JP2021090704A - Multi-functional hydrogen generator - Google Patents

Abstract

To provide a multi-functional hydrogen generator.SOLUTION: A multi-functional hydrogen generator includes a body in which a cover unit having a plurality of holes is installed, and a water storage unit is provided inside, a hydrogen generation unit, and a control switch. An atomization unit is provided inside the water storage unit. The hydrogen generation unit, the atomization unit, and the control unit are all electrically connected to a processing unit installed in the body. The control switch is used for executing control so that hydrogen and water vapor in the water storage unit are ejected from corresponding holes simultaneously, or output to an accessory. By this configuration, when the multi-functional hydrogen generator is operated, hydrogen and water vapor are emitted simultaneously, and absorbed into the skin of a user. Also, hydrogen is emitted in a state that water vapor is not emitted, and absorbed in the body of the user, or used for other applications. A number of modes are provided and the user can select a desired mode as needed.SELECTED DRAWING: Figure 2

Description

The present invention relates to a multifunctional hydrogen generator, and more particularly to a multifunctional hydrogen generator having a number of modes available to the user.

Many medical methods for treating human diseases with hydrogen have been studied, and their effectiveness has been proved and widely applied in the fields of medicine and health. In addition, modern people are prone to emotional instability due to their busy lives, and are pursuing various ways to relax their minds and increase their vitality. As one of the methods widely used in recent years, there is a method in which a user sucks, drinks, and absorbs hydrogen generated by a hydrogen machine after electrolysis of water molecules.

However, the above-mentioned conventional techniques, that is, most of the hydrogen machines currently on the market, have only a single function, for example, they can only provide hydrogen water for drinking or spraying and absorbing it. Therefore, if many kinds of functions are required, it is necessary to purchase many kinds of hydrogen machines having different functions, and the conventional hydrogen machines cannot meet the demands of users and the cost is very high.

Therefore, the present inventor considers that the above-mentioned drawbacks can be improved, and as a result of repeated studies, he / she has come up with a proposal of a multifunctional hydrogen generator according to the present invention, which effectively improves the above-mentioned problems with a rational design.

The present invention has been made to solve the above problems of the prior art. That is, an object of the present invention is to provide a multifunctional hydrogen generator.

In order to solve the above problems, the multifunctional hydrogen generator according to an embodiment of the present invention includes a main body in which a cover unit having a first hole and a second hole is installed in an upper portion, and a main body internally provided in the main body and described above. It communicates with the first hole, is used for injecting external water, is connected to the second hole via the first pipeline, and the end of the first pipeline projects into the second hole and at the same time. A water storage unit having a connection end for connecting at least one accessory having a corresponding connection end, and a water storage unit internally provided in the main body and connected to the water storage unit via a water absorption line, in the water storage unit. A hydrogen generation unit in which stored water is poured and hydrogen is generated through an electrolytic reaction. The hydrogen generation unit is connected to the water storage unit via a gas discharge pipeline, and the hydrogen generated by the hydrogen generation unit is connected to the water storage unit. Is poured into the water storage unit, an atomization unit installed in the water storage unit for atomizing the water stored in the water storage unit to generate water vapor, and an atomization unit installed in the main body. The hydrogen generation unit includes a control switch for controlling so that hydrogen and water vapor in the water storage unit are simultaneously ejected from the first hole or output hydrogen from the second hole to the accessory. , The atomization unit, and the control switch are all electrically connected to a processing unit installed in the main body.

Further, in the multifunctional hydrogen generator according to the present invention, a nozzle structure is further installed in the first hole.

Further, in the multifunctional hydrogen generator according to the present invention, the accessory has a tubular structure.

Further, in the multifunctional hydrogen generator according to the present invention, a tooth mold is further provided at the end of the tubular structure, and a plurality of ventilation holes are provided in the tooth mold.

Further, in the multifunctional hydrogen generator according to the present invention, a bubble generator is further installed at the end of the tubular structure.

Further, in the multifunctional hydrogen generator according to the present invention, a plug is further installed in the cover unit.

Further, in the multifunctional hydrogen generator according to the present invention, the water storage unit is internally provided with a pressure-sensitive unit, and the pressure-sensitive unit is electrically connected to the processing unit to form a gas in the water storage unit. Detect pressure.

Further, in the multifunctional hydrogen generator according to the present invention, a setting unit electrically connected to the processing unit is further installed in the main body.

