JP2020199450A - Portable hydrogen water generator and hydrogen water generation method by portable hydrogen water generator - Google Patents

Abstract

To provide a portable hydrogen water generator, though being a portable hydrogen water generator, upon composing the portable hydrogen water generator, having a large volume compared with a cut, e.g., of 1.5 L capable of providing generated hydrogen water to cups of multiple people over a plurality of times and provided with a jar pot capable of storing drinking water of a small volume compared with a hydrogen water server, capable of miniaturizing the jar pot, and being lightweight and portable.SOLUTION: Based on a set electrolytic mode, the electrolytic current intensity of a negative electrode membrane and a positive electrolytic electrode membrane is greatly adjusted, when the hydrogen water concentration in water of the volume of a pitcher is switched on, it is increased within several minutes, thereafter, the electrolytic current intensity is lowly adjusted, hydrogen is supplied for retaining the generated hydrogen water concentration, the first distribution from the jar pot separated from a base into a plurality of small volume cups of hydrogen water with a prescribed hydrogen water concentration generated within the several minutes and the next distribution of hydrogen water having the retained water concentration into the plurality of small volume cups after the first distribution are made possible.SELECTED DRAWING: Figure 7

Description

The present invention relates to a tabletop hydrogen water generator and a method for producing hydrogen water by a tabletop hydrogen water generator.

Desktop hydrogen water generators are on sale. This tabletop hydrogen water generator is equipped with a jar pot capable of storing 1.5 L of drinking water, is separable from the base, and can provide the hydrogen water generated in the cup multiple times. ..

During hydrogen generation, the LED lights up to notify that hydrogen is being generated. In addition, it has a two-stage production mode. In the normal production mode, 1.5 L of hydrogen water can be produced in 30 minutes at a dissolved hydrogen concentration of 1.2 ppm, and if you want to drink a small amount quickly, switch to the time-saving production mode. It has been reported that 500 ml of drinking water can be produced in 10 minutes at a dissolved hydrogen concentration of 1.2 ppm.

Patent Document 1 includes a container unit including an electrode unit that electrolyzes water to produce reduced hydrogen water, and includes a control unit that supplies an electrolytic waveform to the electrode unit via an electrode terminal. A container-separated reduced hydrogen water generator having a mounting ring plate that is watertightly screwed to the bottom opening of the container and having a separate structure is described.

Patent Document 2 includes a cup-shaped container capable of accommodating drinking water, a power receiving unit having a power receiving coil for supplying power to a coaster table on which the cup-shaped container is placed, and a unit coaster via a power receiving coil and a predetermined interval. A hydrogen water generator with a power supply unit on the table is listed.

Patent Document 3 has an electrolytic cell provided with an anode electrode plate and a cathode electrode plate.
A current adjustment mechanism that adjusts the magnitude of the current supplied to the electric field cell,
To supply the element to be electrolyzed to the electric field cell
An electrolyte temperature control mechanism that regulates the temperature of the electrolyte supplied to the electric field cell,
It is equipped with a current adjustment mechanism and a control device that controls the temperature control mechanism of the object to be electrolyzed, controls the current adjustment mechanism according to operating conditions, and controls the temperature control mechanism of the object to be electrolyzed so that the temperature of the object to be electrolyzed falls within an appropriate range. The electric field device is described.

Patent Document 4 has a tank for storing water, a first mode for continuously supplying an electrolytic current, and a second mode for intermittently supplying an electrolytic current, and the first mode is when raw water is supplied. A hydrogen water server in which the dissolved hydrogen concentration is increased as a mode and the second mode is switched to maintain the dissolved hydrogen concentration is described.

Patent Document 4 includes a first mode in which a tank for storing water is used, and a first mode in which raw water is supplied to the tank to continuously supply an electrolytic current and a second mode in which an electrolytic current is intermittently supplied. A hydrogen water server that maintains the hydrogen concentration in the second mode after increasing the hydrogen concentration in is described.

Japanese Patent No. 3976721 Japanese Patent No. 6012782 JP-A-2017-87110 JP-A-2018-65071

Conventionally, as described above, a current adjusting mechanism for adjusting the magnitude of the supply current to the electric field cell is provided, and the current adjusting mechanism is controlled by a controller, for example, from a mode for increasing the dissolved hydrogen concentration to a mode for maintaining the dissolved hydrogen concentration. It is known to switch. Further, it is known that a power receiving unit and a power feeding unit are provided so that the container and the base can be separated.

When a tabletop hydrogen water generator is configured, the generated hydrogen water can be provided to multiple cups multiple times, which is a relatively large capacity compared to, for example, a 1.5 L cup. Although it is a desktop hydrogen water generator equipped with a jar pot that can store a small amount of drinking water compared to a hydrogen water server, the jar pot can be made smaller, lightweight and portable. Is required.

When this table-top hydrogen water generator is placed on the table and used, hydrogen water is divided into cups and provided at meetings and social gatherings such as family members, friendly friends, senior citizens' homes, and workplace meetings. be able to. By using it in this way, it is possible to provide the merits of the discussion / friendship by relaxing the discussion / friendship.

In this case, the discussion / socialization may not end in a short period of time. In most cases, it is expected to last for 1 to 2 hours, and participants are requested to provide a second cup of hydrogen water after the first cup of hydrogen water is provided immediately after the start of the discussion / social gathering. Will be done. The hydrogen water provided to the participants is not pure water, but hydrogen water formed by adding additives that improve the taste, and further, it is heated hydrogen water. It is hoped that there will be.

As is well known, hydrogen in hydrogen water tends to scatter out of the pot, and even if the concentration is once formed to a concentration such as 1.2 ppm, the concentration tends to decrease.

In this way, hydrogen water having a relatively large capacity can be provided to a cup for a plurality of people multiple times, but the characteristics of a desktop hydrogen water generator having a relatively large capacity and a limited capacity. When using, promptly provide the hydrogen water generated at the start of the talk / social gathering to the participants who participate in the talk / social gathering, and within the time of the talk / social gathering, the hydrogen of the second cup of the predetermined concentration There is a need to provide water.

In view of this point, the present invention can provide the generated hydrogen water to a plurality of cups a plurality of times when a tabletop hydrogen water generator is configured, as compared with a cup of, for example, 1.5 L. Although it is a desktop hydrogen water generator equipped with a jar pot that has a relatively large capacity and can store a small volume of drinking water compared to a hydrogen water server, the jar pot can be made smaller. By forming a table-top hydrogen water generator that is lightweight and can be carried around, participants who participate in the meeting / social gathering can quickly receive the first cup of hydrogen water at the start of the meeting / social gathering. The subject is to provide the hydrogen water of the second cup, which maintains the hydrogen concentration of the first cup, following the discussion and social gathering.

