JP2017086869A - Hydrogen supply system - Google Patents

Abstract

An object of the present invention is to provide a method that facilitates absorption of hydrogen into the body and enhance the health promotion effect of hydrogen. A hydrogen supply system that supplies hydrogen gas, a hydrogen mixed mist obtained by mixing hydrogen and mist and / or air, a hydrogen air mixed gas, or a hydrogen fog air mixed gas, and sucks into an outlet of the hydrogen supply system. The mask 23 is connected, the mouth and / or nose is applied to the inhalation mask, and hydrogen, hydrogen mixed mist, hydrogen-air mixed gas, hydrogen-air mixed gas, or hydrogen-mist mixed gas is supplied from the mouth and / or nose. It is characterized by being inhalable. In addition, a hair cap is attached to the outlet of the hydrogen supply system so that hydrogen can be supplied to the inside of the hair cap so that when the hair cap is attached to the head, the head can be contacted with hydrogen, etc. It is characterized by that. [Selection] Figure 1

Description

The present invention relates to a health system using hydrogen gas.

In recent years, hydrogen has attracted attention as a fuel for hydrogen automobiles, but it has been reported that hydrogen water in which hydrogen is dissolved in water is useful for health promotion. For example, when drinking hydrogen water on a daily basis, cells are rejuvenated, such as aging care, which is effective not only for beauty but also for various diseases. Some hospitals take hydrogen as part of their treatment. Is adopted. (Patent Document 1)

JP 2009-22777

It is to provide a more useful method for health promotion than hydrogen water. In particular, it aims to provide a method that facilitates the absorption of hydrogen into the body and to enhance the health promotion effect of hydrogen.

The present invention is a hydrogen supply system for supplying hydrogen gas, a hydrogen mixed mist obtained by mixing hydrogen and mist and / or air, a hydrogen air mixed gas, or a hydrogen fog air mixed gas. It is a health device for supplying a mist, a hydrogen-air mixed gas, or a hydrogen-mist mixed gas to the body to promote physical health, and specifically has the following characteristics.
(1) The present invention provides a hydrogen supply system including a hydrogen generator characterized by supplying hydrogen generated by the hydrogen generator to the body, or supplies hydrogen generated by the hydrogen generator to the body. A hydrogen supply system including a hydrogen generation device, further including a mist generation device and / or an air supply device, wherein the mist generated by the mist generation device and / or air supplied from the air supply device is supplied to the hydrogen generation device A hydrogen supply system characterized in that a gas mixed with hydrogen generated in the apparatus is supplied to the body, wherein the hydrogen is hydrogen generated in the hydrogen generator, and hydrogen generated in the hydrogen generator is introduced into the hydrogen It is hydrogen that has been led into the water that has entered the container (hydrogen collecting container) through the pipe and collected in the container (hydrogen collecting container). A bubbler is attached to the hydrogen outlet of the hydrogen introduction pipe. And location, characterized by the use of hydrogen water produced by the hydrogen trapping vessel as a health water.

(2) The present invention is an introduction pipe for introducing hydrogen, a hydrogen mixed mist introduction pipe for introducing a hydrogen mixed mist in which hydrogen and mist are mixed, or a hydrogen air mixing for introducing a hydrogen air mixed gas in which hydrogen and air are mixed. A gas introduction tube or a hydrogen atomization air mixture gas introduction tube for introducing a hydrogen atomization air mixed gas in which hydrogen, fog, and air are mixed is connected to an inhalation mask, and the mouth and / or nose is applied to the inhalation mask. And / or hydrogen or a hydrogen mixed mist, a hydrogen air mixed gas, or a hydrogen fog air mixed gas can be inhaled from the nose.
(3) The present invention is an introduction tube for introducing hydrogen, a hydrogen mixed mist introduction tube for introducing a hydrogen mixed mist mixed with hydrogen and mist, or a hydrogen air mixture for introducing a hydrogen air mixed gas in which hydrogen and air are mixed. A gas introduction tube or a hydrogen atomization air mixture gas introduction tube for introducing a hydrogen atomization air mixed gas in which hydrogen, fog, and air are mixed is connected to an eye washing container having an opening, and the opening of the eye washing container is It is characterized in that hydrogen, a hydrogen mixed mist, a hydrogen air mixed gas, or a hydrogen fog air mixed gas can be brought into contact with eyes, or an introduction pipe for introducing hydrogen, or hydrogen Hydrogen mixed mist introduction pipe that introduces hydrogen mixed mist mixed with water and mist, hydrogen air mixed gas introduction pipe that introduces hydrogen air mixed gas mixed with hydrogen and air, or hydrogen, mist and air A hydrogen atomized air mixed gas introduction pipe for introducing the combined hydrogen atomized air mixed gas is connected to goggles, and hydrogen, hydrogen mixed mist, hydrogen air mixed gas, or hydrogen atomized air mixed gas is placed inside the goggles. , Characterized by being able to supply and making eye contact with hydrogen, hydrogen mixed mist, hydrogen air mixed gas, or hydrogen fog air mixed gas when wearing goggles on the eye .

(4) The present invention is an introduction pipe for introducing hydrogen, a hydrogen mixed mist introduction pipe for introducing hydrogen mixed mist mixed with hydrogen and mist, or a hydrogen-air mixture for introducing hydrogen-air mixed gas mixed with hydrogen and air. A gas introduction tube or a hydrogen atomization air mixture gas introduction tube that introduces a hydrogen atomization air mixture gas in which hydrogen, mist, and air are mixed is attached to the hair cap, and hydrogen, hydrogen mixture mist, or hydrogen inside the hair cap Allow to supply air mixed gas, or hydrogen fog air mixed gas, and when wearing a hair cap on the head, hydrogen or hydrogen mixed mist, or hydrogen air mixed gas, or hydrogen fog air mixed on the head Makes it possible to contact gas, and a hair band is attached to the hair cap, and the hair cap is attached to the head and the hair cap is tightened to the head with the hair band. In addition, the hair cap is equipped with an outlet for degassing the hydrogen between the hair cap and the head, hydrogen mixed mist, hydrogen air mixed gas, or hydrogen atomized air mixed gas. And
(5) The present invention is an introduction pipe for introducing hydrogen, a hydrogen mixed mist introduction pipe for introducing hydrogen mixed mist mixed with hydrogen and mist, or a hydrogen-air mixture for introducing hydrogen-air mixed gas mixed with hydrogen and air. A gas introduction pipe or a hydrogen atomization air mixture gas introduction pipe that introduces a hydrogen atomization air mixed gas in which hydrogen, mist, and air are mixed is connected to a box having an opening, and hydrogen or hydrogen mixture mist in the box, or When a hydrogen air mixed gas or a hydrogen mist air mixed gas can be supplied and the legs are put into the box through the opening, hydrogen or hydrogen mixed mist, or Allow hydrogen-air mixed gas or hydrogen-mist air mixed gas to come into contact, and tighten the legs at the opening of the box after putting the legs into the box from the opening And an outlet for venting the hydrogen, hydrogen mixed mist, hydrogen air mixed gas, or hydrogen fog air mixed gas in the box is attached to the box, and the water generated in the box is further attached to the box. The exhaust port which discharges is attached.

(6) The present invention is an introduction pipe for introducing hydrogen, a hydrogen mixed mist introduction pipe for introducing hydrogen mixed mist mixed with hydrogen and mist, or a hydrogen-air mixture for introducing hydrogen-air mixed gas mixed with hydrogen and air. A gas introduction pipe or a hydrogen atomization / air mixture gas introduction pipe for introducing a hydrogen atomization / air mixture gas in which hydrogen, fog and air are mixed is connected to a skirt having an opening, and hydrogen or hydrogen mixture mist is provided inside the skirt. , Or a hydrogen-air mixture gas, or a hydrogen-mist-air mixture gas can be supplied, the lower body is passed through the skirt through the opening, and the lower body placed in the skirt is supplied with hydrogen, or a hydrogen-mixed mist, or hydrogen-air Allow the mixed gas or hydrogen atomized air mixed gas to come into contact, and at the skirt opening, put the lower body into the box after opening the lower body from the opening. The skirt has a closed skirt and the skirt is closed, and the hydrogen, hydrogen mixed mist, hydrogen-air mixed gas, or hydrogen-mist-air mixed gas introduced into the skirt is vented to the skirt. An outlet is attached, and a drainage port for discharging water generated in the skirt is attached to the skirt.
(7) The present invention is an introduction pipe for introducing hydrogen, a hydrogen mixed mist introduction pipe for introducing a hydrogen mixed mist mixed with hydrogen and mist, or a hydrogen air mixing for introducing a hydrogen air mixed gas in which hydrogen and air are mixed. A gas introduction pipe or a hydrogen fog air mixture gas introduction pipe for introducing a hydrogen fog air mixture gas in which hydrogen, mist and air are mixed is connected to a sauna having an opening, and hydrogen or hydrogen mixture mist in the sauna, Or make it possible to supply hydrogen-air mixed gas or hydrogen-mist air mixed gas, put the body into the sauna through the opening, hydrogen into the sauna, hydrogen mixed mist, or hydrogen-air mixed It is characterized by being able to come into contact with gas or hydrogen mist mixed gas, and at the opening of the sauna, the body (lower body and upper body) is opened from the opening into the sauna. It has a mechanism that tightens the neck or upper body after putting in, and has an outlet for venting hydrogen introduced into the sauna, hydrogen mixed mist, hydrogen air mixed gas, or hydrogen fog air mixed gas into the sauna And

