KR200200472Y1 - The system burning gas energy as resolve water electrolysis - Google Patents

Abstract

The present invention forms a cell (CELL) of the gas energy generation unit for electrolysis of water installed inside the electrolytic cell to form a constant interval in a quantity sufficient to satisfy the voltage (V) of the AC power input from the outside By dividing the input voltage, it is not necessary to use a separate transformer for decompression, as well as maximizing the electrolysis efficiency with the same electric energy, and a plurality of cells of the gas energy generating part wrap the outer circumferential surface with a non-conductor to process the upper side. The gas discharge passage is formed to be inclined to form a flow passage of electrolytic water on the lower side of the cell to increase the gas generation efficiency, and to use the DC power when the AC power is outage or when the power is unavailable when working outdoors. DC power is connected in parallel to the cell of Having a safety apparatus to be used to duplicate and is one to be conveniently used to configure the external gas energy reservoir mounting portion and constant in the electrolytic cell unit integrally.

Description

The system burning gas energy as resolve water electrolysis

The present invention obtains combustion gas energy consisting of hydrogen gas and oxygen gas by electrolyzing water, and using it as a heat processing torch to process or weld a product, or to use as a heating means of a boiler as a burner where a flame spreads. In order to do various things necessary for the industry, especially, the quantity of the gas energy generation part installed inside the electrolytic cell to form a flat plate cell (CELL) to satisfy the voltage (V) of the AC power input from the outside It is not necessary to use a separate transformer for decompression as well as by dividing the input voltage by forming a series in a constant interval so as to maximize the electrolysis efficiency with the same electric energy, and a plurality of cells of the gas energy generating unit vision the outer peripheral surface. Wrapped around the conductor to form a gas discharge passage on the upper side and below the cell. It is configured to be inclined to form a flow path of seawater, which increases gas generation efficiency, and connects DC power to each cell in parallel so as to use DC power when AC power is not available, and safely uses gas energy obtained from an electrolytic cell. The present invention relates to a device for obtaining gas energy for combustion by electrolyzing water, which is provided with a redundant safety device and is configured with an external gas energy storage tank mounting part and a water purification device integrally with an electrolytic cell for ease of use.

Human beings researched and developed various alternative energy in preparation for the depletion of underground resources such as natural gas and oil. One of them is to electrolyze water into hydrogen and oxygen. To obtain a combustion gas.

Therefore, what has been developed so far is a plurality of cylinders 30, 30 ', 30' of conductors in a cylindrical body 30a of outermost conductors, such as Patent Publication No. 96-16416 of FIG. Mounted in the annular groove formed in the cylindrical fixing upper and lower fixing plates 10, 10 'made of an insulator, and fixed by welding or bonding method, and the fixing rod 40 for the anode is placed in the center of the cylinders in the same way as the cylinders. After fixing by welding or bonding to be supported by the upper and lower fixed plate 10, 10 'or fixed plate 10' to the fixed rod 40 to the positive electrode (+) power, the outermost cylindrical body 30a ), There was a mass generating device of oxygen and hydrogen gas by water electrolysis, which is composed by connecting negative (-) power source, but it has a limitation in voltage distribution because the conductor that causes electrolysis is composed of cylindrical shape. Therefore, a large transformer Since it is necessary to prepare and move and is inconvenient and inconvenient, there is a problem that a lot of heat is generated during the operation and the amount of gas energy obtained by electrolysis is fine compared to the power actually input, so the efficiency is low.

The present invention, in consideration of the above-mentioned conventional defects, is formed inside the cell to the cell (CELL) of the gas energy generation unit for electrolysis of water to form a flat plate enough to satisfy the voltage (V) of the AC power supplied from the outside By configuring in series to form a constant interval in quantity, it is not necessary to use a separate transformer for decompression, as well as maximize the electrolysis efficiency with the same electrical energy, multiple cells of the gas energy generation unit Is wrapped around the outer circumferential surface with a non-conductor and fixed to form a gas discharge passage on the upper side and inclined to form a flow passage of electrolytic water on the lower side of the cell to increase the gas generation efficiency. The DC power is connected to each cell in parallel for use, and the safety device is provided with a redundant safety device to safely use the gas energy obtained from the electrolytic cell. .

1 is a block diagram of a device for obtaining gas by electrolyzing conventional water.

Figure 2 is a cross-sectional view illustrating a configuration of an electrolytic cell which is the main part of the present invention.

2A is a partially cutaway side view of FIG. 2;

Figure 3 is an illustration of the configuration state of the electricity supply means of the present invention.

