KR101075330B1 - The apparatus of generation oxygen/hydrogen gas - Google Patents

Abstract

The present invention relates to an electrolysis tank for generating oxygen hydrogen gas using an electrolysis device, and more particularly, an electrolysis tank in which a closed space portion is formed in a body having a hollow portion and a plurality of carbon electrode plates are formed in the space portion. Electrolyzer); An upper plate and a lower plate which support the carbon electrode plate at upper and lower portions, and each having a gas discharge guide groove and an electrolytic water guide groove; A top gas collecting groove is formed at the bottom of the gas discharge guide groove so as to be connected to the cylindrical carbon electrode plate at one side thereof, and a plurality of electrode terminal installation holes are formed to apply electricity. Wow; A bottom plate formed at an center of the air outlet so as to match the air flow port of the top cover and coupled to the top cover and the body by a fastening bolt; A gas safety pipe installed at one side to be connected to the gas collecting groove of the upper cover and installed to discharge the gas in the gas collecting groove 11; A replenishment water inlet tube having one end spaced apart from the bottom of the electrolytic cell by 5 to 10 cm and having an upper end penetrated through the upper plate and the upper cover to be exposed to the outside; Corresponding to the electrolytic water guide groove of the lower plate is configured an oxygen-hydrogen mixed gas generator consisting of a plurality of electrolytic water inlet through-holes formed to be connected to the electrolysis tank.

The present invention as described above can be used as a heat source, such as gas boilers and welding machines used in domestic boilers, industrial boilers, industrial sites, and can also be used as a power source of internal combustion engines by forming a large capacity. Can be. In particular, the present invention can increase the efficiency by generating a lot of energy at a low cost by generating an oxygen-hydrogen mixed gas with only water and a small amount of electricity. In addition, the present invention relates to an oxygen-hydrogen mixed gas generator that is made of oxygen gas and hydrogen gas to supply environmentally friendly energy that does not cause environmental pollution.

Oxygen / hydrogen gas, electrolyzer, carbon electrode plate, oxygen / hydrogen generator

Description

The apparatus of generation oxygen / hydrogen gas}

The present invention relates to an electrolysis tank that generates oxygen hydrogen gas using an electrolysis device. The electrolysis tank is electrolyzed using a non-metal carbon electrode plate. When electricity is applied to the metal electrode plate during electrolysis, the surface of the electrode plate is dissolved in the electrolytic process and suspended matters are generated. It promotes corrosion and prevents shortening the lifespan. Also, it installs a large number of cylindrical carbon electrode plates instead of panel type electrode plates to enhance the electrolytic effect. The present invention relates to an oxygen-hydrogen mixed gas generator that can be supplied.

In general, based on the electrolysis technology of water, a method of using oxygen and a mixed gas was developed by Yul Brown of Bulgaria, who separates oxygen and hydrogen from water electrolysis.

The electrolysis of water flows electricity to the two electrode plates of the cathode and the anode in a sealed container containing electrolyte, so that hydrogen ions are dissociated at the cathode and oxygen ions are dissociated at the anode. This gas has a problem that can not be produced and stored separately because it contains oxygen because it is a highly flammable gas with its own combustion ratio.

Therefore, it should be generated and used as soon as necessary, and problems related to convenience and safety, size of the electrolyzer generator, etc. should be solved in this use process.

Generally, hydrolysis electrolyzers

1) disassemble by connecting two tubes of different sizes and connecting the + and-electrodes at both ends;

2) There is a method of overlapping small electrode plates and sealing them with an insulating material to use them as an electrolytic space.

The method of 1) is difficult to cool the electrolysis tank and does not produce a large amount of gas, there is a disadvantage that the water is accumulated in the gas discharge line due to saturated steam generated by the temperature rise of the electrolysis tank.

The method of 2) is air-cooled, and the space having a narrow electrolytic area has several tens or hundreds of overlapping gas, and as a whole, it is difficult to cool and leak only one part of many spaces or break down insulation because it is an electrolysis tank having one long body. Even if there was a problem that can not use the entire electrolysis tank.

