hydrogen water generation set according to the fifth invention includes a plurality of hydrogen generating agent storage bodies, a bottle, and the hydrogen generation according to any one of the first, second, third or fourth inventions described above. And the packaging material is formed into a bag shape or a box shape with a light-shielding film and has an opening, and the opening can be opened and closed. One does not have to prepare a bottle by himself. Further, not only can high-concentration hydrogen water be produced and generated simply by the procedure described above, but the packaging material in which the plurality of hydrogen generating agent storage bodies are stored has light shielding properties and gas barrier properties. Since the opening is openable and closable, it is formed into a bag or box shape by a film, and the opening can be opened and closed. It is possible to avoid a risk that the amount of hydrogen generated due to the reaction is reduced.

  The light-shielding and gas barrier films include, for example, polyester resins, polyamide resins, polyaramid resins, polyolefin resins, polycarbonate resins, polystyrene resins, polyacetal resins, and fluorine resins. For example, a film obtained by evaporating aluminum oxide, silicon oxide, magnesium oxide, or the like can be used.

  According to the hydrogen generating agent storage body according to the first invention (invention of claim 1), high-concentration hydrogen water can be generated very simply and inexpensively. In particular, since this hydrogen generating agent storage body does not include any special opening / closing valves or the like as components, the user is not required to perform troublesome work when making hydrogen water, The manufacturing cost is extremely low, and the purchase price that the user should bear can be greatly reduced. Further, when producing hydrogen water using the hydrogen generating agent storage body according to the present invention, the bottle described above is required. However, this bottle does not have a special structure / configuration, and is a soft drink in the market. From this point, the user can use hydrogen water for drinking or the like at a very low cost.

  Further, in the hydrogen generating agent storage body according to the second invention (invention of claim 2), the length of the bag body is longer than the width or inner diameter of the bottle body, There is a risk that one end and the other end of the hydrogen generating agent storage body in the bottle main body are reversed with each other, and when the hydrogen generating agent storage body floats in the water stored in the bottle main body, the hydrogen generating agent storage It is possible to prevent the user from picking up the body from the opening of the bottle body with his / her finger and not being easily taken out.

  In the third invention (the invention according to claim 3), the amount of the hydrogen generating agent accommodated in the bag is 60% or less with respect to the capacity of the bag (hydrogen generating agent relative to the capacity of the bag). Therefore, it is possible to remove the bottle cap and easily take out the hydrogen generating agent storage body put in the bottle main body.

  Further, according to the hydrogen generating agent storage body according to the fourth invention (invention of claim 4), the amount of the hydrogen generating agent stored in the bag body is 0.1 relative to the capacity of the bottle body. When the hydrogen water is produced in the bottle, it is possible to produce high-concentration hydrogen water, and the reaction between the hydrogen generating agent and water vapor in the bottle. When the internal pressure rises excessively, the bottle is not damaged and can be used with confidence.

  Moreover, according to the hydrogen water production | generation set which concerns on 5th invention (invention of Claim 5), the user does not need to prepare a bottle independently. Further, not only can high-concentration hydrogen water be produced and generated simply by the procedure described above, but the packaging material in which the plurality of hydrogen generating agent storage bodies are stored has light shielding properties and gas barrier properties. Since the opening is openable and closable, it is formed into a bag or box shape by a film, and the opening can be opened and closed. It is possible to avoid a risk that the amount of hydrogen generated due to the reaction is reduced.

It is a perspective view which shows a hydrogenous water production | generation set typically. It is a perspective view which fractures | ruptures and shows the external appearance of a hydrogen generating agent accommodating body. It is sectional drawing which shows typically the state which throws in a hydrogen generating agent accommodating body in a PET bottle. It is sectional drawing which shows typically the state which accommodates a tap water in a bottle main body. It is sectional drawing which shows typically the state which the upper end of the hydrogen generating agent storage body thrown into the bottle main body protrudes from the opening of a bottle main body. It is sectional drawing which shows typically the state which mounted | wore the bottle main body with the bottle cap. It is sectional drawing which shows typically the state after predetermined time passes from the state shown in FIG. It is sectional drawing which shows typically the state which removed the bottle cap and raised the liquid level. It is sectional drawing which shows typically the state after removing the hydrogen generating agent accommodating body from the bottle main body.