Figure 4 is a block diagram illustrating the overall system of the present invention.

5 is another exemplary embodiment of the present invention.

Description of the main symbols in the drawings

50; Gas generating unit. 51; Flat Cell. 52; Gas exhaust passage.

53; Electrolytic water flow passage. 54; AC power supply terminal.

60; AC power rectifier. 65; Control unit. 66; breaker.

70; Dehumidifier. 71. Secondary backflow prevention valve. 72; Sudden Flashback Prevention.

73; Primary backflow prevention valve. 74; Dry Flashback Arrestor

81; pressure gauge

90; Tochigi. 95; Flame regulator.

100; Electrolyzer 101; Heat sink fins. 102; Drain ball.

105; water tank. 106; Gas guide. 107; Gas outlet.

108; Electrolytic water injection hole. 109; Water Observer. 110; Non-conductor.

111; Cooling fan. 112; Circulation pipe. 113; circulating pump.

114; Carbonated container mounting part. 150; water purifier. 160; Carbon gas container.

In this invention, in order to obtain gas energy for combustion by electrolyzing water,

Inside the lower side, a gas discharge passage is formed on the upper side in which a plurality of flat cells (CELL) electrolyzing water are fixed in series to form a constant interval, and on the lower side, a gas generating portion is formed to form a flow passage of electrolytic water. A heat sink fin is formed on the outer wall, and a drain hole is formed at one lower end, and an electrolytic water is filled into the upper portion of the gas generating unit, and a water tank having a gas guide unit is formed on the upper side of the tank to form an electrolytic water injection hole and a gas outlet. The side of the tank has an electrolytic cell configured with a transparent observation tube to check the amount of water stored inside the tank from the outside, a power supply means for supplying power for generating gas energy to the electrolytic cell, and the combustion generated in the electrolytic cell A gas energy supply means for safely supplying gas energy for use And gas combustion means for working by burning gas energy installed in the gas energy supply means, and sensing the environmental conditions of the electrolytic cell, and thus optimally generating gas energy. The control means configured to control the condition of the following will be described in detail with reference to the drawings, the electrolyzer as shown in Figure 2 the gas discharge to the upper side fixed in series to form a plurality of flat cells 51 for electrolysis water at regular intervals Forming the passage 52 and the lower side constitutes the gas generating unit 50 formed with the electrolytic water flow passage 53, the heat generating fin 101 is formed on the outer wall surface of the gas generating unit 50 is formed, one side lower A drain hole 102 is formed, and an electrolytic water is filled in the upper portion of the gas generating part 50 and a water tank 105 having a gas guide part 106 is formed thereon, thereby forming a gas guide part above the water tank 105. (106) The upper side of the gas discharge port 107 and the other side of the electrolytic water injection hole 108 is formed on the side of the water tank 105 so that the amount of water stored in the inside of the water tank 105 from the outside to the transparent water level observation pipe ( 109) Electrolyzer (100) But configurations wherein the fixed water wherein the gas generation unit in series achieve a predetermined distance in a non-conductor 110, which is the outer peripheral edge is sealed with the outside of a plurality of flat cells (51) for electrolysis and configured to be entirely inclined.

And the power supply means, as shown in Figure 3 to rectify the external AC power to the rectifier 60 to the flat plate cell 51 fixed to the outermost end of the both ends constituting the gas generating unit 50 of the electrolytic cell 100 It is configured to apply to the formed AC power supply terminal 54, and a plurality of flat cells 51 for electrolyzing electrolyzed water to the gas generating unit 50 of the electrolytic cell 100 to satisfy the AC voltage applied from the outside It is configured to be connected in series in the quantity of the input voltage is divided into each flat cell 51 to generate a large amount of combustion gas with a certain amount of electrical energy without a separate transformer, or the power supply means , Fixed in series to form a predetermined interval to the gas generating unit 50 of the electrolytic cell 100 is connected in parallel to each of the plurality of flat cells 51 for electrolyzing the electrolytic water and a direct current power source applied from the outside ( It was configured to flow evenly through each of the flat plate cells 51 through 65) to work as a DC power supply under the condition that AC power cannot be used.