In addition, looking at the prior art of the prior art, in the production apparatus for producing a mixed gas (oxygen, hydrogen) by electrolysis using the electrolysis bath of the special 2003-0062814 (prior art 1), A plurality of external electrode plates having a first coupling hole to be provided with a terminal for supplying power and fixedly coupled by the coupling member at predetermined intervals along the circumference thereof;

A plurality of second coupling holes are formed in the same position as the coupling hole along the circumference thereof, and are made of NC-Nylon material to be installed and insulated between the plurality of outer electrode plates, Insulators having protrusions;

A plurality of fixing holes are formed at a predetermined position at an upper portion of the plurality of gas communication holes at equal intervals, and a water moving hole is formed at a predetermined position at a lower portion of the plurality of inner electrode plates provided on both sides of the protrusion of the insulator;

A plurality of supporting insulation packings having fixed protrusions at one side thereof and installed at equal intervals so that the inner electrode plates can be fixed; And

And an electrolysis tank including the plurality of outer electrode plates, the hermetic insulating packing, and a plurality of coupling members for penetrating through the insulator (see FIG. 1).

The prior art 1 arranges a rectangular panel electrode plate at regular intervals and interposes the electrode plate and the electrode plate to seal the space between the electrode plate and the electrode plate and form a space to form a hybrid gas, thereby generating a mixed gas. However, the prior art 1 having such a configuration is an air-cooling type that cools by installing heat radiation fins on both sides of the outer surface, and a space having a narrow electrolytic area is piled up with dozens or hundreds of spaces, and the electrolysis having one long body as a whole. Because of the tightening, it is difficult to cool, and even if only one part of the numerous spaces leaks or the insulation is broken, there is a problem that the entire electrolysis tank cannot be used.

In addition, the "oxygen / hydrogen mixed gas generator" of Utility Model Registration No. 20-0417285 (prior art 2) has an impact generating unit installed outside the electrolytic cell, and bubbles remaining in the state of being adhered to the surface of the electrode plate in the electrolytic cell. The present invention relates to an oxygen / hydrogen mixed gas generator that is separated by an impact and floats on the surface of an electrolyte, and includes an electrolytic cell having a space part in which an electrolyte is accommodated, and an electrolytic solution installed in the space part by an electric current applied from a terminal. In the oxygen / hydrogen mixed gas generator composed of a plurality of electrode plates to decompose, the outside of the electrolytic cell is a shock generating unit that drops the air bubbles attached to the electrode plate by the impact generated by hitting the electrolytic cell by the power of the motor It presents an oxygen / hydrogen mixed gas generator characterized in that provided (see Figure 2).

The prior art 2 forms the electrode plate as "W" to install a plurality of pole plates to impact the air bubbles remaining on the surface of the electrode plate from the outside so that the air bubbles fall to the surface of the electrolyte solution to increase the amount of mixed gas generated However, if the electrode plate is formed as a "W" as in the prior art 2, the interfacial area with the bubbles is increased, and the corrosion area is also increased, and the electrode plate is applied from the outside to blow off the bubbles. There is a problem that the contact point of the electrical terminal and the falling off by the impact occurs.

The present invention relates to an electrolysis tank that generates oxygen hydrogen gas by using an electrolysis device. The electrolysis tank is electrolyzed using a carbon electrode plate which is a non-metal, so that the surface of the electrode plate is dissolved in the electrolytic process and suspended matters are generated. As a result, floating material adheres to the outer surface of the electrode plate to promote corrosion, thereby preventing shortening of the lifespan. Also, it is possible to use a tube type carbon electrode plate such as cylindrical, square, oval, hexagonal, and octagonal instead of panel type electrode plate. Oxygen for the purpose of supplying high quality oxygen hydrogen gas by improving the electrolytic effect by installing a large number to generate a large amount of mixed gas of oxygen hydrogen, and preventing the water vapor generated during the electrolysis process by using carbon electrode plate The present invention relates to a hydrogen mixed gas generator.

