JP3212264U - Hydrogen water container - Google Patents

Abstract

A hydrogen water container that can be moved by a user is provided. A hydrogen water container having a container main body 4 formed so as to be able to contain water, an inlet 42 formed on an outer wall surface of the container main body 4, and an outlet 43 positioned lower than the inlet 42 of the inner wall surface. Are formed in the wall of the container body 4 and communicated with the inlet 42 and the outlet 43. The container body 4 is connected to the outlet 43 of the ventilation path 44. The fine bubble generating unit 7 that converts hydrogen introduced through the air passage 44 into fine bubbles and releases it to the water accommodated in the container main body 4, and the container main body 4 when the user moves with the container main body 4. The plug 5 is capable of closing the entrance 42 so that water stored in the entrance 42 does not spill from the entrance 42. [Selection] Figure 2

Description

  The present invention relates to a hydrogen water container.

  Research results have been published that radicals are generated every day in the human body, and radicals are atoms and molecules with unpaired electrons that cause chemical reactions to various substances, causing damage to human cells. It has been pointed out that it is harmful to the human body, such as giving oxidative lipids and accelerating cell aging due to the formation of oxidized lipids.

  Since hydrogen reacts with radicals as a reducing agent, it can eliminate radicals in the human body and prevent the radicals from damaging human cells. In addition, hydrogen has an antioxidant action and is said to have an effect of suppressing the aging of cells and the generation of oxidized lipids by relaxing the oxidation reaction in the human body.

Hydrogen further prevents or treats Parkinson's disease by treating septic shock, promoting injury recovery from trauma, organ transplantation, etc., suppressing inflammation, and inhibiting brain cell damage It is also said that it has an effect. Therefore, ingesting hydrogen has a beneficial effect on the human body.
At present, as a method of ingesting hydrogen, for example, a method of inhaling directly by breathing or a method of drinking hydrogen water in which hydrogen is dissolved is mentioned.

  For example, as shown in FIG. 1, a conventional hydrogen water production apparatus includes a container 11 configured to form a liquid containing space 111 that can contain water, and a hydrogen production apparatus 13 that produces hydrogen. And an air supply pipe 12 for introducing hydrogen produced by the hydrogen production apparatus 13 into the water accommodated in the liquid accommodation space 111 of the container 11, and the hydrogen produced by the hydrogen production apparatus 13 passes through the air supply pipe 12. A hydrogen water producing device 1 has been developed in which hydrogen is dissolved in water to produce hydrogen water when released into water contained in the container 11.

  However, since the container 11 of the hydrogen water production apparatus 1 produces a large amount of hydrogen water, the volume is very large and the sealing performance is not high. When using the hydrogen water accommodated in the container 11 of the hydrogen water production apparatus 1, it is necessary to divide the hydrogen water into small containers. At that time, the hydrogen dissolved in the water elutes and the hydrogen water There is a drawback in that the concentration of.

  In view of the above problems, an object of the present invention is to provide a hydrogen water container that can be carried by a user.

  In order to achieve the above object, the present invention is a hydrogen water container that can be moved by a user, and a container body that is formed so as to accommodate water, and an entrance to the outer wall surface of the container body. An outlet is formed at a position lower than the inlet of the inner wall surface, and is formed in a wall of the container main body and communicates with the inlet and the outlet, and the ventilation is provided in the container main body. A fine bubble generating unit that is installed so as to be connected to the outlet of the channel and converts the hydrogen introduced through the vent channel into a fine bubble and releases it to the water stored in the container body; A hydrogen water container, comprising: a stopper capable of closing the entrance so that water contained in the container body does not spill from the entrance when moving with the body.

  With the above configuration, the hydrogen water container of the present invention includes a ventilation path for introducing hydrogen, so that hydrogen water can be produced when hydrogen is introduced. And since the stopper which can block | close the entrance of an air passage is provided, even if a user moves with a container main body, it is suitable for carrying without the water accommodated in a container main body being spilled.

It is sectional drawing which shows the conventional hydrogenous water manufacturing apparatus. It is a component exploded view showing an embodiment of a hydrogen water container of the present invention. It is sectional drawing which shows embodiment of the said hydrogen water container. It is a perspective view which shows other embodiment of the hydrogen water container of this invention.

  Hereinafter, an embodiment of a hydrogen water container according to the present invention will be described in detail with reference to the drawings.

  In the embodiment of the present invention, as shown in FIG. 2, the hydrogen water container is a hydrogen water container that can be moved by a user, and includes a container body 4, a plug 5, a lighting device 6, It consists of a fine bubble generator 7. Hereinafter, each member will be described in detail.

  As shown in FIG. 2, the container body 4 is made of a transparent material so as to accommodate water, and has a bottom wall 45 and a peripheral wall 41 extending upward from the peripheral edge of the bottom wall 45. It is made up of. In the container body 4, an entrance 42 is formed on the outer wall surface of the peripheral wall 41, and an exit 43 is formed on the inner wall surface of the bottom wall 45 that is lower than the entrance 42. In addition, an air passage 44 for introducing hydrogen into water accommodated in the container body 4 from the outside is provided in the wall of the container body 4 through the inlet 42 and the outlet 43.

  In this embodiment, as shown in FIG. 2 and FIG. 3, the container body 4 further includes a lid 46 in which an outlet 411 is formed above the peripheral wall 41 and the outlet 411 can be sealed.

  As shown in FIG. 4, the lid 46 can also be formed so that the water can flow out from the place not covered by the lid 46 of the outlet 411 without sealing the outlet 411.

  As shown in FIGS. 2 and 3, the fine bubble generating unit 7 is configured by position limiting means 71 and an air stone 72 so as to be connected to the outlet 43 of the air passage 44 in the container body 4. The hydrogen introduced through the air passage 44 is made into fine bubbles and discharged into the water stored in the container body 4.

