KR200411757Y1 - Electrode plate installed in oxygen / hydrogen mixed gas generator - Google Patents

Abstract

The present invention relates to an electrode plate installed in the oxygen / hydrogen mixed gas generator to increase the amount of generation of oxygen / hydrogen mixed gas by increasing the contact area and the amount of electricity passing through the electrolyte. Specifically, the present invention is an oxygen / hydrogen mixed gas generator composed of an electrolytic cell and a plurality of electrode plates arranged at regular intervals in the electrolytic cell and electrolyzing the electrolyte with the current applied from the terminal to generate the oxygen / hydrogen mixed gas In the front of the electrode plate is formed a plurality of protruding pieces formed by punching the remaining three surfaces except for one surface, the protruding piece is bent inclined to one side to the through hole as large as the size of the protruding piece in the electrode plate It proposes an electrode plate installed in the oxygen / hydrogen mixed gas generator characterized in that it is formed.

Oxygen / hydrogen mixed gas generator, electrolyzer, terminal, electrode plate, protruding piece, through hole

Description

Electrode plate installed in the oxygen / hydrogen mixed gas generator {apparatus of generation oxygen / hydrogen gas}

1 is a side view showing an oxygen / hydrogen mixed gas generator according to the present invention.

FIG. 2 is a plan view illustrating the oxygen / hydrogen mixed gas generator shown in FIG. 1. FIG.

FIG. 3 is an exploded perspective view illustrating the configuration of the oxygen / hydrogen mixed gas generator shown in FIG. 1; FIG.

Figure 4 is a three-dimensional view showing an extract of the electrode plate constituting the main configuration of the present invention.

5 is a cross-sectional view taken along the line A-A of FIG.

              <Description of the symbols for the main parts of the drawings>

10: electrolytic cell 12: space part

14: opening 20: cover plate

26: terminal 28: current distribution

32: electrode plate 34: bending portion

38: protrusion 40: through hole

The present invention relates to an oxygen / hydrogen mixed gas generator, and in particular, it is installed in an oxygen / hydrogen mixed gas generator to increase the amount of generated oxygen / hydrogen mixed gas by increasing the contact area and the amount of electricity passing through the electrolyte. It relates to an electrode plate.

As is well known, the oxygen / hydrogen mixed gas generator is a device for producing oxygen and hydrogen, which are products obtained by electrolysis of water, and water in which a small amount of electrolyte is added in an electrolytic cell equipped with a (+) (-) electrode. In order to generate an oxygen / hydrogen mixed gas by supplying and supplying a DC voltage, the mixed oxygen / hydrogen mixed gas is usually generated at an optimal ratio of hydrogen: oxygen = 2: 1. Such oxygen / hydrogen mixed gas generator is a pollution-free energy source, and the importance of the oxygen / hydrogen mixed gas generator is increasing in recent years due to serious environmental problems.

On the other hand, the prior art related to the oxygen / hydrogen mixed gas generating device is the Republic of Korea Patent Office registered Utility Model Publication No. 0117445 (name: electrolytic cell structure of the acid gas generator) (hereinafter referred to as prior art).

The prior art forms two electrolytic finish plates having gas connection nipples and electrolyte connection nipples including current connection bolts and is coupled to both ends of four stay bolts, and bolt holes are formed in all directions between the electrolytic finish plates of both sides. The electrode plate is formed in the upper and lower center of the center and the gas flow hole and the electrolyte flow hole vertically and horizontally formed, and the spacer formed with the bolt housing protruded to one side in a circular shape alternately and repeatedly coupled to the space inner peripheral surface O-ring It is characterized in that the configuration so that the electrolyte filling chamber is formed by sealing.

However, the following problems are expected in the use of the prior art.

In general, the amount of oxygen / hydrogen mixed gas generated is proportional to the contact area between the electrode plate and the electrolyte and is also determined by the amount of electricity passing through the electrode plate. It is composed by forming a plurality of through holes in the flat plate. Therefore, the cross-sectional area of the electrode plate is lost as much as the area of the through holes. Therefore, the reduced cross-sectional area reduces the contact area with the electrolyte and the amount of electricity passing through. It has caused a problem of reducing the amount of oxygen / hydrogen mixed gas generated by.