FIG. 1 is a diagram showing a state in which a large number of people gather in front of a table to have a talk and get to know each other.

FIG. 2 is a diagram showing the entire tabletop hydrogen water generator 100 according to the present invention.

In FIG. 1, a plurality of participants 2 who participate in a social gathering / social gathering are gathered around the set table 1. On the tabletop, the tabletop hydrogen water generator 100 shown in FIG. 2 is prepared on the tabletop, and a cup 3 is distributed to each participant 2. The tabletop hydrogen water generator 100 has a capacity ten times as large as the capacity of each cup. For example, the tabletop hydrogen water generator 100 has a capacity of 1.5 L, and the cup 3 has a capacity of, for example, 100 cc.

The tabletop hydrogen water generator consists of a jar pot and a base, and the jar pot includes a main body and an electrolyzer. The base is provided with a connection part to a power source and a high frequency generation circuit part for generating a high frequency magnetic field, and the electrolytic part of the jar pot is provided with a substrate, which is integrally molded with the substrate and receives a high frequency magnetic field and is generated by an electromagnetic induction action. By providing the induction coil portion for inducing electric power, the jar pot can be easily separated from the base and can be easily mounted.

The electrolytic portion is composed of a negative electrode film and a positive electrode film and a diaphragm arranged between the two electrode membranes, and hydrogen is separated from oxygen by the diaphragm and charged into the main body to generate hydrogen water.

The tabletop hydrogen water generator includes an MPU that sets an electrolytic current energization mode for the negative electrode membrane and the positive electrode membrane.

The tabletop hydrogen water generator 100 promptly provides the participant 2 who participates in the meeting / social gathering with the original cup of hydrogen water when hydrogen water is formed, and continues within the time required for the meeting / socializing. It is configured as a desktop hydrogen water generator equipped with a mode corresponding to the needs that can provide a second cup of hydrogen water having a predetermined concentration. Furthermore, the tabletop hydrogen water generator 100 has responded to the need for the hydrogen water provided to be not merely pure water, but to be able to provide hydrogen water whose temperature is appropriately adjusted, which contains additives that improve the taste. It can be a tabletop hydrogen water generator.

From experience, at the meeting / social gathering, the initial cup of hydrogen water for multiple participants is provided within 20 minutes after the start of the meeting / socializing, and within 2 hours after the meeting / socializing ends. Often a second cup of hydrogen water is provided. The hydrogen water provided is not merely pure water, but is moderately temperature-controlled with additives that enhance the taste. In this way, the first mode of providing the initial cup of hydrogen water to a plurality of participants corresponds to the previous time when the total of the previous time and the later time is within 2 hours. The second mode, which is set within minutes and provides the initial two cups of hydrogen water to multiple participants, is set to the remaining time. In many cases, no new tap water or water with a taste-enhancing additive is added during the execution of the first mode. This is one of the characteristics of the tabletop hydrogen water generator.

The first mode is a mode in which an electrolytic current for increasing the dissolved hydrogen concentration is supplied, and the second mode is a mode in which an electrolytic current for maintaining the dissolved hydrogen concentration is supplied.

By setting the total of the pre-time and post-time within 2 hours within the time from switch ON to switch OFF, in many cases, the first cup of hydrogen water and the second cup of hydrogen water are used at a social gathering. Participants will be satisfied with the provision of hydrogen water. The two electrolytic currents supplied in the pre-time and the post-time are switched according to the pre-time set within 20 minutes of the first mode and the post-time set within the remaining time of the second mode. ..

In the first mode, the strength of the electrolytic current can be increased to rapidly generate hydrogen water, and in the second mode, the strength of the electrolytic current can be weakened to maintain the hydrogen water concentration. Alternatively, when the strength of the electrolytic current is set to be the same, the current density can be adjusted by continuous and intermittent power transmission in the second mode. Here, it is expressed as a strong electrolytic force in the previous time and a weak electrolytic force in the later time.

The switch ON is started by the operation by the operator, but the switch OFF is not only the operation by the operator, but also the automatic OFF operation within 2 hours after a predetermined time elapses, or the OFF operation by detecting the amount of hydrogen water. Made by.

A control device is used for adjusting the strength of such an electrolytic current, and a control means equipped with an MPU incorporating a microcomputer, a so-called microcomputer, is adopted for this control device. By adopting a microcomputer, the waveform of the electrolytic current adopted in the first mode and the second mode is recorded in the storage means together with the set energizing time and the switching from the first mode to the second mode. be able to.

The tabletop hydrogen water generator includes a jar pot provided with a hydrogen water generating unit and a base provided with an electricity supply unit, and the jar pot is detachable from the base.

By making the jar pot removable from the base, the jar pot can be detached from the base, and the supply of hydrogen water to each cup can be connected to the cord insertion port attached to the base. It will be easy without being disturbed. The jar pot has a pitcher shape, has a capacity as a pitcher, and has a pot-shaped main body.

The electricity supply is connected to the power supply.

The jar pad includes a main body in the form of a pitcher and an electrolytic part integrated with the main body that electrolyzes water to generate hydrogen and oxygen, and the electrolytic part is between both electrodes. It consists of an placed diaphragm. A polymer electrolytic membrane is adopted as a typical example of a diaphragm.

The polymer electrolytic membrane blocks the passage of generated oxygen, hydrogen is supplied to the inside of the main body, and the separated oxygen is discharged to the outside of the jar pot.

The jar pot is disengaged from the base and the hydrogen water produced is individually led out to an external cup and provided.

The tabletop hydrogen water generator is provided with a control means for controlling the length of the electromotive force induction period and the strength of the electromotive force of the induction coil unit in the hydrogen water generation unit or the electricity supply unit. The tabletop hydrogen water generator may include a hydrogen water generation state notification means for notifying the hydrogen water generation state.

Both electrodes are energized and hydrogen is generated. The generated hydrogen is charged and supplied inside the main body.

By the control means, the energization period of the electrolytic current recorded in advance is set, and the pre-period is set to be extremely shorter than the post-period within the time from the switch ON to the switch OFF in the electricity supply unit.

The control means switches the electrolytic current that is energized between the previous time and the later time, increases the amount of hydrogen generated by the strong electrolytic force in the previous time, and increases the amount of hydrogen generated by the weak electrolytic force in the later time in the electricity supply unit. To make it smaller. By reducing the amount of hydrogen generated by the weak electrolytic force in the later time, the second mode that covers the decrease in the hydrogen concentration of the hydrogen water formed in the first mode and produces an electrolytic current waveform that maintains the hydrogen concentration. Is formed.

In this way, a desktop hydrogen water generator is configured that provides hydrogen water while the hydrogen concentration is increasing in the previous time and hydrogen water while maintaining the hydrogen concentration in the later time.

