KR20090010090U - / Occurrence apparatus for hydrogen oxygen mixing gas - Google Patents

Abstract

The present invention relates to an oxygen / hydrogen mixed gas generator (1) for automobiles, and more particularly, a plurality of electrode plates 12, 13, 14, 15 are installed vertically, but arranged in a horizontal direction. An electrolyzer 10 for smoothly flowing the mixed gas, a water level sensing device 20 for maintaining electrolytic solution smoothly by maintaining an appropriate level of the electrolyte solution 3 on one side of the electrolyzer 10, and the electrolyzer By installing and configuring the bubbler 30 on the other side of 10, the flow and generation of the oxygen / hydrogen mixed gas is smooth and the oxygen / hydrogen and the electrolyte solution 3 are prevented from coming out together. By injecting the engine into the engine combustion chamber through the inhaler of the car, it is completely burned by oxygen / hydrogen to improve combustion efficiency and increase the output of the engine to save fuel and reduce exhaust gas, thereby solving the pollution problem caused by air pollution. Will.

Description

Oxygen / hydrogen mixed gas generator for automobiles

The present invention relates to an oxygen / hydrogen mixed gas generator for automobiles, and more particularly, to oxygen-hydrogen mixed gas generated during electrolysis by electrolyzing water in an electrolytic cell using a battery power source of an automobile. Through the injection into the engine combustion chamber, it is completely burned by oxygen / hydrogen to improve the combustion efficiency and increase the output of the engine to reduce the fuel as well as to reduce the exhaust gas pollution problems can be solved by air pollution.

The engine of the automobile is to improve the fuel efficiency by increasing the combustion efficiency by inhaling the combustion air and smooth mixing with the fuel.

It has been developed by a lot of research and development, but the way to achieve a smooth mixing of fuel and air mechanically reached the technical limit and could not expect further increase in combustion efficiency and fuel economy.

Therefore, in recent years, research has been actively conducted to improve fuel efficiency and reduce exhaust gas of an internal combustion engine by supplying a small amount of hydrogen or oxygen / hydrogen into an engine.

Oxygen / hydrogen generators for improving fuel economy and reducing exhaust gas of conventional vehicles are formed in a cylindrical vertical type, which is difficult to generate and discharge oxygen / hydrogen mixed gas and is bulky, in particular, due to the shaking of the vehicle. The electrolyte is mixed with the oxygen / hydrogen mixed gas generated as it slumps or splashes vertically, and thus there is a drawback that a high quality and a large amount of oxygen / hydrogen mixed gas cannot be obtained.

The present invention is designed to solve the above problems, in the vehicle oxygen / hydrogen mixed gas generator for generating an oxygen / hydrogen mixed gas using a battery power source of the vehicle, the electrolytic cell to smooth the flow of the mixed gas And, by the water level detection device to facilitate the electrolysis of the electrolyte and a bubbler to generate a high-quality oxygen / hydrogen mixed gas, the flow and generation of the oxygen / hydrogen mixed gas smoothly, By injecting oxygen / hydrogen mixed gas into the engine combustion chamber through inhaler of automobile, it is completely burned by oxygen / hydrogen to improve combustion efficiency and increase engine output to reduce fuel and reduce exhaust gas. An object of the present invention is to provide an oxygen / hydrogen mixed gas generator for automobiles that can solve the pollution problem.

The present invention for achieving the above object is to install a plurality of electrode plates 12, 13, 14, 15 vertically, but arranged in a horizontal direction electrolytic cell 10 to smooth the flow of the mixed gas, Water level detection device 20 to maintain the proper level of the electrolytic solution 3 to one side of the electrolytic cell 10 to facilitate the electrolysis, and oxygen / generated by electrolysis to the other side of the electrolytic cell 10 / It is characterized by consisting of a bubbler 30 to prevent the hydrogen and the electrolyte (3) to come out together to generate a high quality oxygen / hydrogen mixed gas.