(8) The present invention provides an introduction pipe for introducing hydrogen into a box having an opening, a hydrogen mixed mist introduction pipe for introducing hydrogen mixed mist mixed with hydrogen and mist, or a hydrogen-air mixed gas in which hydrogen and air are mixed. Connect a hydrogen-air mixed gas introduction tube that introduces hydrogen, or a hydrogen-mist air mixed gas introduction tube that introduces a hydrogen-mist mixed gas mixed with mist and air, and insert it into the box through the opening. And hydrogen or hydrogen mixed mist supplied from the introduction pipe, hydrogen air mixed gas, or hydrogen fog air mixed gas is applied to the claws.
(9) In the present invention, the inhalation mask, the goggles, the hair cap, the box, the skirt, or the sauna is partially or entirely made of metal, plastic, aluminum foil or metal foil. It is characterized by being.

(10) The present invention is a hydrogen-air mixed gas jetting apparatus capable of jetting a hydrogen-air mixed gas by mixing hydrogen and air, and a substantially cylinder provided with a nozzle (hydrogen jet nozzle) for jetting hydrogen at the tip. A hydrogen passage cylinder, and a needle that opens and closes the hydrogen ejection nozzle port of the hydrogen ejection nozzle along the axial core of the hydrogen passage cylinder is inserted so as to be able to advance and retreat in the axial direction. Air (compressed air) is supplied to the air passage arranged in the air passage through the air valve, and the air passing through the air passage is introduced into the hydrogen air mixing section arranged at the outlet of the hydrogen ejection nozzle. Hydrogen / air mixed gas jetting device characterized by mixing hydrogen and air coming out of the hydrogen jet nozzle port and jetting hydrogen / air mixed gas to the outside from a nozzle (hydrogen / air mixed gas jet nozzle) connected to the hydrogen air mixing section A.
(11) In addition to (10), the present invention includes an operation lever (needle movement operation lever) that moves a needle that opens and closes the hydrogen ejection nozzle port so as to advance and retreat in the axial direction, and a hydrogen-air mixed gas ejection device. Equipped with an operating lever (air valve operating lever) that opens and closes an air valve that adjusts the amount of air to be introduced, and an adjusting device (needle position adjusting device) that can adjust the stop position of the hydrogen ejection nozzle port of the needle The adjusting device is connected to the needle moving lever.

By inhaling hydrogen, hydrogen mixed mist, hydrogen air mixed gas, or hydrogen fog air mixed gas of the present invention from the mouth and nose, hydrogen can be absorbed into the body from the mouth, throat, nose, organ, lung, etc. . As a result, a decrease in blood pressure and a decrease in blood sugar level can be expected. It can also be expected to prevent eye fatigue by bringing the hydrogen, hydrogen mixed mist, hydrogen air mixed gas, or hydrogen fog air mixed gas of the present invention into contact with the eye. By bringing the hydrogen, hydrogen mixed mist, hydrogen-air mixed gas, or hydrogen-mist-air mixed gas of the present invention into contact with the head, it can be expected that the blood flow of the head is made smooth and the rotation of the head is improved. Although only hydrogen is effective, various health promotion effects can be enhanced even by using hydrogen mixed mist, hydrogen air mixed gas, or hydrogen fog air mixed gas.

FIG. 1 is a diagram showing a first embodiment of the present invention. FIG. 2 is a diagram showing a second embodiment of the present invention. FIG. 3 is a diagram showing a third embodiment of the present invention. FIG. 4 is a diagram showing a fourth embodiment of the present invention. FIG. 5 is a diagram showing a fifth embodiment of the present invention. FIG. 6 is a diagram showing a sixth embodiment of the present invention. FIG. 7 is a diagram showing an embodiment of a bubbler. FIG. 8 is a view showing an apparatus for bringing hydrogen or the like into contact with hands and claws. FIG. 9 is a diagram showing blood flow in the capillaries of the hand before and after hydrogen injection. FIG. 10 is a view showing a hydrogen-air mixed gas ejection device capable of mixing hydrogen and air and ejecting a hydrogen-air mixed gas from a nozzle.

The present invention relates to a system in which hydrogen gas is mixed with hydrogen or a mist in which small water droplets are collected (hereinafter referred to as a hydrogen atomization system) and a health promotion method using the system, and a mixed gas of hydrogen and air. The present invention relates to a health promotion method using hydrogen, and further relates to a health promotion method using a mixed gas of hydrogen, air and mist. FIG. 1 is a diagram showing a first embodiment of the present invention. A hydrogen atomization system 10 according to the first embodiment of the present invention includes a hydrogen generator 11 and a hydrogen water container (hydrogen) that introduces hydrogen generated in the hydrogen generator 11 through a hydrogen introduction pipe (first hydrogen introduction pipe) 15. The hydrogen collected from the collection container 17 and the hydrogen water container is further mixed with the mist generated from the mist generation device 22 through the hydrogen introduction pipe (second hydrogen introduction pipe) 19, and the mist A suction mask 23 and a suction port 24 for sucking a mixed gas of hydrogen and hydrogen (referred to as hydrogen mixed mist) through the mouth and / or nose.

In the hydrogen generator 11, after the hydrogen generator holder 12 containing the calcium oxide agent (CaO) and aluminum (Al) is placed in the hydrogen generation container 11, when water is placed in the hydrogen generation container 11, aluminum (Al) Becomes a hydrogen generation reaction accelerator, and hydrogen (H2) is generated. The hydrogen generation container 11 is covered with a cap 13. When hydrogen (H2) is generated, hydrogen collects in the space below the lid (cap) 13 that is the upper part of the hydrogen generation container 11 and the pressure in the space below the cap 13 of the hydrogen generation container 11 increases. A gas outlet 14 is formed in the cap 13, and hydrogen in the hydrogen generation container 11 is pushed out from the gas outlet 14. Since the hydrogen inlet pipe 15 is connected to the gas outlet 14, the hydrogen pushed out from the gas outlet 14 passes through the hydrogen inlet pipe 15.

Water is contained in the hydrogen water container 17 and its entrance is closed by a lid 25, and a space exists between the lid 25 and the water in the hydrogen water container 17. The hydrogen introduction pipe 15 is connected to a hydrogen introduction inlet 18 formed in the lid 25. Further, the hydrogen introduction inlet 18 is connected to a hydrogen suction pipe 16 in the hydrogen water container 17, and the hydrogen suction pipe 16 is connected to the hydrogen water container. 17 enters the water, and exits into the hydrogen water container 17 from the outlet of the hydrogen suction pipe 16 placed in the water. The hydrogen that has flowed into the water of the hydrogen water container 17 gathers in the space above the hydrogen water container (hydrogen collecting container) 17 and hydrogen is collected. The hydrogen collected in the hydrogen collection container goes out from the outlet 26 formed in the lid 25 of the hydrogen water container 17. A second hydrogen introduction pipe 19 is connected to the outlet 26 of the lid 25 of the hydrogen water container 17, and the outlet 20 of the second hydrogen introduction pipe 19 is connected to the introduction pipe 81 and the suction mask 23 of the mist generator 22. To the hydrogen inlet 21 of the connecting portion (connecting pipe) 27. The water put in the hydrogen water container 17 is a hydrogen water that is dissolved and can be drinkable.