The present invention relates to an electrolysis tank that generates oxygen hydrogen gas using an electrolysis device, and selects any one of a carbon electrode plate made of a round, square, ellipse, hexagonal, and octagonal tubular carbon electrode having a small diameter. Install a plurality of carbon electrode plates with a larger diameter than the inner one and placed inside the plate at regular intervals, and install the upper plate and the lower plate at the upper and lower ends of the carbon electrode plate to fix the carbon electrode plate, and the upper cover on the upper plate upper surface The bottom plate has a bottom plate corresponding to the bottom plate and coupled with a fastening bolt, and configured to discharge the oxygen-hydrogen mixed gas to a gas discharge tube installed in the gas collection groove of the upper cover through a gas discharge guide groove formed in the upper plate. do. The present invention configured as described above comprises a large number of tube-type carbon electrode plates to increase the amount of oxygen / hydrogen mixed gas generated, provide high quality oxygen / hydrogen gas, and increase the lifetime of the electrode plates to increase the efficiency of the electrolytic cell to increase the industrial site. It is to provide an oxygen-hydrogen mixed gas generator that can be put to practical use in.

According to the present invention, since the electrode plate of the oxygen-hydrogen generator is used as a carbon electrode plate, suspended solids generated by metal lysis during electrolysis are not generated to generate oxygen and hydrogen, so that the surface of the electrode plate does not have a skel. It has the effect of prolonging the life and preventing the dropping of the electrolytic effect by the skeleton applied to the surface of the electrode plate. In addition, the present invention is a circular, square, ellipse, hexagonal, octagonal shape rather than the panel form of the electrode plate It has the effect of increasing the amount of oxygen and hydrogen by increasing the electrolytic cross-sectional area by forming a large number from the inside to the outside, and using the metal plate such as copper as the electrode plate as the carbon material. By preventing drops, it is possible to supply high quality oxygen / hydrogen mixed gas to increase thermal efficiency.

An embodiment of the present invention will be described in detail as follows.

An electrolysis tank (electrolytic bath) 2 in which a space 5 sealed therein is formed inside the body 4 having the hollow portion 3 and a plurality of carbon electrode plates 6 are formed in the space 4;

An upper plate 9 and a lower plate 10 supporting the carbon electrode plate 6 at upper and lower portions and having a gas discharge guide groove 7 and an electrolytic water guide groove 8 formed thereon;

An electrode terminal installation hole is formed so as to correspond to the gas discharge guide groove 7 of the upper plate, and a circular gas collecting groove 11 is formed at the bottom thereof, and is connected to the circular carbon electrode plate 6 at one side to apply electricity. A plurality of (12) is formed, and the upper cover 14, the air flow port 13 is formed in the center;

An air distribution port 13 is formed at the center portion of the upper cover 14 so as to coincide with the air distribution port 13 of the upper cover 14 and the bottom plate 16 coupled to the upper cover 14 and the body 4 by a fastening bolt 15. )and;

A gas safety pipe (17) installed at one side to be connected to the gas collecting groove (11) of the upper cover (14) and installed to discharge the gas in the gas collecting groove (11);

A replenishment inlet pipe 19 having one end spaced apart from the bottom of the electrolytic cell by 5 to 10 cm and having an upper end penetrated through the upper plate 9 and the upper cover 14 to be exposed to the outside;

Corresponding to the electrolytic water guide groove (8) of the lower plate is to configure the oxygen hydrogen generator (1) consisting of a plurality of electrolytic water inlet through-holes 20 formed to be connected to the electrolysis tank (2).

The upper plate 9 is characterized in that at least one gas discharge guide groove 7 corresponding to the gas collecting groove 11 formed on the bottom surface of the upper cover 14 is installed.

The carbon electrode plate 6 is characterized in that the electrolytic bath 2 is formed by being installed in the space portion 5 in the shape of a cylindrical tube or a square tube.

Reference numeral 21 is an electrode terminal which is connected to the carbon electrode plate to supply electricity, 22 is a pressure sensor indicating the pressure in the electrolysis tank, 23 is the electrolytic water overflow prevention side in the electrolysis tank, 24 is a flashback prevention gas Inlet, 25 is flashback arrestor, 26 is electrolytic water reserve tank, 27 is a motor to send electrolyzed water from the reserve tank to the electrolysis tank, 28 is a fan installed to dissipate heat generated in the electrolysis tank And 29 is a power supply device capable of driving the oxygen hydrogen generator.

An embodiment of the present invention configured as described above will be described in detail with reference to the accompanying drawings.

