KR200335853Y1 - A mixed gas generator of oxygen and hydrogen - Google Patents

Abstract

The present invention engraves grooves having a certain depth in the insulating base for fixing four electrode plates installed on the four sides of the electrolytic cell at regular intervals, and inserts a plurality of electrode plates in the grooves, each having the same shape separated by insulating material. It relates to a water electrolysis device for generating a mixed gas of oxygen and hydrogen by connecting the positive and negative power to both sides of the electrolytic cell cover. The present invention is a device for obtaining a mixed gas of oxygen and hydrogen by electrolyzing water by connecting a positive power supply and a negative power supply to both sides of an electrolytic cell cover of the same shape, each separated by an insulating material. It is a space to store 4 electrode plates fixing the grooves of certain depths installed at regular intervals and to store the electrolyte solution. It consists of a gas discharge port which discharges the mixed gas of oxygen and hydrogen which generate | occur | produces in the outside, an electrolyte supply port, and a cooling blower.

Description

Oxygen-hydrogen mixed gas generator {A MIXED GAS GENERATOR OF OXYGEN AND HYDROGEN}

The present invention relates to a device for generating oxygen / hydrogen mixed gas by electrolysis of water, in which grooves having a certain depth are inscribed at regular intervals on four electrode plates for fixing four electrode plates installed on four inner surfaces of an electrolytic cell, and a plurality of electrode plates in the grooves. The positive electrode and the negative electrode are connected to both sides of the same area of the electrolytic cell cover of the same shape, each separated by an insulating material, so as to stably and efficiently generate a mixed gas of oxygen and hydrogen.

There are two methods of generating gas by electrolyzing water, by generating oxygen and hydrogen separately and by mixing oxygen and hydrogen.

The present invention belongs to the latter, there have been many problems such as cooling of the electrolytic cell due to power loss and heat generation by the structure of the electrolytic cell so far not efficient.

For example, the electrolytic cell cover, each separated by an insulating material, has a large power loss because the area of the electrolytic cell cover connecting the positive electrode power source and the electrolytic cell cover connecting the negative electrode power source is different, although it is an important part for supplying the positive and negative power sources. In addition, the interval between the electrode plates could not be efficiently determined, and a lot of heat was generated, and thus, the operation was impossible for a long time.

The present invention was devised to solve such a problem, and the same area of electrolytic cell cover having the same shape separated by insulation material was installed on both sides, and the positive and negative DC power supply was connected at each end to reduce the power loss. The purpose of the present invention is to provide a stable and efficient oxygen-hydrogen mixed gas generator that can be operated for a long time by minimizing heat generation by maximizing the space between electrode plates.

1 is a perspective view of main parts of an oxygen-hydrogen mixed gas generator according to the present invention;

Figure 2 is an exploded perspective view of the oxygen-hydrogen mixed gas generator according to the present invention.

Figure 3 is a longitudinal sectional view of the oxygen-hydrogen mixed gas generator according to the present invention.

<Brief description of symbols for the main parts of the drawings>

3: insulation base plate 4: electrolytic cell

7: blown 8: fastener

9: coupler 10: cover part

12: insulating washer 14: electrolytic chamber

15: insulation base 17: electrode plate

18: power input terminal 22: automatic water supply

The present invention for achieving the above object is to connect the positive and negative power to both sides of the same area of electrolytic cell cover of the same shape, each separated by insulating material, to the device to obtain a mixed gas of oxygen and hydrogen by electrolyzing water The electrolytic cell and the electrolytic cell, which is provided with an insulating base for fixing four electrode plates and a plurality of electrode plates at regular intervals inscribed at regular intervals with grooves of constant depth installed on four sides of the electrolytic cell, and at the same time, can be installed with a plurality of electrode plates at regular intervals. Stable and efficient long-term operation oxygen / hydrogen mixed gas generation, comprising a gas outlet for discharging the mixed gas of oxygen and hydrogen generated between a plurality of electrode plates to the outside, an electrolyte supply port and a cooling blower The object is achieved by providing a device.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

Oxygen-hydrogen mixed gas generator 1 according to the present invention is a cradle (2) on which the gas generator 1 is installed, as shown in Figures 1 to 3, and the insulating support plate (3) placed on the cradle (2) And a gas outlet installed at the center of the upper end of the electrolyzer 4 for storing electrolytic solution therein to allow electrolysis, and for discharging the mixed gas of oxygen and hydrogen generated inside the electrolyzer 4 to the outside. (5), an electrolytic solution supply port 6 provided at the upper end of the electrolyzer 4 for manually supplying the electrolytic solution required for electrolysis for the first time, an air outlet 6a for supplying the electrolyte solution manually and smoothly for the first time, and an electrolyzer ( It consists of a blower (7) installed to forcibly cool the heat generated in 4).