Further, if the air supplied from the air supply pipe 29 from the air supply device 29 is connected to the connecting portion (connecting pipe) 27, the air is further mixed with the mixed gas of hydrogen and mist (mist) (hydrogen mixed mist). This mixed gas (hydrogen atomized air mixed gas) can be taken out from the suction mask 23. An example of the air supply device 29 is an air compressor. If the mist generating device 22 is not connected, a hydrogen-air mixed gas in which hydrogen and air are mixed can be discharged from the suction mask 23. If neither the mist generator 22 nor the air supply device 29 is connected, hydrogen can be taken out from the suction mask 23. By adjusting the amount of hydrogen coming out of the hydrogen generator, the amount of mist (mist) coming out of the mist generating device 22 and the amount of air coming out of the air supply device 29, the respective mixing ratios can be adjusted. Further, a heating device such as a heater or a cooling device is attached to the hydrogen introduction tube, the mist (mist) introduction tube, and / or the air supply tube to heat or cool the hydrogen, mist (mist), and / or air. You can also. A heating wire, infrared rays, or the like can be used as the heater. The Peltier method can be used as a cooling device.

It is also possible to connect a bubbler 28 to the outlet of the hydrogen suction pipe 16 to generate a large number of hydrogen bubbles through the bubbler 28. By generating a large number of hydrogen bubbles, hydrogen can be efficiently dissolved in the water contained in the hydrogen water container 17. That is, high concentration hydrogen water can be produced. The hydrogen saturation concentration of water at 1 atm is about 1.6 ppm, but if a bubbler 28 is used, this value can be brought close to this value efficiently in a short time. If the pressure in the hydrogen water container 17 is increased, the hydrogen saturation concentration of water can be further increased. Of course, even if the bubbler 28 is attached, the amount of hydrogen that goes out to the space above the hydrogen water container 17 is hardly changed.

FIG. 7 is a diagram showing an embodiment of a bubbler. FIG. 7A shows an embodiment of the first bubbler, and shows a state in which a horizontal pipe 51 is connected to the outlet of the hydrogen suction pipe 16 and a bubbler 55 is attached to the hydrogen outlet of the horizontal pipe 51. The lower part of the bubbler 55 is connected to the hydrogen outlet of the horizontal pipe 51, and hydrogen enters the inside of the bubbler 55 from the lower part of the bubbler 55, passes through the filter 53, and passes through the mesh 54 in which a large number of pores are formed. Goes out into the water. Hydrogen is dispersed by a large number of pores, and the hydrogen enters into water as fine bubbles (bubbles) 61. If the outlet at the top of the bubbler 55 is widened, bubbles can be dispersed in a wide range of water. The filter 53 is for removing foreign matters when the foreign matter has entered the hydrogen that has entered the hydrogen suction pipe 16 and the horizontal pipe 51. However, in the system shown in FIG. Therefore, the filter 53 need not be attached. Since hydrogen molecules are very small (1-3 angstroms), if a mesh 54 having pores larger than this size is produced, smaller-sized hydrogen bubbles can be generated. Examples of the mesh 54 include various metal meshes and various porous bodies (for example, porous fibers, sponge bodies, and porous ceramics). The bubbler 55 is replaceable, and can be replaced when the bubbler 55 is changed to a bubbler of various sizes, a bubbler having various mesh filters, or the bubbler 55 becomes dirty or damaged.

FIG. 7B shows an embodiment of the second bubbler. A horizontal pipe 57 is connected to the outlet of the hydrogen suction pipe 16, and a large number of pores 58 are formed in the horizontal pipe 57. For example, the material of the hydrogen suction pipe 16 is glass, quartz, plastic, metal, or ceramic, and the horizontal pipe 57 is also glass, quartz, plastic, metal, or ceramic. The hydrogen that has entered the horizontal tube 57 goes out into the water from a large number of pores 58 and becomes small bubbles 61. Depending on the desired bubble size, the pores 58 can be formed in a size of 1 nm to several mm. Various horizontal tubes 57 having various pore sizes can be prepared, and the horizontal tubes 57 can be exchanged according to a desired bubble size. A mesh or a filter may be placed in the horizontal tube 57. Hydrogen nanobubbles having a size of 100 nm or less obtained from pores of 10 to 100 nm or less have a high saturation concentration in water, and hydrogen dissolved in water is difficult to escape to the outside, so that the effect as hydrogen water can be sustained for a long time.

FIG. 7C shows an embodiment of the third bubbler, in which the mesh-like body 59 is attached directly to the outlet of the hydrogen suction pipe 16. In the mesh state 59, small pores are connected, so that hydrogen that has exited from the outlet of the hydrogen suction pipe 16 goes out into the water through the connected pores and exits as small bubbles 61. Since the hydrogen coming out of the hydrogen suction pipe 16 is clean and does not contain foreign matter, the mesh-like body 59 will not be clogged. Conversely, if the mesh-like body 59 is clogged due to formation of foreign matter or compounds in water, it can be replaced. good. Examples of the mesh-like body 59 include various metal meshes and various porous bodies (for example, porous fibers, sponge bodies, porous ceramics). Various bubblers other than the bubblers described in FIGS. 7A to 7C can be used. Also, the bubbler can be covered with a cover such as cloth or sponge.

The hydrogen that has passed through the second hydrogen introduction pipe 19 enters the connection portion 27 from the hydrogen inlet 21 of the connection portion 27, mixes with the mist that emerges from the mist (mist) generator 22, and is mixed with the suction port 24 of the suction mask 23. Go out from. Further, the air coming out from the air supply device 29 is mixed and comes out from the suction port 24 of the suction mask 23. In the following, hydrogen mixed mist (hydrogen mist mixed gas) will be mainly described, but hydrogen-only gas, hydrogen-air mixed gas mixed with hydrogen and air, or hydrogen-misted air mixed with hydrogen, mist (mist) and air The same applies to the mixed gas. If the mouth is open and attached to the inlet 24, a mixed gas of mist and hydrogen gas in the mouth (to be exact, since mist is not a gas, it can be called hydrogen mixed mist (mist) or steam hydrogen. Good) enters. The mist moderately moistens the mucous membrane in the mouth and throat, but hydrogen enters the body through the moist mucosa and improves the blood condition. Hydrogen that has reached the organs and lungs in the back of the throat also enters the body, revitalizing blood vessels and cells. In particular, hydrogen is easily combined with active oxygen, so it is considered that the aging phenomenon can be suppressed by making the active oxygen in the body harmless. Furthermore, cancer prevention effect can be expected. If a nose is attached to the suction port 24 and a mist containing hydrogen (mixed gas of mist and hydrogen gas) is sucked from the nose, hydrogen can also be efficiently absorbed from the mucous membrane of the nose. By applying hydrogen or the like from the apparatus shown in FIG. 1 to the skin of the face or body, fatigue or aging can be prevented. In particular, the effect can be enhanced by directly applying the suction port 24 to the skin.

Since the hydrogen contained in the hydrogen water container 17 is dissolved, the hydrogen water can be drunk after the role of hydrogen suction is finished. It is more effective if you drink it as soon as hydrogen dissolved in water cannot escape. Further, the hydrogen generated in the hydrogen generating container 11 may be directly connected to the mist (mist) generating device 22 without using the hydrogen water container 17. That is, the first hydrogen introduction pipe 15 is connected to the hydrogen inlet 21 of the connecting portion 27 between the mist generating device 22 and the suction port 24. In the hydrogen generator 11, water is added to calcium oxide to generate hydrogen, but other hydrogen generation methods may be used. For example, there are a method of using hydrogen in a hydrogen cylinder at a reduced pressure, a method of using hydrogen generated by electrolysis of water, and a method of using hydrogen generated by alcohol reforming such as methanol or ethanol. Another effective method is to take hydrogen from hydrogen stations that will be installed in the future. A normal commercially available mist generator can be used as the mist generator.

FIG. 2 is a diagram showing a second embodiment of the present invention, in which the hydrogen atomization system (steam hydrogen system) of the present invention is applied to a hair cap. A hydrogen gas inlet 32 is provided at the outlet 39 of the mist generating device 31 to introduce hydrogen gas. Hydrogen gas is generated in the hydrogen generator 42, passes through the hydrogen gas tube 44 connected to the outlet 43 of the hydrogen generator 42, and enters the hydrogen gas inlet 32 connected to the hydrogen gas tube 44. The mist and hydrogen generated in the mist (mist) generator 31 are mixed at the outlet 39 of the mist generator 31 and the mixed gas (hydrogen mixed mist) enters the outlet 39 of the (mist) generator 31. It passes through the connected mixed gas tube 33. Since the mixed gas tube 33 is connected to the hydrogen gas inlet 38 of the hair cap 36 for injecting hydrogen gas placed on the head of the human 35, the mixed gas of mist and hydrogen (hydrogen mixed mist) is the hair cap for injecting hydrogen gas. 36. The hair cap 36 for hydrogen gas injection is composed of a cap sheet 40 and a hair band 37 attached to the peripheral edge thereof.