In the gas energy supply means, as shown in FIG. 4, the gas energy for combustion generated by electrolysis of water in the electrolytic cell 100 removes water from the water remover 70 and is a secondary safety means for preventing whitening. It is configured to safely supply the gas energy to the torch 90 of the combustion means through the backflow prevention valve 71, the watertight flashback arrestor 72, the primary backflow prevention valve 73, and the dry flashback prevention 74. The control means not only displays the gas pressure flowing to the gas energy supply means by the pressure gauge 81, but also detects the gas pressure and the circuit breaker 66 is turned off (OFF) to the electrolytic cell 100 when the pressure is higher than the set maximum pressure. Pressure control means configured to interrupt the supplied electrolysis power supply and to turn on the circuit breaker 66 when the pressure is lower than the set minimum pressure, and to sense the temperature of the electrolytic cell 100, and thus, the electrolytic cell 100. Is heated, start the cooling fan 111 to The temperature control means for cooling the sea bath 100 and the water level inside the electrolytic cell 100 are detected, and if the electrolyzed water is insufficient, the water purified by the water purifier 150 is forced into the water tank of the electrolytic cell 100 to adjust the water level. It is configured as a level control means, the alarm sound and warning light to operate when the signal detected by any one of the pressure control means, temperature control means, level control means is dangerous.

And the combustion means, to supplement or adjust the strength and size of the flame The flame regulator 95 which adds carbonization gas, and the torch 90 which burns and works the gas energy supplied detachably combined with the said gas supply means were comprised.

In another configuration of the present invention, as shown in FIG. 5, the gas guide pipe 200 is integrally mounted to the end of the gas discharge passage 52 of the gas generating unit 50 configured in the lower side of the electrolytic cell 100. When the end is located outside the water level of the electrolytic water of the water tank 105 to promote the movement of the gas generated in the gas generating unit 50 to the gas discharge port 107 to increase the gas generation rate, a large amount of gas In the large-capacity structure that generates the gas, the electrolytic water flow passage 53 and the upper tank 105 of the gas generating unit 50 installed at the lower end of the electrolytic cell 100 communicate with the circulation pipe 112 and the circulation pipe 112. ), A circulation pump 113 may be installed to force circulation of the electrolyzed water.

In addition, as shown in FIG. 6, the water purifier 150 and the carbon gas container mounting unit 114 are integrally formed with the electrolytic cell 100 to mount the carbon gas container 160 as well as to produce distilled water wherever there is water. It is configured to be used as.

In order to obtain the combustion gas with the present invention, the electrolyzed water is filled with electrolyzed water inside the electrolyzer, and the AC or DC circuit is selected according to the surrounding electrical conditions and the power is applied. It is decomposed into hydrogen and oxygen to produce a mixed gas mixed therein, wherein the generated gas rises to the upper side of the water tank through the gas discharge passage formed to be inclined above the cell of the electrolytic water generating unit, and the primary moisture in the gas guide portion. After this is removed, the water is completely removed from the moisture remover to ensure safety of the secondary backflow prevention valve, water-based backfire prevention device, and the first backflow room. After reaching the flame controller, add appropriate type of hydrocarbon according to the intended use and then supply it to Tochi through a dry flame arrester for safety, where electrolyzed water flows into the electrolyzed water flow of the gas producing part. The passage is smoothly supplied to the plurality of cells.

When the present invention is described according to the applied power, first, when using an AC power source, the AC power circuit is selected, and when AC power is applied, AC power is supplied in series to each of the flat cells to divide the voltage. In use, if DC power circuit is selected and DC power is applied, DC power is supplied to each flat plate cell in parallel to electrolyze electrolyzed water.

As described above, the present invention forms a cell (CELL) of a gas energy generation unit which is installed inside the electrolytic cell to electrolyze water into a flat plate and has a constant interval in a quantity sufficient to satisfy the voltage (V) of the AC power supplied from the outside. It is not necessary to use a separate transformer for decompression by dividing the input voltage by dividing the input voltage, and maximizes the electrolysis efficiency by the same electric energy, and a plurality of cells of the gas energy generating part are wrapped around the outer circumference with a non-conductor and fixed The gas discharge path is formed on the upper side and the gas discharge efficiency is formed on the lower side of the cell so as to form the flow path of the electrolyzed water, thereby increasing the gas generation efficiency, and using the DC power source when the AC power source is not available. Connect power in parallel and use gas energy from electrolyzer safely. And having an external gas energy reservoir mounting portion and the integer Safe It is a novel design that the device is integrated with the electrolyzer to make it easy to use.

