WO2018033980A1 - Hydrogen water humidifier - Google Patents

Abstract

[Problem] To provide a hydrogen water humidifier that is able to generate hydrogen water easily, and atomize the generated hydrogen water. [Solution] Water supplied from a water tank unit 3 to the interior of a reservoir T1 through an antibacterial cartridge 31 is electrolytically decomposed by a hydrogen water generation unit 94, immediately generating hydrogen water, the generated hydrogen water is supplied to a reservoir unit T2 and atomized by an atomization unit 95, and the atomized hydrogen water passes through a flow path 32 and a handle 34 and is sprayed from a discharge opening 41 of a discharge opening mist cover 4.

Description

Hydrogen water humidifier

The present invention relates to a hydrogen water humidifier capable of generating hydrogen water and atomizing the generated hydrogen water.

In recent years, hydrogen water has been taken up by various media as having an effect on beauty and health. Hydrogen water is water (H ₂ O) containing a certain amount of hydrogen molecules (H ₂ ) in which hydrogen atoms (H) and hydrogen atoms (H) are bonded to each other, and enhances antioxidant activity and metabolism. Since it is said to have effects such as action and improvement of fatigue, the number of people who take hydrogen water on a daily basis is increasing, and hydrogen water is prevalent.

In response to these trends, devices and instruments that generate various types of hydrogen water have been developed. For example, there exists a simple electrolytic hydrogen water generator like patent document 1 as what produces | generates the hydrogen water to drink. This simple electrolysis type hydrogen water generator 1 is provided with a horizontal electrolysis electrode on the bottom of a vertically long container that contains raw water for electrolysis such as tap water, and a ceramic containing calcium sulfite that decomposes and eliminates the odor components of the odor inside the container. The deodorizing reactor D, the main part of which is made of a net-like or porous material, filled with the coarse particles of the secondary battery 8, even if the secondary battery 8 for generating hydrogen water and the power supply at the time of connection become overdischarged The secondary battery 8 and the power source are not damaged, and the electrode current control board 9 is not damaged.

In addition, there is a hydrogen water generator for baths that is taken from the whole body. This bath hydrogen water generator is installed in a bathtub containing hot water, and can take in hydrogen from the skin and breathing, and can take in many times more hydrogen than when drinking. Yes.

Utility Model Registration No. 3198341

As described above, since various devices such as a device for generating hydrogen water for drinking and a device for converting hot water for bathing into hydrogen water have been developed, the present inventors have also earnestly studied. As a result of repeated research, we have developed a device that generates new hydrogen water.

That is, the present invention is a new device that can easily generate hydrogen water and that can take the generated hydrogen water into the body. An object of the present invention is to provide a hydrogen water humidifier that can be used.

In order to achieve the above object, a hydrogen water humidifier according to the present invention includes a water tank unit into which water is injected, a hydrogen water generation unit that generates hydrogen water by electrolysis from water supplied from the water tank unit, and And an atomizing unit for atomizing the hydrogen water generated by the hydrogen water generating unit.

Further, the hydrogen water generation unit may generate hydrogen water by predetermined ON-OFF control.

Further, the water in the water tank part may be supplied via an antibacterial cartridge containing a ceramic ball.

Moreover, you may make it have an atomization adjustment part which can adjust the amount of atomization of the said atomization part.

Further, a float sensor that senses the level of water supplied from the water tank unit may be provided.

Moreover, you may have an LED light.

Further, when the float sensor senses that the water level has become a predetermined amount or less, the lighting of the LED light may be changed.

As is apparent from the above configuration, the hydrogen water humidifier of the present invention includes a water tank unit into which water is injected, and a hydrogen water generating unit that generates hydrogen water by electrolysis from the water supplied from the water tank unit. And an atomizing unit that atomizes the hydrogen water generated by the hydrogen water generating unit. Thereby, there exists an effect that the atomized hydrogen water can be taken into the body easily.

It is a perspective view which shows the hydrogen water humidifier of this invention. It is a disassembled perspective view of the hydrogen water humidifier of FIG. It is the perspective view for demonstrating the structure of a main-body part, (a) is a cover part, (b) is an accommodating part, (c) is the perspective view which looked at the cover part from another angle. It is a block diagram of a circuit part. It is a schematic diagram for demonstrating the structure of a hydrogenous water production | generation part. It is a disassembled perspective view for demonstrating the structure of a water tank part. It is a top view for demonstrating the structure of an antimicrobial cartridge. It is a figure for demonstrating the structure of the cap part of an antibacterial cartridge, (a) is a top view, (b) is a rear view, (c) is an AA sectional view. It is a figure for demonstrating the structure of an on-off valve part, (a) is a top view of an on-off valve part, (b) is a top view of an axial part, (c) is a top view of a valve part, (d) is a valve It is sectional drawing of a part. It is a figure for demonstrating the attachment structure of the on-off valve part with respect to a cap part, (a) is a state before attachment, (b) is a figure which shows the state after attachment. It is a figure for demonstrating the water supply structure of a water tank part, (a) is the state before installing an antimicrobial cartridge on a main-body part, (b) is the state in the middle of installation, (c) was installed It is a figure which shows a state.

Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings.

FIG. 1 is a perspective view showing a hydrogen water humidifier 1 of the present invention, and FIG. 2 is an exploded perspective view thereof. The hydrogen water humidifier 1 of the present invention includes a blower outlet mist cover 4 having a main body part 2, a water tank part 3, and a blower outlet 41, and each component is substantially made of plastic.

As shown in FIG. 3, the main body 2 includes a lid portion 21 including a hydrogen water generating portion 94 and an atomizing portion 95, and a circuit portion that is substantially attached to the back side of the lid portion 21 (shown in FIG. 4). 9 has a slide-type aroma accommodating portion 23 that can accommodate a nonwoven fabric soaked with aroma oil or the like on the bottom side of the accommodating portion 22. Further, on the outer peripheral surface of the housing portion 22, a dial switch 5 for operating the hydrogen water humidifier 1, an LED switch 6 for turning on / off the LED light L provided on the lid portion 21, and the hydrogen water humidifier 1 A power lamp 7 and a power cord 8 are provided. The power lamp 7 is an LED that is turned on when the power is turned on and is turned off when the power is not turned on.

4, the circuit unit 4 includes a switch unit 91, a power circuit 92, a control unit 93, a hydrogen water generation unit 94, an atomization unit 95, a float sensor 96, and a fan unit 97. The switch unit 91 includes an LED switch unit 911 that is connected to the LED light L and is a button type switch that turns the LED light L on and off, and a main switch unit 912 that turns the hydrogen water humidifier 1 on and off. The main switch unit 912 is composed of the dial switch 5, and the amount of atomization can be increased or decreased by adjusting the power supplied to the atomization unit 95 according to the amount of rotation of the dial. . Note that the LED light L is programmed in advance so that when the LED switch 6 is turned on, the LED light L changes its color at predetermined intervals such as yellow, purple, blue, and red.

The power supply circuit 92 is a circuit that generates necessary output power from input power supplied from a home power supply via the power cord 8. The control unit 93 is a circuit that performs overall control of the hydrogen water humidifier 1 such as control of hydrogen water generation by the hydrogen water generation unit 94, control of atomization amount by the atomization unit 95, and lighting control of the LED light L. is there.

The hydrogen water generation unit 94 is configured to generate hydrogen water from water supplied from the water tank unit 3 via the antibacterial cartridge 31. As will be described later, the water in the water tank 3 is first supplied to the water reservoir T1 via the antibacterial cartridge 31, and hydrogen water is immediately generated in the hydrogen water generator 94 by electrolysis from the supplied water. The The generated hydrogen water is supplied to the communicating water reservoir T 2 and atomized by the atomizing unit 95. Thus, in the hydrogen water humidifier 1 of this invention, since hydrogen water is first produced | generated from the water in the water tank part 3, and it atomizes immediately after that, it can humidify with the atomized hydrogen water. In this embodiment, the operation of the hydrogen water generator 94 is controlled by the controller 93 so as to repeat a cycle of 5 minutes generation, 10 minutes stop, 5 minutes generation, and 10 minutes stop.

Next, a specific configuration of the hydrogen water generation unit 94 will be described with reference to FIG. In addition, in order to make the configuration easy to understand, a partial cross-sectional view is shown. The hydrogen water generator 94 includes a negative electrode plate 941 and a positive electrode plate 942 made of a circular porous electrode obtained by plating platinum on titanium, a bolt 943 that connects the negative electrode plate 941 to the negative electrode side, and a positive electrode A bolt 944 connecting the plate 942 to the positive electrode side, a ring-shaped resin spacer 945 disposed between the negative electrode plate 941 and the positive electrode plate 942, and an upper surface side of the negative electrode plate 941 It consists of a resin top plate 946 and a resin bottom plate 947 disposed on the back side of the plus electrode plate 942. The negative electrode plate 941 is fixed by a bolt 943 and a nut 948A, and is connected to the negative electrode side via an intervening connection terminal 949A. Similarly, the plus electrode plate 942 is also fixed by a bolt 944 and a nut 948B, and is connected to the plus electrode side via an intervening connection terminal 949B. Hydrogen water is generated from the hydrogen water generating unit 94 configured in this way by electrolysis.