Further, the tabletop hydrogen water generator 100 may include a hydrogen water generation state notification means in the hydrogen water generation unit.

In this case, the control means generates a strong electromotive force induced signal and a weak electromotive force induced signal, and in response to the strong electromotive force induced signal and the weak electromotive force induced signal, the hydrogen water generation state notification means is notified in the previous time. It is possible to generate notification information for notifying different hydrogen generation states of increasing hydrogen generation and decreasing hydrogen generation at a later time.

The tabletop hydrogen water generator that is the subject of the present invention is
It consists of a jar pot and a base, and the jar pot includes a main body portion and an electrolytic portion.

In the jar pot, hydrogen water having a large capacity, which is a plurality of times the capacity of the small cup, is generated, and hydrogen water having the pitcher capacity is distributed to the cups in small volumes.

The electrolytic portion is composed of a negative electrode film, a positive electrode film, and a diaphragm arranged between the two electrode films.
Hydrogen is separated from oxygen by the diaphragm and charged into the main body to generate hydrogen water, and the separated oxygen is discharged to the outside of the jar pot.

The tabletop hydrogen water generator has the following configuration.

The base is provided with a connection to a power source and a high-frequency generation circuit for generating a high-frequency magnetic field, and the jar pot and the base are electrically contactlessly connected.

The electrolytic part of the jar pot is provided with a substrate, and the induction coil part integrally molded on the substrate, which receives a high-frequency magnetic field and induces an electromotive force by an electromagnetic induction action, and electrolysis to the negative electrode film and the positive electrode film. It has an MPU to set the mode.

The first mode, which consists of the time before the electrolytic mode increases the electrolytic current intensity to the negative electrode film and the positive electrode film to increase the hydrogen water concentration, and the first mode, which comprises a small amount of the electrolytic current intensity, maintains the hydrogen water concentration. This mode consists of a second mode, which is longer than the time.
The jar pot is detachable from the base through the first mode and the second mode, and is detachable from the base when the jar pot is in the first mode and the second mode, and is generated. The pitcher capacity of hydrogen water can be distributed to a small capacity cup in the first mode and the second mode.

According to the present invention, the electrolytic part of the jar pot is provided with a substrate, and the induction coil portion integrally formed on the substrate, which receives a high frequency magnetic field and induces an electromotive force by an electromagnetic induction action, and the negative electrode film and the positive electrode film. Equipped with an MPU that sets the electrolytic current waveform mode to the electrode film, the jar pot is detachable from the base, the jar pot is detached from the base, and hydrogen water stored in the main body is discharged. It is possible to provide a desktop hydrogen water generator that can be supplied to the outside in a mode that meets the needs of participants.

As a result, when a tabletop hydrogen water generator is configured, the generated hydrogen water can be provided to multiple cups multiple times, which is a relatively large capacity compared to, for example, a 1.5 L cup. Although it is a desktop hydrogen water generator equipped with a jar pot that can store a small amount of drinking water compared to a hydrogen water server, the jar pot can be made smaller, lightweight and portable. It is possible to provide a tabletop hydrogen water generator which can be used. As soon as hydrogen water is formed, the participants who participate in the meeting / social gathering will be provided with the original cup of hydrogen water, and within the time required for the meeting / social gathering, the cup will be swiftly continued while saving energy. It is possible to meet the needs that can be provided for the second cup of hydrogen water having a concentration that maintains the hydrogen concentration of the first cup. Then, a plurality of small amounts of hydrogen water having a predetermined hydrogen water concentration generated within the few minutes, separated by irradiation with light having different light colors from the jar pot separated from the base. The next time hydrogen water concentration is maintained in multiple small volume cups after the first distribution, separated by the first distribution to the volume cups and the irradiation of light with different different light colors. It is possible to provide a tabletop hydrogen water generator that enables distribution of hydrogen water.

A diagram showing a state in which a large number of people gather in front of a table to talk and get to know each other. Overall view of the tabletop hydrogen water generator according to the embodiment of the present invention Exploded view of desktop hydrogen water generator Exploded view of the base of the tabletop hydrogen water generator Internal configuration diagram of the electricity supply unit configured inside the base Internal configuration diagram of the electric field section Functional diagram of the tabletop hydrogen water generator according to the embodiment of the present invention Electric power supply diagram that supplies electricity to the electrodes and illuminations Diagram showing an electric circuit in blocks Diagram showing a time chart The figure which shows the state which arranged the heater The figure which shows the state which the additive which improves the taste is added The figure which shows another example of the state which the additive which improves the taste is added

Hereinafter, examples of the present invention will be described with reference to the drawings.

The terms used in this embodiment will be described.
<Desktop hydrogen water generator> Hydrogen generation pot prototyped for the purpose of placing it on the table <Jar pot> The capacity is about 1.5L, and it is in the form of a pot to distribute hydrogen water in multiple batches. A pitcher type pot with an appropriate amount. A non-contact connection is electrically formed with the base.
<Base> A base suitable for receiving the jar pot and placing the jar pot, and equipped with an electric supply unit.
<Detachable> A configuration that is functionally integrated by simply lifting it with a handle and placing it on it, without the intervention of a fixing member such as screwing <Hydrogen water generation> Generated hydrogen Generating dissolved water <Electricity supply unit> AC electricity is taken in from the power source and rectified to DC current to form an electricity supply unit to the electrolysis unit.
<Electrolysis unit> Hydrogen generation unit for hydrogen water generation. It is composed of a negative electrode film and a positive electrode film and a diaphragm (polymer electrolytic film) arranged between the two electrode films, and electrolyzes the charged water to generate hydrogen and oxygen. The negative electrode film and the positive electrode film can also be referred to as a negative electrode plate and a positive electrode plate.
<Polymer electrolytic membrane> It is formed from a polymer membrane. As the polymer membrane, for example, a commercially available fluororesin-based cation exchange membrane having a sulfonic acid group can be used. It has the effect of keeping hydrogen and oxygen generated in both electrode membranes in a separated state.
<First mode and previous time> A mode in which hydrogen water is generated, which is formed by the waveform of the first electrolytic current. Hydrogen water is generated in the time before the stage before the switch is turned on and off by the first electrolytic current in which the current strength is set to be strong. The pre-time by the first mode is shorter than the post-time by the second mode, and the electrolytic current waveform is enlarged, which enables rapid formation of hydrogen water.
<Second mode and later time> A mode formed by the waveform of the second electrolytic current and maintaining the hydrogen concentration of the generated hydrogen water. The generated hydrogen easily scatters to the outside, and the hydrogen concentration decreases. Therefore, hydrogen is supplied to prevent the decrease in the hydrogen concentration, and the hydrogen concentration is maintained. The amount of hydrogen produced is smaller than that in the first mode, and the energy consumption can be small. The back time is set to an extremely long time, such as 2 hours, while the front time is several minutes.
<MPU> Microprocessor. The first mode and the first mode are set, and the total time including the first mode and the first mode is set. Further, a signal for lighting the illumination LED lamp can be generated in synchronization with the electrolytic waveforms of the first mode and the second mode, and can be synchronized with the electrolytic waveform.
<Heater> Electromagnetic induction heating means is adopted.
<Hydrogen water generation state notification means> Typically, a device that notifies the hydrogen water generation state by irradiating light with an illumination LED lamp. Hydrogen water generation status notification includes voice notification in addition to illumination light notification. Notification means other than notification by illumination light and notification by voice may be used.
<Additives that improve taste> For example, beverage additives such as coffee, tea (oolong tea, black tea, kelp tea, barley tea, green tea), cocoa, milk, chocolate beverages, etc.