When the hair cap 36 for hydrogen gas injection is put on the head and the periphery of the head is tightened with the hair band 37, the space between the head and the hair cap 36 for hydrogen gas injection is sealed. Therefore, when a mixed gas of mist and hydrogen (hydrogen mixed mist) is put into the hair cap 36 for hydrogen gas injection, the hydrogen gas enters between the head and the hair cap 36, and the hair cap 36 for hydrogen gas injection swells. In addition, pressure from the mixed gas of mist and hydrogen is applied to the head. The head is moderately wet by the mist and the scalp is soft. In addition, since the hydrogen gas has a small molecular size, the hydrogen gas enters the head through the softened scalp through the softened scalp. As a result, blood flow is improved, the state of the head is relaxed, there are anti-damage hair measures and hair removal / cut hair prevention effects, and a hair growth effect and a beauty effect are also expected. By providing a mechanism for heating the hydrogen mixed mist (steam hydrogen), the head can be warmed appropriately, and the above effects can be enhanced. Note that the pressure of the hydrogen mixed mist can be adjusted by the pressure of the hydrogen generator 42 and the mist generator 31, and the pressure can also be adjusted by connecting a compressor or the like. It is also possible to increase the pressure upstream of the hydrogen mixed mist and adjust the pressure via a pressure reducing valve or a pressure gauge.

The cap sheet 40 may be made of a material that does not leak hydrogen (does not pass through) and does not deteriorate even when wet. For example, metals such as aluminum, copper, iron, nickel, zinc, and titanium, alloys thereof, materials based on these metals, or plastics such as polyethylene, PET (polyethylene terephthalate), PC (polycarbonate), and polyprene. . Or the material which combined these may be sufficient. For example, a plastic laminated with a metal foil such as an aluminum foil may be used. Metals are hard to permeate hydrogen, but plastics are easy to permeate hydrogen. By combining these, the advantages of plastics (light, etc.) and the advantages of metals (hard to permeate hydrogen, etc.) can be utilized. However, since the hydrogen permeation amount is not so large even if it is kept for several hours, even if it is plastic alone, there is no particular problem in applying the present invention.

In the description of FIG. 2, the hydrogen gas injection hair cap 36 is introduced with a mixed gas of hydrogen and mist. However, other gas (for example, air, oxygen, nitrogen) or liquid (for example, alcohol) may be included. good. Alternatively, the mist may not be included (that is, the mist generating device 22 is not used at this time), but since the softness of the scalp is reduced by the mist, the proportion of hydrogen entering the head is slightly reduced. there's a possibility that. Or you may provide an air supply apparatus similarly to FIG. 1, and may mix air with hydrogen or hydrogen mixing mist. Alternatively, hydrogen and air may be mixed. Further, when the pressure in the hydrogen gas injecting hair cap 36 increases, the head is moderately pressed, so that comfort is also felt. This is preferable, but when the pressure is too high, the feeling of pressure becomes too strong or the hair cap 36 for injecting hydrogen gas is used. Ruptures or the hair band 37 comes off and breaks. Therefore, a check valve (one-way valve) is attached to the hair cap 36 for hydrogen gas injection, or when the pressure exceeds a certain pressure, the hair band 37 does not break. You may make it come off. Alternatively, the hair cap 36 may be provided with an outlet pipe or an outlet hole 41 for degassing the hydrogen mixed mist. The outlet pipe 41 can be provided with a valve to adjust the pressure between the hair cap 36 and the head. If the cap sheet of the present invention is attached to the head and hydrogen or a mixed gas is injected into the head, the head relaxes, the head rotates better, and the memory ability improves. In addition, it can be used to prevent dementia and reduce social security expenses such as medical expenses.

If the mixed gas of mist and hydrogen gas of the present invention is supplied to the eyes, eye fatigue can be easily recovered. For example, if you wear eyeglasses that cover your eyes, such as goggles, supply fog and hydrogen gas to the glasses, and apply moderate pressure (for example, 1 atm to 2.0 atm), your eyes will be moistened with fog. Hydrogen is absorbed by the eyeball, lens, retina, cells and blood vessels surrounding them, lymph vessels, etc., and can relieve eye fatigue. Glasses may be fogged by fog or water may accumulate in the glasses, so a function to reduce the amount of fog or a function to discharge water can be attached. Further, a check valve may be attached so that the excessive pressure does not increase (for example, 2 atm or more).

FIG. 3 is a diagram showing a third embodiment of the present invention, in which an eye wash container (eye wash container) system using a hydrogen mixed mist in which hydrogen gas and mist are mixed (this is an eye hydrogen mixed mist contact eye wash container and FIG. The eye hydrogen-mixed mist contact eyewash container 110 of the present invention is a container having an opening 113 facing the eyes (eye part) and a hydrogen-mixed mist inlet 112 for introducing a hydrogen-mixed mist obtained by mixing hydrogen gas and mist. A hydrogen mixing mist introduction pipe (introduction part) 114 is connected to the hydrogen mixing mist introduction port 112 of the container body 111, and a mist passage pipe 117 through which mist (mist) passes is connected to the hydrogen mixing mist introduction pipe (introduction part) 114, The mist outlet pipe 116 of the mist generating device 115 is connected to the mist passage pipe 117. A hydrogen passage 122 is also connected to the hydrogen mixed mist introduction pipe (introduction section) 114, and the hydrogen passage 122 is connected to the hydrogen outlet 121 of the hydrogen generator 120. Accordingly, the mist (mist) M generated in the mist generator 115 passes through the mist passage 117 and enters the hydrogen mixed mist introduction pipe (introduction section) 114, and the hydrogen H2 generated in the hydrogen generator 120 is The hydrogen mixed mist introduction pipe (introduction section) 114 enters through the hydrogen passage pipe 122.

As a result, the mist (mist) M and hydrogen H2 are mixed in the hydrogen mixed mist introduction pipe (introduction section) 114. The container main body 111 has a space extending from the hydrogen mixed mist inlet 112, and directs the opening 112 toward the eyes or touches the skin (eye) around the eyes. Therefore, the hydrogen mixed mist that has come out of the hydrogen mixed mist introducing pipe (introducing portion) 114 and spread to the container main body 111 comes into contact with eyes. The hydrogen mixed mist in contact with the eyes makes it easier to recover eye fatigue and the like as described in goggles glasses. In addition, the eye can be treated by mixing eye drops with a hydrogen mixed mist. The eye drops can be mixed, for example, with water, which is a mist raw material, in the mist generator 115 and mixed with the mist generated in the mist generator 115. Alternatively, the mist may not be included (that is, the mist generating device 115 is not used at this time). Alternatively, an air supply device is provided in the same manner as in FIG. 1 to mix air with hydrogen or a hydrogen mixed mist. You may let them. Alternatively, a mixed gas of hydrogen and air can be supplied. When the opening 113 is in close contact with the eye, the pressure in the space in the container body 111 is increased and the eyes are pressed. If the hydrogen mixture mist leaks from the contact part between the opening 112 and the eye part even if the opening part 112 is in close contact with the eye part, and the pressure in the container body 111 does not become so high as to affect the eyes, the container body 111 is charged with hydrogen. It is not necessary to provide an outlet pipe or an outlet hole for degassing the mixed mist.

FIG. 4 is a diagram showing a fourth embodiment of the present invention, and is a diagram showing a leg hydrogen mixed mist contact box system 130 using a hydrogen mixed mist obtained by mixing hydrogen gas and mist of the present invention. In FIG. 4, the box 131 is depicted in a perspective view so that the state of the legs 133 in the box 131 can be seen. The leg hydrogen mixed mist contact box 131 of the present invention has a hydrogen mixed mist inlet 134 for introducing a hydrogen mixed mist mixed with hydrogen gas and mist, and an opening 132, and the leg 133 is connected to the box 131 from the opening 132. The legs 133 come into contact with the hydrogen mixed mist that has entered the box 131 and filled the box 131 through the hydrogen mixed mist inlet 134. The leg 133 in contact with the hydrogen-mixed mist feels moisture as the fatigue of the leg 133 is healed. In addition, blood flow in the legs and feet is improved, and cold and hypertension can be improved. In particular, hydrogen is expected to enter the leg through the skin of the leg and improve the condition of the leg. If a heating mechanism such as an electric heater, an infrared heater, or a far infrared heater is provided in the box 131 and the legs are heated to an appropriate temperature, the effect is enhanced. The heating mechanism can also be arranged on the part where the sole is placed (that is, the bottom of the box 131). Alternatively, a heating mechanism may be attached to the mist (mist) generator 138 to warm the mist (mist). In this case, the mist (mist) can also be called steam, and the system of the leg hydrogen mixed mist contact box of the present invention may be called a steam hydrogen warm foot sauna.

