KR200213274Y1 - Gas producing device by electroysis react - Google Patents

Abstract

The present invention relates to a gas generating device by an electrolysis reaction, and is equipped with an ultrasonic generator at the bottom of the container to generate high frequency components to separate the ions,

On the upper side of the ultrasonic generator, the electrodes supplying the positive power and the negative power, respectively, are arranged on both sides, and a plurality of electrode plates in which electricity does not flow directly by the O-rings are arranged side by side between the supports to supply DC power. When the electromotive force is induced to generate oxygen and hydrogen gas that electrolyzed the water in the KOH aqueous solution,

On the outside of the electrode is attached a magnet of the N pole and the S pole to the + power supply electrode and the-power supply electrode to promote the ionization of + and-,

Due to the resonance frequency generated by the electromagnetic wave generator attached to the outer wall of the vessel, oxygen and hydrogen gas generated in the vessel during the molecular motion of the water are active, are discharged through the gas supply pipe while water is removed while passing through the ceramic ball. ,

The oxygen and hydrogen gas supplied through the gas supply pipe are dispersed in the backfire prevention auxiliary container filled with water by an diffuser and discharged to the gas discharge pipe at low pressure, thereby generating hydrogen and oxygen gas. The amount is increased, the cost for gas production is reduced, and the installation area can be installed in a small space.

Description

Gas producing device by electroysis react

The present invention relates to a gas generating device by an electrolysis reaction, and in particular, a plurality of electrode plates in which electricity is not directly flowed by O-rings side by side between the electrodes on both sides of an inner bottom of a container containing an aqueous KOH solution are arranged in parallel with each other. When power is supplied, electrolysis is induced and electrolysis is generated, and ionization is promoted by a magnet coupled to the positive electrode, and water is electrolyzed by separating ions inside by ultrasonic waves generated from an ultrasonic generator. The present invention relates to a gas generator by an electrolysis reaction, in which the amount of hydrogen and oxygen gas is increased, the cost for gas production is reduced, and the installation area can be installed in a small space.

The rapid development of the industry these days has improved the standard of living, but our only one environment is being seriously destroyed by various polluted wastewater or exhaust gas and even threatening the health of people.

In addition, due to the development of the automobile industry, the spread of vehicles has increased, and the exhaust gas generated when many vehicles are traveling at a low speed has a great impact on the urban environment, and when driving at a speed higher or lower than the normal speed, Of course, since the exhaust gas generated from the engine running in the retardation or stagnation zone is almost incomplete combustion gas, it has seriously polluted the environment.

Therefore, many studies have been conducted to purify exhaust gas by increasing combustion efficiency, such as using more refined fuel or supplying fuel to a combustor in the same state as liquefied air. Pollution from cars did not eliminate the environmental impact.

Therefore, the development of an electric vehicle that decomposes water into gas of oxygen and hydrogen by electrolysis, and then obtains power while burning it, has resulted in the active development of test driving.

However, the conventional structure for generating gas to obtain power while burning hydrogen gas obtained by electrolysis as described above does not have a large amount of hydrogen gas obtained when electrolyzing water, so the amount of water to be carried for driving must be large. And, there is a problem that the electricity supplied to the electrode plate for electrolysis is also high pressure or consumption of electricity.

Moreover, when only hydrogen gas is burned, there is a high risk of explosion during combustion, and there is a disadvantage in that gas leaks or explodes in a container for storing hydrogen gas.

Accordingly, the present invention arranges a plurality of electrode plates in which electricity does not flow directly by O-rings between the electrodes on both sides of the inner bottom of the container in which the KOH aqueous solution is put in parallel, and the electromotive force is induced when the DC power is supplied. Oxygen and hydrogen gas are generated, and ionization is promoted by a magnet coupled to the positive electrode, and the ions inside are separated by ultrasonic waves generated from an ultrasonic generator. It is an object of the present invention to provide a gas generating apparatus by an electrolysis reaction, in which the quantity is increased, the cost for producing gas is reduced, and the installation area can be installed in a small space.

In order to achieve the above object, the present invention is equipped with an ultrasonic generator at the inner bottom of the container formed at the top of the replenishing water inlet and the safety valve to replenish distilled water to generate high frequency components having the wavelength of ultrasonic waves to separate the ions therein. So that

Directly above the ultrasonic generator, the electrodes supplying the positive power and the negative power, respectively, are arranged on both sides, while a plurality of electrode plates in which electricity does not flow directly by the O-rings are arranged side by side between the supports to provide DC power. When supplying, the electromotive force is induced to generate oxygen and hydrogen gas which electrolyzed the water in the KOH aqueous solution.

On the outside of the electrode is attached a magnet of the N pole and the S pole to the + power supply electrode and the-power supply electrode to promote the ionization of + and-,

An electromagnetic wave generator is installed on the outer wall of the container so that a resonance frequency is generated in the inside of the container to activate water molecule movement.