3 is a cross-sectional view of the electrolysis tank of the oxygen-hydrogen generator of the present invention, in which the space 5 in the electrolysis tank 2 is formed of a circular or rectangular body 4 having a hollow portion 3 in the center thereof. The carbon electrode plate 6 is installed, but the carbon electrode plate 6 is installed such that a larger diameter is disposed from the inside to the outside.

The carbon electrode plate 6 is provided with a small diameter carbon electrode plate 6 therein and a carbon electrode plate 6 having a larger diameter toward the outside thereof, and a carbon electrode plate 6 and a carbon electrode plate ( 6) can be maintained at a constant interval and the number of the carbon electrode plate 6 can be adjusted at the time of manufacturing according to the capacity of the electrolysis tank (2).

The carbon electrode plate 6 may be manufactured in the shape of a cylindrical tube or square tube, elliptical tube, hexagonal tube, and octagonal tube type according to the shape of the body 4 of the electrolysis tank 2.

The carbon electrode plate 6 of the present invention is formed into a cylindrical tube or a square tube shape to be installed in the space portion of the body to form an electrolysis tank.

In addition, the electrolytic bath body 4 of the present invention has a hollow portion 3 is formed in the center, the inner wall and the outer wall of the insulator, the space portion 5 is formed between the inner wall and the outer wall is a carbon electrode plate is installed .

The body 4 is fixed to the upper plate 9 and the lower plate 10 insulated on the upper and lower ends of the carbon electrode plate 6 installed in the space 5.

That is, grooves are formed in the upper and lower plates 9 and 10 surfaces corresponding to upper and lower ends of the carbon electrode plate to fix the end portions of the carbon electrode plate to be embedded to fix the carbon electrode plate, and the upper plate 9 to the upper plate 9. An upper cover 14 is installed on an upper surface, and a bottom plate 16 is installed on a lower surface of the lower plate 10. The body 4 and the upper plate 9 of the electrolysis tank, the upper cover 14 and the lower plate 10, the bottom plate 16 is coupled to the fastening bolt 15 by installing the coupling bolts on the center and both sides. When the upper plate and the lower plate are not themselves insulators, the upper plate and the lower plate may be coupled to each other by installing an insulation packing (not shown) between the laminated connectors.

The upper plate 9 has four gas discharge guide grooves 7 formed in all directions so that the oxygen-hydrogen mixture generated between the carbon electrode plates is discharged, and the gas collecting grooves are circularly formed on the bottom of the upper cover 14. 11 is formed and connected to the gas discharge guide groove 7 formed in the upper plate (9).

In addition, the gas collection groove 11 of one side of the upper cover 14, the gas discharge pipe 18 is installed to discharge the oxygen-hydrogen mixed gas generated in the electrolysis tank can be used as energy.

In the upper cover, the gas safety valve 17 and the pressure sensor 22 are installed to be connected to the gas collecting groove 11.

A plurality of electrode terminal mounting holes 12 are installed at one side of the upper cover, and the electrode terminal 21 contacted with the carbon electrode plate 6 is inserted to be connected to an electric wire to supply-, + electricity to the carbon electrode plate 6. When applied, electrolysis occurs in the electrolyzer to produce an oxygen-hydrogen mixed gas.

In addition, an electrolytic water overflow prevention side 23 is installed at one side of the electrolysis tank body, and a flashback prevention gas inlet 24 is installed at the bottom thereof.

The electrolytic water overflow preventing valve 23 and the flashback preventing gas inlet 24 are the same as those of a liquid tank generally used, and the electrolytic water overflow preventing valve has a predetermined level due to the failure of a water level sensor installed therein. If it continues to rise, the electrolytic water is discharged, and the mixed gas generated inside is not normally discharged.

A rectangular electrolytic water guide groove 8 is formed at one side of the lower plate 10, and a plurality of electrolytic water inlet holes are formed at the upper portion thereof so as to be connected between the respective carbon electrode plates. It is possible to supply the water introduced through 19) to the electrolytic cell.