Further, in the multifunctional hydrogen generator according to the present invention, the cover unit further has a third hole, and a material supply box communicating with the third hole is installed in the third hole, and the material supply box is provided. Materials are installed in.

Further, in the multifunctional hydrogen generator according to the present invention, the main body is further internally provided with the water storage unit and / or the pump unit connected to the third hole via the air supply pipeline, and the pump unit. Is electrically connected to the processing unit.

Further, in the multifunctional hydrogen generator according to the present invention, when the water storage unit is connected to the third hole via the second pipeline, the pump unit communicates with the water storage unit via the air supply pipeline. Will be done.

Further, in the multifunctional hydrogen generator according to the present invention, the cover unit is provided with hinge-type covers corresponding to the first hole, the second hole, and the third hole, respectively.

According to the present invention, hydrogen and water vapor may be simultaneously released and absorbed by the user's skin, hydrogen may be released without releasing water vapor and absorbed into the user's body, or used for other applications. You may. Therefore, the present invention has a large number of modes that can be selected by the user, achieves multi-functionality, and eliminates the need for the user to pay a large amount of money to purchase various types of equipment having different functions.

It is an external perspective view which shows the multifunctional hydrogen generator which concerns on this invention. It is sectional drawing which shows the part of the multifunctional hydrogen generator which concerns on this invention. It is a block schematic diagram which shows the multifunctional hydrogen generator which concerns on this invention. It is the schematic which shows the multifunctional hydrogen generator by 1st Embodiment of this invention. It is the schematic which shows the multifunctional hydrogen generator by 2nd Embodiment of this invention. It is the schematic which shows the multifunctional hydrogen generator by the 3rd Embodiment of this invention. It is the schematic which shows the multifunctional hydrogen generator by 4th Embodiment of this invention. It is the schematic which shows the multifunctional hydrogen generator by the 5th Embodiment of this invention. It is the schematic when the plug of the multifunctional hydrogen generator which concerns on this invention is laid in the first hole.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. Needless to say, the present invention is not limited to the following examples, and can be arbitrarily modified without departing from the gist of the present invention.

First, the multifunctional hydrogen generator according to the present invention will be described in more detail with reference to FIGS.
The multifunctional hydrogen generator according to the present invention is composed of the following members.

≪Main body 10≫
A cover unit 11 having a first hole 111 and a second hole 112 is installed on the upper part of the main body 10.

≪Water storage unit 12≫
It is installed inside the main body 10 and communicated with the first hole 111 to inject external water into the water storage unit 12. Further, the water storage unit 12 is connected to the second hole 112 via the first pipeline, and the end of the first pipeline projects into the second hole 112 and at least one having a corresponding connecting end. It has a connection end 121 for connecting to an accessory (not shown).

≪Hydrogen generation unit 13≫
It is installed in the main body 10 and connected to the water storage unit 12 via a water absorption pipe, and the water stored in the water storage unit 12 is poured into the hydrogen generation unit 13 to undergo an electrolytic reaction and then generate hydrogen. Let me. The hydrogen generation unit 13 is connected to the water storage unit 12 via a gas discharge pipe, and hydrogen generated by the hydrogen generation unit 13 is poured into the water storage unit 12.

≪Atomization unit 14≫
It is installed internally in the water storage unit 12. The atomization unit 14 atomizes the water stored in the water storage unit 12 to generate water vapor.

≪Control switch 15≫
Hydrogen and water vapor installed in the main body 10 and in the water storage unit 12 are simultaneously ejected from the first hole 111, or hydrogen is output from the second hole 112 to the accessory (not shown). To control. The hydrogen generation unit 13, the atomization unit 14, and the control switch 15 are all electrically connected to the processing unit 16 installed in the main body 10. Therefore, the multifunctional hydrogen generator according to the present invention can not only release hydrogen and water vapor at the same time and absorb them into the skin of the user, but also release hydrogen without releasing water vapor to the user. It can be absorbed into the body or used for other applications.