FIG. 3 is an exploded view of the tabletop hydrogen water generator 100 which is an embodiment of the present invention.

The tabletop hydrogen water generator 100 includes a jar pot 11, a base 12 provided with an electric supply unit, and a lid 13. The jar pot 11 is in the form of a resin container, and includes a main body portion 14 for storing the generated hydrogen water and an electrolysis portion 15 arranged below the main body portion 14. The jar pot 11 is detachably attached to the base 12, has a handle 16 and an outlet 17, and is separated from the base 12 by holding the handle 16, and the generated hydrogen water is discharged from the outlet 16 to FIG. Can be supplied to the indicated cup 3.

The main body portion 14 includes a holding portion 18, and the electrolytic portion 15 is housed in the holding portion and is screwed to be fixed to the main body portion 14. A jar pot 11 having a main body portion 14 and an electrolysis portion 15 and capable of forming and holding hydrogen water is formed.

Water is electrolyzed in the electrolytic unit 14 of the jar pot 11, hydrogen and oxygen are generated by electrolysis, and hydrogen is separated and put into water stored in the main body to generate hydrogen water.

The outer surface of the jar pot 11 is provided with a scale 19 which is convenient for knowing the amount of hydrogen water generated and retained.

FIG. 3A is a view of the bottom of the main body 14 as viewed from above, and FIG. 3B is a view of the bottom of the main body 14 as viewed from below.

As shown in FIG. 3A, a protrusion 26 is formed on the bottom 25 of the main body 14, and a through hole 27 is provided at the center of the protrusion 26. As shown in FIG. 3 (b), four screw holes 28 are provided around the through hole portion 27.

The electrolytic part 15 housed in the holding part of the electrolytic part has a cylindrical shape and is in a resin form, and is invisible from the outside when stored.

The electrolytic unit 15 includes a holding plate 51, and the holding plate 51 is provided with a screw hole 28 for fixing the electrolytic unit 15 to the holding unit 18 of the electrolytic unit, and oxygen separated by the electrolytic unit 15 is jarted. An air outlet hole 22 for discharging to the outside is provided.

The electric field portion 15 includes a substrate (1) 42 (see FIG. 4) on the holding plate 51.

The base 12 is in the form of a resin container and has a cylindrical shape. The cylindrical outer surface portion is provided with an integrally molded bottom portion, and the upper end portion is in contact with the electric field portion 15. A cord insertion port 24 is provided on the outer surface of the cylinder, and a screw hole (not shown) is provided on the bottom so as to oppose the screw hole 22. The base 12 can stably hold the jar pot 11 on the table 1 shown in FIG. 1 when the jar pot 11 is incorporated.

The base 12 includes a substrate (2) shown in FIG. 5 on the upper surface of the bottom.

FIG. 4 is an exploded view of the base of the tabletop hydrogen water generator.

The base 12 includes a base main body 12A and an electric supply unit 30 incorporated inside the base main body, and the electric supply unit 30 includes an electric introduction unit 31, a packing 32, a high frequency magnetic field generation unit 33, and an electric connection from above. It consists of a part 36. The electric introduction unit 31 has a DC rectifier circuit 35 as shown in FIG. 5, and the high frequency magnetic field generation unit 33 has a high frequency magnetic field generation coil 39. The electric connection unit 36 has a screw receiver 91 to receive the electric introduction unit 31, and the electric connection unit 31 is fixed to the electric connection unit 36 by screwing. The electrical connection portion 36 has a substrate (1) 42 in the center and an insertion port 92 at the left end in the drawing.

The packing 32 is arranged between the electric introduction section 31 and the high frequency magnetic field generating section 33.

The base main body portion 12A has a receiving portion 93, receives an electric introduction portion 31, a packing 32, a high frequency magnetic field generating portion 33, and an electric connecting portion 36, and fixes these components. Further, the base main body portion 12A has an insertion port storage portion 90 for storing the insertion port 92.

FIG. 5 is an internal configuration diagram of an electric supply unit internally configured on the base.

The base main body 12A is formed in a conical shape slightly narrowed on the upper side, includes an insertion port storage portion 90, a receiving portion 93 on which the bottom of the jar pot is placed around the inside, and electricity in the inner central portion. A supply unit 30 is provided.

The electricity supply unit 30 constitutes a power supply circuit unit, and is composed of two parts, one of which is a DC power supply circuit unit 31 and the other of which is a high frequency magnetic field generation unit 33. The electricity supply unit 30 can be a rechargeable type electricity supply unit by providing a storage battery.

The electric introduction unit 31 forms a DC power supply circuit unit. The DC power supply circuit unit is formed on the substrate (1) 32, and is composed of an insertion port 92 into which a terminal is inserted, a wiring unit 34 connected to the insertion port 92, and a DC rectifier circuit unit 35 on the substrate (1). It is held by the holding member 36. A screw hole 37 is provided in the electrical connection portion 36.

The high-frequency magnetic field generating unit 33 fixes the holding plate 38 mounted on the substrate (1), the high-frequency magnetic field generating coil 39 mounted on the holding plate 38, and the high-frequency magnetic field generating coil 39 to the holding plate 38. It consists of a sheet 40 and forms a control unit. The control unit rectifies an AC 100V power supply into a direct current to generate a high-frequency magnetic field.

The holding member 38 is provided with a screw hole 41. The DC power supply circuit unit 31 provided on the substrate (1) is provided by placing the holding plate 38 on the holding plate 36 with these parts facing each other and screwing screws into both screw holes. And the high-frequency magnetic field generating unit 33 are integrated by screwing through a gap provided between the two.

As shown in FIG. 4, the integrated electric supply unit 30 has a base with a high-frequency magnetic field generating unit 32 on the upper side and a DC power supply circuit unit 31 on the lower side, and a packing 91 between them. 12 is fitted into a penetrating space provided in the center of the base 2 from below to be incorporated.