The replenishment water inlet tube 19 penetrates the upper cover 14 and the upper plate 9 so that the distal end thereof is spaced 5 to 10 cm from the bottom of the electrolytic cell. Installing the replenishment water inlet pipe so that 5 to 10 cm is spaced apart from the bottom is to prevent the occurrence of swell in the electrolyzed water inside the electrolyzer when the replenishment water is introduced. In other words, if the supplementary water inlet pipe is spaced more than 10 cm from the bottom, the amount of electrolytic water is pushed and shaken when the supplementary water is inflowed, so there is a problem in the upper part, which interferes with the gas collection. If installed close, there is a problem that the noise is generated by the friction of the bottom when the make-up water inflow.

In addition, the hollow part 3 formed at the center of the electrolyzer body has air flow ports 13 and 13 ′ formed in the upper cover 14, the upper plate 9, and the lower plate 10 and the bottom plate 16. As it moves, it can cool the heat inside.

In addition, the water level sensor 30 is installed on one side of the electrolyzer to detect the number of electrolyzed water in the electrolyzer, and if the water level is lower than the set water level, the electrolyzed water preliminary tank 26 receives water through the replenishment water inlet pipe 19 by the motor 27. This can be supplied.

Figure 4 is a plan view showing the upper cover of the electrolysis tank of the present invention, in the center of the center so that the fastening bolt 15 can be fastened, and a plurality of air outlets 13 are formed around the fastening bolt fastening around the inside Air can be radiated to the outside.

In addition, a plurality of fastening bolts 15 are installed in the upper edge of the upper cover 14 to fix the upper cover.

A gas collecting groove 11 is formed in a circular shape at the bottom of the upper cover 14 to discharge the gas of the electrolytic cell into the gas discharge pipe 18.

Figure 5 is a plan view showing the upper plate of the electrolytic bath of the present invention, the bolt hole is formed so that the fastening bolt 15 is fitted in the center portion and the air outlet port 13 corresponding to the air outlet port of the upper cover 14 on the outer periphery thereof. Is formed.

The upper plate 9 has four rectangular gas discharge guide grooves 7 formed in four directions so that the oxygen-hydrogen mixed gas in the electrolytic cell can be discharged to the gas collection groove 11.

In addition, a plurality of grooves are formed in a portion corresponding to the upper end of the carbon electrode plate 6 on the bottom of the upper plate 9 so that the carbon electrode plate 6 may be fixed.

Figure 6a is a plan view showing a state in which the electrolytic water inlet hole is formed in the lower plate of the present invention, Figure 6b is a plan view showing a state in which the electrolytic water guide groove is formed in the lower plate of the present invention, the lower plate 10 is a carbon electrode Electrolyte guide grooves 8 are formed on the outer circumferential surface at which the lower end of the plate 6 is fixed, and holes are formed inward on one side thereof, and the electrolytic water inflow holes 20 are formed to be connected between the upper carbon electrode plates to replenish the electrolytic water. do.

When there is insufficient water in the electrolysis tank 2 of the oxygen / hydrogen generator 1 of the present invention, that is, the electrolyzer, water is supplied through the supplementary water inlet pipe 19 installed at one side, and water is supplied to the electrolytic water guide groove. It can be replenished into the electrolytic cell through the electrolytic water inlet through holes 20 formed on one side of (8). The lower plate is also formed with a bolt hole in which the fastening bolt is coupled to the center portion, and the upper plate 9 and the upper cover 14, the air flow port 13, 13 formed in the bottom plate 16 on the outer periphery of the fastening bolt is fitted; The air outlet corresponding to ') is formed to cool the heat generated by the electrolysis in the electrolytic cell by the flow of air.

7 is a bottom view showing the bottom of the bottom plate of the present invention, a bolt hole is formed so that the fastening bolt 15 can be fitted to the center portion and the outer peripheral edges of the upper cover 14, the upper plate 9, the lower plate 10 Is tightly coupled to maintain airtightness.

An air flow port 13 ′ is formed at the outer circumferential surface of the fastening bolt coupling position at the center of the bottom plate 16 so that heat generated in the hollow portion of the body can be extracted to the outside.