Oxygen and hydrogen gas generated in the container is supplied to the auxiliary flashback prevention vessel through the gas supply pipe while the water is removed while passing through the ceramic ball on the top and the ceramic ball on the outside,

Oxygen and hydrogen gas supplied through the gas supply pipe are discharged while being dispersed in the backfire prevention auxiliary container filled with water by an diffuser, so that water and electricity of low pressure are discharged through the gas discharge pipe. The amount of hydrogen and oxygen gas generated by decomposition increases, the cost for gas production is reduced, and the installation area can be installed in a small space.

In addition, the water filled in the flashback preventing vessel does not cause any backflow of the flame while burning the discharged oxygen and hydrogen gas, but it does not only explode when the backflow is caused by external factors but also the loss of the device. It can be prevented.

1 is a front view showing the overall configuration of the present invention.

Figure 2 is a front view showing a detailed configuration of the subject innovation electrolyzer.

* Description of Signs of Main Parts of Drawings *

1: container 4: ultrasonic generator

5: electrolyzer 6, 7: electrode

10: O-ring 11: electrode plate

14, 15: magnet 16: electromagnetic wave generator

17, 19: ceramic ball 20: backing prevention container

21: gas discharge tube

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

1 and 2 shows the overall configuration of the present invention,

An ultrasonic generator 4 is mounted on the inner lower end of the container 1 having the supplemental water inlet 2 and the safety valve 3 for refilling distilled water to generate a high frequency component having the wavelength of ultrasonic waves. Separate it,

The electromagnet 5 is installed directly above the ultrasonic generator 4, and magnets 14 and 15 are attached to the extension portions 8 and 9 of the positive electrodes 6 and 7, respectively, to promote ionization. Make sure,

The electrolyzer 5 arranges electrodes 6 and 7 on which both positive and negative powers are supplied, respectively, while a plurality of electrode plates do not flow directly by the O-ring 10 therebetween. (11) is arranged side by side on the support 12 (13) to supply the DC power through the extension (8) 9 of the positive electrode (6) (7) when the electromotive force is induced and the water of the KOH aqueous solution To generate decomposed oxygen and hydrogen gas,

The magnets 14 and 15 attached to the outside of the electrodes 6 and 7 are attached to the electrode 6 to which + power is supplied, while the magnet 14 of the N pole is attached to the electrode 7 to which power is supplied. The magnet 15 of the S pole is attached to promote the ionization of + and-,

The electromagnetic wave generator 16 is installed on the outer wall of the container 1 so that a resonance frequency is generated inside the container 1 so that the water molecule movement becomes active.

Oxygen and hydrogen gas generated in the vessel (1) is a secondary vessel for preventing backfire through the gas supply pipe 18 while the water contained in the passage through the upper ceramic ball 17 and the outer ceramic ball 19 is removed. To 20,

Oxygen and hydrogen gas supplied through the gas supply pipe 18 are discharged while being dispersed in the backfire prevention auxiliary container 20 filled with water by the diffuser 21, so that hydrogen and oxygen gas having a low pressure are gas discharge pipes. It is configured to be discharged through (22).

Here, the flashback prevention vessel 20 allows the supplementary water to be supplied while separating the stopper of the safety valve 23 and forms a circulation path 24 circulated from the top to the bottom to flow the water according to the rise of the gas therein. This smooths out only the pure oxygen and hydrogen gas.

The gas generator according to the electrolysis reaction of the present invention configured as described above is filled with KOH aqueous solution in the container 1 to replenish distilled water through the supplemental water inlet 2 to supply power of about 200 to 280V. Is to decompose water into oxygen gas and hydrogen gas so that it is discharged to the outside,

The ultrasonic generator 4 mounted on the inner lower end of the container 1 having the supplemental water inlet 2 and the safety valve 3 formed on the upper side generates a high frequency component having the wavelength of the ultrasonic wave to separate the ions therein, thereby allowing the electrode 6 (7) and the electrode plate 11 and the inner wall to separate the ions are stuck together at the same time to prevent the phenomenon that the electrode 6, 7 and the electrode plate 11 is plated by the metal ion.

When a power supply of about DC 200 to 280 V is supplied to the extension portions 8 and 9 extending from both electrodes 6 and 7 of the electrolyzer 5 installed directly above the ultrasonic generator 4, a + power supply is provided. The ionization of + is promoted by the magnet 14 of the N pole attached to the electrode 6 to be supplied, and the ionization of-by the magnet 15 of the S pole attached to the electrode 7 to which power is supplied. Is promoted.

As the positive power and the negative power are supplied to the electrodes 6 and 7 to the electrolyzer 5, a plurality of electrode plates 11 in which electricity does not flow directly by the O-rings 10 therebetween are directly provided. As the electromotive force is induced in the neighboring electrode plate 11, oxygen and hydrogen gas obtained by electrolyzing the water of the KOH aqueous solution are generated, and the amount thereof is about 1.5 times larger than that provided in the outside of the container 1.