FIG. 6 is an internal configuration diagram of the electric field portion.

The electric field portion 15 constitutes an electrolytic cell 50 in the central portion. The electrolytic cell 50 has a holding plate 51 at the bottom, and the main part is composed of two parts. One is an induction coil portion 52 mounted on the holding plate 51, and the other is an electrode portion 53.

The induction coil portion 52 is formed from the substrate (2) 54, the induction coil 55 integrally formed on the substrate (2), and the connector CN56. That is, the substrate (2) 54 mounts the induction coil 55, the connector CN56, and the MPU 81 that forms an electrolytic current waveform on the control circuit. The MPU 81 and the electrolysis generation circuit 87 form a control means including a control circuit. The electrolytic waveform output circuit 88 generates and outputs an electrolytic waveform by the signal sanctioned by this control means.

An illumination light whose irradiation is controlled by a control means can be placed on the substrate (2) 54. Further, in the case of forming heated hydrogen water, the control means is provided with a circuit for energizing the heater with a heated current.

The electrode portion 53 includes a negative electrode film 57, a positive electrode film 58, a polymer electrolytic film 59 as a diaphragm arranged between both electrode films, a holding member 60 for holding these films, a connector CN56, and a negative electrode film 57. , Formed from connection terminals 61, 62 connecting the positive electrode film 58.

The negative electrode film 57 is placed on the upper side and the positive electrode film 58 is placed on the lower side, and the polymer electrolytic film 59 is sandwiched and arranged between the electrode films to form a transparent material. Be retained. The holding plate 61 is fixedly held to a holding member 60 which is a transparent material and has a through hole in the center.

The negative electrode film 57 and the positive electrode film 58 constituting the electrolytic cell receive water supply to generate hydrogen and oxygen, and the polymer electrolytic film 59 introduces only hydrogen into the main body 14.

The holding member 60 is arranged in the through hole portion 27 shown in FIGS. 3A and 3B, and the holding member 60 is fixed to the through hole portion 27. The holding member 60 and the holding plate 61, which are transparent materials, transmit the illumination light which becomes the LED light from the illumination light and irradiate the inside of the main body 14. A packing 31 is mounted between the holding member 60 and the holding plate 61 to form a space.

The holding plate 61 has a hole (not shown) in the center, and the generated oxygen is discharged to a space formed between the holding member 60 and the holding plate 61. The oxygen discharged into the space portion is discharged from the air outlet hole provided at the bottom of the holding portion 52 into the space portion formed between the substrate 12 and the electrolytic unit 15.

FIG. 7 is a functional diagram of the tabletop hydrogen water generator according to the embodiment of the present invention.

As described above, the tabletop hydrogen water generator 100 of the embodiment includes a jar pot 11 and a base 12, and the jar pot 11 is detachable from the base 12.
The jar pot 11 includes a main body portion 14 and an electrolytic portion 15.
The electrolytic unit 15 is composed of a negative electrode film 57, a positive electrode film 58, and a polymer electrolytic film 59 arranged between both electrodes.
Hydrogen is separated from the polymer electrolytic membrane 59 oxygen and charged into the main body to generate hydrogen water, and the separated oxygen is discharged to the outside of the jar pot.

The electrolysis unit 15 includes an induction coil unit 52 that induces an electromotive force by an electromagnetic induction action of a high-frequency magnetic field. Further, an illumination light 82 is provided on the substrate (2) 54.

The electrolytic part of the jar pot is provided with a substrate, and an electrolytic current is applied to the induction coil part, which receives a high-frequency magnetic field and induces an electromotive force by an electromagnetic induction action, and the negative electrode film and the positive electrode film, which are integrally formed on the substrate. The MPU is provided to form an electrolytic current waveform in which the time is set to the previous time and the electrolytic current energization time is set to the later time.

A mode consisting of a first mode in which the electrolytic current energization time is set in the previous time and a second mode in which the electrolytic current energization time is set in the later time by the MPU, for example, a preset time of 2 hours. The mode set to be within, the first mode in which the time before a few minutes is set in advance, and the second mode in which the time after the remaining time is set are acquired, and control is performed to switch from the first mode to the second mode. Control means are formed.

In the tabletop hydrogen water generator 100, the jar pot 11 is separated from the base 12, and the generated hydrogen water can be supplied to the outside.

The desktop hydrogen water generator 100 described above has the following functions.

・ Water is electrolyzed to generate hydrogen and oxygen.

-Separate hydrogen from oxygen and put it into the water inside the main body to generate hydrogen water.

-Base The base is provided with a connection part to the power supply and a high frequency generation circuit part for generating a high frequency magnetic field.

-The first mode in which the electromotive current energization time to the induction coil portion that receives a high-frequency magnetic field and induces an electromotive force by electromagnetic induction action and the negative electrode film and the positive electrode film is set in the previous time and the electrolytic current energization time are after A mode consisting of a second mode set by time, a mode in which the time is set in advance, a mode in which the previous time is set in advance, and a second mode in which the time after the remaining time is set are set. It is set and control is performed to switch from the first mode to the second mode.

-In the first mode, the amount of hydrogen generated per unit time generated in the previous time is larger than the amount of hydrogen generated per unit time generated in the subsequent time of the second mode, and when the previous time elapses, the first You can switch to 2 modes. As a result, hydrogen is continuously replenished in the second mode, and the hydrogen concentration of the hydrogen water can be maintained at a predetermined concentration.

-The jar pot 11 can be used in a state where it is separated from the base 12 and separated from the power supply 80 by providing an induction coil unit in which the electrolytic unit induces an electromotive force by an electromagnetic induction action by a high-frequency magnetic field. It is said that.

The tabletop hydrogen water generator 100 is hydrogen water generated in the first mode, and is notified that the hydrogen water is generated in the first mode by being irradiated with illumination light, and the first hydrogen water. Hydrogen water produced in the second mode after passing through the first mode, and is informed that the hydrogen water is generated in the second mode by being irradiated with illumination light having a light color different from the above-mentioned light. Hold.

・ Additives that improve the taste are included in the water stored in the main body, and it is possible to generate hydrogen water containing the additives that improve the taste, and it is possible to provide the hydrogen water at the time of discussion and social gathering. And.

FIG. 8 is an electric power supply diagram for supplying electricity to the electrodes 57 and 58 and the illumination light 82.

The substrate (2) 54 forms a control substrate, and is provided with an MPU 81 and an illumination light 82 as an irradiation device on the substrate. The illumination light 82 is linked by the MPU 81 to form the hydrogen water generation state notification means 83 that irradiates light in conjunction with the electrolytic current waveform.