If the opening 132 is wide, the leg 133 can be easily inserted. However, since the hydrogen mixed mist, particularly hydrogen, easily escapes from the opening 132, it is desirable to make the opening 132 small. In particular, if only the portion 145 for inserting the leg 133 is opened and narrowed, the hydrogen mixed mist can stay in the box 131 for a long time and the effect can be maintained, and the amount of the hydrogen mixed mist can be reduced. it can. If the tightening of the leg part 133 of the narrowed opening 145 is appropriately adjusted, even if the pressure in the box 131 is increased by the hydrogen mixing mist, the hydrogen mixing mist will come out from the tightening part of the leg 133 of the opening 145. The pressure in the box 131 will not increase excessively. For tightening the leg 133 of the opening 145, for example, the opening 145 can be provided with an adjustment band to adjust the degree of tightening. An outlet 135 for degassing the hydrogen mixed mist introduced into the box 131 may be attached to the box 131. Further, a gas venting adjustment valve may be provided in the outlet pipe 135 to adjust the pressure in the box 131. good. Further, since water droplets are stored at the bottom of the box 131 by the hydrogen mixed mist, a drain outlet 136 for discharging the stored water to the outside may be provided. If a valve is attached to the drain pipe 136, the drain can be appropriately drained.

A mist passage 140 through which mist passes is connected to the hydrogen mixing mist inlet 134, and the mist outlet 139 of the mist generator 138 is connected to the mist passage 140. A hydrogen passage 143 is also connected to the mist outlet 139, the mist passage 140, or the hydrogen mixed mist inlet 134, and the hydrogen passage 143 is connected to the hydrogen outlet 142 of the hydrogen generator 141. Accordingly, the mist generated in the mist generating device 138 passes through the mist passage 140 and enters the hydrogen mixed mist introducing tube (introducing portion) 134, and the hydrogen H2 generated in the hydrogen generating device 141 is hydrogen. The hydrogen mixed mist introduction pipe (introduction part) 134 etc. enters through the through pipe 143 and becomes hydrogen mixed mist there. Alternatively, the mist may not be included (that is, the mist generating device 138 is not used at this time). Alternatively, an air supply device is provided in the same manner as in FIG. 1 to mix hydrogen or hydrogen into the hydrogen mixed mist. You may let them. The material of the box 131 is plastic such as acrylic, polyethylene, polycarbonate, polyprene and various ceramics, or metals such as aluminum, zinc, copper and various alloys, composites thereof, plastics and various ceramics laminated with metal foil such as aluminum, Timber. Although plastics permeate hydrogen, the amount of hydrogen that can be kept in the leg box is only a few hours at most, so the amount of hydrogen that permeates in this amount of time is small, so there is no particular problem. The metal or metal foil laminated has no problem because the hydrogen permeation amount is extremely small. Other parts that pass through hydrogen or mist may be made of the above materials.

FIG. 5 is a view showing a fifth embodiment of the present invention, and a lower body hydrogen mixed mist contact skirt having an inlet and an opening (waist) for introducing a hydrogen mixed mist obtained by mixing hydrogen gas and mist of the present invention. FIG. In FIG. 5, the skirt 151 is depicted in a perspective view so that the state of the lower body 158 in the skirt 151 can be seen. The lower body hydrogen mixed mist contact skirt 151 of the present invention has a hydrogen mixed mist inlet 157 and an opening (waist part) 152 for introducing a hydrogen mixed mist obtained by mixing hydrogen gas and mist. The lower body 158 comes into contact with the hydrogen mixed mist that enters the skirt 151 and enters the skirt 151 through the hydrogen mixed mist inlet 157 and fills the skirt 151. (Here, the lower body 158 is preferably naked.) The lower body 158 that has come into contact with the hydrogen mixed mist heals the fatigue of the lower body 158 and feels moist. In particular, hydrogen is expected to enter the lower body through the skin of the lower body 158 to improve the state of the lower body. If a heating mechanism such as an electric heater, an infrared heater, or a far infrared heater is provided in the skirt 151 and the lower body is warmed to an appropriate temperature, the effect is enhanced. The heating mechanism can also be incorporated into the fabric part of the skirt.

If the fastening member 154 such as a belt is provided in the opening 152 of the skirt 151 and the fastening member 154 is appropriately tightened, the hydrogen mixed mist fills the skirt, and the overflowed hydrogen mixed mist is transferred to the lower end (hem portion of the skirt 151). ) Go out from 153. The skirt 153 can be closed and closed. In that case, the hydrogen mixed mist fills the skirt 151 and the pressure increases, but the hydrogen mixed mist goes out from the opening 152 depending on the tightening degree of the tightening member 154. Further, the skirt 151 may be provided with an outlet pipe or an outlet hole 155 for degassing the hydrogen mixed mist. It is also possible to provide a valve in the outlet pipe 155 to adjust the pressure in the skirt 151. When the skirt 153 is closed, water is stored at the bottom of the skirt 151. Therefore, a water discharge port and a discharge pipe 156 can be provided to discharge the stored water. A drainage adjustment valve can be provided in the moisture outlet or the discharge pipe 156 to adjust the drainage time and the drainage amount. The (hydrogen mixing) mist pipe 140 is connected to the hydrogen mixing mist inlet 157, and since this is the same as the hydrogen mixing mist generating mechanism shown in FIG. 4, the same reference numerals as those in FIG. Alternatively, the mist may not be included (that is, the mist generating device 138 is not used at this time). Alternatively, an air supply device is provided in the same manner as in FIG. 1 to mix hydrogen or hydrogen into the hydrogen mixed mist. You may let them.

FIG. 6 is a diagram showing a sixth embodiment of the present invention, in which a hydrogen mixed mist contact sauna (steam hydrogen bath) having an inlet and an opening for introducing a hydrogen mixed mist obtained by mixing hydrogen gas and mist of the present invention is shown. It is a figure which shows the system 160 of the which may be called. The hydrogen-mixed mist contact sauna 161 of the present invention has a hydrogen-mixed mist inlet 165 and an opening 163 for introducing a hydrogen-mixed mist obtained by mixing hydrogen gas and mist, and the body (lower body and upper body) 168 passes through the opening 163. Since hydrogen enters the sauna 161 and enters the sauna 161 from the hydrogen mixture mist inlet 165, the body (lower body and upper body) 168 comes into contact with the hydrogen mixture mist filled in the sauna 161.

The lower body and upper body 168 in contact with the hydrogen mixed mist heal the fatigue of the lower body and upper body 168 and feel moisture. In particular, hydrogen is expected to enter the body (lower body and upper body 168) through the skin of the lower body and upper body 168 to improve the state of the lower body and upper body. If a heating mechanism such as an electric heater, an infrared heater, or a far infrared heater is provided in the sauna 161 and the lower body is warmed to an appropriate temperature, the effect is enhanced. It is also possible to heat the hydrogen mixed mist (steam hydrogen) and introduce the heated steam hydrogen into the sauna 161. For example, the mist generating device 138 may be provided with a heating mechanism (thermal atomization mechanism) to warm the mist (mist). The opening 163 of the sauna 161 is provided with an opening adjusting mechanism 164 such as a fastener to adjust the size of the opening 163, thereby reducing the residence time of the hydrogen mixed mist entering the sauna 161 from the hydrogen mixed mist inlet 165. It can be lengthened, and the hydrogen mist charge can be saved. If a tightening portion for tightening the opening 163 at the neck portion or the body portion is provided, the residence time of the hydrogen mixed mist entering the sauna 161 from the hydrogen mixed mist inlet 165 can be further increased.

In this case, since the pressure by the hydrogen mixed mist in the sauna 161 increases, it is preferable to provide the sauna 161 with an outlet pipe or an outlet hole 167 for degassing the hydrogen mixed mist. A valve in the outlet pipe 167 can be provided to adjust the pressure in the sauna 161. Since water is stored at the bottom of the sauna 161, a water discharge port and a discharge pipe 166 can be provided to discharge the stored water. A drainage adjustment valve can be provided in the moisture outlet or the discharge pipe 166 to adjust the drainage timing and the drainage amount. A (hydrogen mixing) mist pipe 140 is connected to the hydrogen mixing mist inlet 165. Since this is the same as the hydrogen mixing mist generating mechanism shown in FIG. 4, the same reference numerals as those in FIG. Alternatively, the mist may not be included (that is, the mist generating device 138 is not used at this time). Alternatively, an air supply device is provided in the same manner as in FIG. 1 to mix hydrogen or hydrogen into the hydrogen mixed mist. You may let them.