  Hereinafter, a hydrogen water generation set according to the best mode for carrying out the present invention will be described in detail with reference to the drawings.

  As shown in FIG. 1, the hydrogen water generation set 1 according to this embodiment includes a stick storage bag 2 and a bottle 3, and the stick storage bag 2 and the bottle 3 are stored in a packaging material 4. ing. The stick storage bag 2 is a packaging material constituting the present invention, and is formed into a bag shape by alumite-treated sheet having a light shielding property and a gas barrier property (reference numerals are omitted). An opening 2a is formed in the opening 2a, and an opening 2a is formed in the opening 2a so that the opening 2a can be opened and closed. A plurality of hydrogen generating agent storage bodies 5 according to the present invention are stored in the stick storage bag 2.

  As shown in FIG. 2, these hydrogen generating agent storage bodies 5 are composed of a bag body 6 formed in a rectangular shape and a hydrogen generating agent 7 stored in the bag body 6. The bag body 6 is formed into a bag shape from a film- or sheet-like material having water-impermeable and moisture-permeable and gas-permeable properties. In this embodiment, polypropylene and an organic material are used. It consists of a porous film layer composed of a filler and a heat-welded layer, and is formed into a bag shape by heating this heat-welded layer at three locations. Further, in the bag 6, a hydrogen generator composed of a metal hydride such as lithium hydride, potassium hydride, calcium hydride, sodium aluminum hydride, lithium aluminum hydride, or magnesium hydride, and calcium oxide In addition, a hydrogen generation reaction accelerator such as calcium hydroxide is enclosed. The hydrogen generating agent storage body 5 has a length in the length direction in the same direction as the height direction of the bottle body 8 to be described later, and has a length longer than the inner diameter of the bottle body 8; The width is shorter than the diameter of the opening 8 c formed in the bottle body 8. In the hydrogen generating agent storage body 5 according to this embodiment, 1 g of the hydrogen generating agent 7 including the hydrogen generating reaction accelerator is enclosed, and the other is air.

  On the other hand, the bottle 3 is a commercially available PET bottle, and is composed of a bottle body 8 and a bottle cap 9 as shown in FIG. The bottle main body 9 is made of polyethylene terephthalate (PET), and includes a water accommodating portion 8a in which water is accommodated, and a cylindrical opening 8b formed in an upper portion of the water accommodating portion 8a. The upper part of the opening 8b is an opening 8c that is open to the outside air, and one screw part (reference numeral is omitted) is formed on the outer periphery of the opening 8b. The bottle cap 9 is composed of a disc-shaped closing plate portion 9a that closes the opening 8c, and a cylindrical portion 9b that hangs down from the outer periphery of the closing plate portion 9a, and the inner periphery of the cylindrical portion 9b. Is formed with the other screw portion 9c screwed to the one screw portion. The bottle 9 according to this embodiment is a bottle of a type that can store 500 ml of water. As will be described later, the water storage portion 8a that constitutes the bottle body 8 is pressed inward by the user's finger. To bend.

  Hereinafter, a method for producing and generating hydrogen water using the hydrogen water generation set 1 according to the above-described embodiment will be described in order.

  First, the stick storage bag 2 and the bottle 3 are taken out from the packaging material 4, the bottle cap 9 is removed from the bottle main body 8, and one hydrogen generating agent storage body 5 is taken out from the stick storage bag 2. And this hydrogen generating agent accommodating body 5 is thrown in into the bottle main body 8 from the said opening 8c, as shown by the arrow in FIG. As described above, when the hydrogen generating agent storage body 5 is put into the bottle body 8, the hydrogen generating agent storage body 5 is brought into a vertical direction or a state close thereto. The hydrogen generating agent enclosed in 5 moves / drops downward in the bag due to its own weight, and is located at the bottom of the bottle body 8 as it is. Further, since the length of the hydrogen generating agent storage body 5 is longer than the inner diameter of the bottle body 8, it is not positioned horizontally on the bottom of the bottle body 8.