The installation structure of the electrode plate of the oxygen / hydrogen mixed gas generator for automobiles of the present invention and the water level sensing device and the bubbler facilitate the flow and generation of the mixed oxygen / hydrogen mixed gas to provide a good oxygen / hydrogen mixed gas. It is generated and put into the engine combustion chamber through the inhaler of the car, and it is completely burned by oxygen / hydrogen to improve combustion efficiency and increase the output of the engine to reduce fuel and reduce exhaust gas, thereby solving the pollution problem caused by air pollution. It can be effective.

Hereinafter, a preferred embodiment of the present invention by the accompanying drawings as follows.

1 is a perspective view of the present invention, Figure 2 is an exploded perspective view of the present invention, Figure 3 shows a combined cross-sectional view of the present invention,

As shown in FIGS. 1 to 3, the present invention includes an electrolytic cell 10 in which a plurality of electrode plates 12, 13, 14, 15 are embedded, and an electrolyte solution 3 toward one side of the electrolytic cell 10. And a bubbler 30 configured to generate a high quality oxygen / hydrogen mixed gas to the other side of the electrolytic cell 10.

The electrolytic cell 10 is provided with a disc-shaped electrode plate 12, 13, 14, 15 and a spacer 16 sequentially installed inside the cylindrical body 11, and the electrode plate 12. Insulating plates 17 and 18 are coupled to one side and the other side of the body 11 in which the spacers 16 are installed.

The body 11 is formed in a cylindrical shape penetrating the inside, one side insulating plate 17 coupled to one side of the body 11, as shown in Figs. The plate water level hole 17b is formed at one of the upper sides of the terminal hole 17a, and the electrolyte inflow hole 17c is formed at the bottom thereof.

The other insulating plate 18 is formed by drilling a terminal hole 18a into the center portion, and is formed by drilling a gas outlet hole 18b and a plug hole 18c upward with respect to the terminal hole 18a.

One side and the other electrode plate 12, 13 of the cylindrical which is built into one side end and the other end of the body 11, the power terminal 12a (13a) is formed protruding, the one side electrode plate 12 is the one side The electrode plate water level hole 12b and the electrolyte flow hole 12c are formed at positions corresponding to the plate water level hole 17b and the electrolyte inflow hole 17c formed in the insulating plate 17.

In addition, the other electrode plate 13 has a gas flow hole 13b and an air pressure discharge hole 13c at positions corresponding to the gas outlet hole 18b and the stopper hole 18c formed in the other insulation plate 18. Is formed.

On the other hand, the disk-shaped hole, the even-side inner electrode plate 14, 15 which is in the inner side of the body 11, as shown in Figures 2 to 4, has a constant thickness and several gas flow upwards The holes 14b and 15b are drilled, and electrolyte distribution holes 14c and 15c are drilled to the lower part, and at this time, an odd number is installed in the body 11 such as 1, 3, 5,. The even-numbered inner electrode is installed in the even-numbered inner electrode such as 2, 4, 6 .. second in the electrolyte flow hole 14c formed in the lower portion of the plate-shaped odd-numbered inner electrode plate 14 The electrolytic solution distribution holes 15c of the plate 15 are perforated so as not to be placed on the same horizontal line but in a staggered position so that current leakage does not occur.

The spacer 16 is formed in a ring shape through which a central portion having a predetermined thickness penetrates and is installed between the holes and even-numbered inner electrode plates 14 and 15 so that the even-numbered and even-numbered inner electrode plates 14 and 15 are formed. The interval of c) is kept constant, and leakage of the electrolyte solution 3 is prevented.

Therefore, the disc-shaped hole, the even-side inner electrode plate 14 (15) and the spacer 16 are alternately internally filled and installed inside the body 11 formed as described above, and the body 11 is installed. One end and the other end of the power supply 12a, 13a is provided with a disk-shaped one, the other electrode plate 12, 13 provided with a power supply terminal (12a) (13a), the power terminal (12a) to be the + terminal and the-terminal It is provided so that 13a may face outward.