Fig. 8 is a schematic view of the main parts of the electrolysis tank of the electrolysis generator of the present invention, which is intended to clarify the configuration of the electrolysis tank 2, which is the same as the description of Fig. 1. That is, the electrode plate for generating the oxygen-hydrogen mixed gas by electrolysis is formed of the carbon electrode plate 6 of graphite, and the upper and lower portions of the carbon electrode plate are fixed by the upper plate and the lower plate, and the upper and lower portions are the upper cover ( 14) and the bottom plate 16 is to maintain the airtight. At this time, it is insulated for the safety of electricity generated in the electrolytic cell, the insulation device can form the body, the upper and lower plates by using a commonly used packing or insulating material.

8 is a view showing the connection configuration of the upper cover 14 and the upper plate 9, the body 4, the carbon electrode plate 6, the lower plate 10, the bottom plate 16, the electrode terminal, various Illustrations such as sensors and pressure gauges are omitted.

Fig. 9 is an overall connection system of the oxygen-hydrogen mixed gas generator of the present invention, and shows an overall connection configuration diagram of the oxygen-hydrogen generator of the present invention.

Therefore, when the + electrode and the-electrode are applied to the carbon electrode plate 6 in the electrolysis tank 2, oxygen gas and hydrogen gas are generated between the carbon electrode plate 6 and the carbon electrode plate in the electrolysis tank 2. do.

Oxygen gas and hydrogen gas generated in the electrolytic cell are collected into the gas collection groove 11 of the upper cover 14 through the gas discharge guide groove 7 formed in the upper plate 9 and the collected oxygen and hydrogen gas The gas is discharged to the outside through the gas discharge pipe 18 installed on one side of the groove. The mixed oxygen and hydrogen gas generated in the electrolytic cell can be used as a heat source for torch lamps, boilers, and industries that use gas through the backfire chamber 25 through the gas discharge pipe 18.

The flashback arrestor 25 is installed with a safety device to prevent the flame is introduced into the electrolytic cell when using the oxygen-hydrogen mixed gas.

In general, when gas fuel is used, gas is ejected through the nozzle, and the flame is ignited only at the nozzle end to be used as a heat source, and the spark ignited at the nozzle end does not enter the nozzle even without a separate safety device.

These principles are all the same principle, such as gas range, oxygen welding, boiler gas furnace, industrial gas furnace, etc. The oxygen-hydrogen mixed gas of the present invention can also be supplied as a heat source to the gas listed above.

In addition, the fan 28 installed on one side of the electrolytic cell is used to cool the heat generated in the electrolytic cell. When the air is blown into the fan 28, the air is the outer surface of the body 4 of the oxygen-hydrogen generator 1 and the inner hollow of the body. It is designed to be discharged to the outside to cool the heat generated in the process of producing gas in the electrolytic cell.

The present invention minimizes the generation of heat by using the carbon electrode plate (6) instead of using a metal plate such as copper plate as the electrode plate to generate gas, and does not generate floating matters generated by the electrode plate when generating oxygen-hydrogen mixed gas Electrolyzed water can be used cleanly at all times, and suspended matter adheres to the outer surface of the electrode plate to prevent the formation of a skeleton.

In addition, the electrolytic water preliminary tank 26 on one side is connected to the supplemental water inlet pipe 19 to replenish water into the electrolyzer.

Oxygen-hydrogen generator 1 of the present invention (1) The upper side of the body (4) is provided with an electrolytic water overflow prevention valve 23 is drained if the water is continuously replenished by the electrolytic water preliminary tank tank due to the water level detection oath and electrical failure The lower part of the flashback gas inlet is formed at the lower part and connected to the electrolyzer body and the flashback arrestor so that the gas introduced into the flashback arrestor can be introduced into the electrolytic cell again.

10 is an exemplary view showing a carbon electrode plate installed in the electrolysis tank of the present invention. The carbon electrode plate of the present invention is shown in a perspective view (stereoscopic diagram), and is partially cut to show an inside.

The carbon electrode plate shown in FIG. 10 illustrates the shape of a circular tube, and may be selectively used according to necessity, such as a circle or a square, an octagonal shape, a hexagonal shape, another circle, etc. according to the shape of the body 4 of the oxygen-hydrogen gas generator 1. Can be. In addition, as another embodiment of the present invention, the carbon electrode plate and the electrode plate of the same material may be installed alternately. However, it is preferable to form an electrode plate using only a carbon electrode plate in order to prevent the damage of suspended matters generated during electrolysis by using a copper plate.