Subsequently, FIGS. 4A to 4E are schematic views of the first to fifth embodiments of the present invention.
As can be seen from FIG. 4A, the nozzle structure 30 is further mounted in the first hole 111. When the user selects the "spray" mode by the setting unit 17 (see FIG. 3) electrically connected to the processing unit 16, the hydrogen generating unit 13 executes an electrolytic reaction and the generated hydrogen is transferred to the water storage unit. The water sent to the water storage unit 12 is atomized by the atomization unit 14 installed in the water storage unit 12 to become steam. At the same time, the control switch 15 controls the hydrogen and water vapor in the water storage unit 12 to be ejected from the first hole 111 and the nozzle structure 30, so that the user's skin (for example, facial skin, hand) is ejected. It is absorbed by the skin, etc.) to achieve a recreational, beauty, or stress-relieving effect. Alternatively, it is used to humidify the environment. The setting unit 17 may be designed as a user interface of the main body 10 in the form of a touch screen, physical keys, or the like.

Further, according to FIGS. 4B to 4D, the connection end 121 is connected to an accessory 20 having a corresponding connection end, and the accessory 20 has a tubular structure. When the user selects the "hydrogen discharge" mode by the setting unit 17 electrically connected to the processing unit 16, the hydrogen generating unit 13 generates an electrolytic reaction and sends the generated hydrogen to the water storage unit 12. The control switch 15 controls the hydrogen in the water storage unit 12 to be output from the second hole 112 to the accessory 20, and the atomization unit 14 installed in the water storage unit 12 does not operate. .. As a result, the water vapor in the water storage unit 12 is not output. However, the user may choose to attach a tubular structure with different bends, roughness and materials as needed, and the end of the tubular structure is inserted directly into the container containing the beverage ( (See FIG. 4B), the user may choose to make the beverage containing hydrogen drinkable. Alternatively, when the tooth mold 21 (see FIG. 4C) or the bubble generator 22 is further provided at the end of the tubular structure (see FIG. 4D) and the tooth mold 21 is provided at the end of the tubular structure, the tooth mold 21 is provided. By providing the plurality of ventilation holes 211, when the user puts the tooth mold 21 in the mouth to absorb hydrogen and the bubble generator 22 is installed at the end of the tubular structure, the bubble is generated. The device 22 may be placed in a container containing water and the user may choose to wash vegetables and fruits in the container or use it for other purposes where air bubbles are required.

Further, as shown in FIGS. 2 and 4E, the cover unit 11 further has a third hole 113. A material supply box 40 communicating with the third hole 113 is installed in the third hole 113, and the material supply box 40 is used for installing the material. The material may be any material for emitting fragrances, essences, or gases to be inhaled by the human body.

Then, hydrogen and water vapor in the water storage unit 12 are effectively ejected from the first hole 111, hydrogen in the water storage unit 12 is effectively output from the second hole 112, and the flavor of the material is exhibited. A pump unit 18 is further internally provided in the main body 10 so that the material can be effectively discharged from the material supply box 40 (see FIG. 3).
The pump unit 18 is connected to the water storage unit 12 and / or the third hole 113 via an air supply pipeline. Therefore, when the user selects the "flavor" mode by the setting unit 17 electrically connected to the processing unit 16, the pump unit 18 operates and the air passes through the third hole 113 and the material supply box. Delivered to 40, the flavor is subsequently ejected with the air, allowing the user to aspirate the flavor of the material. Not only this, but also hydrogen can be sucked at the same time as the user sucks the flavor, so if the "flavor" mode and the "spray" mode are selected at the same time, the hydrogen and water vapor ejected from the first hole 111 will be in the air. Is mixed with the flavor. Alternatively, the water storage unit 12 is connected to the third hole via a second pipeline, and at this time, the user selects the "flavor" mode by the setting unit 17 electrically connected to the processing unit 16. Only by the operation of the pump unit 18, the hydrogen in the water storage unit 12 is transported by air to the material supply box 40, and then the flavor is ejected together with the air and the hydrogen, so that the user can use the flavor and hydrogen. Can be sucked at the same time.

Finally, as shown in FIG. 5, a plug 115 is further installed in the cover unit 11 and is mainly used for closing the first hole 111. As a result, hydrogen does not leak from the first hole 111 when the "hydrogen discharge" mode is selected. When the "spray" mode is selected, the plug 115 closes the connection end 121. However, when the user selects the "spray" mode, he forgets to remove the plug 115 coupled to the first hole 111 or the connection end 121, and the gas pressure in the water storage unit 12 becomes excessive and explodes. In order to avoid damage, the water storage unit 12 is internally provided with a pressure sensitive unit 19 electrically connected to the treatment unit 16 (see FIG. 3), whereby the gas pressure in the water storage unit 12 is detected. Will be done. If the detected gas pressure is excessive, the immediate operation is stopped.

