JP3203575U7 - - Google Patents

Description

  The present invention relates to a hydrogen water generation / storage container that generates, stores, and supplies hydrogen gas or hydrogen water containing hydrogen.

  In order to remove active oxygen that is harmful to the body, it is said that it is effective to take hydrogen into the body and react it with oxygen. As a means for taking hydrogen into the body, it is effective to spray hydrogen-containing hydrogen water on the skin, inhale atomized hydrogen water from the mouth, or directly drink hydrogen water. In order to generate hydrogen water, it is most efficient to blow hydrogen gas in water and mix it.

  Hydrogen gas is industrially produced by a hydrocarbon gas decomposition method, a steam reforming method, electrolysis of seawater, or the like, and is commercially available in a sealed cylinder. There is also known a small container (canister) containing a hydrogen storage alloy (MH) for taking out hydrogen gas from a cylinder or the like, storing it in a small opening, and taking out as needed.

  On a small scale, a method of reacting a metal such as zinc or aluminum with an acid is known. Patent Document 1 discloses that a hydrogen generating member having a structure in which aluminum is finely dispersed in a metal matrix is mixed with water. A hydrogen gas producing method is described in which a hydrogen gas generated from the surface of a hydrogen generating member is supplied to the outside and stored in a tank or the like. The hydrogen generating member is held in a suspended state inside the container by a cylindrical fixing member formed on the lower surface of the container lid, and a hydrogen gas supply pipe communicating with the inside of the fixing member is provided on the lid. Have been. A water supply pipe is provided at the bottom of the container, and water is supplied to the container from the bottom.

  On the other hand, Patent Document 2 discloses a nanobubble water / foam generator previously proposed by the present applicant. The nanobubble water / foam generator is configured to blow a gas such as hydrogen from the bottom through a porous plate into a container containing a liquid to generate nanobubble water or a foam.

JP 2009-51714 A JP 2014-226616 A

  The device described in Patent Literature 1 is a device for generating hydrogen gas. Therefore, the container is used in a fixed state, and is not portable or portable. In particular, since a water supply pipe is provided at the bottom, if a pipe for water absorption such as a hose is removed from the water supply pipe, water inside the container flows out, and the hydrogen gas or hydrogen water is retained. I can't.

  Further, the container described in Patent Literature 2 is configured to supply hydrogen gas to the inside through a porous plate provided at the bottom, so that the porous plate can transmit hydrogen gas. Although it is possible, it is possible to retain hydrogen water generated inside by having micropores to such an extent that water does not leak. However, the porous plate has a large number of micropores and does not completely shield the inside and outside of the container.Therefore, when the water pressure or the internal pressure of the container is high to some extent, hydrogen water may seep out. is there. In addition, since the porous plate allows hydrogen gas dissolved in water to permeate, if the container is removed from the equipment that supplies hydrogen gas and transported alone, hydrogen gas may be slightly lost There is.

  An object of the present invention is to realize a hydrogen water generation / storage container that is highly portable or portable and that facilitates the use of hydrogen water at any time in daily life.

The present invention according to claim 1 , comprising a body and a bottom, wherein the bottom is provided with a hydrogen gas inlet, a check valve for opening and closing the hydrogen gas inlet, the check valve, and the body. A porous filter that is disposed between the parts and allows hydrogen gas to pass therethrough, and a spring that has one end supported on the filter side and the other end pressed against the check valve to close the hydrogen gas intake with the check valve, wherein the check valve is closed watertight when and where the supply pressure to open the valve body is pushed up the check valve by the supply pressure of the hydrogen gas is decreased, the barrel, the hydrogen gas the is configured to contain a liquid for dissolving a hydrogen water generation and storage container, characterized in that.