The atomizing section 95 is composed of a piezoelectric ceramic vibrator, and by applying a high-frequency AC voltage, the generated ultrasonic vibration energy is transmitted to the surface of the hydrogen water in the water reservoir T2, and a part of the water surface rises. From there, a fine mist is generated.

The float sensor 96 includes a magnetic sensor (not shown) housed in the shaft portion P2 and a float 961 which is an annular floating member incorporating the magnet shown in FIG. It is configured to prevent water from running out. More specifically, when the water tank portion 3 is attached to the main body portion 2, the shaft portion P2 is inserted into the insertion hole 962, and the float 961 can move up and down around the magnetic sensor as a central axis. The position of the float 961 varies depending on the water level. Since the water reservoir T3 communicates with the water reservoir T1 and the water reservoir T2, the water level of the water reservoir T2 can be detected by detecting the floating state of the float 961. When the water in the water tank part 3 runs out of water, water is no longer supplied to the water reservoir T1, so the water level of the water reservoir T3 is lowered. A magnetic sensor senses this drop in water level, and a signal is sent to the control unit 93 to change the lighting of the power lamp 7 to red and to stop the power supply to the atomization unit 95. In the present embodiment, as described above, the LED light L is also lit in red when a water outage is detected.

The fan unit 97 is a small fan motor, and is attached above the aroma storage unit 23. By rotating, aroma components can be diffused into the housing portion 22 from the nonwoven fabric in the aroma housing portion 23 soaked with aroma oil, and the aroma fragrance can be drifted outside.

Next, the configuration of the water tank unit 3 will be described with reference to FIGS. The water tank unit 3 is made of a transparent plastic container, forms a flow path for water to be supplied to the water reservoir T1, and suppresses or inhibits the growth of bacteria in the water tank unit 3; A cylindrical flow path 32 that guides atomized hydrogen water to the blowout port mist cover 4, a fitting part 33 that is fitted and attached to the fitting claw 24 of the main body 2, and the flow path 32 above A handle 34 provided as a handle for carrying the water tank unit 3 and an LED cover 35 serving as a cover for the LED light L are provided. When using, turn it upside down as shown in FIG. 6, remove the antibacterial cartridge 31 screwed to the attachment part 38, pour water from there, and when the water injection is complete, attach the antibacterial cartridge 31 to the attachment part 38 again. Returning to the original state, it is attached to the main body 2 as shown in FIG.

Next, the structure of the antibacterial cartridge 31 and the structure for supplying water from the antibacterial cartridge 31 will be described with reference to FIGS.

FIG. 7 shows a front view of the antibacterial cartridge 31. The antibacterial cartridge 31 includes a cap part 311 to which an on-off valve part 313 is attached, and a cylindrical container part 312 that can accommodate a plurality of ceramic balls. The cap portion 311 is provided with a female screw portion, and the container portion 312 is provided with a male screw portion. A plurality of holes h <b> 1 are provided on the front side and the back side of the container unit 312, and water in the water tank unit 3 is injected into the antibacterial cartridge 31 from the hole h <b> 1, and the injected water enters the on-off valve unit 313. To the water reservoir T1. In the drawing, some of the reference numerals of the holes h1 are omitted.

8A and 8B are diagrams for explaining the structure of the cap portion 311. FIG. 8A is a top view, FIG. 8B is a rear view, and FIG. 8C is a cross-sectional view taken along line AA in FIG. is there. As shown in the drawing, an attachment hole h2 for attaching the on-off valve portion 313 is provided in the center of the cap portion 311. The on-off valve portion 313 is attached by being biased by a spring 314.

9A and 9B are diagrams for explaining the structure of the on-off valve portion 313. FIG. 9A is a plan view of the on-off valve portion 313, FIG. 9B is a plan view of the shaft portion 36, and FIG. The top view of the part 37, (d) is sectional drawing of the valve part 37. FIG. The shaft portion 36 is a cylindrical plastic member, and includes a head portion 361 and a pin portion 362 connected to the head portion 361, and a constricted portion 363 for attaching the valve portion 37 is provided below the pin portion 362. Yes. The valve part 37 is an umbrella-shaped silicon member.

Next, the attachment structure of the on-off valve portion 313 with respect to the cap portion 311 will be described with reference to FIG. In the drawing, a partial cross-sectional view is used for each member so that the mounting structure can be easily understood. As shown in FIG. 6A, the shaft portion 36 in which the spring 314 is attached to the pin portion 362 is inserted into the attachment hole h2 from above the cap portion 311. Subsequently, when the tip of the pin portion 362 is inserted from the attachment hole h3 from this state, the valve portion 37 is attached to the constricted portion 363 as shown in FIG. In this state, the valve portion 37 is attached to the cap portion 311 by being urged by the elastic force of the spring 314.