Claims (11)

In electrolyzing water to obtain gas energy for combustion, Inside the lower side, a gas discharge passage is formed on the upper side in which a plurality of flat cells (CELL) electrolyzing water are fixed in series to form a constant interval, and on the lower side, a gas generating portion is formed to form a flow passage of electrolytic water. A heat sink fin is formed on the outer wall, and a drain hole is formed at one lower end, and an electrolytic water is filled into the upper portion of the gas generating unit, and a water tank having a gas guide unit is formed on the upper side of the tank to form an electrolytic water injection hole and a gas outlet. On the side of the tank, the electrolytic cell composed of a transparent observation tube to check the amount of water stored inside the tank from the outside, Power supply means for supplying power for generating gas energy to the electrolytic cell; Gas energy supply means for supplying safely to use the gas energy for combustion generated in the electrolytic cell, A gas combustion means mounted to the gas energy supply means to burn gas energy to perform work; Apparatus for obtaining gas energy for combustion by electrolyzing water, characterized in that it comprises a control means for detecting the environmental conditions of the electrolyzer to control the optimum conditions for the generation of gas energy. The method of claim 1 The gas generating unit of the electrolytic cell is characterized in that the water is characterized in that the entire surface is inclined in series so that the outer periphery of the plurality of flat cells (CELL) that electrolyzes the water at a constant interval to the non-conductor sealed to the outside Apparatus for obtaining gas energy for combustion by electrolysis. The method of claim 1 A plurality of flat cells for electrolyzing the electrolyzed water of the gas generating part are connected in series in a quantity sufficient to satisfy the alternating voltage applied from the outside, thereby fixing external AC power to the outermost ends of both ends of the gas generating part of the electrolytic cell. When applied to the AC power supply terminal formed in the flat plate cell, the input voltage is divided into each cell to generate a large amount of combustion gas with a certain amount of electrical energy without a separate transformer Apparatus for obtaining gas energy for combustion by electrolysis. The method of claim 1, The AC circuit and the series supplying AC power supplied from the outside through a rectifier in series to a plurality of flat cells for electrolyzing electrolytic water by fixing the power supply means in series to form a predetermined interval in the gas generating part of the electrolytic cell. A DC circuit for supplying DC power applied from the outside to each of the plurality of flat cells which electrolyze electrolyzed water by a control device in parallel through a control device, and configured to selectively use them according to an external situation. To obtain gas energy for combustion by electrolysis. The method of claim 1, The gas energy supply means is a secondary backflow prevention valve and a water backfire prevention device, a primary backflow, in which a gas energy for combustion generated by electrolysis of water in an electrolytic cell removes water from a moisture remover and prevents bleaching. A device for obtaining gas energy for combustion by electrolyzing water, characterized in that it is configured to safely supply gas energy to the torch of the combustion means through the prevention valve and the dry flashback prevention device in sequence. The method of claim 1, The control means displays the gas pressure flowing through the gas energy supply means by a pressure gauge, and when the gas pressure is higher than the set maximum pressure, the circuit breaker is turned off to cut off the electrolysis power supply to the electrolytic cell. A pressure control means configured to continue the operation by turning the circuit breaker ON again when the pressure is lower than the pressure; a temperature control means which senses the temperature of the electrolytic cell and starts the cooling fan to cool the electrolytic cell when the electrolytic cell is heated; If the detection of the electrolyzed water is insufficient, the distilled water purified by the water purifier is forced to press the inside of the tank of the electrolytic tank to the level control means for adjusting the level, the pressure control means, any one of the temperature control means, the water level control means When the signal is dangerous, the alarm sound and warning light are configured to operate so that the gas energy for combustion Gaining device. The method of claim 1, The combustion means comprises a flame regulator for adding carbonized gas to supplement or control the strength and size of the flame, and a torch which is detachably coupled to the gas supply means and works by burning the supplied gas energy. Apparatus for obtaining gas energy for combustion by electrolysis of water, characterized in that. The method of claim 1, The gas guiding pipe is integrally installed at the end of the gas discharge passage formed in the inner lower side of the electrolytic cell so as to increase the gas generation rate by promoting the movement of the gas generated in the gas generating part to the gas discharge port. Apparatus for obtaining gas energy for combustion by electrolysis of water, characterized in that. According to claim 1, The gas for combustion by electrolyzing water characterized in that the electrolytic water flow passage installed in the lower end of the electrolytic cell and the one side of the upper tank is connected to the circulation pipe and the circulation pipe is installed in the circulation pipe to force the electrolytic water to circulate. Device to get energy. The method of claim 1, Combining the electrolyzer with a distilled water generator and an external gas mounting unit to equip other gas containers, as well as to produce distilled water and use it as electrolyzed water wherever there is water. Device to obtain. The method of claim 1, Apparatus for obtaining gas energy for combustion by electrolysis of water, characterized in that the transparent water flow rate penetrating up and down on the side wall forming the upper tank of the electrolytic cell.