When the electrolytic unit 15 includes an induction coil unit 52 that induces an electromotive force by an electromagnetic induction action of a high-frequency magnetic field, a non-contact connection is formed with the electric supply unit 30.

FIG. 9 is a diagram showing an electric circuit and control means in blocks.

In FIG. 9, the electrical system is connected to the power supply circuit 84 based on the induced electromotive force, the ON / OF switch 85, the overcurrent protection circuit 86 connected to the output control relay 85, and the power supply circuit 84, and is controlled by the MPU 81. An electrolytic waveform generation circuit 87 that generates the electrolytic waveform, an electrolytic waveform output circuit 88 that outputs the electrolytic waveform because it is connected to the electrolytic waveform generation circuit 87, and an LED light driver circuit that operates the illumination light 82 with a control signal from the MPU 81. (Not shown) and is included.

The ON / OFF switch 85 is used for the ON / OFF operation of the desktop hydrogen water generator 100.

The ON / OFF switch 85 may be turned on / off by inserting / removing the electrical connection unit 36 connected to the power supply 80. A hydrogen water level detector may be provided to detect that the water level has fallen below a predetermined level and operate the ON / OFF operation.

FIG. 10 is a diagram showing a time chart.

In FIG. 10, the set pre-time and post-time are acquired corresponding to the first mode and the second mode. Corresponding to the first mode and the second mode, A. Electromotive force that is the source of power supply, B. Hydrogen production amount, C.I. Hydrogen water Hydrogen concentration, D.I. Temperature, E.I. Illumination light irradiation, F. The provision of hydrogen water from the jar pot is shown.

The MPU 81 has a mode consisting of a first mode in which the electrolytic current energization time is set in the previous time and a second mode in which the electrolytic current energization time is set in the later time, and the preset time is within 2 hours. The set mode, the first mode of the time before the time of 20 minutes or less, and the second mode of the time after the remaining time are set in advance. These times can be adjusted within 2 hours, with the pre-time being shorter than the post-time.

When the previous time set in the first mode ends, the MPU 81 assumes that the light irradiation of the light color is different. At this time, the substrate (2) generates a signal that generates a "pee" sound. A voice generator (not shown) provided in the above can generate a voice "pee".

The electromotive force is set to be strong in the first mode and weak in the second mode, and the energy-saving operation in the second mode is executed. In the first mode, the amount of hydrogen produced is increased per unit time, and the hydrogen concentration of hydrogen water is increased accordingly.

When a heating device is attached to the tabletop hydrogen water generator 100, it is rapidly heated, the temperature is rapidly raised, and it is suitable for adding an additive that improves the taste to the water stored in the main body. The state is quickly formed.

In this mode, the light colors of a plurality of illumination lights are switched and used.

In this mode, the first supply (first distribution) of hydrogen water to the initial cup held by the participant 2 in the round-table conference / social gathering is performed within a few minutes. In the second mode period, hydrogen water is continuously supplied (next distribution). When the power is turned off, the first mode and the second mode are reset.

It is expected that hydrogen water, which is appropriately heated and added with additives that improve the taste, will be produced and supplied to make the discussion and friendship more peaceful.

When the set first mode ends, the first mode is automatically switched to the second mode. In the second mode, the hydrogen production is the amount of hydrogen generated by the amount of hydrogen generated in the first mode scattered from the hydrogen water and lost. As a result, the hydrogen concentration of hydrogen water is maintained in the second mode. In the second mode, the temperature of hydrogen water is maintained at an appropriate temperature.

In this mode, hydrogen water is supplied to the second cup held by the participant 2 in the round-table conference. It is expected that hydrogen water, which is appropriately heated and added with additives that improve the taste, will be produced and supplied to make the discussion and friendship more peaceful.

The hydrogen water held in the tabletop hydrogen water generator equipped with a light irradiation device for irradiating light having a plurality of different light colors is the hydrogen water generated in the first mode by the tabletop hydrogen water generator 100. The light is hydrogen water that is irradiated with light and notified that it is hydrogen water produced in the first mode, and hydrogen water that is generated in the second mode via the first mode. It is hydrogen water notified that it is hydrogen water produced in the second mode by being irradiated with light of a different light color.

As described above, the first mode set based on the electrolytic mode greatly adjusts the electrolytic current intensity to the negative electrode film and the positive electrode film, and the hydrogen water concentration of the pitcher capacity water is switched on. Then, it is increased within a few minutes, and by the second mode, the electrolytic current intensity is then adjusted to a small value, and hydrogen is replenished to maintain the concentration of hydrogen water produced.

The hydrogen water generation state notification means emits different notification information to the hydrogen water in the first mode and the hydrogen water in the second mode.

The first round from the jar pot detached from the base to multiple small volumes of hydrogen water with a given concentration of hydrogen water generated within minutes, separated by separate and different broadcast information. It enables the next distribution of hydrogen water whose hydrogen water concentration is maintained to a plurality of small volumes of cups after the first distribution, which is separated by distribution and separate different notification information.

FIG. 11 is a diagram showing a state in which the heater is arranged.

A heater 95 that becomes a nichrome wire is arranged below the bottom 25 of the main body 14. The heater 95 is formed by electromagnetic induction heating means. By installing it in the heater 95, the temperature of hydrogen water can be maintained at an appropriate temperature. A heat insulating material 96 is installed at the bottom of the heater.

FIG. 12 is a diagram showing a state in which an additive that improves taste is added.

Additives for improving taste are stored in the through-hole portion 27, a porous container 97 is attached, and the generated hydrogen 98 is allowed to pass through the porous container 97 and flow out to the main body portion 14. In combination with the heater installation shown in FIG. 10, it is possible to provide hydrogen water whose temperature is appropriately adjusted, which contains additives having improved taste.

FIG. 13 is a diagram showing another example of a state in which an additive that enhances taste is added.

An additive bag (pack) 99 containing an additive that improves the taste is placed in the water inside the main body 14.

For example, a tea pack or a tea pack is placed in water inside the main body 14. By elution of black tea extract and tea extract, again. In combination with the heater installation shown in FIG. 10, it is possible to provide hydrogen water whose temperature is appropriately adjusted, which contains additives that improve the taste.

According to this embodiment, the first mode set by the electrolytic current energization time of the pre-set time and the second mode set by the electrolytic current energization time of the post-time are acquired, and both modes are set in advance. The set time, especially the time set in the second mode, is set to 2 hours or less, and the mode is switched from the first mode to the second mode. Within a few minutes of the first mode, the amount of hydrogen generated is increased and the second mode is set. In the remaining time of the mode, the amount of hydrogen generated is reduced, and the first mode can be switched to the second mode.