Next, a structure for supplying water from the antimicrobial cartridge 31 will be described with reference to FIG. In the figure, the water reservoir portion T1 is omitted and shown in a plan view, and in the same manner as above, a partial cross-sectional view is used for each member so that the structure can be easily understood. (A) is a state before the antibacterial cartridge 31 is installed on the main body 3, (b) is a state in the middle of installation, and (c) is a diagram showing the installed state, (a) and (b) ) Is omitted from the container portion 312.

First, as shown in FIG. 10A, the cap part 311 shown in FIG. 10B is turned upside down, and the position of the antibacterial cartridge 31 is set so that the head part 361 comes on the convex part P1 of the water reservoir part T1. Then, the on-off valve portion 313 is in a state as shown in FIG. 5B, that is, the antibacterial cartridge 31 is supported on the convex portion P1 by the head portion 361. Further, since the antibacterial cartridge 31 is installed in the water in the water tank unit 3, the antibacterial cartridge 31 tends to descend due to its weight. At that time, since the antibacterial cartridge 31 is supported at one point by the head portion 361, the supported on-off valve portion 313 does not descend but the other portions descend. Then, the spring 314 contracts, and as a result, the valve portion 37 urged by the cap portion 311 is released as shown in FIG. 3C, and the water injected from the hole h1 is released from the gap formed by the release. However, it will be supplied into the water reservoir T1. By adopting such a structure, it is possible to prevent water from being supplied to one machine in the water reservoir T1.

Each member configured as described above is assembled so that the water tank portion 3 is placed on the main body portion 2 and the air outlet mist cover 4 is placed thereon, as shown in FIG. During this assembly, the fitting portion 33 is located on the fitting claw 24, the antibacterial cartridge 31 is located on the hydrogen water generating portion 94, the flow path 32 is located on the atomizing portion 95, and the LED light L Are assembled so that the LED cover 35 is positioned on Then, the water supplied from the water tank 3 through the antibacterial cartridge 31 into the water reservoir T1 is electrolytically decomposed by the hydrogen water generator 94 to immediately generate hydrogen water, and the generated hydrogen water is stored in the water reservoir. Hydrogen water supplied to T2 and atomized by the atomization unit 95 passes through the flow path 32 and the handle 34 and is ejected from the air outlet 41 of the air outlet mist cover 4. Since the hydrogen water humidifier 1 of the present invention is configured as described above, it is possible to easily generate hydrogen water and atomize the generated hydrogen water.

1: Hydrogen water humidifier 2: Body part 21; Lid part 22: Storage part 23: Aroma storage part 24: Fitting claw 3: Water tank part 31: Antibacterial cartridge 311: Cap part 312: Container part 313: On-off valve part 314: Spring 32: Flow path 33: Fitting part 34: Handle 35: LED cover 36: Shaft part 361: Head part 362: Pin part 363: Constriction part 37: Valve part 38: Mounting part 4: Blowing outlet mist cover 41 : Air outlet 5: Dial switch 6: LED switch 7: Power lamp 8: Power cord 9: Circuit part 91: Switch part 911: LED switch part 912: Main switch part 92: Power supply circuit 93: Control part 94: Hydrogen water generation Part 941: Negative electrode plate 942: Positive electrode plate 943, 944: Bolt 45: Spacer 946: Top plate 947: Bottom plate 948A, 948B: Connection terminal 949A, 949B: Nut 95: Atomization part 96: Float sensor 961: Float 962: Insertion hole 97: Fan part h1: Hole h2: Mounting hole h3 : Mounting hole L: LED light P1: Convex part P2: Shaft part T1, T2, T3: Water reservoir

Claims (7)

1. A water tank section into which water is injected,
   A hydrogen water generating unit that generates hydrogen water by electrolysis from water supplied from the water tank unit;
   An atomizing unit for atomizing the hydrogen water generated by the hydrogen water generating unit;
   A hydrogen water humidifier characterized by comprising:
2. The hydrogen water humidifier according to claim 1, wherein the hydrogen water generating unit generates hydrogen water by predetermined ON-OFF control.
3. The hydrogen water humidifier according to claim 1 or 2, wherein water in the water tank section is supplied through an antibacterial cartridge containing ceramic balls.
4. The hydrogen water humidifier according to any one of claims 1 to 3, further comprising an atomization adjustment unit capable of adjusting an amount of atomization of the atomization unit.
5. The hydrogen water humidifier according to any one of claims 1 to 4, further comprising a float sensor that senses a level of water supplied from the water tank unit.
6. The hydrogen water humidifier according to claim 5, further comprising an LED light.
7. The hydrogen water humidifier according to claim 6, wherein when the float sensor senses that the water level has become a predetermined amount or less, lighting of the LED light is changed.
   
   

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