The carbon electrode plate is placed inside the carbon electrode plate formed of a small diameter and the carbon electrode plate with a larger diameter outwardly positioned, the spacing and the number of installation between the carbon electrode plate and the carbon electrode plate according to the capacity of the electrolytic cell Is optionally installed.

The present invention as described above can be used as a heat source, such as gas boilers and welding machines used in domestic boilers, industrial boilers, industrial sites, and can also be used as a power generation fuel by forming a large capacity. Can be.

In particular, the present invention can increase the efficiency by generating a lot of energy at a low cost by generating an oxygen-hydrogen mixed gas with only water and a small amount of electricity.

In addition, the present invention is composed of oxygen gas and hydrogen gas can supply environmentally friendly energy does not cause environmental pollution.

1 and 2 is an electrolysis tank showing a conventional oxygen-hydrogen gas generator.

3 is a cross-sectional view of an electrolysis tank of the oxygen / hydrogen generator of the present invention.

Figure 4 is a plan view showing a top cover of the electrolysis tank of the present invention.

5 is a plan view showing the upper plate of the electrolysis tank of the present invention.

Figure 6a is a plan view showing a state in which the electrolytic water inlet hole formed in the lower plate of the present invention.

Figure 6b is a plan view showing a state in which the electrolytic water guide groove is formed in the lower plate of the present invention.

Figure 7 is a bottom view showing the bottom plate bottom of the present invention.

Figure 8 is an excerpt configuration of the electrolysis tank of the electrolysis generating device of the present invention.

9 is an overall connection system of the oxygen-hydrogen generator of the present invention.

10 is an exemplary view showing a carbon electrode plate installed in the electrolysis tank of the present invention.

<Explanation of symbols on main parts of the drawings>

1: Oxygen-hydrogen generator 2: Electrolysis device (electrolyzer)

3: hollow part 4: body

5: space part 6: carbon electrode plate

7: Gas discharge guide groove 8: Electrolytic water guide groove

9: upper plate 10: lower plate

11: Gas collection groove 12: Electrode terminal installation

13, 13 ': air outlet 14: top cover

15: Fastening bolt 16: Bottom plate

17: gas safety valve 18: gasoline pipe

19: Supplemental water inflow tube 20: Electrolyzed water inlet

21: electrode terminal

Claims (3)

An electrolysis tank (electrolytic tank) 2 in which a space portion 5 sealed inside the body having a hollow portion is formed, and a plurality of electrode plates are formed in the space portion; An upper cover 14 having a plurality of electrode terminal installation holes 12 formed therein so as to be connected to one side of the electrode plate formed in the electrolysis tank to apply electricity, and an air distribution port 13 formed at the center thereof; An air distribution port 13 is formed at the center portion of the upper cover 14 so as to coincide with the air distribution port 13 of the upper cover 14 and the bottom plate 16 coupled to the upper cover 14 and the body 4 by a fastening bolt 15. In the oxygen-hydrogen mixed gas generator consisting of The upper cover 14 and the electrolytic bath body and the circular carbon electrode plate (6) formed between the electrolytic bath body and the bottom plate and formed in the electrolytic bath (2) in the upper lower part and the gas discharge guide groove (7) and an upper plate (9) and a lower plate (10) formed with electrolyzed water guide grooves (8); The upper cover 14 has a circular gas collecting groove 11 formed in the bottom surface to correspond to the gas discharge guide groove 7 of the upper plate; A gas safety pipe (17) installed at one side to be connected to the gas collecting groove (11) of the upper cover (14) and installed to discharge the gas in the gas collecting groove (11); A supplementary water inlet tube 19 having one end spaced apart from the bottom of the electrolytic cell by 5 to 10 cm and having an upper end penetrated through the upper plate 9 and the upper cover 14 to be exposed to the outside; Oxygen hydrogen mixed gas generator, characterized in that consisting of a plurality of electrolytic water inlet through-holes 20 formed to correspond to the electrolytic water guide groove (8) of the lower plate to be connected to the electrolysis tank (2). delete delete

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