  When the charging of the hydrogen generating agent storage body 5 is completed, filling of the tap water W into the water storage portion 8a of the bottle main body 8 is then started as shown in FIG. When the tap water W stored in the water storage portion 8a is gradually increased by the filling of the tap water W, the hydrogen generating agent storage body 5 has a posture substantially the same as or close to the height direction of the bottle body 8. At the same time, due to the rise of the water surface of the tap water W, the upper end of the hydrogen generating agent storage body 5 protrudes slightly above the water surface of the tap water W, and the tap water W is fully filled in the bottle body 8. As shown in FIG. 5, the upper end of the hydrogen generating agent storage body 5 protrudes further upward than the upper end of the bottle main body 8. Such a phenomenon is that the specific gravity of the entire hydrogen generating agent storage body 5 is lower than the specific gravity of the tap water W, and the hydrogen generating agent 7 (including the hydrogen generation reaction accelerator) enclosed in the bag 6 is the tap water W. This is because the hydrogen generator 7 (including the hydrogen generation reaction accelerator) falls downward in the bag body 6 due to its own weight. That is, since the specific gravity of the entire hydrogen generating agent storage body 5 is lower than the specific gravity of the tap water W, it floats on the surface of the tap water W and is enclosed in the bag 6 (including the hydrogen generation reaction accelerator). Since the hydrogen generating agent 7 falls and moves downward due to its own weight, the side where the hydrogen generating agent 7 (including the hydrogen generating reaction accelerator) is located becomes the lower end, and the opposite side becomes the upper end. In this state, the upper end floats in a state where the upper end protrudes from the water surface of the tap water W. As a result, when the bottle main body 8 is filled with tap water W, the upper end of the hydrogen generating agent storage body 5 is positioned slightly above the upper end of the bottle main body 8 as shown in FIG. Become.

  And as above-mentioned, when filling with the tap water W is complete | finished, next, the said bottle cap 9 will be mounted | worn (screwed) to the said opening part 8b. When the bottle cap 9 is attached to the bottle main body 8 in this way, the hydrogen generating agent storage body 5 positioned slightly above the upper end of the bottle main body 8 by the closing plate portion 9a of the bottle cap 9 is used. While the upper end is pressed downward, as shown in FIG. 6, the bottle cap 9 is removed while slightly discharging the tap water W in the bottle body 8 by pressing the outer periphery of the bottle body 8 inward. It is preferable to attach and remove the air in the bottle main body 8.

  By mounting the bottle cap 9, the air permeability of the bottle body 8 is blocked, and the tap water W enters the bag 6 as water vapor, and the water vapor and the hydrogen generating agent 7 react with each other. As a result, hydrogen gas is generated in the bag 6. When a predetermined time elapses, the hydrogen gas is filled in the bag body 6 and then passes through the bag body 6 to dissolve in the tap water W. The water W eventually becomes hydrogen water H. At this time, while the internal pressure of the bottle main body 8 is greatly increased, the water surface of the hydrogen water H in the bottle main body 8 is positioned below the water surface at the time when the tap water W is filled as shown in FIG. Then, a hydrogen gas pool is generated on the surface of the hydrogen water H. In this case, the upper end of the hydrogen generating agent housing 5 projects upward from the upper surface of the hydrogen water H.