According to a second aspect of the present invention, in addition to the configuration of the first aspect, a lid that closes an upper portion, a discharge port formed in the lid and opening to the outside so as to discharge the liquid, and the discharge a suction pipe communicates with the mouth and by inserting the lower end portion on the bottom side of the liquid suck up the liquid from the bottom side, further have a on-off valve to take out only the necessary amount from the outlet of the liquid operated to open And a hydrogen water generation / storage container , wherein the lid is provided with a relief valve or a manual release valve .

The invention according to claim 3 comprises a PET bottle containing a liquid and a stopper attached by a screw adapted to the PET bottle, wherein the stopper has a hydrogen gas inlet and the hydrogen gas inlet. A check valve for opening and closing a valve, a porous filter disposed between the check valve and the PET bottle and permeable to hydrogen gas, and one end supported on the filter side and the other end pressed against the check valve. A spring for closing the hydrogen gas intake with the check valve, wherein the check valve is opened by pushing up the valve element of the check valve by the supply pressure of the hydrogen gas, and the supply pressure decreases. when closed watertight, a hydrogen water generation and storage container, characterized in that.

  Further, according to the present invention, a filter that allows hydrogen gas to pass therethrough and a supply pressure of the hydrogen gas are opened at the bottom of the liquid container, which is a mixer container, and closed in a watertight state when the supply pressure is reduced. A hydrogen water generation / storage container characterized by having a hydrogen gas inlet provided with a check valve.

  According to the present invention, hydrogen gas can be supplied from the bottom of the liquid container and so-called microbubbles can be generated by the filter, so that the efficiency of generating hydrogen water is improved. Further, when hydrogen gas is not supplied, that is, when the liquid container is carried alone, the check valve closes in a watertight state because the supply pressure of hydrogen gas does not act, and therefore, leakage of hydrogen water or hydrogen gas does not occur. Therefore, it is excellent in portability or portability. In other words, the generation and carrying of the hydrogen water is facilitated, so that the hydrogen water can be used at an arbitrary timing in daily life, and the health and beauty effects are improved.

FIG. 2 is a perspective view showing the hydrogen water generation / storage container according to the first embodiment of the present invention. FIG. 3 is a partial cross-sectional view showing a portion for taking in hydrogen gas in the first embodiment of the present invention. FIG. 3 is a partial cross-sectional view illustrating a portion for extracting hydrogen gas according to the first embodiment of the present invention. FIG. 4 is a perspective view illustrating a hydrogen water generation / storage container according to a second embodiment of the present invention. It is a perspective view showing a hydrogen water generation and storage container of a third embodiment of the present invention.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 1 is a perspective view showing a hydrogen water generation / storage container according to a first embodiment of the present invention. A liquid container (hereinafter, simply referred to as a container) includes a cylindrical body 1, a bottom plate 2, and a lid 4, and is made of a liquid such as water, soapy water, lotion, or a saline solution for infusion (in the present invention, the liquid is a liquid). The type is not specified, and the same applies to the following examples). Hydrogen gas is introduced into the liquid from the lower part of the bottom plate 2 as fine bubbles (microbubbles) through a fine filter (for example, a porous plate) 34 of sintered metal or the like, and dissolved in the liquid to generate hydrogen water. .

  FIG. 2 is a partial sectional view of the bottom plate 2 showing the hydrogen gas intake portion 3. A screw portion 21 is provided on a lower surface of the bottom plate 2, and is connected to an arbitrary hydrogen gas generator (not shown) in an airtight manner via the screw portion 21. Due to the pressure, the hydrogen gas rises from the hydrogen gas intake port 31 in the bottom plate, pushes up the valve element 32 of the check valve closed by the spring 33, moves toward the filter 34, and enters the container. The gas (especially hydrogen gas) is transmitted through the fine filter 34 made of sintered metal or the like, but the liquid hardly passes through, and the liquid bleeds. However, when the hydrogen gas generator is removed, the valve 32 is lowered by the spring 33. Therefore, the gas inlet 31 is completely closed in a watertight state, and the liquid above the check valve does not leak. The check valve may have a structure provided inside a joint that connects the intake portion 3 and a hydrogen gas supply pipe (not shown).