If you carry a small hydrogen cylinder (containing compressed hydrogen or liquid helium) or a small hydrogen generator, it can be worn anywhere and anytime and can absorb hydrogen in your body, eyes, head, etc. If a pressure regulator is attached, hydrogen can be supplied at an appropriate pressure. Further, if a mixed gas of mist and hydrogen gas is supplied to the hair brush, the gloss of the hair can be increased and hydrogen can be absorbed from the hair root or the like. It can also be expected to prevent hair growth and baldness.

As described above, the hydrogen atomization system of the present invention can absorb hydrogen into the body together with the fog, increasing the body's hydrogen absorption efficiency, lowering blood pressure, stabilizing blood pressure, reducing blood sugar level, relieving stress Health promotion can be achieved by such effects. If the hydrogen atomization system of the present invention is used before, during and after sports, the training effect is increased. Moreover, if the elderly person uses the hydrogen atomization system of the present invention, it is effective in preventing aging and improving dementia. When the hydrogen atomization system of the present invention was used to inhale the hydrogen mixed mist for 10 minutes, the stress improved as data using a stress checker, and the blood pressure of a hypertensive person (blood pressure 170 or higher) decreased to 150 or lower. It is also possible to relax more comfortably by adding a scent to the mist.

So far, the hydrogen atomization system in which the hydrogen generator and the mist generator are combined has been described, but an air generator may be added in addition to the mist generator. For example, the introduction pipe 82 of the air generator 29 can be connected to the connection part (connection pipe) 27 of FIG. 1 to provide an air-mixed hydrogen atomization system in which hydrogen, mist, and air are mixed. This air-mixed hydrogen atomization system can also exhibit the same effects as the hydrogen atomization system. Further, a mixed gas of hydrogen and air can be supplied without using a mist generator. In this case, it can be called a hydrogen-air mixed gas system. If neither a mist generator nor an air generator is used, the hydrogen supply system supplies only hydrogen. The same applies to the other embodiments. The air generator is, for example, an air compressor, and the amount of air supplied from the air compressor may be adjusted.

FIG. 8 is a diagram showing an apparatus 71 for bringing a hand, claws into hydrogen, or mist and / or air (Air) in addition to hydrogen. Gas introduction pipes 73 and 78 are connected to the box 72, and hydrogen or mist and / or air (Air) is introduced into the box 72 through the gas introduction pipes 73 and 78. For example, the gas introduction pipe 73 may be connected to a mist generator, an air compressor or the like, and may be provided with an adjuster for introducing mist or air into the box 72 and adjusting the flow rate thereof. For example, the gas introduction pipe 78 may be connected to a hydrogen generator, introduce hydrogen into the box 72, and may each include a regulator for adjusting the flow rate thereof. Hydrogen introduced from the gas introduction pipe 78 and mist and / or air introduced from the gas introduction pipe 73 are mixed in the box 72. Alternatively, the gas introduction pipes 73 and 78 may be combined into one, and hydrogen, mist, or air may be mixed and introduced into the box 72. The hand 76 and the forearm (wrist) 75 are inserted from the opening side 74 of the box 72, and the fingernail side is arranged on the back side of the box 72. Gas introduction pipes 73 and 78 are connected to the back side of the box 72, and hydrogen or the like (hydrogen, mist, air, mixed gas thereof) is first contacted with the fingernail side. The hydrogen filled in the box 72 is pushed out from the opening 74. Hydrogen or mist and / or air (Air) is applied to the hand 76 and the forearm 75 so that hydrogen enters the body through these skins, preventing fatigue and aging of the skin, blood The flow can be improved. Further, the fingernail 77 and the back side of the fingernail 77 are also exposed to hydrogen or the like, so that the color and gloss of the fingernail 77 can be improved.

Although the present invention has been described with mist and / or air mixed with hydrogen, hydrogen alone is also effective. For example, in the embodiment as shown in FIG. 2, the hydrogen supplied from the hydrogen generator 42 is introduced into the hair cap 36 for hydrogen gas injection without using the mist generator 31, and the head is supplied with hydrogen. The effect is shown in FIG. That is, FIG. 9 is a diagram showing the blood capillaries and blood flow in the hand before and after hydrogen injection, and the blood capillaries and blood flows in the hand are viewed with a special microscope. As a special microscope of this kind, there is a capillary scope, for example. Before the hydrogen injection (FIG. 9A), the blood flow extends to the tip of the capillary one minute after the hydrogen injection (FIG. 9B), and a new capillary blood vessel. The blood flow into the capillary blood flow has improved, and 10 minutes after the hydrogen injection (FIG. 9C), the blood flow further extends to the tip of the capillary blood vessel. Thus, when hydrogen is supplied to the head, blood flow in the capillaries of the hand far away from the head is significantly improved, and the effect of supplying hydrogen is clearly seen. When hydrogen invades from a part of the body, it enters blood vessels, lymph vessels, etc., and is carried around the body through blood flow, lymph flow, etc. Since the hydrogen molecules are small, even if capillaries are thin, the inside of them At this time, blood flows into the capillaries that exist in the body. Inactive capillaries can be restored by hydrogen supply, new capillaries can be formed by hydrogen supply, and lymphatic flow is considered to be the same. Part or all hydrogen (including hydrogen, or a mixed gas of hydrogen and mist, or a mixed gas of hydrogen and air, a mixed gas of hydrogen, mist and air, or a mixture of these with other gases or liquids) When applied, the blood flow of capillaries in various parts of the body is improved, and recovery from fatigue, improvement of aging, improvement of swelling of various parts of the body and organs, improvement of dementia and dementia, improvement of other diseases and symptoms, etc. can be realized.

FIG. 10 is a diagram showing a hydrogen-air mixed gas ejecting apparatus 301 capable of mixing hydrogen and air and ejecting a hydrogen-air mixed gas from a nozzle. The hydrogen-air mixed gas ejection device 301 includes a hydrogen passage cylinder portion 312 inside, and the hydrogen passage cylinder portion 312 has a substantially cylindrical shape and has a hydrogen passage 328 whose inside is a substantially cylindrical cavity. A nozzle (hydrogen ejection nozzle) 311 for ejecting hydrogen is provided. The hydrogen passage 328 is connected to the hydrogen supply port 324, hydrogen is supplied from the hydrogen supply device through the hydrogen introduction pipe connected to the hydrogen supply port, and the hydrogen passage 328 is filled with hydrogen.

A needle 314 is disposed along an axial core portion 329 of the hydrogen passage cylinder portion 312, and the needle 314 is inserted so as to be able to advance and retreat (moving) in the axial core 329 direction, and a nozzle port of the hydrogen ejection nozzle 311 (hydrogen ejection nozzle) Port) 313 can be opened and closed, and hydrogen contained in the hydrogen passage 328 can be ejected from the hydrogen ejection nozzle port 313. Also, as shown in FIG. 10, the tip of the needle 314 has a conical shape, and the tip of the conical shape enters and exits the hydrogen ejection nozzle port 313, so the amount of hydrogen ejected from the hydrogen ejection nozzle port 313 Can be adjusted. That is, the conical tip portion of the needle 314 can be pushed into the hydrogen ejection nozzle port 313 to stop hydrogen from being ejected from the hydrogen ejection nozzle port 313, and the conical tip portion of the needle 314 is gradually moved from the hydrogen ejection nozzle port 313. If extracted, the amount of hydrogen discharged from the hydrogen jet nozzle port 313 can be increased little by little. If the pressure of hydrogen entering the hydrogen passage 328 from the hydrogen supply port 324 is increased, the pressure in the hydrogen passage 328 becomes higher than the pressure of the hydrogen air mixing unit 315 arranged outside the hydrogen ejection nozzle port 313. Hydrogen can be ejected from the ejection nozzle port 313 to the hydrogen air mixing unit 315.

The needle 314 is connected to a needle movement operation lever 319, and the needle 314 can be moved in the direction of the axis 329 by operating the needle movement operation lever 319. For example, the needle 314 can be moved in the axial direction by rotating the needle moving operation lever 319 in the direction of the arrow 330. When no force is normally applied to the needle operation lever 319, the conical tip of the needle 314 is completely pushed into the hydrogen ejection nozzle port 313, the hydrogen ejection nozzle port 313 is closed, and hydrogen ejection stops. Yes. In the case where the hydrogen supply stops, when the hydrogen supply device that supplies hydrogen to the hydrogen supply port 324 is a device that supplies hydrogen at a constant pressure (for example, when supplying from a hydrogen cylinder through a pressure regulator), the hydrogen passage The pressure of the portion containing hydrogen such as 328 does not increase, and the connection portion between the hydrogen introduction pipe and the hydrogen supply port 324 does not come off. However, when the hydrogen supply device is a hydrogen generator, the amount of hydrogen increases, so the pressure in the hydrogen passage 328 and other parts containing hydrogen increases, and the hydrogen introduction pipe and the hydrogen supply port 324 are increased. There is a possibility that a problem such as disconnection of the connection part with the.