  The air stone 72 is porous, and a part of the air stone 72 is inserted into the outlet 43 from the inside of the container body 4, and hydrogen introduced through the air passage 44 can be refined. The position restricting means 71 is in contact with the inner wall surface of the peripheral wall 41 so that it cannot move in the horizontal direction, and a part of the peripheral surface of the air stone 72 exposed outside the outlet 43 is externally fitted to the air stone 72. Is fixed to the outlet 43.

  In this embodiment, as shown in FIG. 3, the position limiting means 71 is formed in a hexahedron having a hole through which the lower half of the peripheral surface of the air stone 72 is fitted in the center.

  As shown in FIG. 2, the stopper 5 can close the entrance 42 so that water stored in the container body 4 does not spill from the entrance 42 when the user moves with the container body 4. It is configured as follows.

  As shown in FIG. 2, the illumination device 6 changes the visual atmosphere of the container body 4 by emitting light, and includes a pedestal 61 on which the container body 4 can be placed, and light from the container body 4. And a light-emitting diode illuminator 62 installed in the pedestal 61 so as to irradiate the light.

  At least a part of the surface of the pedestal 61 on which the container body 4 is placed is a transparent part that can emit light emitted from the light-emitting diode illuminator 62 to the container body 4.

  In this embodiment, the light emitting diode illuminator 62 is configured as an annular illuminator as shown in FIG.

  According to this configuration, the hydrogen water container of the present invention includes the vent passage 44 for introducing hydrogen. Therefore, when hydrogen is introduced, hydrogen water can be produced when hydrogen is provided, and the inlet of the vent passage 44 is provided. Since the stopper 5 capable of closing the stopper 42 is provided, even if the user moves with the container body 4, the water stored in the container body 4 is suitable for carrying without spilling from the inlet 42. .

  When producing hydrogen water using the hydrogen water container of the present invention, first, water is injected into the container body 4 and then the stopper 5 is removed from the inlet 42 to provide hydrogen as shown in FIG. The air supply pipe of the apparatus 2 is connected to the inlet 42 to provide hydrogen to the container body 4. When hydrogen is made into fine bubbles by the air stone 72 inserted into the outlet 43 through the air passage 44 and discharged into the water stored in the container body 4, the hydrogen dissolves in the water to obtain hydrogen water.

  When hydrogen becomes fine bubbles by the air stone 72, the contact area with water is increased, and there is an effect of increasing the speed of dissolution in water.

  Further, since the outlet 43 of the air passage 44 is formed on the inner wall surface of the bottom wall 45 of the container body 4, the hydrogen released from the air stone 72 has a longer moving distance when it rises to the water surface. The time spent staying inside can be lengthened, so that the amount dissolved in water can also be increased. Further, since the hydrogen floats up to the water surface, there is an effect of stirring the water, so that there is an effect of making the hydrogen concentration in the water uniform.

  In addition, when manufacturing the hydrogen water, if the illumination device 6 irradiates the container main body 4, the light is irradiated with hydrogen in a fine bubble, so that a special illumination effect is generated and the visual atmosphere is changed. .

  After the hydrogen water is produced, the outlet 46 and the inlet 42 are closed with the lid 46 and the stopper 5, and the user carries the hydrogen water in the container body 4 of the hydrogen water container of the present invention and drinks the hydrogen water at any time. it can.

  The hydrogen water container of the present invention is capable of producing hydrogen water and has a stopper that can block the entrance of the air passage, so that even if the user moves while holding the container body, the water contained in the container body remains. It is suitable for carrying without spilling from the entrance.

2 Hydrogen Providing Device 4 Container Body 41 Peripheral Wall 411 Outlet 42 Inlet 43 Outlet 44 Vent Path 45 Bottom Wall 46 Lid 5 Plug 6 Illumination Device 61 Base 62 Light Emitting Diode Illuminator 7 Fine Bubble Generation Unit 71 Position Limiting Means 72 Air Stone

Claims (4)

A hydrogen water container that can be carried by the user,
A container body configured to accommodate water;
An inlet is formed on the outer wall surface of the container body, an outlet is formed at a position lower than the inlet of the inner wall surface, and an air passage that is formed in the wall of the container body and communicates the inlet and the outlet;
Fine bubble generation that is installed in the container main body so as to be connected to the outlet of the vent passage and converts hydrogen introduced through the vent passage into fine bubbles to be released into water contained in the container main body. And
When the user moves while holding the container body, the container comprises a stopper capable of closing the entrance so that water stored in the container body does not spill from the entrance. Hydrogen water container. The container body is composed of a bottom wall and a peripheral wall extending upward from a peripheral edge of the bottom wall,
The vent is formed in the wall of the container body such that the entrance is formed on the outer wall surface of the peripheral wall and the outlet is formed on the inner wall surface of the bottom wall,
The fine bubble generator is
An air stone that is porous and that can be refined with hydrogen that is partially inserted into the outlet from the container body and that is introduced into the vent passage, and
A part of the peripheral surface of the air stone that is in contact with the inner wall surface of the peripheral wall so as not to move in the horizontal direction and is exposed to the outside of the outlet is fitted to fix the air stone to the outlet. The hydrogen water container according to claim 1, wherein the hydrogen water container is configured by a position limiting means. The container body is made of a transparent material, and
The hydrogen water container according to claim 1, further comprising an illumination device that changes a visual atmosphere of the container main body by emitting light. The illuminating device includes a pedestal on which the container main body can be placed, and a light-emitting diode illuminator installed in the pedestal so that light can be applied to the container main body. Item 4. The hydrogen water container according to Item 3.

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