  FIG. 3 is a partial cross-sectional view of the lid 4 showing the hydrogen gas extraction portion 5. The cover 4 is fixed to the body 1 in a hermetically sealed state by a screw portion 41 provided at a peripheral portion of the lower surface of the cover 4. A hole is provided on the lower surface of the lid 4 so that the hydrogen water flows out, and a suction pipe 51 is connected to the hole. As shown in FIG. 1, the tip of the suction pipe 51 extends to the lower part of the container, so that hydrogen water can be sucked up or pushed out instead of hydrogen gas at the upper part. On the other hand, a flow path communicating with the lower surface of the lid 4 is formed on the side surface or the upper surface of the lid 4, and an injection nozzle 55 for injecting hydrogen water is attached to an outlet thereof, that is, a hydrogen water outlet. In the middle of the flow path, there is a valve element 52 of an on-off valve, which is normally closed by a spring 53. However, when the upper injection button 54 is pressed, the flow path is opened and hydrogen water is injected at an arbitrary timing. Can be done.

  In addition to directly inhaling hydrogen water or spraying it on the skin, a tool can be connected to the nozzle for various uses.

  As described above, since the container is sealed, by continuing to supply hydrogen gas, the pressure in the container increases to a set pressure of a regulator of the hydrogen supply source or the like. On the other hand, it is necessary to adjust the source pressure according to the pressure limit of the connected container or valve, the discharge amount from the nozzle, and the desired dissolved hydrogen concentration. However, adjusting the set pressure of the valve and the like one by one is troublesome and may cause a human operation error. Therefore, although not particularly shown, it is preferable to provide a pressure and flow control function in the container by providing a relief valve or a manual release valve in the lid 4 or the hydrogen supply path, or by attaching a throttle structure to the flow path. It is important that the pressure be 1 MPa or less also in the sense of complying with the provisions of the High Pressure Gas Safety Law.

  FIG. 4 is a perspective view showing a hydrogen water generation / storage container according to a second embodiment of the present invention. In this embodiment, a commercially available PET bottle is used as the hydrogen water generation / storage container 1A. However, a cap dedicated to the present invention is used at the stage of generating hydrogen water inside. This cap 2A has a screw portion to cover the bottle, which is matched to the PET bottle. However, the cap 2A has an intake portion having the same function as that shown in FIG. 2, namely, a gas-permeable filter and a check valve for preventing liquid leakage. A hydrogen gas inlet 31 disposed behind is provided. However, the part corresponding to the lid in FIG. 1 is the bottom of the bottle and cannot be removed. To use the hydrogen water inside, remove the cap 2A, cover it with the original bottle cap, and carry it around freely. Means such as drinking directly from a PET bottle depending on the situation may be considered. When carrying around with the original bottle cap attached without replacement, the hydrogen gas supply pipe (not shown) is not connected to the hydrogen gas inlet 31 and the hydrogen gas supply pressure does not act. The check valve closes watertight. Therefore, hydrogen water inside the PET bolt does not leak out, and a highly portable or portable container can be obtained. At the same time, since the pressure inside the container is maintained, the amount of dissolved hydrogen in the liquid inside can be increased with time.

  If the pressure of the hydrogen supply source to be used cannot be adjusted below the pressure resistance of the PET bottle, a relief valve (not shown) is built in the cap 2 and the set pressure of the relief valve is set below the pressure resistance of the PET bottle. By doing so, accidents such as rupture of the PET bottle can be prevented. In addition, when supersaturated hydrogen water of 3 PPM or more is generated, it is necessary to increase the internal pressure of the PET bottle to 300 KPa or more. It can be difficult. For this reason, when a high pressure is applied, it is preferable to arrange a manual release valve (not shown) on the caps 2 and 2A so as to immediately release the internal pressure at a desired timing.