The cover unit 11 is provided with hinge-type covers 114 corresponding to the first hole 111, the second hole 112, and the third hole 113, respectively. In the unused state, the hinged cover 114 is used to cover the hinged cover 114, and when used, the corresponding hinged cover 114 is opened according to the mode selected by the user.

As described above, the present invention reliably provides a multifunctional hydrogen generator, which not only releases hydrogen and water vapor at the same time to be absorbed by the user's skin, but also releases hydrogen in a state where it does not release water vapor. It also allows a person to absorb it into the body or use it for other applications. Therefore, the present invention has a large number of modes that can be selected by the user, achieves multi-functionality, and eliminates the need for the user to pay a large amount of money to purchase various types of equipment having different functions.

The above-described embodiment is described for the purpose of enabling a person having ordinary knowledge in the technical field to which the present invention belongs to carry out the present invention. Various modifications of the above embodiment can be naturally made by those skilled in the art, and the technical idea of the present invention can be applied to other embodiments. Therefore, the present invention is not limited to the described embodiments, but is construed in the broadest range according to the technical idea defined by the claims.

10 Main body 11 Cover unit 111 1st hole 112 2nd hole 113 3rd hole 114 Hinge type cover 115 Plug 12 Water storage unit 121 Connection end 13 Hydrogen generation unit 14 Atomization unit 15 Control switch 16 Processing unit 17 Setting unit 18 Pump unit 19 Pressure-sensitive unit 20 Accessories 21 Tooth type 22 Bubble generator 30 Nozzle structure 40 Material supply box

Claims (12)

The main body where the cover unit with the first hole and the second hole is installed at the top,
It is installed inside the main body and communicated with the first hole, used for injecting external water, connected to the second hole via the first pipeline, and the end of the first pipeline is A water storage unit that projects into the second hole and has a connection end for connecting at least one accessory that has a corresponding connection end.
A hydrogen generation unit that is internally installed in the main body and is connected to the water storage unit via a water absorption conduit, and the water stored in the water storage unit is poured into the water storage unit and generates hydrogen through an electrolytic reaction. The hydrogen generation unit is connected to the water storage unit via a gas discharge pipeline, and the hydrogen generated by the hydrogen generation unit is poured into the water storage unit.
An atomization unit installed in the water storage unit for atomizing the water stored in the water storage unit to generate water vapor.
A control switch installed in the main body and for controlling hydrogen and water vapor in the water storage unit to be simultaneously ejected from the first hole or to output hydrogen from the second hole to the accessory. , With
The hydrogen generation unit, the atomization unit, and the control switch are all electrically connected to a processing unit installed in the main body.
Multi-function hydrogen generator. The multifunctional hydrogen generator according to claim 1, wherein a nozzle structure is further installed in the first hole. The multifunctional hydrogen generator according to claim 1, wherein the accessory has a tubular structure. The multifunctional hydrogen generator according to claim 3, wherein a tooth mold is further provided at the end of the tubular structure, and a plurality of ventilation holes are provided in the tooth mold. The multifunctional hydrogen generator according to claim 3, wherein a bubble generator is further installed at the end of the tubular structure. The multifunctional hydrogen generator according to claim 1, wherein a plug is further installed in the cover unit. The sixth aspect of the present invention is characterized in that a pressure sensitive unit is internally provided in the water storage unit, and the pressure sensitive unit is electrically connected to the processing unit to detect the gas pressure in the water storage unit. The multifunctional hydrogen generator described. The multifunctional hydrogen generator according to claim 1, wherein a setting unit electrically connected to the processing unit is further installed in the main body. The cover unit further has a third hole, the third hole is provided with a material supply box communicating with the third hole, and the material supply box is provided with a material. Item 2. The multifunctional hydrogen generator according to any one of Items 1 to 8. The main body is further provided with a pump unit connected to the water storage unit and / or the third hole via an air supply pipeline, and the pump unit is electrically connected to the processing unit. The multifunctional hydrogen generator according to claim 9. 10. The tenth aspect of claim 10, wherein when the water storage unit is connected to the third hole via a second pipeline, the pump unit communicates with the water storage unit via the air supply pipeline. Multi-function hydrogen generator. The multifunctional hydrogen generator according to claim 9, wherein a hinge type cover corresponding to the first hole, the second hole, and the third hole is installed in the cover unit.

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