The electrolyzer 4 has two cover parts 10 and 10a of the same shape and the same area having couplers 9 and 9a through which a plurality of sealing fastening holes 8 are drilled at the edges, and covers both sides. A flexible insulating material 11 is inserted between the parts 10 and 10a to connect both couplers 9 and 9a to the fastening bolts 13 and nuts 13a through the insulating washers 12 and 12a. As shown in FIG. 3, an electrolytic chamber 14 having a fixed constant space is installed as shown in FIG. 3. In the electrolytic chamber 14, four inelastic electrode plates for fixing non-elastic electrode plates installed on four sides are provided. The grooves 16 having a constant depth are carved at regular intervals, and a plurality of electrode plates 17 are provided in the grooves 16.

Further, power input terminals 18 and 18a are provided on the outer surface of the cover portions 10 and 10a. The insulating plates 15 for fixing the four electrode plates without elasticity should be separated to fit the electrode plates 17, and the thickness of the electrode plates 17 should be as thin as possible to maximize the area of the electrode plate 17, and the cover portion. (10) (10a) and the electrode plate 17 are preferably made of a metal that can prevent electrolysis generated during electrolysis.

In addition, a temperature sensing sensor 19 for measuring the temperature of the electrolyte is provided next to the power input terminal 18a of one cover portion 10a, and the front lower portion of the cover portion 10 drains for electrolyte exchange and electrolytic cell cleaning. The valve 20 is provided, and the upper end part is provided with the water level gauge 21 (21a) which shows the level of electrolyte solution.

In addition, the rear cover portion 10 is provided with automatic water supply holes 22 and 22a connected to an automatic water supply device (not shown). The water reduced by the electrolysis can be automatically supplied through the automatic water supply holes 22 and 22a to maintain a certain amount of water level.

In order to make a large-capacity oxygen-hydrogen mixed gas generator, a plurality of identical electrolyzers 4 are provided, the respective electrolyzers are connected in series by connecting wires 23, and the gas installed at the center of the upper end of each electrolyzer 4 is used. The outlet 5 is connected to the gas outlet 5a of the other electrolytic cell 4a and the hose 24 so that the discharged gas can be collected and used in one place.

The operation of the present invention configured as described above is as follows.

DC power is supplied to the power input terminals 18 and 18a through a power supply (not shown), and electrolysis occurs between the electrode plates 17 in the electrolytic cell 4 to generate a mixed gas of oxygen and hydrogen. .

The generated mixed gas of oxygen and hydrogen is discharged through the gas outlet 5 installed at the center of the upper end of the electrolytic cell 4, and the mixed gas of oxygen and hydrogen discharged may be connected to a burner and used as fuel.

As described above, the present invention provides the same area of the same shape separated by insulating materials in the process of generating a mixed gas of oxygen and hydrogen by electrolyzing the electrolyte by supplying DC power from the power supply through the power input terminal. By installing electrolytic cell cover on both sides, connecting the DC power of positive and negative poles at each end to minimize the power loss, and by efficiently setting the interval of electrode plate to minimize heat generation, it is stable and efficient for long time operation. It is possible to have a plurality of identical electrolyzers, and connect each electrolyzer in series with a connecting wire, and then discharge the gas outlets installed in the center of the upper end of each electrolyzer by connecting the gas outlets of the other electrolyzers with a hose. Large-capacity oxygen / hydrogen horn which collected gas in one place and was able to use It is enabling a gas generator produced.

Claims (2)

In the apparatus for obtaining a mixed gas of oxygen and hydrogen by connecting the positive and negative power to both sides of the same area of the electrolytic cell cover of the same shape, each separated by an insulating material, by electrolyzing water, An electrolyzer (4) for storing electrolytic solution therein to enable electrolysis; An insulation support plate 3 placed on the holder 2, Insulation support for fixing a non-elastic electrode plate (15), which is carved at regular intervals grooves of a constant depth installed on the four sides of the electrolytic cell, A gas discharge port 5 for discharging the mixed gas of oxygen and hydrogen generated between the plurality of electrode plates to the outside during electrolysis, An electrolyte supply port 6, An air outlet 6a necessary for smoothly supplying the electrolyte solution manually for the first time, An oxygen-hydrogen mixed gas generator, characterized by comprising a cooling blower (7). 2. The electrolytic cell (4) according to claim 1, wherein the electrolytic cell (4) has two cover parts (10) (10a) of the same shape and the same area having couplers (9) (9a) through which a plurality of sealing fastening holes (8) are perforated. )Wow, The electrode plate 17 provided in the groove 16 is inscribed with grooves 16 having a predetermined depth at regular intervals on the four non-elastic electrode plate fixing insulating plates 15 provided on the four sides of the electrolytic chamber 14. and, A fastening insulating material 11 is inserted between both cover parts 10 and 10a so that both couplers 9 and 9a are fastened to the bolts 13 and nuts 13a through the insulating washers 12 and 12a. The oxygen-hydrogen mixed gas generator, characterized in that it is configured to have an electrolytic chamber 14 of a fixed space sealed as shown in FIG.