The + and-terminals protruding from the one and the other electrode plates 12 and 13 are fitted into the terminal holes 17a and 18a formed at the center of the one and the other insulating plates 17 and 18, respectively. At this time, the sealing O-ring 19 is inserted into the circumference of the + and-terminals which are inserted into the terminal holes 17a and 18a to insulate between the one and the other insulating plates 17 and 18 and the + and-terminals. At the same time, the electrolyte solution 3 is prevented from leaking out of the electrolytic cell 10.

Reference numeral 50 in the drawing represents a nut.

One side of the electrolytic cell 10 formed as described above is provided with a level sensor 20 for detecting and maintaining the appropriate level of the electrolyte (3).

The water level detecting device 20 has upper and lower connection pipes 22 and 23 corresponding to the plate water level hole 17b and the electrolyte inflow hole 17c formed in one insulating plate 17 of the electrolytic cell 10. The water level rod 21 is fixedly coupled, and the middle portion of the water level rod 21 is provided with a high level sensor 24 and a low level sensor 25 for detecting the level of the electrolyte solution 3.

In addition, the upper portion of the water level rod 21 is provided with a solenoid valve 26 for controlling the supply of water supplied from a separate automatic water supply device (5).

The installed level sensor 20 detects the level of the electrolyte solution 3 contained in the electrolytic cell 10 and automatically supplies water into the electrolytic cell 10, and the high level sensor formed in the level bar 21 ( 24) When the water level is detected by the low water level sensor 25 and the electrolyte level 3 is low and the water level is low, the low water level sensor 25 detects this and the solenoid valve 26 is operated and opened to separate the water supply device. (5) water is automatically replenished into the electrolytic cell 10, and when the water level is replenished to some extent, the high water level sensor 24 detects this and the solenoid valve 26 is operated and closed to automatically supply water. Block it.

On the other hand, the other side of the electrolytic cell 10 is provided with a bubbler 30 to generate a high quality oxygen / hydrogen mixed gas.

The bubbler 30 is formed by bending the gas outlet hole 18b formed in the other side insulating plate 18 of the electrolytic cell 10 so that the gas outlet tube 31 facing downward is coupled to the gas outlet tube 31. Bubble housing 33 is coupled to the outer surface of the other insulating plate 18 is installed.

At this time, the bubble housing 33 is installed is coupled to the outer surface of the other insulating plate 18 in a completely sealed state is installed in the gas delivery pipe 34 is coupled to a high quality mixed gas to the top.

The mixed gas flowing out of the gas outlet pipe 31 installed as described above is discharged to the lower portion of the bubble container 33 and mixed with the mixed gas so that the leaked electrolyte solution 3 sinks and the electrolyte solution 3 is not mixed. Only gas is transferred to the gas transfer pipe 34.

In addition, a pressure sensing stopper 36 is fitted into the stopper hole 18c formed in the other insulating plate 18 so that the pressure sensing stopper 36 is opened when the inside of the electrolytic cell 10 rises above a certain pressure. It lowers the pressure of the electrolytic cell 10 to prevent the explosion (explosion) of the electrolytic cell 10 or to maintain a safe state.

Therefore, an electrolytic cell 10 having a plurality of electrode plates 12, 13, 14, and 15 as described above, and a water level for maintaining an appropriate level of the electrolyte solution 3 to one side of the electrolytic cell 10. The mixed gas generator 1 including the sensing device 20 and the bubbler 30 which generates high-quality oxygen / hydrogen mixed gas to the other side of the electrolytic cell 10 has an electrode plate 12 installed vertically. (13) (14) (15) Smoothes the generation and flow of the mixed gas generated by the gas distribution holes 13b, 14b and 15b which are perforated to lie in line with the installation structure of the installation structure. The electrolytic solution flow holes 14c and 15c of the electrode plate 14 and the even-numbered inner electrode plate 15 are perforated so as to be in a staggered position without being placed on the same horizontal line, so that current leakage does not occur.