Therefore, the present invention for solving the above problems is an electrode installed in the oxygen / hydrogen mixed gas generator to increase the amount of generation of oxygen / hydrogen mixed gas by increasing the contact area and the amount of electricity passing through the electrolyte In providing the plates.

In addition, the present invention provides an oxygen / hydrogen mixed gas generator that can easily install the electrode plate and the terminal in the electrolytic cell.

In addition, the present invention is to provide an oxygen / hydrogen mixed gas generator that can easily perform the replacement operation of the electrode plate and the terminal.

The technical configuration of the present invention for achieving the above objects is an electrolytic cell and a plurality of electrode plates arranged at regular intervals in the electrolytic cell and electrolytically decomposes the electrolyte solution with the current applied from the terminals to generate oxygen / hydrogen mixed gas. In the configured oxygen / hydrogen mixed gas generator, a plurality of protrusions are formed on the front surface of the electrode plate except one surface by punching, and the protrusion pieces are bent to one side to protrude to the electrode plate. The present invention provides an electrode plate installed in an oxygen / hydrogen mixed gas generator, characterized in that a passage hole as large as a side is formed.

Preferably, the upper surface of the electrode plate is formed to bend the bending portion integrally.

An opening is formed at one end of the electrolytic cell, and the opening is preferably detachably attached to a cover plate supporting the terminal and the electrode plate accommodated in the space portion of the electrolytic cell.

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 and 2 are views showing the structure of the oxygen / hydrogen mixed gas generator.

As shown, the oxygen / hydrogen mixed gas generator 100 has an electrolytic cell (10).

The electrolytic cell 10 has a cylindrical portion 12 is provided with a space portion 12 for receiving an electrolyte therein, the space portion 12 is a terminal 26 for conducting an external power supply, and the terminal 26 A plurality of electrode plates 32 which are electrically connected to each other are accommodated.

An opening 14 is formed at one end of the electrolytic cell 10, and an electrolyte supply passage 16 is formed at the other end of the electrolytic cell 10, and an oxygen / hydrogen mixed gas generated at the upper end thereof. A gas discharge passage 18 for discharging is formed.

The cover plate 20 is attached to the opening of the electrolytic cell 10 by fastening means 22 such as bolts. The cover plate 20 has an electrolyte discharge passage 24 in the center and a terminal 26 and an electrode plate accommodated in the space 12 in the electrolytic cell 10 with the function of closing the opening 14. The supporting structures of the terminals 26 and the electrode plates 32 supported by the cover plate 20 will be easily understood through the description of the accompanying FIG. 3.

As shown in FIG. 3, first, a fastening bolt 26a is provided at one end of the terminal 26, and the fastening bolt 26a is fastened to the cover plate 20 so that the terminal 26 is the cover plate 20. It is installed horizontally in the electrolytic cell 10 in a state supported by).

Under the terminal 26, a plurality of electrode plates 32 are installed vertically, and the connection between the terminal 26 and the electrode plates 32 is the terminal 26 and the electrode plate 32. The bolts are connected to the current distribution pieces 28 installed therebetween, respectively, and are connected to each other by being electrically connected to each other. At this time, the bending portion 34 is integrally formed on the upper surface of the electrode plate 32, and the bolt plate 36 is fastened in a state in which the bending portion 34 is in contact with the lower surface of the current distribution piece 28. Assembly of the 32 and the current distribution piece 28 can be performed easily.

That is, as described above, the terminal 26 and the electrode plate 32 are supported on the cover plate 20 so that the terminal plate 26 and the electrode plate are merely connected to the electrolytic cell 10. 32 may be easily installed in the space 12 in the electrolytic cell 10, and when replacing the electrode plate 32, the electrode plate 32 may be removed by only removing the cover plate 20 from the electrolytic cell 10. ) Can be easily replaced with a new one by being taken out of the electrolytic cell (10).