  In such a state, it is desirable that the user stirs the whole bottle 3 by moving it up and down or rotating, and further dissolves hydrogen gas in hydrogen water H to increase the dissolved amount of hydrogen gas. And when such a stirring operation is completed, the bottle cap 9 mounted so far is removed from the bottle body 8, and the bottle body 8 is accommodated in the bottle body 8 by pressing the bottle body 8 inward with fingers. The water level of the hydrogen water H is raised. By such an operation, the upper end of the hydrogen generating agent storage body 5 that has been positioned below the opening of the bottle main body 8 so far moves upward from the upper end of the bottle main body 8, as shown in FIG. The user can easily take out the used hydrogen generating agent storage body 5 by picking it with a finger without directly touching the generated hydrogen water H. When the removal operation of the hydrogen generating agent storage body 5 is completed in this way, as shown in FIG. 9, the bottle body 8 is in a state where the hydrogen water H is stored, and the user drinks the hydrogen water H as it is. It may be used for drinking, or may be transferred to a container such as a cup (not shown) for drinking.

  As is clear from the description of the hydrogen water generation set 1 according to the above embodiment, the hydrogen generator storage body according to the present invention can generate highly concentrated hydrogen water very easily and inexpensively. Therefore, high-concentration hydrogen water can be drunk daily. Further, according to the hydrogen generating agent storage body 5 according to the present invention, the used hydrogen generating agent storage body 5 can be taken out from the bottle main body 8 very easily without directly touching the hydrogen water H generated in the bottle main body 8. Can do.

  In the hydrogen water generating method using the hydrogen water generating set 1, the hydrogen generating agent storage body 5 is first introduced into the bottle main body 8, and then the tap water W is filled. The hydrogen generating agent storage body 5 may be introduced after the tap water W is filled in the bottle body 8 first. Moreover, the water with which the bottle main body 8 is filled is not limited to the tap water W, but may be tea, soft drinks, fruit drinks, or the like. Furthermore, the temperature of the water may be normal temperature, or water having a temperature slightly higher than normal temperature may be used. By using such high temperature water, the water vapor causes the bag body 6 to be removed. The passing speed is increased, and the hydrogen water H can be generated in a short time.

DESCRIPTION OF SYMBOLS 1 Hydrogen water production | generation set 2 Stick storage bag 2a Opening 2b Enclosing part 3 Bottle 5 Hydrogen generating agent storage body 6 Bag body 7 Hydrogen generating agent 8 Bottle main body 8a Water storage part 8b Opening part 9 Bottle cap W Tap water H Hydrogen water

Claims (5)

A cylindrical opening formed with a circular opening on the top and a threaded part on which the bottle cap is screwed on the outer periphery, and is formed below this opening and contains water and used inside A hydrogen generating agent storage body that is put into a bottle body having a water storage portion formed of a material that is bent by a person pressing with a finger,
This hydrogen generating agent storage body is stored in a bag body formed into a bag shape by a film or sheet material having water permeability and gas permeability and gas permeability. A hydrogen generating agent that generates hydrogen gas by reacting with the water vapor stored in the water storage portion of the bottle body, and air stored in the bag body,
The bag body has a length in the height direction of the bottle body, and the width of the bag body is shorter than the inner diameter of the opening of the bottle body, and is housed in the water housing section. Before being immersed in water and during at least the generation of hydrogen gas being continued in water, the specific gravity of water stored in the water storage unit is lower. Hydrogen generator container.   The hydrogen generating agent storage body according to claim 1, wherein the length of the bag body is longer than the width or inner diameter of the bottle body.   3. The hydrogen generating agent storage body according to claim 1, wherein the amount of the hydrogen generating agent stored in the bag is 60% or less with respect to the capacity of the bag.   The amount of the hydrogen generating agent accommodated in the bag is 0.1 to 0.3% with respect to the capacity of the bottle main body. The hydrogen generator container. A plurality of hydrogen generating agent storage bodies according to any one of claims 1, 2, 3 or 4;
A cylindrical opening formed with a circular opening on the top and a threaded part on which the bottle cap is screwed on the outer periphery, and is formed below this opening and contains water and used inside A bottle body having a water container formed of a material that is bent by a finger pressed by a finger, and the bottle cap that is screwed to the screw portion to close the opening. And having
The plurality of hydrogen generating agent storage bodies are formed into a bag shape or a box shape with a film having a light shielding property and a gas barrier property, and are stored in a packaging material having an opening, and the openings can be opened and closed. Hydrogen water generation set.