  When the suction pipe 51 and the opening / closing valve structure are provided as described above, and a required amount of hydrogen water is discharged from the discharge port such as the injection nozzle 55 into the mouth or the container by using the internal pressure of the container, hydrogen gas is discharged. Since it is held inside the container, a high dissolved hydrogen amount can be maintained over a long period of time. Therefore, it is also possible to make hydrogen water and store it in a cool dark place such as a refrigerator.

  FIG. 5 is a perspective view showing a hydrogen water generation / storage container according to a third embodiment of the present invention. The whole is similar to a container in a commercially available beverage mixer or juicer, but in the present invention, the same filter 34 as that shown in FIG. 3 is provided at the bottom of the cup 1C for containing water, fruit, vegetables and the like. The drive unit 7 is provided with a gas inlet 31 communicating with the filter 34, a valve body shown in FIG. 3, and the like. It can be a water drink. Open the upper lid 4C and use the beverage inside as appropriate. When the cup 1C is removed from the driving unit 7, the above-mentioned check valve is closed because the supply pressure of the hydrogen gas has not already acted, so that the hydrogen water does not leak from the inside of the cup 1C. Therefore, similarly to the second embodiment, a portable or portable container can be provided.

  Although several embodiments have been described above, the gist of the present invention lies in that a hydrogen gas inlet having a filter and a check valve is provided at a bottom portion. Various embodiments are possible, such as a hot / cold hydrogen water server or a hydrogen water bath in which a temperature controller is incorporated in a large container having a large number of hydrogen gas intake ports having a bottom and a check valve arranged at the bottom.

  DESCRIPTION OF SYMBOLS 1 ... Body (of a container), 1A ... PET bottle, 1C ... Cup, 2 ... Bottom plate, 2A ... Cap, 3 ... Intake part, 4 ... Lid, 5 ············································································································ ··· Spring, 34: filter, 51: suction pipe, 54: injection button, 55: injection nozzle.

Claims (4)

Having a torso and a bottom,
The bottom is a hydrogen gas intake, a check valve for opening and closing the hydrogen gas intake, a porous filter disposed between the check valve and the body to allow hydrogen gas to permeate , A spring supported on the filter side and pressing the other end against the check valve to close the hydrogen gas intake with the check valve;
The check valve is closed in a watertight state when the valve element of the check valve is pushed up and opened by the supply pressure of the hydrogen gas and the supply pressure is reduced ,
The body is configured to contain a liquid that dissolves the hydrogen gas .
A hydrogen water generation / storage container characterized by the above-mentioned. A lid for closing the upper part, a discharge port formed in the lid and opening to the outside so as to take out the liquid, a bottom part of the liquid which is communicated with the discharge port and a lower end part of which is inserted into the bottom side of the liquid to allow the liquid to reach the bottom part claim wherein the suction pipe sucking from the side, is operated to open further have a on-off valve to take out the required amount the outlets the liquid, in that a relief valve or manual release valve to the lid 1 Hydrogen water generation and storage container according to 1. A PET bottle containing a liquid, and a stopper attached by a screw corresponding to the PET bottle,
Into this stopper, a hydrogen gas inlet, and a check valve for opening and closing valve the hydrogen gas inlet, and a porous filter which is arranged between the PET bottle and the check valve is permeable to hydrogen gas, one end A spring supported on the filter side and pressing the other end against the check valve to close the hydrogen gas intake with the check valve;
The check valve is closed in a watertight state when the valve element of the check valve is pushed up by the supply pressure of the hydrogen gas and opened and the supply pressure decreases .
A hydrogen water generation / storage container characterized by the above-mentioned.   At the bottom of the liquid container, which is a mixer container, a hydrogen gas intake having a filter that allows hydrogen gas to pass therethrough and a check valve that opens by the supply pressure of the hydrogen gas and closes in a watertight state when the supply pressure is reduced is provided. A hydrogen water generation / storage container characterized by being provided.