As a result, the participants who participate in the meeting / social gathering will be provided with the original cup of hydrogen water as soon as hydrogen water is formed, and the first cup of hydrogen will continue within the time required for the meeting / socializing. It is possible to provide a desktop hydrogen water generator that meets the needs of providing hydrogen water for the second cup of hydrogen water with a concentration that maintains the concentration, and a mode for maintaining the hydrogen concentration of hydrogen water for the second and subsequent cups. It is possible to realize the supply of hydrogen water by saving energy by adopting.

First distribution of hydrogen water from a jar pot detached from the base to multiple small volumes of hydrogen water with a given concentration of hydrogen water generated within minutes, separated by separate and different broadcast information. And, separated by different broadcast information, the next distribution of hydrogen water whose hydrogen water concentration is maintained to a plurality of small-volume cups after the first distribution is possible.

The hydrogen water generation state notification means is a light irradiation device that irradiates light having a plurality of different light colors.
The light irradiation device irradiates the hydrogen water in the first mode and the hydrogen water in the second mode with light having different light colors.
A plurality of small volumes of hydrogen water having a predetermined hydrogen water concentration generated within the few minutes, separated by irradiation with light having different light colors from the jar pot separated from the base. The first distribution to the cups and the next distribution of hydrogen water with maintained hydrogen water concentration to multiple smaller volumes of cups after the first distribution, separated by irradiation with light of different light colors. Is possible.

Further, according to the embodiment of the present invention, the hydrogen water provided is not merely pure water, but a tabletop hydrogen water generation that meets the needs for providing hydrogen water whose temperature is appropriately adjusted including additives that improve the taste. A vessel is provided.

100 ... Desktop hydrogen water generator, 1 ... Table, 2 ... Participants, 3 ... Cup, 11 ... Jarpot, 12 ... Base, 12 ... Base body, 13 ... Lid, 14 ... Body, 15 ... Electrolyzer, 16 ... Handle, 18 ... Electrolyzer holding part, 23 ... Air outlet hole, 27 ... Through hole part, 30 ... Electricity supply part, 31 ... Electricity introduction part, 32 ... Packing, 33 ... High frequency magnetic field generating part, 35 ... DC rectifying circuit, 36 ... Electrical connection, 38 ... Holding plate, 39 ... High frequency magnetic field generating coil, 40 fixed sheet, 42 ... Substrate (1), 50 ... Electrolytic cell, 51 ... Holding plate, 52 ... Induction coil , 53 ... Electrode part, 54 ... Substrate (2), 55 ... Induction coil, 56 ... Connector CN, 57 ... Negative electrode film, 58 ... Positive electrode film, 59 ... Polymer electrolytic film as diaphragm, 60 ... Holding member, 61 ... holding plate, 81 ... MPU, 82 ... illumination light (LED light), 83 ... hydrogen water generation state notification means, 87 ... electrolysis generation circuit, 88 ... electrolysis waveform output circuit, 92 ... insertion port.

Jar pop doo is a main body of the pitcher form, electrolyzing water to produce hydrogen and oxygen, including the electrolytic unit which is integrated into the body portion, the electrolysis unit, the electrodes and the two electrodes It consists of a diaphragm placed between them. A polymer electrolytic membrane is adopted as a typical example of a diaphragm.

A diagram showing a state in which a large number of people gather in front of a table to talk and get to know each other. Overall view of the tabletop hydrogen water generator according to the embodiment of the present invention Exploded view of desktop hydrogen water generator Exploded view of the base of the tabletop hydrogen water generator Internal configuration diagram of the electricity supply unit configured inside the base Internal configuration diagram of the electrolytic part Functional diagram of the tabletop hydrogen water generator according to the embodiment of the present invention Electric power supply diagram that supplies electricity to the electrodes and illuminations Diagram showing an electric circuit in blocks Diagram showing a time chart The figure which shows the state which arranged the heater The figure which shows the state which the additive which improves the taste is added The figure which shows another example of the state which the additive which improves the taste is added

Water is electrolyzed in the electrolytic unit 15 of the jar pot 11, hydrogen and oxygen are generated by electrolysis, and hydrogen is separated and put into water stored in the main body to generate hydrogen water.

The electrolytic unit 15 includes a holding plate 51, and the holding plate 51 is provided with a screw hole 22 for fixing the electrolytic unit 15 to the holding unit 18 of the electrolytic unit, and oxygen separated by the electrolytic unit 15 is jarted. An air outlet hole 23 for discharging to the outside is provided.

The electrolytic unit 15 includes a substrate (1) 42 (see FIG. 4) on the holding plate 51.

As shown in FIG. 4, the integrated electric supply unit 30 is provided with a high-frequency magnetic field generating unit 32 on the upper side, a DC power supply circuit unit 31 on the lower side, and a packing 32 between them. 12 is fitted into a penetrating space provided in the center of the base 2 from below to be incorporated.

FIG. 6 is an internal configuration diagram of the electrolytic unit.

The electrolytic unit 15 constitutes an electrolytic cell 50 in the central portion. The electrolytic cell 50 has a holding plate 51 at the bottom, and the main part is composed of two parts. One is an induction coil portion 52 mounted on the holding plate 51, and the other is an electrode portion 53.

The induction coil portion 52 is formed from the induction coil 55 and the connector CN56 integrally formed with the substrate (2) 54 and the substrate (2) 54 . That is, the substrate (2) 54 mounts the induction coil 55, the connector CN56, and the MPU 81 that forms an electrolytic current waveform on the control circuit. The MPU 81 and the electrolysis generation circuit 87 form a control means including a control circuit. The electrolytic waveform output circuit 88 generates and outputs an electrolytic waveform by the signal sanctioned by this control means.

The electrode portion 53 includes a negative electrode film 57, a positive electrode film 58, a polymer electrolytic film 59 as a diaphragm arranged between both electrode films, a holding member 60 for holding these films, a connector CN56, and a negative electrode film 57. , Formed from connection terminals 63 , 64 connecting the positive electrode film 58.

The holding member 60 is arranged in the through hole portion 27 shown in FIGS. 3A and 3B, and the holding member 60 is fixed to the through hole portion 27. The holding member 60 and the holding plate 61, which are transparent materials, transmit the illumination light which becomes the LED light from the illumination light and irradiate the inside of the main body 14. Packing grayed is mounted between the holding member 60 and the holding plate 61, a space portion is formed.

The holding plate 61 has a hole (not shown) in the center, and the generated oxygen is discharged to a space formed between the holding member 60 and the holding plate 61. Oxygen discharged in the space is discharged to the space formed between the holding plate 61 and the electrolyte 15 from the air outlet hole provided in the holding plate 61.