Therefore, even when no force is applied to the needle moving operation lever 319, the conical tip portion of the needle 314 is not completely pushed into the hydrogen ejection nozzle port 313, and the hydrogen entering the hydrogen passage 328 is little by little. What is necessary is just to make it escape from the ejection nozzle port 313. For example, even when a coil spring 321 is provided on the needle moving operation lever 319 and no force is applied to the needle moving operation lever 319, the conical tip of the needle 314 is not completely pushed into the hydrogen ejection nozzle port 313. Like that. If the length of the coil spring 321 is adjusted, the amount of hydrogen emitted from the hydrogen ejection nozzle port 313 can be adjusted. Alternatively, a stopper may be provided on the needle movement operation lever 319 so that the needle movement operation lever 319 does not completely return to the stop state when no force is applied to the needle movement operation lever 319. By adjusting the degree of the stopper, the amount of hydrogen exiting from the hydrogen ejection nozzle port 313 can be adjusted.

An air passage 317 is disposed inside the hydrogen-air mixed gas ejection device 301, and air is introduced into the air passage 317 from an air inlet 325. An air introduction opening / closing valve (air valve) 316 is attached to the air suction port 325, and air enters or exits the air passage 317 by opening / closing the air introduction opening / closing valve (air valve) 316. The air suction port 325 is connected to an air supply port 326, and air is sent from the air supply device to the air supply port 326 via an air introduction pipe. An air supply apparatus is an air compressor (pneumatic expression apparatus), for example, and can supply compressed air.

An outlet (air ejection outlet) 323 of the air passage 317 is connected to the hydrogen air mixing unit 315, and is mixed with hydrogen ejected from the hydrogen ejection nozzle port 313 and air ejected from the air ejection port 323 in the hydrogen air mixing unit 315. An air mixture is generated. The hydrogen-air mixing unit 315 is connected to a nozzle (hydrogen-air mixed gas ejection nozzle) 318, and the hydrogen-air mixed gas generated by the hydrogen-air mixing unit 315 is ejected through the hydrogen-air mixed gas ejection nozzle port 322. It is ejected to the outside of the device 301.

An air introduction opening / closing valve (air valve) 316 is connected to an air introduction opening / closing valve opening / closing operation lever (air valve operation lever) 320, and the air introduction opening / closing valve (air valve) 316 can be opened / closed. The air introduction opening / closing valve opening / closing operation lever (air valve operation lever) 320 may be connected to the needle moving operation lever 319. An operation button 327 is attached to the needle movement operation lever 319. By pushing the operation button 327 downward, the needle movement operation lever 319 and the air introduction opening / closing valve opening / closing operation lever (air valve operation lever) 320 are pushed down, The air introduction opening / closing valve (air valve) 316 can be pushed downward to allow air to enter the air passage 317 from the air inlet 325. When the force applied to the operation button 327 is removed, the operation button 327 is automatically raised, the needle moving operation lever 319 and the air introduction opening / closing valve opening / closing operation lever (air valve operation lever) 320 are also raised upward, and the air introduction opening / closing valve ( Air valve) 316 can be raised upward to stop air entering from air inlet 325. By adjusting the amount by which the operation button 327 is pushed down, the amount of air entering the air passage 317 from the air inlet 325 can be adjusted.

It is also possible to place the thumb on the operation button 327 and operate the needle movement operation lever 319 and / or the air introduction opening / closing valve opening / closing operation lever (air valve operation lever) 320 with only the thumb, and the hydrogen-air mixed gas ejection device 301 can be operated with only one hand. Can be operated. For example, the operation button 327 can be pressed with the thumb to operate the air introduction opening / closing valve opening / closing operation lever (air valve operation lever) 320, and the needle 314 can be operated by rotating the operation button 327 in the direction of the arrow 330 with the thumb. In this manner, hydrogen and air can be mixed in appropriate amounts, and the hydrogen-air mixed gas can be ejected from the hydrogen-air mixed gas ejection device 301 from the hydrogen-air mixed gas ejection nozzle 318.

In the hydrogen-air mixed gas ejection device 301, the hydrogen passage 328 is not connected to the space such as the air passage 317 except for the hydrogen ejection nozzle port 313, and has an airtight space. As can be seen from FIG. 10, the needle 314 is also movably disposed outside the hydrogen passage 328, for example, between the hydrogen passage 328 and another space (for example, a space where the operation lever is disposed). The needle 314 moves through the boundary wall. A sealing material is interposed between the boundary wall and the needle 314 so that hydrogen does not leak to the outside. Similarly, the air passage 317 is not connected to the space such as the hydrogen passage 328 except for the air outlet 323, and has an airtight space.

Since the air introduction opening / closing valve opening / closing operation lever (air valve operation lever) 320 is disposed in the space of the air passage 317 in FIG. 10, the air passage 17 and other spaces (for example, the space in which the operation lever is disposed) If there is a sealing material between the boundary wall and the air introduction opening / closing valve opening / closing operation lever (air valve operation lever) 320, the air introduction opening / closing valve opening / closing operation lever (air Even if the valve operating lever 320 is moved, the air in the air passage 17 can be prevented from leaking outward. It should be noted that the air introduction opening / closing valve opening / closing operation lever (air valve operation lever) 320 may not be disposed in the air passage 17, and in this case, the presence of a sealing material or the like is unnecessary.

The hydrogen air mixed gas jet nozzle 318 of the hydrogen air mixed gas jet device 301 can be applied to the affected part of the body, for example, the skin, face, head, etc., and the hydrogen air mixed gas can be sprayed. Hydrogen in the hydrogen-air mixture gas enters the skin through the skin and the like, and is effective in preventing fatigue and aging of the affected area. In addition, it can be applied to teeth and gums to prevent tooth deterioration and improve alveolar pus leakage. When the size is so large that the hydrogen-air mixed gas ejection nozzle 318 of the hydrogen-air mixed gas ejection device 301 cannot be put in the mouth, a thin nozzle or needle as an adapter is connected to the hydrogen-air mixed gas ejection nozzle 318, It should just reach the affected area in the mouth. If these adapters are made flexible, the portion from which the hydrogen-air mixed gas is ejected can be freely changed, and the hydrogen-air mixed gas or the like can be applied to the necessary affected part. If the momentum of jetting is increased moderately, hydrogen can penetrate into the back of the affected area (also increased by bringing the nozzle port into close contact with or close to the affected area), and the effect of hydrogen can be exerted deep into the affected area. Hydrogen water can be easily created by injecting hydrogen or the like from the hydrogen-air mixed gas ejection device 301 of the present invention into water such as water or tea using a nozzle or the like.

Hydrogen mist can be introduced by providing a portion for connecting a mist generator (mist) and a mist passage portion to the hydrogen-air mixed gas ejection device 301 so that the mist can be introduced into the hydrogen-air mixing portion 315. An air mixed gas can be produced and ejected. If mist (mist) introduction can be operated with the introduction valve, the amount of mist can be adjusted. Alternatively, air and mist (mist) can be mixed in advance to introduce the air mist mixed gas from the air supply port 326. As described above, by using the hydrogen-air (mist) mixed gas ejection device of the present invention, hydrogen-only gas, hydrogen-air mixed gas, hydrogen mist mixed gas, and hydrogen mist air mixed gas are supplied from the hydrogen-air mixed gas ejection nozzle 318. Can be ejected.

Hydrogen, hydrogen mixed mist (a mixture of hydrogen and mist), hydrogen-air mixed gas, or hydrogen-mist mixed gas is sucked in by mouth or nose, or hydrogen is applied to the head, eyes, or various body parts. In order to absorb these, it is possible to use simple equipment individually, but in order to implement the whole as a whole, it is necessary to prepare a considerable amount of equipment and environment. Therefore, by creating a salon that makes full use of the power of these hydrogens, it can be used to improve the health of many people. Name it Hydrogen Health Station. The hydrogen health station is equipped with hydrogen generators of various sizes and supplies hydrogen to various hydrogen intake systems. For example, there are large and small liquid hydrogen tanks and compression cylinders, large-scale electrolysis hydrogen generators, alcohol-derived hydrogen generators, hydrogen generators such as calcium oxide, etc., supplying hydrogen to public baths, many hydrogen A suction / absorption system and a number of hydrogen water beverage devices will be provided. Since it can be used in a salon format, people can absorb hydrogen into the body in a relaxed and resting state, and many people can improve their health at the same time. Although described in each embodiment, a part or all of the material of the member through which the inhalation mask, goggles, hair cap, box, skirt, sauna, or other hydrogen mixed mist (steam hydrogen) passes is described. , Metal, plastic, etc., laminated with aluminum foil or metal foil, or a combination thereof.