Reference numeral 29 denotes an insulating frame 29, and the insulating frame 29 is sandwiched between the terminal 26 and the current distribution piece 28 to fasten the terminal 26 and the current distribution piece 28 to each other. The tightening force of the 30 is reinforced.

On the other hand, the electrode plate 32 refers to a plate for generating an oxygen / hydrogen mixed gas by electrolyzing the electrolyte solution supplied into the electrolytic cell 10 with the current applied from the terminal 26.

4 and 5 are drawings illustrating an electrode plate of one of the electrode plates 32 described above.

As shown in the drawing, the electrode plate 32 has a flat plate shape, and a plurality of protrusion pieces 38 are formed on the front surface, and a passage hole 40 is formed between the protrusion pieces 38 and the electrode plate 32. Have

Meanwhile, the protruding pieces 38 are not attached to the electrode plate 32 separately but are formed integrally on the electrode plate 32 by punching the entire surface of the electrode plate 32 using a press machine (not shown). There is this.

That is, when one protrusion piece 38 is formed, for example, will be described. First, by pressing a punching machine on the front surface of the electrode plate 32 except for one surface, the protrusion piece 38 is primary. The protrusion pieces 38 are bent to be inclined in one direction using three punched surfaces, and are formed to protrude to one side on the electrode plate 32. At this time, when the protruding piece 38 is bent inclined to one side, the through hole 40 is naturally formed in the electrode plate 32 as much as the size of the protruding piece 38 by the protruding piece 38. The electrolyte passes through the through hole 40.

As described above, the protruding pieces 38 are punched on the electrode plate 32 to be integrally formed, so that the electrode plate 32 has a through hole 40 through which electrolyte can pass, and at the same time, the protruding pieces 38 are formed. This branch has a cross-sectional area including an area, and thus, an increase in the amount of oxygen / hydrogen mixed gas can be increased by increasing the contact area with the electrolyte through the increased cross-sectional area.

In addition, the electrode plate 32 may increase the amount of electricity passing through the increased cross-sectional area, thereby more efficiently generating the oxygen / hydrogen mixed gas.

As discussed above, the present invention achieves many effects as follows.

First, the present invention can increase the cross-sectional area of the electrode plate through the protruding pieces formed by punching the electrode plate, thus increasing the amount of electricity passing through the electrode plate with an increase in the contact area between the electrode plate and the electrolyte solution. It has the effect of increasing the amount of oxygen / hydrogen mixed gas generated.

In addition, the terminal and the electrode plates are supported on the cover plate which seals the opening of the electrolytic cell, so that the terminal and the electrode plates can be easily installed in the electrolytic cell simply by attaching or detaching the cover plate to the electrolytic cell, and have an effect of being separated.

Claims (3)

The electrolytic cell 10 and the electrolytic cell 10 are arranged at regular intervals and are composed of a plurality of electrode plates 32 which electrolyze the electrolytic solution with the current applied from the terminal 26 to generate an oxygen / hydrogen mixed gas. In the oxygen / hydrogen mixed gas generator, On the front of the electrode plate 32, a plurality of protrusions 38 formed by punching the remaining three surfaces except for one surface are formed; The protruding piece 38 is bent obliquely to one side to form a through hole 40 in the electrode plate 32 as much as the size of the protruding piece 38 to the oxygen / hydrogen mixed gas generator, characterized in that Electrode plate installed. The method of claim 1, The electrode plate is installed on the oxygen / hydrogen mixed gas generator, characterized in that the bending portion 34 is formed integrally bent on the upper surface of the electrode plate (32). The method of claim 2, An opening 14 is formed at one end of the electrolytic cell 10, and the opening 14 supports the terminal 26 and the electrode plate 32 installed in the space 12 of the electrolytic cell 10. Electrode plate installed in the oxygen / hydrogen mixed gas generator, characterized in that the cover plate 20 is detachably attached.

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