100 ... Desktop hydrogen water generator, 1 ... Table, 2 ... Participant, 3 ... Cup, 11 ... Jarpot, 12 ... Base, 1 3 ... Lid, 14 ... Main body, 15 ... Electrolyzer, 16 ... Handle , 18 ... Electrolyzer holding part, 23 ... Air outlet hole, 27 ... Through hole part, 30 ... Electricity supply part, 31 ... Electricity introduction part, 32 ... Packing, 33 ... High frequency magnetic field generating part, 35 ... DC rectifying circuit, 36 ... Electrical connection part, 38 ... Holding plate, 39 ... High frequency magnetic field generating coil, 40 fixed sheet, 42 ... Substrate (1), 50 ... Electrolytic cell, 51 ... Holding plate, 52 ... Induction coil part, 53 ... Electrode part, 54 ... Substrate (2), 55 ... Induction coil, 56 ... Connector CN, 57 ... Negative electrode film, 58 ... Positive electrode film, 59 ... Polymer electrolytic film as diaphragm, 60 ... Holding member, 61 ... Holding plate, 81 ... MPU, 82 ... Illumination light (LED light), 83 ... Hydrogen water generation status notification means, 87 ... Electrolysis generation circuit, 88 ... Electrolysis waveform output circuit, 92 ... Outlet.

Claims (8)

It consists of a jar pot and a base,
The jar pot is provided with a main body and an electrolyzer, and is provided with a hydrogen water generation state notification means.
The main body of the jar pot has a large capacity, which is a plurality of times the capacity of a small cup, and has a certain pitcher capacity.
The electrolytic portion of the jar pot includes a negative electrode film and a positive electrode film, and a diaphragm arranged between the two electrode films.
Hydrogen and oxygen are generated by electrolysis, and the generated hydrogen is separated from oxygen by the diaphragm and put into the main body to generate hydrogen water, and the separated oxygen is discharged to the outside of the jar pot. In the hydrogen water generator
The base includes a connection portion to a power supply and a high frequency generation circuit portion for generating a high frequency magnetic field.
The jar pot is provided with an induction coil portion in which the electrolytic portion of the jar pot receives a high-frequency magnetic field and induces an electromotive force by an electromagnetic induction action, and an MPU that sets an electrolytic mode for the negative electrode film and the positive electrode film. And the base are electrically contactlessly connected, and the jar pot is detachable from the base.
By the first mode set based on the electrolysis mode, the strength of the electrolysis current to the negative electrode film and the positive electrode film is greatly adjusted, and when the hydrogen water concentration of the water in the pitcher capacity is switched on, the number is counted. Increased in minutes, and by the second mode, the electrolytic current intensity is then adjusted to a small amount, hydrogen is replenished to maintain the concentration of hydrogen water produced.
The hydrogen water generation state notification means emits different notification information to the hydrogen water in the first mode and the hydrogen water in the second mode.
A first into a plurality of small volumes of hydrogen water having a predetermined hydrogen water concentration generated within the few minutes, separated from the jar pot detached from the base by different different broadcast information. It is characterized by enabling the next distribution of hydrogen water whose hydrogen water concentration is maintained to a plurality of small-volume cups after the first distribution, which is separated by the second distribution and separate different notification information. Desktop hydrogen water generator.
In the desktop hydrogen water generator according to claim 1,
The hydrogen water generation state notification means is a light irradiation device that irradiates light having a plurality of different light colors.
The light irradiation device irradiates the hydrogen water in the first mode and the hydrogen water in the second mode with light having different light colors.
A plurality of small volumes of hydrogen water having a predetermined hydrogen water concentration generated within the few minutes, separated by irradiation with light having different light colors from the jar pot separated from the base. The first distribution to the cups and the next distribution of hydrogen water with maintained hydrogen water concentration to multiple smaller volumes of cups after the first distribution, separated by irradiation with light of different light colors. A desktop hydrogen water generator characterized by enabling.
In the desktop hydrogen water generator according to claim 1,
A desktop hydrogen water generator characterized in that the MPU controls switching of irradiation of light having a different light color when switching from the first mode to the second mode.
In the desktop hydrogen water generator according to claim 1,
A desktop hydrogen water generator characterized in that the time preset for the second mode by the MPU is set to within 2 hours, and the switch is automatically turned off when the time elapses.
In the desktop hydrogen water generator according to claim 1,
The electrolytic portion of the jar pot is provided with a substrate, and the substrate is provided with the induction coil portion that receives an integrally molded high-frequency magnetic field and induces an electromotive force by an electromagnetic induction action. Generator.
In the tabletop hydrogen water generator according to any one of claims 1 to 5.
A desktop hydrogen water generator, wherein the main body of the jar pot is provided with a heater that heats the water in the main body with the generated electromotive force.
It consists of a jar pot and a base,
The jar pot is provided with a main body portion and an electrolytic portion, and is provided with a light irradiation device for irradiating light having a plurality of different light colors.
The main body of the jar pot has a large capacity, which is a plurality of times the capacity of a small cup, and has a certain pitcher capacity.
The electrolytic portion of the jar pot includes a negative electrode film and a positive electrode film, and a diaphragm arranged between the two electrode films.
Hydrogen and oxygen are generated by electrolysis, the generated hydrogen is separated from oxygen by the diaphragm and put into the main body to generate hydrogen water, and the separated oxygen is discharged to the outside of the jar pot.
The base includes a connection portion to a power supply and a high frequency generation circuit portion for generating a high frequency magnetic field.
The electrolytic part of the jar pot is provided with a substrate, and is integrally molded on the substrate, receives a high-frequency magnetic field, and induces an electromotive force by an electromagnetic induction action, and the negative electrode film and the positive electrode film. Hydrogen water generation by a tabletop hydrogen water generator equipped with an MPU that sets an electrolytic mode, the jar pot and the base are electrically connected in a non-contact manner, and the jar pot is detachable from the base. In the method
The MPU sets the electrolytic mode based on the electrolytic current electrolytic waveform.
Corresponding to the electrolytic current electrolysis waveform of the first mode set based on the electrolytic mode, the electrolytic current intensity to the negative electrode film and the positive electrode film is greatly adjusted, and the hydrogen water of the pitcher capacity is water. When the concentration is switched on, it is increased within minutes, and in response to the electrolytic current electrolysis waveform of the second mode, the electrolytic current intensity is then adjusted to a small value to maintain the hydrogen water concentration produced. Hydrogen is replenished,
Hydrogen water generation by a desktop hydrogen water generator, wherein the light irradiation device irradiates hydrogen water in the first mode and hydrogen water in the second mode with light having different light colors. Method.
In the method for generating hydrogen water by the desktop hydrogen water generator according to claim 7.
A method for generating hydrogen water by a desktop hydrogen water generator, wherein the hydrogen water generating unit is provided with a heater to generate heated hydrogen water.

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