In the recent complicated world, treatment and prevention of mental illness such as depression are actively performed, and stress checks are becoming mandatory. In this hydrogen health station, a stress check meter is provided to constantly check the degree of stress, and mental stress can be alleviated by various hydrogen health systems. Examples of hydrogen health systems include the use of hydrogen gas, irradiation / suction / absorption of hydrogen and hydrogen mixed mist, use of hydrogen water for drinking, use in hydrogen baths, steam showers, head caps, steam hair brushes, etc. To use. Fusion of this hydrogen health station with existing technologies and equipment (for example, Esthetic salon, beauty salon, hydrogen bar / hotel) is also effective. Furthermore, it is also possible to develop hydrogen salon operation support, hydrogen-related equipment maintenance, hydrogen-related equipment sales, hydrogen-related information provision, etc. as support for opening a hydrogen salon. Thus, the hydrogen health station of the present invention can be expanded to health and beauty business utilizing hydrogen. If hydrogen vehicles become popular in the future and many hydrogen stations are installed, it is possible to easily obtain hydrogen from the hydrogen stations.

As described above in detail, the present invention is a hydrogen mist mixed gas (in this case, a hydrogen atomization system) in which hydrogen, hydrogen and mist are mixed, a hydrogen-air mixed gas in which hydrogen and air are mixed, or hydrogen, mist and air. This is a hydrogen supply system that supplies a mixed gas of hydrogen mist and air mixed to the body. By using the hydrogen supply system, hydrogen can be supplied to various parts of the body and absorbed by the body. In addition, in the present specification, regarding the fact that the contents described and explained in a certain part of the specification can be applied without contradiction, it goes without saying that the contents can be applied to the other parts. Furthermore, the above-described embodiment is an example, and various modifications can be made without departing from the scope of the invention. Needless to say, the scope of rights of the present invention is not limited to the above-described embodiment.

Since hydrogen is a small molecule and penetrates through the skin and cells of the body, the present invention can enhance health promotion by supplying it to all parts of the body.

10 hydrogen atomization system, 11 hydrogen generator, 12 hydrogen generator holder, 13 caps,
14 gas outlets, 15 (first) hydrogen inlet pipe, 16 hydrogen inlet pipe, 17 hydrogen water container,
18 hydrogen inlet, 19 (second) hydrogen inlet pipe, 20 outlet, 21 hydrogen inlet,
22 mist generating device, 23 suction mask, 24 suction port, 25 lid, 26 outlet,
27 connection parts, 31 mist (mist) generator, 32 hydrogen gas inlet, 33 mixed gas tube,
35 humans, 36 hair caps for hydrogen gas injection, 37 hair bands, 38 hydrogen gas inlets,
39 outlet, 40 cap sheet

Claims (13)

A hydrogen supply system including a hydrogen generator characterized by supplying hydrogen generated by the hydrogen generator to the body, or a hydrogen generator characterized by supplying hydrogen generated by the hydrogen generator to the body A hydrogen supply system, further comprising a mist generation device and / or an air supply device, wherein the mist generated by the mist generation device and / or the air supplied from the air supply device is mixed with hydrogen generated by the hydrogen generation device A hydrogen supply system characterized by supplying gas to the body. The hydrogen is hydrogen generated in the hydrogen generator, and the hydrogen generated in the hydrogen generator is led into the water that has entered the hydrogen collection container through the hydrogen introduction pipe and collected in the hydrogen collection container. The hydrogen supply system according to claim 1, wherein the hydrogen supply system is hydrogen. The hydrogen supply system according to claim 2, wherein a bubbler is disposed at a hydrogen outlet of the hydrogen introduction pipe. The hydrogen supply system according to claim 2, wherein hydrogen water generated in a hydrogen collection container is used as health water. An introduction pipe for introducing hydrogen, a hydrogen mixed mist introduction pipe for introducing hydrogen mixed mist mixed with hydrogen and mist, a hydrogen-air mixed gas introduction pipe for introducing hydrogen-air mixed gas mixed with hydrogen and air, or hydrogen A hydrogen mist / air mixture gas introduction pipe for introducing a hydrogen mist / air mixture gas mixed with mist and air is connected to an inhalation mask, the mouth and / or nose is applied to the inhalation mask, hydrogen from the mouth and / or nose, or The hydrogen supply system according to any one of claims 1 to 4, wherein a hydrogen mixed mist, a hydrogen air mixed gas, or a hydrogen fog air mixed gas can be sucked. An introduction pipe for introducing hydrogen, a hydrogen mixed mist introduction pipe for introducing hydrogen mixed mist mixed with hydrogen and mist, a hydrogen-air mixed gas introduction pipe for introducing hydrogen-air mixed gas mixed with hydrogen and air, or hydrogen A hydrogen mist air mixed gas introduction tube for introducing hydrogen mist air mixed gas mixed with mist and air is attached to the hair cap, and hydrogen, hydrogen mixed mist, hydrogen air mixed gas, or hydrogen mist air is inside the hair cap. When supplying a gas mixture and wearing a hair cap on the head, hydrogen, a hydrogen mixed mist, a hydrogen air mixed gas, a hydrogen air mixed gas, or a hydrogen fog air mixed gas is applied to the head. The hydrogen supply system according to any one of claims 1 to 4, wherein the hydrogen supply system can be contacted. The hydrogen supply system according to claim 6, wherein a hair band is attached to the hair cap, the hair cap is attached to the head, and the hair cap can be tightened to the head with the hair band. 8. The hair cap is provided with an outlet for venting hydrogen between the hair cap and the head, hydrogen mist, hydrogen-air mixed gas, or hydrogen-mist-air mixed gas. Water supply system. An introduction tube for introducing hydrogen into a box having an opening, a hydrogen mixed mist introduction tube for introducing a hydrogen mixed mist mixed with hydrogen and mist, or a hydrogen air mixed gas for introducing a hydrogen air mixed gas mixed with hydrogen and air An introduction tube or a hydrogen atomized air mixed gas introducing tube for introducing a hydrogen atomized air mixed gas in which hydrogen, fog, and air are mixed is connected to the hand, finger, and nail inserted into the box from the opening. The hydrogen according to any one of claims 1 to 4, characterized in that the hydrogen or hydrogen mist, hydrogen-air mixture gas, hydrogen-air mixture gas, or hydrogen-mist-air mixture gas supplied from is applied. Supply system. A hydrogen-air mixed gas ejection device capable of mixing hydrogen and air and ejecting a hydrogen-air mixed gas,
A substantially cylindrical hydrogen passage cylinder portion provided with a nozzle (hydrogen injection nozzle) for jetting hydrogen at the tip;
A needle that opens and closes the hydrogen ejection nozzle port of the hydrogen ejection nozzle along the axial core of the hydrogen passage cylinder is inserted so as to be able to advance and retract in the axial direction.
Air (compressed air) is supplied to the air passage arranged inside the hydrogen-air mixed gas jetting device via an air valve, and the air passing through the air passage is supplied to the hydrogen-air mixing section arranged at the outlet of the hydrogen jet nozzle. Introduced and mixed with hydrogen and air coming out of the hydrogen jet nozzle at the hydrogen air mixing section,
A hydrogen-air mixed gas jetting apparatus for jetting a hydrogen-air mixed gas to the outside from a nozzle (hydrogen-air mixed gas jet nozzle) connected to a hydrogen-air mixing unit. An operation lever (needle movement operation lever) that moves the needle that opens and closes the hydrogen ejection nozzle port so that it can advance and retreat in the axial direction, and an operation lever that opens and closes an air valve that adjusts the amount of air introduced into the hydrogen-air mixture gas ejection device The hydrogen-air mixed gas ejection device according to claim 10, further comprising an (air valve operation lever). The hydrogen-air mixed gas ejection device according to claim 10 or 11, further comprising an adjustment device (needle position adjustment device) capable of adjusting a stop position of the hydrogen ejection nozzle port of the needle. The hydrogen-air mixed gas ejection device according to claim 12, wherein the adjusting device is connected to the needle moving lever.