In addition, the water level detecting device 20 automatically detects the water level of the electrolyte solution 3 and automatically supplies water, and the pure electrolyte of the high quality does not contain the electrolyte solution 3 which is mixed and mixed with the mixed gas by the bubbler 30. Only the mixed gas is transferred to the gas collecting / supply device 7 through the gas transfer pipe 34.

1 is a perspective view of the present invention.

2 is an exploded perspective view of the present invention.

3 is a cross-sectional view of the present invention.

Figure 4 is a perspective view showing an incision part of the electrode plate of the present invention.

Explanation of symbols on the main parts of the drawings

1 Mixing Gas Generator 3 Electrolyte 5 Automatic Water Supply

7Gas Collector / Supply Unit 10 Electrolyzer

11 Body 12 One side electrode plate

12a, 13a power supply terminal 12b electrode plate water level hole 12c electrolyte distribution hole

13 Other electrode plate 13b Gas distribution hole 13c Atmospheric pressure outflow hole

14 Odd-numbered inner electrode plate 14b Gas distribution hole 14c Electrolyte distribution hole

15 Even Inside Inner Plate 15b Gas Distribution Hole 15c Electrolytic Distribution Hole

16 Spacer 17 One side insulating plate 17a, 18a Terminal hole

17b Plate water level hole 17c Electrolyte inflow hole 18 Insulation plate on the other side

18b Gas outlet 18c Plug hole 19 Sealing ring

20 Water level sensor 21 Water level rod 22 Upper connector

23 Lower connector 24 High water level sensor 25 Low water level sensor

26 Solenoid valve 30 Bubbler 31 Gas outlet pipe

33 Bubble enclosure 34 Gas transfer pipe 36 Pressure sensing plug

Claims (5)

In the oxygen / hydrogen mixed gas generator for automobiles, A plurality of electrode plates 12 (13) 14 (15) and spacers (16) in order to maintain the proper level of the electrolytic solution (3) to the one side of the electrolytic cell 10, and one side of the electrolytic cell (10) The main oxygen-hydrogen mixed gas generator for automobiles, characterized in that the main water level detection device 20 and the bubbler (30) configured to generate a high-quality oxygen / hydrogen mixed gas to the other side of the electrolytic cell (10). The method of claim 1, A plurality of electrode plates 12, 13, 14, 15 installed in the electrolytic cell 10 are installed vertically but arranged in a horizontal direction, and gas distribution holes 13b, 14b, 15b. The oxygen / hydrogen mixed gas generator for automobiles, characterized in that the flow of the mixed gas is smoothly installed in a straight line. The method of claim 1, Electrolyte distribution holes 14c and 2, which are formed in the lower portion of the plate-shaped odd-numbered inner electrode plate 14 which is installed in an odd number as in the first, third, and fifth. 4. The oxygen / hydrogen mixed gas generator for automobiles, characterized in that the electrolyte distribution holes 15c of the even-numbered inner electrode plate 15 are installed so as to cross each other. The method of claim 1, The water level detecting device 20 has upper and lower connection pipes 22 and 23 corresponding to the plate water level hole 17b and the electrolyte inflow hole 17c formed in one insulating plate 17 of the electrolytic cell 10. The water level rod 21 is fixedly coupled, and the middle portion of the water level rod 21 is provided with a high water level sensor 24 and a low water level sensor 25 for detecting the water level of the electrolyte solution 3. 21) the upper portion of the oxygen / hydrogen mixed gas generator for automobiles, characterized in that the solenoid belt 26 for controlling the supply of water supplied from a separate automatic water supply device (5) is installed. The method of claim 1, The bubbler 30 is bent into a gas outlet hole 18b formed in the other side insulating plate 18 of the electrolytic cell 10 and fitted with a gas outlet tube 31 facing downward, and the gas outlet tube is fitted. An oxygen / hydrogen mixed gas generator for automobiles, which is hermetically coupled to a bubble box 33 in which a gas transfer pipe 34 is formed on the outer surface of the other insulating plate 18 on which the 31 is installed.

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