In addition, electromotive force is generated on the inner wall of the container 1, which is a metal, to perform the action of electrolyzing water, thereby increasing the amount thereof.

The magnets 14 and 15 attached to the outside of the electrodes 6 and 7 promote ionization of + and −, resulting in more electrolysis.

The electromagnetic wave generator 16 is installed on the outer wall of the container 1 so that a resonance frequency is generated inside the container 1 so that the water molecule movement of the inside becomes active and thus the decomposition action is also enhanced. do.

Oxygen and hydrogen gas generated in the vessel (1) is a secondary vessel for preventing backfire through the gas supply pipe 18 while the water contained in the passage through the upper ceramic ball 17 and the outer ceramic ball 19 is removed. 20 is supplied.

Oxygen and hydrogen gas supplied through the gas supply pipe 18 are discharged while being dispersed in the backfire prevention auxiliary container 20 filled with water by the diffuser 21 and then discharged through the water, and the gas discharge pipe at the top thereof. It is discharged to the outside through (22) and mixed with air to combust so that combustion by low pressure hydrogen and oxygen gas is further activated.

Therefore, by burning the mixture of oxygen gas and hydrogen gas at low pressure, the power generated during combustion can be used for the rotational power of the car, so that the amount of hydrogen and oxygen gas generated by electrolysis of water increases and the cost for producing gas is high. It is saved and can be installed in a small space.

Since it has a structure of simultaneously burning oxygen and hydrogen gas discharged from the auxiliary container 20, the surrounding oxygen does not need to be supplied separately, thereby ensuring safety even when burning indoors, and oxygen (O ₂ ) and hydrogen (H ₂ ). The gas burns simultaneously, allowing water to be produced, allowing safe commercial use.

In addition, the water filled in the backfire prevention auxiliary container 20 does not generate any flame backflow while burning the discharged oxygen and hydrogen gas, but it explodes when the flame backflows due to external factors. It is possible to prevent the loss of.

Therefore, the high frequency component by the ultrasonic generator to separate the ions by the gas generator by the electrolysis reaction according to the present invention,

Inside the vessel, the electrodes are arranged on both sides, and a plurality of electrode plates are not placed directly between them, so that the electromotive force is induced when supplying DC power to both electrodes. To occur,

Electrodes of the N and S poles are attached to the electrode to promote ionization of + and-,

Due to the resonance frequency generated by the electromagnetic wave generator attached to the outer wall of the vessel, oxygen and hydrogen gas generated in the vessel during the molecular motion of the water are active, are discharged through the gas supply pipe while water is removed while passing through the ceramic ball. ,

The oxygen and hydrogen gas supplied through the gas supply pipe are dispersed in the backfire prevention auxiliary container filled with water by an diffuser and discharged through the gas discharge pipe at low pressure so that the hydrogen and oxygen gas are generated by electrolysis of water. The amount of gas increases, the cost for gas production is reduced, and the installation area can be installed in a small space.

Claims (3)

An ultrasonic generator 4 is mounted on the inner lower end of the container 1 having the supplemental water inlet 2 and the safety valve 3 formed thereon to replenish distilled water. Magnets 14 and 15 are attached to the extension portions 8 and 9 of the positive electrodes 6 and 7, respectively, with the electrolyzer 5 installed directly above the ultrasonic generator 4. The electromagnetic wave generator 16 is installed on the outer wall of the container 1, At the upper end of the container 1, while the ceramic ball 17 is formed, the ceramic ball 19 is also installed outside the gas supply pipe 18 is installed, Oxygen and hydrogen gas supplied through the gas supply pipe 18 are dispersed in the backfire prevention auxiliary container 20 filled with water by the diffuser 21 so that low pressure hydrogen and oxygen gas are at the top of the gas discharge pipe. Gas generating device by the electrolysis reaction, characterized in that configured to be discharged to the outside through the (22). 2. The electrolyzer (5) according to claim 1, wherein the electrolyzer (5) arranges electrodes (6) (7) on both sides, each of which is supplied with a positive power supply and a negative power supply, with electricity directly supplied by the O-ring (10) between them. Electromotive force is induced when a plurality of electrode plates 11 which do not flow are arranged side by side on the support bars 12 and 13 so as to supply DC power through the extensions 8 and 9 of both electrodes 6 and 7. A gas generator by an electrolysis reaction for generating oxygen and hydrogen gas which electrolyzed water in a KOH aqueous solution. The magnets 14 and 15 attached to the outside of the electrodes 6 and 7 have a negative power supply while attaching an N pole magnet 14 to the electrode 6 to which + power is supplied. A gas generator by an electrolysis reaction in which a magnet (15) of the S pole is attached to the supplied electrode (7) to promote ionization of + and-.